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| ==A framework for the laboratories in our lives== | | ==This is demo code demoing math== |
| Below (Fig. 1) is a diagrammatic expression of one method of organizing laboratories of the world. The idea behind the framework is that you could name a specific laboratory and be able to put it somewhere within the framework. For example:
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| * The U.S. Federal Bureau of Investigation's mobile forensics laboratory<ref name="StephensInside15">{{cite web |url=http://www.kctv5.com/story/28266161/inside-look-at-fbis-new-mobile-forensics-lab |title=Inside look at FBI's new mobile forensics lab |author=Stephens, B. |work=KCTV5 News |publisher=Gannaway Web Holdings, LLC |date=04 March 2015 |accessdate=29 March 2017}}</ref> would fall under Government > Public > Compliance and Legal > Wet (or Dry) > Mobile.
| | As a typical example, from a [[calibration plot]] following a [[linear equation]] taken here as the simplest possible model: |
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| * An engineering design laboratory based within a for-profit car manufacturing company would fall under Private > Internal Customer > Research / Design > Dry > Fixed.
| | : <math>f(x) = ax + b </math> |
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| * A chemistry laboratory housed in a secondary school in Germany would fall under Academic > Teaching > Secondary > Wet > Fixed.
| | where, <math>f(x)</math> corresponds to the signal measured (e.g. voltage, luminescence, energy, etc.) |
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| [[File:Laboratory types diagram.png|1400px]]
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| | style="background-color:white; padding-left:10px; padding-right:10px;"| <blockquote>'''Figure 1.''' A diagrammatic representation of laboratory types using both client type and function as the key organizational elements</blockquote>
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| The original inspiration for this diagram came from Jain and Rao's attempt to diagram Indian diagnostic laboratories in 2015.<ref name="JainMedical15">{{cite journal |title=Medical diagnostic laboratories provisioning of services in India |journal=CHRISMED Journal of Health and Research |author=Jain, R.; Rao, B. |volume=2 |issue=1 |pages=19–31 |year=2015 |doi=10.4103/2348-3334.149340}}</ref> While their diagram focused entirely on the clinical sphere of laboratories, it was easy to envision expanding upon their work to express laboratories of all types. Additional inspiration came from KlingStubbins architecture textbook ''Sustainable Design of Research Laboratories: Planning, Design, and Operation''<ref name="KlingstubbinsSustainable10">{{cite book |url=https://books.google.com/books?id=yZQhTvvVD7sC&pg=PA18 |title=Sustainable Design of Research Laboratories: Planning, Design, and Operation |author=KlingStubbins |publisher=John Wiley & Sons |year=2010 |pages=17–18 |isbn=9780470915967 |accessdate=29 March 2017}}</ref>, which lists several methods for organizing types of laboratories; Daniel D. Watch's ''Building Type Basics for Research Laboratories''<ref name="WatchBuilding01">{{cite book |url=https://books.google.com/books?id=_EGpDgUNppIC&pg=PA37 |chapter=Chapter 2: Laboratory Types |title=Building Type Basics for Research Laboratories |author=Watch, D.D. |publisher=John Wiley & Sons |year=2001 |pages=37–99 |isbn=9780471217572 |accessdate=29 March 2017}}</ref>; and Walter Hain's ''Laboratories: A Briefing and Design Guide''.<ref name="HainLab03">{{cite book |url=https://books.google.com/books?id=HPB4AgAAQBAJ&pg=PA2 |title=Laboratories: A Briefing and Design Guide |author=Hain, W. |publisher=Taylor & Francis |year=2003 |pages=2–5 |isbn=9781135822941 |accessdate=29 March 2017}}</ref>
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| The benefit of this diagrammatic approach — with client type at its base — becomes more apparent when we start considering the other two methods we could use to categorize laboratories, as described by KlingStubbins ''et al.'': by science and by function. Organizing by science quickly becomes problematic, emphasizes KlingStubbins<ref name="KlingstubbinsSustainable10" />:
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| <blockquote>Gone are the days when the division was as simple as biology and chemistry. New science fields emerge rapidly now and the lines between the sciences are blurred. A list based on science types would include not just biology and chemistry, but biochemistry, biophysics, electronics, electrophysiology, genetics, metrology, nanotechnology, pharmacokinetics, pharmacology, physics, and so on.</blockquote>
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| As for function, we can look at what type of activity is primary to the lab. Is it designed to teach students, function as a base for research, provide quality control functions, calibrate equipment, or act as a routine analytical station? Another benefit of looking at labs by function is it helps with our organization of labs within industry (discussed in the next section) by ''what they do''. For example, we don't have a "manufacturing lab"; rather, we have a laboratory in a manufacturing company — perhaps making cosmetics — that serves a particular function, whether its quality control or research and development. This line of thinking has utility, but upon closer inspection, we discover that we need to look further up the chain at who's running it.
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| As such, we realize these functions can be integrated with client type to provide a more complete framework. Why? When we look at laboratories by science type — particularly when inspecting newer fields of science — we realize 1. they are often interdisciplinary (e.g., molecular diagnostics integrating molecular biology with clinical chemistry) and 2. they can serve two different functions within the same science (e.g., a diagnostic cytopathology lab vs. a teaching cytopathology lab). Rather than build a massively complex chart of science types, with numerous intersections and tangled webs, it seems more straightforward to look at laboratories by client type and then function, following from the architectural viewpoints presented by KlingStubbins ''et al.''
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| However, this doesn't mean looking at laboratories by science is entirely fruitless. But rather than focus directly on the sciences, why not look at the industries employing laboratory science? While there is crossover between industries (e.g., the cosmetic and petrochemical industries both lean on various chemical sciences), we can extend from the previous diagram (or work in parallel with it) and paint a broader picture of just how prevalent laboratories are in our life.
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| In the next section, we look at the private, government, and academic labs in various industries; provide real-life examples; and discuss the various subdivisions (functions) and sciences performed in them.
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| ==Labs by industry==
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| Note: This is not a thorough listing of industry categories. More will be added when necessary.
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| ===Agriculture and forestry===
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| [[File:Unload wheat by the combine Claas Lexion 584.jpg|left|400px]]
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| {{clear}}
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| Laboratories within the agriculture and forestry field are focused on analyzing, improving, and ensuring the safety of the various plants, animals, and fungi that are cultivated or bred to sustain and enhance human life. These labs are found in the private, government, and academic sectors and provide many different services, including:
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| * analysis and assessment of seeds and soils<ref name="GliessmanField07">{{cite book |url=https://books.google.com/books?id=pENYREeyGHoC&printsec=frontcover |title=Field and Laboratory Investigations in Agroecology |author=Gliessman, S.R. |publisher=CRC Press |pages=302 |year=2007 |isbn=9780849328466}}</ref>
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| * analysis and assessment of fertilizers and pesticides<ref name="GliessmanField07" />
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| * studies of farm and field systems<ref name="GliessmanField07" />
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| * studies of plant and feedstock nutrition<ref name="AskeyFeedstocks16">{{cite web |url=https://www.ornl.gov/news/feedstocks-increasing-nutrition |title=Feedstocks - Increasing nutrition |author=Askey, K. |work=Oak Ridge National Laboratory |publisher=U.S. Department of Energy, Office of Science |date=07 December 2016 |accessdate=21 May 2017}}</ref>
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| * analysis and assessment of plant and tree fibers and chemicals<ref name="FSResearchUnitFiber">{{cite web |url=https://www.fpl.fs.fed.us/research/units/4709.php |title=Research Unit: Fiber and Chemical Sciences Research |work=Forest Products Laboratory |publisher=U.S. Forest Service |accessdate=21 May 2017}}</ref>
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| * tracking and analysis of plant and tree diseases<ref name="FSSRSForestHealth">{{cite web |url=https://www.srs.fs.usda.gov/research/forest-health/ |title=Forest Health & Conditions |work=USDA Forest Service Southern Research Station |publisher=U.S. Forest Service |accessdate=21 May 2017}}</ref>
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| * tracking and analysis of invasive plants and insects<ref name="FSSRSForestHealth" />
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| * risk assessment of genetically modified organisms (GMO) and microorganisms<ref name="OTAANew92">{{cite book |url=https://www.princeton.edu/~ota/disk1/1992/9201/9201.PDF |chapter=Chapter 8: Scientific Issues: Risk Assessment and Risk Management |title=A New Technological Era for American Agriculture |author=U.S. Congress, Office of Technology Assessment |publisher=U.S. Government Printing Office |pages=225–256 |year=August 1992 |isbn=9780160379784}}</ref>
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| * tracking and analysis of agricultural animal disease<ref name="NRCMeeting12">{{cite book |url=https://www.nap.edu/catalog/13454/meeting-critical-laboratory-needs-for-animal-agriculture-examination-of-three |title=Meeting Critical Laboratory Needs for Animal Agriculture: Examination of Three Options |author=National Academies Press |publisher=National Academy of Science |pages=144 |year=2012 |isbn=9780309261296}}</ref>
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| ''How do agriculture and forestry laboratories intersect the average person's life on a daily basis?'' The most obvious way these labs touch our lives on a daily basis is through the food and beverages we consume. Though we talk about the food and beverage industry and its laboratories separately in this guide, agriculture labs are at the forefront of humanity's push to provide greater, more efficient, healthy, and safe agricultural yields. Ag lab personnel work to better feed humans and animals alike, while also considering the environmental impact of research-based advances in fertilizers, pesticides, and GMOs. Without these laboratories in place, we would surely face an even more dire future of struggling to maintain crop yields in a world of increasing population and decreasing natural resources.<ref name="SinghClimate12">{{cite book |url=https://books.google.com/books?id=vtPmQIEXZVcC&pg=PT31 |chapter=Chapter 1: Climate Change and Food Security |title=Improving Crop Productivity in Sustainable Agriculture |author=Singh, R.B. |editor=Tuteja, N.; Gill, S.S.; Tuteja, R. |publisher=John Wiley & Sons |year=2012 |pages=1–22 |isbn=9783527665198}}</ref>
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| ====Client types====
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| '''Private''' - Agriculture labs in the private sector typically serve as third-party or contract laboratories to other entities conducting agricultural activities while unable or unwilling to invest in their own private laboratory. Aside from analytical services, these labs often include consulting services on plant nutrition, soil sciences, and water management.
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| Examples include:
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| * [http://www.al-labs-west.com/ A&L Western Laboratories, Inc.]
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| * [http://www.agrianalysis.com/ Agri Analysis, Inc.]
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| * [https://watersag.com/ Waters Agricultural Laboratories, Inc.]
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| '''Government''' - Government-run agriculture and forestry laboratories conduct specialized topical research, provide analytical services, and oversee federal, state, and local programs in the industry. From bee research to interstate milk shipping program service to compliance testing, these public or public-private labs may act as major research hubs or checkpoints of regulated testing.
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| Examples include:
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| * [https://www.oregon.gov/ODA/programs/ISCP/Pages/LaboratoryServices.aspx Oregon Department of Agriculture Lab Services Program]
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| * [https://www.ars.usda.gov/midwest-area/ames/nlae/ U.S. Department of Agriculture National Laboratory for Agriculture and The Environment]
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| * [http://wyagric.state.wy.us/divisions/asl Wyoming Department of Agriculture Analytical Services Lab]
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| '''Academic''' - Agriculture laboratories associated with higher education institutions are often of a hybrid client type and function. They may multi-purpose a laboratory for research, teaching, and analytical testing purposes. Many higher-education agriculture labs also process samples from external third-party clients, acting in some ways like a private analytical lab would. In some cases, non-profit and private entities partner with higher education (public-private) to provide research and training opportunities beneficial to both the entities and the students. (See for example the Cornell-affiliated non-profit Hudson Valley Research Laboratory.<ref name="HVRL">{{cite web |url=http://www.hudsonvalleyresearchlab.org/ |title=Hudson Valley Research Laboratory |publisher=Hudson Valley Research Lab, Inc |date=2017 |accessdate=29 March 2017}}</ref>)
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| Examples include:
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| * [http://www.clemson.edu/public/regulatory/ag_svc_lab/index.html Clemson University Agricultural Service Laboratory]
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| * [http://agsci.psu.edu/aasl Penn State Agricultural Analytical Services Laboratory]
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| * [http://extension.unl.edu/statewide/panhandle/hpal/ University of Nebraska-Lincoln High Plains Ag Lab]
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| ====Functions====
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| ''What are the most common functions?'' Analytical, research/design, QA/QC, and teaching
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| ''What materials, technologies, and/or aspects are being analyzed, researched, and quality controlled?'' animal tissue, compost, feed and forage, fertilizers, insects, irrigation water, manure, pesticides, plant tissue, seeds, soil
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| ''What sciences are being applied in these labs?'' agroecology, agronomy, agrophysics, animal science, biological engineering, biology, biotechnology, chemistry, environmental science, food science, microbiology, nematology, soil science, water management
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| ''What are some examples of test types and equipment?''
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| Common test types include:
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| [[User:Shawndouglas/sandbox/sublevel7#A|Absorption, Acute contact, Acute oral, Acute toxicity, Allergy, Antimicrobial, Atterberg limits,]] [[User:Shawndouglas/sandbox/sublevel7#B|Bioaccumulation, Biodegradation,]] [[User:Shawndouglas/sandbox/sublevel7#C|Chronic toxicity, Composition, Conductivity, Consolidation, Contamination, Cytology,]] [[User:Shawndouglas/sandbox/sublevel7#D|Density, Developmental and reproductive toxicology,]] [[User:Shawndouglas/sandbox/sublevel7#E|Efficacy, Endocrine disruptor screening program, Environmental fate, Environmental metabolism, Expiration dating,]] [[User:Shawndouglas/sandbox/sublevel7#F|Fluorescence, Formulation,]] [[User:Shawndouglas/sandbox/sublevel7#G|Genotoxicity, GMO detection,]] [[User:Shawndouglas/sandbox/sublevel7#H|Hydraulic conductivity]], [[User:Shawndouglas/sandbox/sublevel7#I|Impurity,]] [[User:Shawndouglas/sandbox/sublevel7#L|Labeling,]] [[User:Shawndouglas/sandbox/sublevel7#M|Metallurgical analysis, Minimum bactericidal concentration, Minimum inhibitory concentration, Mobility, Moisture, Mold - fungal - mycotoxin, Mutagenicity,]] [[User:Shawndouglas/sandbox/sublevel7#N|Nutritional,]] [[User:Shawndouglas/sandbox/sublevel7#O|Organic carbon, Oxidation reduction potential, Oxidation stability,]] [[User:Shawndouglas/sandbox/sublevel7#P|Pathogen, Pathogenicity, PDCAAS, Permeability, pH, Phytosanitary, Plant metabolism, Proficiency, Purity,]] [[User:Shawndouglas/sandbox/sublevel7#R|Radioactivity, Radiochemical,]] [[User:Shawndouglas/sandbox/sublevel7#S|Sanitation, Sensory, Shelf life, Soil microflora, Solubility, Specific gravity, Subchronic toxicity,]] [[User:Shawndouglas/sandbox/sublevel7#T|Terrestrial toxicology, Toxicokinetic,]] [[User:Shawndouglas/sandbox/sublevel7#V|Vigor and germination,]] [[User:Shawndouglas/sandbox/sublevel7#W|Water activity, Wildlife toxicology]]
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| Industry-specific lab equipment may include:
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| automated weather stations, colorimeters, conductivity analyzers, dry ovens, fat analyzers, incubators, moisture testers, nitrogen/oxygen analyzers, pH meters, porometers
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| ''What else, if anything, is unique about the labs in the agriculture industry?'' The food and beverage industry is closely linked. For example, the State of Pennsylvania's Department of Agriculture includes a food safety laboratory division.<ref name="PAFoodSafety">{{cite web |url=http://www.agriculture.pa.gov/Protect/FoodSafety/Laboratory/Pages/default.aspx |title=Food Safety Laboratory Division |publisher=Pennsylvania Department of Agriculture |date=2017 |accessdate=29 March 2017}}</ref> However, for the purposes of this guide, food, beverages, and ingredients are separated out as its own industry. Even raw materials that can be consumed alone such as cow milk or apples require some processing and handling (e.g., cleaning and packaging). In other words, the agriculture industry is arguably worried about the research, development, growth, and safety of what goes into what the food and beverage industry provides. Agriculture labs also have obvious tie-ins to environmental laboratories, as agricultural activities impact the environment and vice versa. Ties to veterinary labs may seem evident, and in fact many universities lump veterinary science programs with agriculture programs. However, animal science as a scientific discipline is arguably more closely aligned with agriculture science, as animal science takes a broader approach to the production, care, nutrition, and processing of animal-based products.<ref name="FlandersExploring11">{{cite book |url=https://books.google.com/books?id=WT1Ws2o3keYC&pg=PA38 |title=Exploring Animal Science |author=Flanders, F. |publisher=Cengage Learning |pages=38–39 |year=2011 |isbn=9781435439528}}</ref>
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| ====LIMSwiki resources====
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| * [[Agriculture industry]]
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| * [[Forest informatics]]
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| <div align="center"><hr width="50%"></div>
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| ===Automotive, aerospace, and marine===
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| [[File:Delphi Automotive (6944417073).jpg|left|400px]]
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| {{clear}}
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| Laboratories in the automotive, aerospace, and maritime travel industry are focused on the design, development, and testing of components, materials, fluids, etc. that make up vehicles that operate on land, on sea, in air, and in outer space. These labs are found in the private, government, and academic sectors and provide many different services, including (but not limited to):
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| * analysis and assessment of chemicals and petrochemicals<ref name="PhlegmTheRole09">{{cite book |url=https://books.google.com/books?id=tRzfAwbzbNMC&printsec=frontcover |title=The Role of the Chemist in Automotive Design |author=Phlegm, H.K. |publisher=CRC Press |year=2009 |pages=216 |isbn=9781420071894}}</ref>
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| * analysis and assessment of materials<ref name="ElmarakbiAdvanced13">{{cite book |url=https://books.google.com/books?id=wfxQAQAAQBAJ&printsec=frontcover |title=Advanced Composite Materials for Automotive Applications: Structural Integrity and Crashworthiness |editor=Elmarakbi, A. |publisher=John Wiley & Sons |year=2013 |pages=472 |isbn=9781118535264}}</ref><ref name="DaviesMaterials12">{{cite book |url=https://books.google.com/books?id=_fZsIeCavO8C&printsec=frontcover |title=Materials for Automobile Bodies |author=Davies, G. |publisher=Elsevier |year=2012 |pages=416 |isbn=9780080969800}}</ref>
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| * analysis and assessment of safety<ref name="ElmarakbiAdvanced13" /><ref name="DaviesMaterials12" />
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| * tracking and analysis of structural integrity<ref name="StaszewskiHealth04">{{cite book |url=https://books.google.com/books?id=nzSPVBZ_Yg0C&printsec=frontcover |title=Health Monitoring of Aerospace Structures: Smart Sensor Technologies and Signal Processing |editor=Staszewski, W.; Boller, C.; Tomlinson, G.R. |publisher=John Wiley & Sons |year=2004 |pages=288 |isbn=9780470092835}}</ref>
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| * design and analysis of lighting<ref name="WördenweberAuto07">{{cite book |url=https://books.google.com/books?id=yatUXs8QQAMC&printsec=frontcover |title=Automotive Lighting and Human Vision |author=Wördenweber, B.; Wallaschek, J.; Boyce, P.; Hoffman, D.D. |publisher=Springer Science & Business Media |year=2007 |pages=410 |isbn=9783540366973}}</ref>
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| * design and analysis of chassis<ref name="ReimpellTheAuto01">{{cite book |url=https://books.google.com/books?id=fuXf3wmahM8C&printsec=frontcover |title=The Automotive Chassis: Engineering Principles |editor=Reimpell, J.; Stoll, H.; Betzler, J. |publisher=Butterworth-Heinemann |year=2001 |pages=456 |isbn=9780080527734}}</ref>
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| * design and analysis of fuel cells<ref name="KochaPolymer12">{{cite book |url=https://books.google.com/books?id=LE99dRxwtVcC&pg=PA473 |chapter=Chapter 15: Polymer Electrolyte Membrane (PEM) Fuel Cells, Automotive Applications |title=Fuel Cells: Selected Entries from the Encyclopedia of Sustainability Science and Technology |author=Kocha, S.S. |editor=Kreuer, K.-D. |publisher=Springer Science & Business Media |year=2012 |pages=473–518 |isbn=9781461457855}}</ref>
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| * failure analysis<ref name="ReddyInvestigation04">{{cite book |url=https://books.google.com/books?id=WkXRBQAAQBAJ&printsec=frontcover |title=Investigation of Aeronautical and Engineering Component Failures |author=Reddy, A.V. |publisher=CRC Press |year=2004 |pages=368 |isbn=9780203492093}}</ref>
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| ''How do automotive, aerospace, and marine laboratories intersect the average person's life on a daily basis?'' While much scientific effort has gone into the development of modern vehicles — a significant portion of it in some sort of laboratory — from the ergonomic shift knob and regenerative braking system to the quantum accelerometer<ref name="MarksQuantum14">{{cite web |url=https://www.newscientist.com/article/mg22229694-000-quantum-positioning-system-steps-in-when-gps-fails/ |title=Quantum positioning system steps in when GPS fails |author=Marks, P. |work=New Scientist |publisher=New Scientist Ltd |date=14 May 2014 |accessdate=24 May 2017}}</ref> and solid rocket booster, the laboratory testing that goes into designing safer products and systems is the easiest for the layperson to relate to. From Volvo and Nils Bohlin's contribution of the three-point seat belt<ref name="HistoryThree10">{{cite web |url=http://www.history.com/this-day-in-history/three-point-seatbelt-inventor-nils-bohlin-born |title=Three-point seatbelt inventor Nils Bohlin born |work=History.com |publisher=A+E Networks |date=2010 |accessdate=24 May 2017}}</ref> to the continuing improvement of automotive and pedestrian impact safety standards<ref name="AtiyehNHTSA15">{{cite web |url=http://blog.caranddriver.com/nhtsa-overhauling-crash-tests-for-2019-model-year-cars/ |title=NHTSA Overhauling Crash Tests for 2019 Model Year Cars |author=Atiyeh, C. |work=Car and Driver |publisher=Hearst Communications, Inc |date=09 December 2015 |accessdate=24 May 2017}}</ref>, traditional and non-traditional laboratories alike are responsible for advances in keeping drivers, passengers, and pedestrians safer. Without these laboratories in place — and without the related efforts of pioneering automotive engineers developing and propagating tested standards in the 1910s<ref name="ThompsonIntercomp54">{{cite journal |title=Intercompany Technical Standardization in the Early American Automobile Industry |journal=The Journal of Economic History |author=Thompson, G.V. |volume=14 |issue=1 |pages=1–20 |year=1954 |url=http://www.jstor.org/stable/2115223}}</ref> — the safety of vehicles arguably wouldn't be anything like what it is today. Secondarily, vehicle reliability and longevity would also suffer.
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| ====Client types====
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| '''Private''' - Private laboratories in this industry are usually either associated directly with a vehicle manufacturer (e.g., Ford Motor Company, Boeing Company, Gulf Craft) or act as a third-party contract laboratory for manufacturers and designers who are unable or unwilling to invest in their own private laboratory. Aside from analytical services, these labs often include consulting services on design management and analysis as well as team and project management.
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| Examples include:
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| * [https://www.araiindia.com/ Automotive Research Association of India]
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| * [http://www.calspan.com/services/transportation-testing-research-equipment/automotive-safety-testing/ Calspan Corporation]
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| * [http://www.intertek.com/automotive/ Intertek Group PLC]
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| '''Government''' - Government-run transportation-related laboratories conduct specialized topical research, provide analytical services, and oversee federal, state, and local programs in the industry. From aircraft fatigue research to emissions testing to transportation system modelling, these public or public-private labs may act as major research hubs or checkpoints of regulated testing.
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| Examples include:
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| * [https://www.dst.defence.gov.au/content/ha-wills-structures-and-materials-test-centre H.A. Wills Structures and Materials Test Centre]
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| * [https://www.epa.gov/aboutepa/about-national-vehicle-and-fuel-emissions-laboratory-nvfel U.S. EPA National Vehicle and Fuel Emissions Laboratory]
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| * [https://www.tracc.anl.gov/ U.S. Department of Energy, Argonne National Laboratory, Transportation Research And Analysis Computing Center]
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| '''Academic''' - Automotive, aerospace, and maritime transportation laboratories associated with higher education institutions act as both teaching locations for new students and fundamental and applied research locations for more advanced students. That academic research may be funded by industry sources, by a government, or by a non-profit or foundation, and some academic laboratories may act as a public-private entity when a non-profit or private entity partners with the higher education institution.
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| Examples include:
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| * [http://web.mit.edu/sloan-auto-lab/ Massachusetts Institute of Technology's Sloan Automotive Laboratory]
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| * [http://www.egr.msu.edu/me/research/earl-engines Michigan State University's Energy & Automotive Research Laboratory]
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| * [http://www.martrans.org/ National Technical University of Athens' Laboratory for Maritime Transport]
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| ====Functions====
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| ''What are the most common functions?'' Analytical, research/design, and QA/QC
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| ''What materials, technologies, and/or aspects are being analyzed, researched, and quality controlled?'' combustion, emissions, fluid dynamics, lubricants, materials and components, paints and coatings, power conversion and control, propulsion and power generation, safety, structural mechanics, transportation system modeling
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| ''What sciences are being applied in these labs?'' biomechanics, chemical, electrical engineering, electronic engineering, environmental, ergonomics, materials science, mathematics, mechanical engineering, physics, safety engineering, software engineering
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| ''What are some examples of test types and equipment?''
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| Common test types include:
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| Accelerated stress testing, Accelerated weathering, Acceleration, Acoustical, Adhesion, Aging, Altitude, Ash, Case depth, Characterization, Chemical and materials compatibility, Cleanliness, Climatics, Combustion, Comparative Tracking Index, Compliance/Conformance, Compression, Conductivity, Contact mechanics, Corrosion, Damage tolerance, Degredation, Design review and evaluation, Dielectric withstand, Dimensional, Discoloration, Dynamics, Efficiency, Electromagnetic compatibility, Electromagnetic interference, Electrostatic discharge, Emissions, Endurance, Environmental stress-cracking resistance, Ergonomics, Etching, Failure, Fatigue, Feasibility, Flammability, Flash point, Fluid dynamics, Friction, Functional testing, Hazard analysis, Heat resistance, Hydraulic, Immersion, Impact, Inclusion, Inflatability, Ingress, Iterative, Lightning, Lubricity, Macroetch, Mass, Mechanical, Mechanical durability, Oxidation reduction potential, Passivation, Performance, Permeability, pH, Photometric, Plating and coating evaluations, Proficiency, Qualification, Quality control, Reliability, Resistance - capacitance - inductance, Safety, Shear, Shock, Stress corrosion cracking, Surface topography, Tensile, Thermal, Torque, Ultraviolet, Usability, Velocity and flow, Vibration, Visibility, Voltage, Weathering
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| Industry-specific lab equipment may include:
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| battery load tester, carbon sulfur analyzer, circuit tester, colorimeter, compression tester, demonstration and simulation equipment, digital multimeter, gas analyzer, hardness tester, heat treatment furnace, salt spray chamber, temperature and humidity chamber, tension tester, thermal shock chamber
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| ''What else, if anything, is unique about the labs in the automotive, aerospace, and maritime travel industry?'' A September 2010 Brookings report stated that "innovation activity undertaken in the private sector of the auto industry extends far beyond the automaker itself, as nearly three-fourths of the value of a vehicle is added by companies other than the automaker."<ref name="KlierTheFed10">{{cite web |url=https://www.brookings.edu/wp-content/uploads/2016/07/0927_great_lakes_auto.pdf |format=PDF |title=The Federal Role in Supporting Auto Sector Innovation |author=Klier, T.; Sands, C. |work=Metropolitan Policy Program |publisher=Brookings Institution |date=September 2010 |accessdate=24 May 2017}}</ref> Though the report doesn't directly mention who makes up those companies, presumably industry-focused R&D, QA, and compliance testing laboratories make up at least a small portion of them. As for intersections with other industries, the petrochemical, environmental, and energy industries are closely linked, providing insight and advances in combustion, emissions control, and alternative fuel sources to automobile, airplane, boat, and space vehicle designers and manufacturers.
| |
| | |
| ====LIMSwiki resources====
| |
| | |
| * None
| |
| | |
| <div align="center"><hr width="50%"></div>
| |
| | |
| ===Calibration and standards===
| |
| [[File:Calibrate scale.JPG|left|200px]]
| |
| {{clear}}
| |
| Laboratories in the calibration and standards industry are focused on testing the accuracy of measurement devices and reference standards, correcting inaccuracies in measurement devices, and developing and using standards/reference equipment and devices for calibration testing. Broadly speaking, these laboratories will appear as stand-alone, accredited laboratories performing calibrations for customers on request; as in-house calibration laboratories found in production facilities testing their equipment against working standards tested by the third-party accredited lab; or in a university setting, which may or may not offer accredited third-party calibration services.<ref name="CzichosSpringerHand11">{{cite book |url=https://books.google.com/books?id=fpTE1Z5UfsQC&pg=PA47 |chapter=Chapter 3: Quality in Measurement and Testing |title=Springer Handbook of Metrology and Testing |editor=Czichos, H.; Saito, T.; Smith, L.E. |publisher=Springer Science & Business Media |pages=45–49 |year=2011 |isbn=9783642166419}}</ref> These labs are found in the private, government, and academic sectors and provide many different services, including (but not limited to):
| |
| | |
| * calibration of working or reference standards used in other calibration activities<ref name="BucherTheQualChapt12_07">{{cite book |url=https://books.google.com/books?id=j7z9QaYFhrUC&pg=PA3 |chapter=Chapter 12: Calibration Environment |title=The Quality Calibration Handbook: Developing and Managing a Calibration Program |author=Bucher, J.L. |publisher=ASQ Quality Press |year=2007 |pages=113–116 |isbn=9780873897044}}</ref>
| |
| * calibration of mechanical, electronic, and other instruments and components, in lab or onsite<ref name="CzichosSpringerHand11" /><ref name="BucherTheQualChapt12_07" />
| |
| * maintenance and repair of instruments
| |
| * documentation of tests for regulatory or audit purposes
| |
| * enact measurement assurance programs<ref name="NISTPolicies">{{cite web |url=https://www.nist.gov/calibrations/policies |title=Policies |publisher=National Institute of Standards and Technology |date=25 August 2016 |accessdate=24 May 2017}}</ref>
| |
| | |
| ''How do calibration and standards laboratories intersect the average person's life on a daily basis?'' Let's turn to an introductory section of Jay L. Bucher's ''The Quality Calibration Handbook'' to help visualize an answer to this question<ref name="BucherTheQual07">{{cite book |url=https://books.google.com/books?id=j7z9QaYFhrUC&pg=PA3 |chapter=Chapter 1: Preventing the Next Great Train Wreck |title=The Quality Calibration Handbook: Developing and Managing a Calibration Program |author=Bucher, J.L. |publisher=ASQ Quality Press |year=2007 |pages=3–8 |isbn=9780873897044}}</ref>:
| |
| | |
| <blockquote>Without calibration, or by using incorrect calibrations, all of us pay more at the gas station, for food weighed incorrectly at the checkout counter, and for speeding tickets. Incorrect amounts of ingredients in your prescription and over-the-counter (OTC) drugs can cost more, or even cause illness or death. Because of poor or incorrect calibration, killers and rapists are either not convicted or are released on bad evidence. Crime labs cannot identify the remains of victims or wrongly identify victims in the case of mass graves. Airliners fly into mountaintops and off the ends of runways because they don't know their altitude and/or speed. Babies are not correctly weighed at birth. The amount of drugs confiscated in a raid determines whether the offense is a misdemeanor or a felony; which weight is correct? ... Satellites and everything they affect would be a thing of the past, as would be the manufacturing and production of almost everything made in the world today.</blockquote>
| |
| | |
| ====Client types====
| |
| | |
| '''Private''' - As previously mentioned, private industry labs are largely either in a production facility or act as a third-party contract laboratory for manufacturers who are unable or unwilling to invest in their own private calibration laboratory. Aside from making the calibration (comparison), these labs may also provide maintenance and repair services as well as compliance documentation.
| |
| | |
| Examples include:
| |
| | |
| * [http://www.classiclab.in/ Classic Calbration & Testing Laboratories]
| |
| * [http://www.emtest.com/service_support/calibration_laboratory.php EM TEST]
| |
| * [http://www.esscolab.com/ Essco Calibration Laboratory]
| |
| | |
| '''Government''' - These government-affiliated labs are often at or near the top of the chain of calibration labs, working with others to link their equipment to national or even international measurement standards. They can be found not only at the federal level but also at the state/territory level and may even exist as public-private partnership.
| |
| | |
| Examples include:
| |
| | |
| * [https://www.nist.gov/calibrations National Institute of Standards and Technology]
| |
| * [http://www.dgs.pa.gov/Businesses/Pennsylvania-Standards-Laboratory/Pages/default.aspx Pennsylvania Standards Laboratory]
| |
| * [http://www.sandia.gov/psl/ Sandia National Laboratories' Primary Standards Laboratory]
| |
| | |
| '''Academic''' - Like agriculture labs, calibration and standards laboratories associated with higher education institutions are often of a hybrid client type and function. They may multi-purpose a laboratory for research, teaching, and professional calibration services, processing equipment and instruments from external third-party clients, acting in some ways like a private analytical lab would. Some university labs may have strong ties (through contracts or received funding) with commercial and government entities, leveraging university research and knowledge to those external parties to further fund university laboratory teaching efforts.
| |
| | |
| Examples include:
| |
| | |
| * [http://lasp.colorado.edu/home/engineering/facilities/labs/ University of Colorado - Boulder's Laboratory for Atmospheric and Space Physics]
| |
| * [http://www.me.umn.edu/labs/pcl/index.shtml University of Minnesota's Particle Calibration Laboratory]
| |
| * [http://uwrl.usu.edu/hydraulics/hydraulic-testing Utah State's Utah Water Research Laboratory, Hydraulics Laboratory]
| |
| | |
| ====Functions====
| |
| | |
| ''What are the most common functions?'' Calibration, research/design, QA/QC, teaching
| |
| | |
| ''What materials, technologies, and/or aspects are being calibrated, researched, and quality controlled?'' Electronics, measurement tools, mechanical devices, primary standards; chronometric, dimensional, hardness, photometric, sensitivity, thermal, volumetric
| |
| | |
| ''What sciences are being applied in these labs?'' applied statistics, engineering, metrology, physics
| |
| | |
| ''What are some examples of test types and equipment?''
| |
| | |
| Common test types include:
| |
| | |
| Absorption, Acceleration, Acoustical, Compression, Dimensional, Grain and particle size, Humidity, Mass, Optical, Oxidation reduction potential, pH, Photometric, Power quality, Pressure, Proficiency, Reflectance, Resistance - capacitance - inductance, Temperature, Tensile, Torque, Validation, Velocity and flow,
| |
| | |
| Industry-specific lab equipment may include:
| |
| | |
| benchtop precision meters, calibration mass sets, dry block probe calibrators, heated calibration bath, infrared calibrator, milliamp loop calibrator, multifunction calibrator, pressure calibrator, stage micrometer, standard resistors, standard capacitors, standard inductors, surface probe tester, thermocouple calibrator, torque reference transducer
| |
| | |
| ''What else, if anything, is unique about the labs in the calibration industry?'' Calibration laboratories, whether located in a manufacturing facility or as a stand-alone third-party facility, have special placement and environmental requirements that must be met to ensure optimal operations. This includes maintaining a strict range of relative humidity; maintaining temperature stability and uniformity; and managing air flow, vibration, and dust issues properly.<ref name="BucherTheQualChapt12_07" /> Many calibration labs found in higher education facilities seem to be multipurpose, capable of handling not only teaching and research functions but also able to provide independent calibration services to external customers, public and private. In the U.S. at least, the government is engaged in several public-private ventures involving calibration and standards laboratories.
| |
| | |
| ====LIMSwiki resources====
| |
| | |
| * [[Reference laboratory]]
| |
| | |
| <div align="center"><hr width="50%"></div>
| |
| | |
| ===Chemical===
| |
| [[File:Chemistry lab of HTG.jpg|left|400px]]
| |
| {{clear}}
| |
| Broadly speaking, laboratories in the chemical industry are focused on testing the properties and constituents of chemicals, bodily fluids, and other organic/inorganic materials. More narrowly, while such testing may be the sole function of a chemical laboratory (perhaps as a contract laboratory), it may also function as part of a manufacturer's greater research and development effort, a clinical facility's quality control program, a government's public safety program, or an agriculture company's environmental research division. In all these cases the work falls under the general concepts of either pure chemistry (research simply for the sake of knowledge) or applied chemistry (activities towards a short term goal, as part of a company or institution).<ref name="DummiesWhatChemists">{{cite web |url=http://www.dummies.com/education/science/chemistry/what-chemists-do-and-where-they-work/ |title=What Chemists Do and Where They Work |work=Dummies.com |publisher=Wiley |accessdate=26 May 2017}}</ref> These labs are found in the private, government, and academic sectors and provide many different services, including (but not limited to):
| |
| | |
| * analysis and assessment of what and how much is in a substance<ref name="DummiesWhatChemists" />
| |
| * analysis and assessment of the physical properties of a substance<ref name="DummiesWhatChemists" />
| |
| * creation and synthesis of new substances<ref name="DummiesWhatChemists" />
| |
| * development of chemical models, theories, and test methods<ref name="DummiesWhatChemists" /><ref name="FHAChemLab">{{cite web |url=https://www.fhwa.dot.gov/research/tfhrc/labs/materialscomplex/chemistry/ |title=Chemistry Laboratory |work=Federal Highway Administration Research and Technology |publisher=Federal Highway Administration |date=27 January 2017 |accessdate=26 May 2017}}</ref>
| |
| * quality testing and assurance<ref name="FHAChemLab" />
| |
| | |
| ''How do chemical laboratories intersect the average person's life on a daily basis?'' To answer this question, it's best to first point out that matter = chemicals. Matter has mass and occupies space, and it is made of chemicals. Or as the The University of Waikato in New Zealand puts it, matter is constructed from atoms, and "if atoms are LEGO blocks, chemicals are the structures you can build with them."<ref name="WaikatoChemicals12">{{cite web |title=Chemicals everywhere |work=Science Learning Hub |publisher=University of Waikato |date=04 September 2012 |accessdate=26 May 2017}}</ref> Therefore, chemistry is about the study of matter, it's properties, and how it changes by external forces.<ref name="ACSChemistry">{{cite web |url=https://www.acs.org/content/acs/en/education/whatischemistry/everywhere.html |title=Chemistry if Everywhere |publisher=American Chemical Society |accessdate=26 May 2017}}</ref> Laboratories performing chemistry activities are, by extension, pivotal to most every aspect of our life. From pharmaceuticals to food, paint to drinking water, a chemistry lab is behind the scenes, with people dedicate to improving our lives.
| |
| | |
| ====Client types====
| |
| | |
| '''Private''' - The chemical labs of private companies can be found in many professional spaces and contexts. They may appear as part of manufacturing, R&D, and contract lab contexts, located within a facility or as a stand-alone facility. Aside from any of the above mentioned activities, a private lab may also provide consulting services.
| |
| | |
| Examples include:
| |
| | |
| * [http://www.kojundo.co.jp/English/ Kojundo Chemical Laboratory Co. Ltd.]
| |
| * [http://www.ncl-india.org/ National Chemical Laboratory]
| |
| * [http://www.trane.com/commercial/north-america/us/en/services/operate-maintain/chemical-laboratory.html Trane Chemical Laboratory]
| |
| | |
| '''Government''' - Government-based chemical labs are often part of a regulatory process or provide research that guides regulation development. They may provide mandated laboratory testing of materials for toxic chemicals or material research studies for the improvement of highway construction materials, for example.
| |
| | |
| Examples include:
| |
| | |
| * [http://www.dtsc.ca.gov/ECL/ California's Environmental Chemistry Laboratory]
| |
| * [https://connect.ncdot.gov/resources/Materials/Pages/ChemicalLaboratory.aspx North Carolina Department of Transportation Chemistry Laboratory]
| |
| * [https://www.fhwa.dot.gov/research/tfhrc/labs/materialscomplex/chemistry/ U.S. Department of Transportation's Federal Highway Administration Chemistry Laboratory]
| |
| | |
| '''Academic''' - A majority of chemical labs in the academic environment are traditional, in that they act as both teaching spaces and a place for faculty research.
| |
| | |
| Examples include:
| |
| | |
| * [http://chemistry.dartmouth.edu/undergraduate/general-chemistry-lab Dartmouth General Chemistry Lab]
| |
| * [https://www.osu.edu/map/building.php?building=053 Ohio State University's McPherson Chemical Laboratory]
| |
| * [https://chemistry.princeton.edu/research-facilities/frick-chemistry-laboratory Princeton University's Frick Chemistry Laboratory]
| |
| | |
| ====Functions====
| |
| | |
| ''What are the most common functions?'' Analytical, research/design, QA/QC, and teaching
| |
| | |
| ''What materials, technologies, and/or aspects are being analyzed, researched, and quality controlled?'' biological materials, ceramics, dyes and pigments, fragrances, glass, inorganics, lubricants, manufactured materials, metals, petrochemicals, polymers, raw chemicals
| |
| | |
| ''What sciences are being applied in these labs?'' analytical chemistry, biochemistry, inorganic chemistry, organic chemistry, physical chemistry, theoretical chemistry
| |
| | |
| ''What are some examples of test types and equipment?''
| |
| | |
| Common test types include:
| |
| | |
| Absorption, Acid and base number, Acute contact, Acute oral, Acute toxicity, Adhesion, Amino acid analysis, Anion, Antimicrobial, Ash, Biomolecular, Biosafety, Boiling - freezing - melting point, Carcinogenicity, Characterization, Chemical and materials compatibility, Chronic toxicity, Colorimetric, Combustion, Compliance/Conformance, Conductivity, Composition, Congealing point, Contamination, Corrosion, Decomposition, Density, Developmental and reproductive toxicology, Efficacy, Endocrine disruptor screening program, Environmental fate, Environmental metabolism, Flammability, Flash point, Fluid dynamics, Formulation, Geochemistry, Hazard analysis, Impact, Iodine value, Metallurgical analysis, Minimum bactericidal concentration, Minimum inhibitory concentration, Moisture, Neurotoxicity, Oxidation reduction potential, Oxidation stability, pH, Polarimetry, Process safety, Proficiency, Quality control, Sensitization, Shelf life, Solubility, Stability, Subchronic toxicity, Thermal, Toxicokinetic, Vapor pressure, Virucidal efficacy, Viscosity
| |
| | |
| Industry-specific lab equipment may include:
| |
| | |
| balance, Bunsen burner, burette, colorimeter, centrifuge, chromatographic, crucible, desiccator, dropper, electrophoresis equipment, Erlenmeyer flask, Florence flask, fume hood, funnel, graduated cylinder, hot plate, moisture analyzer, mortar and pestle, multi-well plate, oven, pH meter, pipestem triangle, reagent dispenser, ring stand, rotary evaporator, spectrometer, spectrophotometer, stirring rod, thermometer, vibratory disc mill, viscometer
| |
| | |
| ''What else, if anything, is unique about the labs in the chemical industry?'' It's important to note that by itself, chemistry as a branch of science — and as a science that deals with the study of matter itself — is a central science, one that bridges multiple other sciences.<ref name="BrownChemistry13">{{cite book |url=https://books.google.com/books?id=zSziBAAAQBAJ&printsec=frontcover |title=Chemistry: The Central Science |author=Brown, T.L.; LeMay Jr., H.E.; Bursten, B.E. et al. |publisher=Pearson Australia |year=2013 |pages=1359 |isbn=9781442559462}}</ref> As such, we see significant crossover into the many of the other industries listed in this guide; clinical chemistry ties to the world of clinical analysis (clinical and veterinarian), medicinal chemistry to the pharmaceutical industry, and chemurgy to the agriculture industry.
| |
| | |
| ====LIMSwiki resources====
| |
| | |
| * [[Chemical industry]]
| |
| * [[Chemical informatics]]
| |
| * [[Clinical chemistry]]
| |
| * [[Molecular informatics]]
| |
| | |
| <div align="center"><hr width="50%"></div>
| |
| | |
| ===Clinical, public and private===
| |
| [[File:Pathology Lab.png|left|400px]]
| |
| {{clear}}
| |
| To talk of clinical (serving the patient) and public health (serving the population) laboratories requires a broad look at those laboratories that serve in the direct analysis, treatment, and prevention of illness. From large third-party reference laboratories like Quest Diagnostics that handle laboratory analysis of patient samples for doctors to the tiny physician office laboratory performing CLIA-waived tests, from the hospital lab to a state's public health lab, from the mobile diabetes testing unit to the national disease prevention lab, it's difficult not to bump into a clinical or public health lab of some sort. These labs are found in the private, government, and academic sectors and provide many different services, including (but not limited to):
| |
| | |
| ''Clinical''
| |
| * diagnostic analysis of patient samples<ref name="DouglasTypes14">{{cite web |url=https://www.limsforum.com/lessons/02-types-of-clinical-labs/ |title=02. Types of Clinical Labs |work=Introduction to Clinical Laboratory Informatics – LII 006 |author=Douglas, S. |publisher=Laboratory Informatics Institute, Inc |date=05 July 2014 |accessdate=26 May 2017}}</ref>
| |
| * identification of infectious agents<ref name="DouglasTypes14" />
| |
| * assurance of the quality of blood for transfusions<ref name="DouglasTypes14" />
| |
| * analysis, management, and storage of reproductive tissues and fluids<ref name="DouglasTypes14" />
| |
| * provision of basic point-of-care testing<ref name="DouglasTypes14" />
| |
| * screening or testing of employees for drugs of abuse<ref name="DouglasTypes14" />
| |
| | |
| ''Public health''
| |
| * prevention, control, and surveillance of diseases<ref name="MMWR2">{{cite journal |url=http://www.cdc.gov/mmwr/preview/mmwrhtml/rr5114a1.htm |title=Core Functions and Capabilities of State Public Health Laboratories |journal=Morbidity and Mortality Weekly Report |author=Witt-Kushner, J.; Astles, J.R.; Ridderhof, J.C. et al. |volume=51 |issue=RR14 |pages=1–8 |date=20 September 2002 |accessdate=11 September 2013}}</ref>
| |
| * collection, monitoring, and analysis of laboratory data submitted to national databases<ref name="MMWR2" />
| |
| * analysis and specialized testing of patient samples<ref name="MMWR2" />
| |
| * detection and analysis of toxic contaminants in environmental and food samples<ref name="MMWR2" />
| |
| * develop and promote laboratory improvement programs as well as state and federal policy<ref name="MMWR2" />
| |
| | |
| ''How do clinical and public health laboratories intersect the average person's life on a daily basis?'' As the debate about whether healthcare access should be universal<ref name="EvansUniversal13">{{cite journal |title=Universal health coverage and universal access |journal=Bulletin of the World Health Organization |author=Evans, D.B.; Hsu, J.; Boerma, T. |volume=91 |pages=546–546A |year=2013 |doi=10.2471/BLT.13.125450}}</ref> or is a human right<ref name="PBSIsHealth13">{{cite web |url=http://www.pbs.org/newshour/extra/student_voices/debating-health-care-right-america/ |title=Is Healthcare A Right? |work=PBS Newshour Extra: Student Voices |publisher=NewsHour Productions LLC |date=30 September 2013 |accessdate=26 May 2017}}</ref> wages on, many people still receive medical care but some do not. While it's bad for the "have nots," can you imagine a different world, one where it's not a fight for the have nots but a fight for most everyone to survive? Try, if you will, to imagine a universe where laboratory medicine never existed. Without laboratorians diagnosing and researching, today's healthy population would be significantly smaller. Clinical and public laboratories have brought us advances in antibiotics, which without many more people would die from surgical site infections post-surgery.<ref name="DallWHO16">{{cite web |url=http://www.cidrap.umn.edu/news-perspective/2016/11/who-guidance-says-no-routine-post-surgery-antibiotics |title=WHO guidance says no routine post-surgery antibiotics |author=Dall, C. |work=CIDRAP |publisher=Regents of the University of Minnesota |date=03 November 2016 |accessdate=31 May 2017}}</ref> These laboratories have helped bring medical diagnostics to more people more conveniently and efficiently, and they are at the forefront of most people's health care.<ref name="ShirtsClinical15">{{cite journal |title=Clinical laboratory analytics: Challenges and promise for an emerging discipline |journal=Journal of Pathology Informatics |author=Shirts, B.H.; Jackson, B.R.; Baird, G.S. et al. |volume=6 |pages=9 |year=2015 |doi=10.4103/2153-3539.151919 |pmid=25774320 |pmc=PMC4355825}}</ref>
| |
| | |
| ====Client types====
| |
| | |
| '''Private''' - Private clinical (or sometimes referred to as reference) labs usually appear in either stand-alone facilities that outpatients go to or in a medical facility such as a physicians group, hospital, or some other form of care facility. Occasionally, you may find private clinical labs in manufacturing facilities to handle mandated drug testing or even in a mobile environment.
| |
| | |
| Examples include:
| |
| | |
| * [https://www.accureference.com/ Accu Reference Medical Labs]
| |
| * [http://www.bostonclinicallab.com/ Boston Clinical Laboratories]
| |
| * [http://www.questdiagnostics.com Quest Diagnostics]
| |
| *
| |
| | |
| '''Government''' - You'll find public health labs almost exclusively on the government side, managing disease outbreaks, monitoring public health, and acting as a third-party analysis option for clinical labs struggling to identify or characterize a sample.
| |
| | |
| Examples include:
| |
| | |
| * [https://www.cdc.gov/labstandards/nsqap.html CDC Newborn Screening and Molecular Biology Branch]
| |
| * [http://health.mo.gov/lab/ Missouri State Public Health Laboratory]
| |
| * [http://www.australia.gov.au/directories/australia/nrl National Serology Reference Laboratory, Australia]
| |
| | |
| '''Academic''' - The laboratories found in the academic sphere are often multi-purpose, serving as teaching facilities for students while at the same time providing vital in-house testing to the academic facility's affiliated medical center. However, some may be stand-alone teaching labs designed to provide hands-on education in a lab outside a medical facility.
| |
| | |
| Examples include:
| |
| | |
| * [http://mt.ctust.edu.tw/files/11-1030-23.php?Lang=en Central Taiwan University of Science and Technology, Department of Medical Laboratory Science and Biotechnology]
| |
| * [https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3767850/ Emory University Departments of Pathology and Laboratory Medicine]
| |
| * [https://www.medicalcenter.virginia.edu/human-resources/careers/recruitment/allied-health-recruitment/clinical-specialities/medical-laboratories-at-uva.html University of Virginia Health System]
| |
| | |
| ====Functions====
| |
| | |
| ''What are the most common functions?'' Analytical, research/design, QA/QC, and teaching
| |
| | |
| ''What materials, technologies, and/or aspects are being analyzed, researched, and quality controlled?'' Biological specimens, cadavers
| |
| | |
| ''What sciences are being applied in these labs?'' clinical chemistry, clinical microbiology, cytopathology, genetics, hematology, histopathology, immunohematology, immunology, parasitology, pathophysiology, reproductive biology, surgical pathology, toxicology, virology
| |
| | |
| ''What are some examples of test types and equipment?''
| |
| | |
| Common test types include:
| |
| | |
| Absorption, Alcohol level, Allergy, Amino acid analysis, Antimicrobial, Antigen, Bioaccumulation, Blood culture, Blood gases, Biocompatibility, Biomolecular, Biophysical profile, Blood typing, Calorimetry, Clinical diagnostic, Chronic toxicity, Colorimetric, Complete blood count, Compliance/Conformance, Composition, Cytopathology, Detection, Dietary exposure, Efficiency, Electrolyte and mineral panel, Electrophoresis, Endurance, Genetic, Genotype, Hematotoxicity, Hematocrit, Hemoglobin, Identification, Immunoassay, Immunofluorescence, Immunohistochemistry, Kidney function, Infectious disease, Lipid profile, Liver function, Medical toxicology, Metabolic, Mold - fungal - mycotoxin, Neurotoxicity, Nutritional, Osmolality, Osmolarity, Pathogen, pH, Proficiency, Radiochemical, Red blood cell count, Refractive index, Sensitization, Solubility, Specific gravity, Sports performance, Stress, Subchronic toxicity, Temperature, Thermal, Thyroid function, Urine culture, Validation, Verification
| |
| | |
| Industry-specific lab equipment may include:
| |
| | |
| autoclave, balance, biohazard container, biosafety cabinet, centrifuge, chromatographic, clinical chemistry analyzer, colorimeter, desiccator, dissolved oxygen meter, dry bath, fume hood, homogenizer, hotplate, incubator, magnetic stirrer, microcentrifuge tube, microplate reader, microscope, multi-well plate, orbital shaker, PCR machine, personal protective equipment, pH meter, Petri dish, pipettor, powered air purifying respirators, refractometer, spectrophotometer, syringes, test tube and rack, thermometer, urinalysis device, water bath
| |
| | |
| ''What else, if anything, is unique about the labs in the clinical and public health industry?'' At least in the United States, clinical labs are some of the most prevalent labs in the country; as of January 2017 there was approximately one CLIA-regulated clinical laboratory for every 1,271 people.<ref name="CMS17LabTypes">{{cite web |url=https://www.cms.gov/Regulations-and-Guidance/Legislation/CLIA/downloads/factype.pdf |format=PDF |title=Laboratories by type of facility |author=Centers for Medicare and Medicaid Services, Division of Laboratory Services |date=January 2017 |accessdate=31 May 2017}}</ref><ref name="USCBPopClock">{{cite web |url=https://www.census.gov/popclock/ |title=U.S. and World Population Clock |work=United States Census Bureau |publisher=U.S. Department of Commerce |accessdate=31 May 2017 |quote=Used population value from January 1, 2017}}</ref> While many of the diagnostic techniques and laboratory instruments specific to clinical diagnostic laboratories can also be found in the clinical research setting, clinical research labs tend to be a somewhat different beast. As such, we cover clinical research labs separately, in the next section.
| |
| | |
| ====LIMSwiki resources====
| |
| | |
| '''Clinical'''
| |
| | |
| * [[Anatomical pathology]]
| |
| * [[Clinical chemistry]]
| |
| * [[Clinical laboratory]]
| |
| * [[Clinical pathology]]
| |
| * [[Cytopathology]]
| |
| * [[Health informatics]]
| |
| * [[Hematology]]
| |
| * [[Histopathology]]
| |
| * [[Imaging informatics]]
| |
| * [[Immunoinformatics]]
| |
| * [[Physician office laboratory]]
| |
| | |
| '''Public health'''
| |
| | |
| * [[E-epidemiology]]
| |
| * [[Infectious disease informatics]]
| |
| * [[Public health informatics]]
| |
| * [[Public health laboratory]]
| |
| | |
| <div align="center"><hr width="50%"></div>
| |
| | |
| ===Clinical and academic research===
| |
| [[File:Methoxamine in it's current manufactured form in a solution in both a syringe and vial..jpg|left|400px]]
| |
| {{clear}}
| |
| | |
| Clinical research laboratories provide a regulated environment for the testing of the safety and efficacy of a variety of medical treatments and diagnostic devices, including medications, implants, and physician test kits. These facilities form the backbone of today's effective medical treatments, from cholesterol-lowering medications to pacemakers for the heart. In the U.S., these types of labs are overseen by the Food and Drug Administration, unlike the previously mentioned clinical and public health laboratories. Clinical research labs are found in the private, government, and academic sectors and provide many different services, including (but not limited to):
| |
| | |
| * clinical studies<ref name="FCRDefinition">{{cite web |url=https://firstclinical.com/fda-gcp/?show=2004/Definition+of+Central+Laboratory |title=Definition of Central Laboratory |work=First Clinical Research |publisher=First Clinical Research, LLC |date=19 April 2004 |accessdate=01 June 2017}}</ref>
| |
| * bioequivalence studies<ref name="FCRDefinition" />
| |
| * study design and management
| |
| * custom assay development
| |
| * high-volume specimen testing
| |
| * test kit development and supply
| |
| | |
| Clinical studies and trials aside, other types of research may require laboratory services as well. (For the purposes of this guide, we refer to it as "academic research," a broad catch-all category for other research involving laboratories that doesn't readily fit into other industry categories.) Take for example the archeology laboratory, which is responsible for cleaning, analyzing, and identifying artifacts and remains from various sites either as part of a greater research effort or as a contract laboratory service.<ref name="AugustanaArchLab">{{cite web |url=http://www.augie.edu/archeology-laboratory |title=Archeology Laboratory |publisher=Augustana University |accessdate=01 June 2017}}</ref><ref name="SLUArchLab">{{cite web |url=http://www.slu.edu/department-of-sociology-and-anthropology/research-labs-and-facilities/archaeology-laboratory |title=Archeology Laboratory |publisher=Saint Louis University |accessdate=01 June 2017}}</ref> Research in information technology and communication also occurs in (dry) laboratories; examples include the privately owned Nokia Bell Laboratory<ref name="NokiaHistoryBell">{{cite web |url=https://www.bell-labs.com/explore/history-bell-labs/ |title=History - Bell Labs |publisher=Nokia Group |accessdate=01 June 2017}}</ref> and the university-affiliated University of New Hampshire InterOperability Laboratory.<ref name="UNH-IOL_FAQ">{{cite web |url=https://www.iol.unh.edu/about/faq |title=UNH-IOL FAQ |publisher=University of New Hampshire InterOperability Laboratory |accessdate=01 June 2017}}</ref>
| |
| | |
| ''How do clinical and academic research laboratories intersect the average person's life on a daily basis?'' If you've had a medical device implanted, taken a prescription medication, visited an archeological exhibit in a museum, or experienced improvements in how you communicate with others, then you've been touched by a clinical or academic research laboratory. Without these facilities we'd have fewer medications and assistive devices, and by extension shorter life spans. We'd know less about humanity's past growth and development, and we'd lack the technology to rapidly disseminate those findings around the globe.
| |
| | |
| ====Client types====
| |
| | |
| '''Private''' - Private clinical research labs are most often "central laboratories" (see the end of this section for more on this term) that are contracted by pharmaceutical companies and medical device manufacturers.
| |
| | |
| Examples include:
| |
| | |
| * [http://www.acmgloballab.com/Central-Laboratory-Services/Clinical-Trials-Research-Central-Lab-Services-Clinical-Research-Laboratory.aspx ACM Global Central Laboratory]
| |
| * [http://www.covance.com/services/clinical-testing/central-laboratory-services.html Covance Central Labs]
| |
| * [https://www.jmilabs.com/clinical-trial-support/ JMI Laboratories]
| |
| | |
| '''Government''' - These labs are typically set up by a government agency to perform specific research into medical conditions such as cancer, depression, or HIV infection.
| |
| | |
| Examples include:
| |
| | |
| * [https://frederick.cancer.gov/ Frederick National Laboratory for Cancer Research]
| |
| * [https://clinicalcenter.nih.gov/ccc/crc/ NIH Clinical Trial Center]
| |
| * [https://www.fda.gov/ScienceResearch/FieldScience/ Office of Regulatory Affairs' Field Laboratories]
| |
| | |
| '''Academic''' - Many academic institutions set up their own clinical research activities, often within an affiliated medical center. These research efforts often serve as training grounds for students to learn more about clinical research and its administration.
| |
| | |
| Examples include:
| |
| | |
| * [http://ictr.johnshopkins.edu/clinical/clinical-resources/human-subjects-research-core/ictr-clinical-research-units-crus/services/clinical-research-unit-core-lab/ Johns Hopkins Clinical Research Unit Core Laboratory]
| |
| * [https://careers.insidehighered.com/job/1326323/clinical-research-laboratory-assistant/ University of Colorado Denver Anschutz Medical Campus]
| |
| * [https://www.mir.wustl.edu/research/research-support-facilities/clinical-research-lab-crl Washington University Clinical Research Laboratory]
| |
| | |
| ====Functions====
| |
| | |
| ''What are the most common functions?'' Research, clinical studies, contract lab work
| |
| | |
| ''What materials, technologies, and/or aspects are being analyzed and researched?'' artifacts, biological specimens, communication networks, medical devices, etc. (depending on academic discipline practiced in the lab)
| |
| | |
| ''What sciences are being applied in these labs?'' archeology, clinical research, information theory, etc. (depending on academic discipline practiced in the lab)
| |
| | |
| ''What are some examples of test types and equipment?''
| |
| | |
| Common test types include:
| |
| | |
| Absorption, Acoustic startle, Acute contact, Acute oral, Acute toxicity, Adhesion, Age determination, Amino acid analysis, Angle of repose, Antimicrobial, Antigen, Behavioral, Blood culture, Blood gases, Bioavailability, Bioburden, Biocompatibility, Bioequivalence, Biomechanical, Biomolecular, Biosafety, Calorimetry, Carcinogenicity, Clinical diagnostic, Colorimetric, Compaction, Compendial, Complete blood count, Cytology, Cytopathology, Cytotoxicity, Detection, Developmental and reproductive toxicology, Dietary exposure, Ecotoxicology, Efficacy, Electrolyte and mineral panel, Electromagnetic compatibility, Electromagnetic interference, Electrophoresis, Endocrine disruptor screening program, Endotoxin, Environmental fate, Environmental metabolism, Extractables and leachables, Feasibility, Fluid dynamics, Functional observational battery, Genetic, Genotoxicity, Hematocrit, Hemoglobin, Hematotoxicity, Human factors, Immunohistochemistry, Impact, Impurity, Inhalation, Irritation, Kidney function, Learning and memory, Lipid profile, Liver function, Locomotor activity, Metabolic, Microfluidics, Minimum bactericidal concentration, Minimum inhibitory concentration, Nanoparticulate, Neurotoxicity, Nutritional, Osmolality, Osmolarity, Oxidation reduction potential, Oxidation stability, Parasitic, Pathogen, Pathogenicity, pH, Pharmacokinetic, Phototoxicity, Protein analysis, Protein characterization, Red blood cell count, Refractive index, Sensitization, Solubility, Specific gravity, Thyroid function, Toxicokinetic, Urine culture, Validation, Verification, Virucidal efficacy, Wildlife toxicology
| |
| | |
| Industry-specific lab equipment may include:
| |
| | |
| autoclave, balance, biohazard container, biosafety cabinet, centrifuge, chromatographic, clinical chemistry analyzer, colorimeter, desiccator, dissolved oxygen meter, dry bath, electrophoresis system, ELISA plate reader, fluorometer, freezers, fume hood, genetic analyzer and sequencer, homogenizer, hotplate, incubator, magnetic stirrer, mass spectrometry equipment, microcentrifuge tube, microplate reader, microscope, multi-well plate, orbital shaker, PCR machine, personal protective equipment, pH meter, Petri dish, pipettor, powered air purifying respirators, refractometer, spectrophotometer, syringes, test tube and rack, thermal cycler, thermometer, urinalysis device, water bath
| |
| | |
| ''What else, if anything, is unique about the labs in the clinical and academic research fields?'' It's important to note that some clinical research laboratories may be referred to as "central laboratories." Though mentioned occasionally in its regulation and guidance, the U.S. Food and Drug Administration doesn't seem to provide a definition of the term. However, it seems to be used by some in the context of an analytical laboratory that provides analyses of biological specimens associated with clinical and bioequivalence studies (including multi-site studies, prompting the idea of a "central" lab handling sample analysis) performed at medical institutions.<ref name="FCRDefinition" /><ref name="KarelinSelecting13">{{cite web |url=http://www.contractpharma.com/issues/2013-05/view_features/selecting-a-central-laboratory/ |title=Selecting a Central Laboratory |author=Karelin, A.; Belotserkovskiy, M.; Khokhlova, V.; Kumar, A. |work=Contract Pharma |publisher=Rodman Media, Inc |date=06 May 2013 |accessdate=01 June 2017}}</ref>
| |
| | |
| ====LIMSwiki resources====
| |
| | |
| * [[Translational research]]
| |
| * [[Translational research informatics]]
| |
| | |
| <div align="center"><hr width="50%"></div>
| |
| | |
| ===Cosmetic===
| |
| [[File:Cosmetics-1078712 1280.jpg|left|400px]]
| |
| {{clear}}
| |
| Cosmetic labs provide research and development as well as quality control functions to the world of cosmetics. From makeups and moisturizers to hair dyes and lipsticks, the cosmetic laboratory is responsible for making safe and effective products of many types. Cosmetic chemists tend to mostly work in private laboratories or as part of a private-public research partnership, though some work in academic labs.<ref name="BrowneTheJob">{{cite web |url=http://work.chron.com/job-description-cosmetic-chemist-17987.html |title=The Job Description of a Cosmetic Chemist |author=Browne, C. |work=Chron |publisher=Hearst Newspapers, LLC |accessdate=01 June 2017}}</ref> Cosmetic labs are found largely in the private sector, though they exist in the government and academic sectors and provide many different services, including (but not limited to):
| |
| | |
| * formulation and development of products<ref name="BrowneTheJob" />
| |
| * safety testing of products<ref name="BrowneTheJob" />
| |
| * process engineering improvement<ref name="BrowneTheJob" />
| |
| * chemical and material research<ref name="BrowneTheJob" />
| |
| * substantiation of compatibility and efficacy claims<ref name="NWUCEL">{{cite web |url=http://health-sciences.nwu.ac.za/pharmaceutical-and-biomedical-services/cel |title=CEL |publisher=North-West University |accessdate=01 June 2017}}</ref>
| |
| * allergy testing
| |
| * contaminate testing
| |
| | |
| ''How do cosmetic laboratories intersect the average person's life on a daily basis?'' In private industry, cosmetic scientists are tasked with creating a safe product free from contaminates and allergens that may negatively affect a user. At the higher government level, some labs are responsible for substantiating manufacturer claims, testing cosmetics, and even manufacturing cosmetic components<ref name="NWUCEL" />; the U.S. Food and Drug Administration (FDA), for example, certifies some color additives as safe for consumers in its own lab.<ref name="FDASmallBus16">{{cite web |url=https://www.fda.gov/cosmetics/resourcesforyou/industry/ucm388736.htm |title=Small Businesses & Homemade Cosmetics: Fact Sheet |publisher=Food and Drug Administration |date=05 October 2016 |accessdate=01 June 2017}}</ref> Without these labs, the soaps, shampoos, moisturizers, and makeup on the market wouldn't likely exist, or they did, they would be of unknown quality, posing a threat to human health. When we use such a product, we are reminded that a laboratory was at some point involved in its creation.
| |
| | |
| ====Client types====
| |
| | |
| '''Private''' - Private cosmetic labs are either found as part of a major company initiative (think L’Oréal Group and its laboratories<ref name="LOrealUSAResearch">{{cite web |url=http://www.lorealusa.com/group/discover-l%27or%C3%A9al-usa/l%E2%80%99or%C3%A9al-usa-research-and-innovation |title=L’Oréal USA Research And Innovation |publisher=L’Oréal Group |accessdate=01 June 2017}}</ref>) or as a third-party contract lab that provides development, manufacturing, and consulting services to clients.
| |
| | |
| Examples include:
| |
| | |
| * [http://ariellabs.com/ Ariel Laboratories]
| |
| * [http://cosmeticlaboratories.com/ Cosmetic Laboratories]
| |
| * [http://cla-cosmeticlabs.com/services/ Cosmetic Laboratories of America]
| |
| | |
| '''Government''' - Governments around the world differ in how they regulate and test cosmetics. Though not common, some governments will dedicate space for laboratory testing, certification of constituents, and testing of efficacy and compatibility claims.<ref name="NWUCEL" /><ref name="FDASmallBus16" />
| |
| | |
| Examples include:
| |
| | |
| * [http://www.fdaghana.gov.gh/index.php?option=com_content&view=article&id=25&Itemid=3 Ghana Food and Drugs Authority, Cosmetic Laboratory]
| |
| * [http://www.thehindu.com/news/national/other-states/odisha-government-identifies-land-for-cosmetic-testing-lab/article8514721.ece Government of Odisha's Central Cosmetic Testing Laboratory]
| |
| * [http://www.hsa.gov.sg/content/hsa/en/Applied_Sciences/Pharmaceuticals_Cosmetics_Tobacco/Overview/Cosmetics.html Singapore Health Sciences Authority's Cosmetics Laboratory]
| |
| | |
| '''Academic''' - Academic programs in cosmetic science aren't abundant, but they can be found. (The Society of Cosmetic Chemists lists a few U.S.-based programs [http://www.scconline.org/resources/ here].) The laboratories associated with this course of study are presumably similar in makeup to a chemistry teaching laboratory in a typical university, with a few additions, including research facilities.
| |
| | |
| Examples include:
| |
| | |
| * [http://view2.fdu.edu/academics/university-college/school-of-natural-sciences/academic-programs/ms-in-cosmetic-science/ Farleigh Dickinson University Cosmetic Science Programs]
| |
| * [http://pharmacy.uc.edu/program-information/graduate/cosmetic/overview University of Cincinnati Cosmetic Science Programs]
| |
| * [http://health-sciences.nwu.ac.za/pharmaceutical-and-biomedical-services/cel North-West University Cosmetics Efficacy Laboratory]
| |
| | |
| ====Functions====
| |
| | |
| ''What are the most common functions?'' analytical, research/design, QA/QC, and teaching
| |
| | |
| ''What materials, technologies, and/or aspects are being calibrated, researched, and quality controlled?'' colorants, dyes, emulsions, lacquers, polymers, silicones, surfactants
| |
| | |
| ''What sciences are being applied in these labs?'' biochemistry, biology, chemical engineering, chemistry, cosmetic science, macromolecular science, pharmaceutical science, process engineering
| |
| | |
| ''What are some examples of test types and equipment?''
| |
| | |
| Common test types include:
| |
| | |
| Absorption, Allergy, Antimicrobial, Bioburden, Biocompatibility, Comparison, Compliance/Conformance, Composition, Contamination, Detection, Efficacy, Expiration dating, Flammability, Fluorescence, Formulation, Fragrance, Impurity, Ingredient, Irritation, Labeling, Oxidation reduction potential, Oxidation stability, Pathogen, Performance, pH, Photostability, Preservative challenge, Proficiency, Purity, Pyrogenicity, Quality control, Safety, Sensitization, Stability, Water activity
| |
| | |
| Industry-specific lab equipment may include:
| |
| | |
| autoclave, balance, chromatographic, digital imaging devices, ESR spectroscopy equipment, fluorescent laser scan microscope, Fourier transform infrared spectroscopy equipment, microscope, multiphotone tomography equipment, pH meter, Raman spectroscopy equipment, test tube and rack, thermometer, transepidermal water loss (TEWL) instrumentation
| |
| | |
| ''What else, if anything, is unique about the labs in the cosmetic industry?'' In the U.S., whereas the Centers for Medicare & Medicaid Services (CMS) regulates clinical laboratory testing<ref name="CMSCLIA">{{cite web |url=https://www.cms.gov/Regulations-and-Guidance/Legislation/CLIA/index.html |title=Clinical Laboratory Improvement Amendments (CLIA) |publisher=Centers for Medicare & Medicaid Services |date=05 April 2017 |accessdate=01 June 2017}}</ref> , the FDA regulates cosmetic laboratories.<ref name="FDAAuthority">{{cite web |url=https://www.fda.gov/cosmetics/guidanceregulation/lawsregulations/ucm074162.htm |title=FDA Authority Over Cosmetics: How Cosmetics Are Not FDA-Approved, but Are FDA-Regulated |publisher=Food and Drug Administration |date=15 November 2016 |accessdate=01 June 2017}}</ref> Regulation of cosmetic laboratories in other countries varies; in Singapore, for example, the Health Sciences Authority helps enforce cosmetic testing of its Health Products Act.<ref name="HSACosmetics">{{cite web |url=http://www.hsa.gov.sg/content/hsa/en/Applied_Sciences/Pharmaceuticals_Cosmetics_Tobacco/Overview/Cosmetics.html |title=Cosmetics |publisher=Health Sciences Authority |date=17 July 2014 |accessdate=01 June 2017}}</ref>
| |
| | |
| ====LIMSwiki resources====
| |
| | |
| * None
| |
| | |
| <div align="center"><hr width="50%"></div>
| |
| | |
| ===Energy===
| |
| [[File:Pomiary rezystancji uzwojenia transformatora z rdzeniem amorficznym miernikiem Sonel MMR-6000.jpg|left|400px]]
| |
| {{clear}}
| |
| The energy laboratory is largely a place for the research and development of energy sources and devices, though it also is a place for researchers to focus on improving energy efficiency in current fuels, systems, and structures. These labs are found in the government and academic sectors, and occasionally in the private sector, providing many different services, including (but not limited to)<ref name="NRELResearch">{{cite web |url=https://www.nrel.gov/research/ |title=Research |work=National Renewable Energy Laboratory |publisher=Alliance for Sustainable Energy, LLC |accessdate=02 June 2017}}</ref>:
| |
| | |
| * chemical and biomolecular engineering
| |
| * applied research and development
| |
| * analysis and improvement of energy efficiency
| |
| * analysis and improvement of transportation systems
| |
| * development of energy systems
| |
| * discovery and development of materials
| |
| * integration of energy systems
| |
| | |
| ''How do energy laboratories intersect the average person's life on a daily basis?'' "I want my phone's battery to last longer!" you shout, as you put it on the charger for the second time in a day. The truth is your device probably has a better battery life than the generation before it, and the generation before it, etc., but you're at the same time making it do more demanding tasks than it used to at the same time. Yet advances continue to be made in energy storage.<ref name="ArgonneResearchers16">{{cite web |url=https://phys.org/news/2016-03-pave-battery.html |title=Researchers continue to pave way for improved battery performance testing |author=Argonne National Laboratory |work=Phys.org |publisher=Science X |date=31 March 2016 |accessdate=02 June 2017}}</ref> You can thank an energy laboratory and its scientists for that and similar advances that affect you on a daily basis.
| |
| | |
| ====Client types====
| |
| | |
| '''Private''' - Insert applicable text here.
| |
| | |
| Examples include: Private laboratories tend to focus on a company's R&D or provide third-party analysis of materials used as fuel sources.
| |
| | |
| * [http://www.biomassenergylab.com/index.htm Biomass Energy Lab]
| |
| * [https://www.energylab.com/ Energy Laboratories]
| |
| | |
| '''Government''' - Insert applicable text here.
| |
| | |
| Examples include: Along with academic labs, government labs (public and public-private) make up the majority of energy laboratories and typically provide much of the funding for energy research, at least in the United States.<ref name="KotokFinancing06">{{cite web |url=http://www.sciencemag.org/careers/2006/07/financing-your-research-alternative-energy |title=Financing Your Research in Alternative Energy |work=Science |author=Kotok, A. |publisher=American Association for the Advancement of Science |date=14 July 2006 |accessdate=02 June 2017}}</ref>
| |
| | |
| * [https://www.netl.doe.gov/ National Energy Technology Laboratory]
| |
| * [http://www.nrel.gov/ National Renewable Energy Laboratory]
| |
| * [https://energy.usgs.gov/GeochemistryGeophysics/GeochemistryLaboratories.aspx#3898249-overview U.S. Geological Survey's Geochemistry Laboratory]
| |
| | |
| '''Academic''' - Higher education continues to be a major source for the study, research, and application of energy sources and equipment. From the optimization of commercial and industrial buildings to alternative fuels and clean energy systems, the academic-affiliated energy lab is pushing energy science forward at a significant pace.
| |
| | |
| Examples include:
| |
| | |
| * [http://esl.tamu.edu/ Texas A&M's Energy Systems Laboratory]
| |
| * [https://rael.berkeley.edu/ University of California - Berkeley's Renewable & Appropriate Energy Laboratory]
| |
| * [http://www.hnei.hawaii.edu/ University of Hawaii at Manoa's Hawaii Natural Energy Institute]
| |
| | |
| ====Functions====
| |
| | |
| ''What are the most common functions?'' analytical, research/design, and QA/QC, and teaching
| |
| | |
| ''What materials, technologies, and/or aspects are being calibrated, researched, and quality controlled?'' biomass, emissions, energy efficiency, energy storage and retrieval, hydropower, petrochemicals, solar energy, thermal energy, thin films, wind power
| |
| | |
| ''What sciences are being applied in these labs?'' chemical engineering, chemistry, engineering, environmental science, material science, mechanical design, microbiology, thermodynamics
| |
| | |
| ''What are some examples of test types and equipment?''
| |
| | |
| Common test types include:
| |
| | |
| Accelerated stress testing, Aging, Calorimetry, Characterization, Climatics, Combustion, Contact mechanics, Contamination, Degredation, Design verification testing, Dielectric withstand, Durability, Efficiency, Electromagnetic compatibility, Electromagnetic interference, Electrostatic discharge, Emissions, Endurance, Flash point, Fluid dynamics, Friction, Geothermal, Hydraulic, Lightning, Mechanical, Mechanical durability, Power quality, Proficiency, Resistance - capacitance - inductance, Solar, Temperature, Thermal, Torque, Validation, Velocity and flow, Voltage
| |
| | |
| Industry-specific lab equipment may include:
| |
| | |
| calorimeter, climate test chamber, gas turbine, geothermal energy absorber, hydrogen fuel cell, impulse turbine, light sensor, photovoltaic trainer/system, plasma light system, porosimeter, reaction turbine, solar thermal system, temperature sensor, viscometer, wind turbine
| |
| | |
| ''What else, if anything, is unique about the labs in the energy industry?'' By and far, energy laboratories seem to have the most prominent footprint in the government and academic sectors. Privately run energy laboratories exist but appear to be the minority, appearing as either an R&D lab inside a larger manufacturing company or as a niche third-party testing facility for biomass and/or petrochemicals. As an aside, since agriculture and forest biomass<ref name="FSForestBiorefine">{{cite web |url=https://www.fpl.fs.fed.us/research/research_emphasis_areas/introduction.php?rea_id=3 |title=Forest Biorefinery - Introduction |work=Forest Products Laboratory |publisher=U.S. Forest Service |accessdate=02 June 2017}}</ref> as well as petrochemicals can be used as fuel sources, the energy industry has ties to the agriculture, forestry, and petrochemical industries. Of course, the power and utility industry — which focuses on large-scale energy solutions for communities — is closely linked as well.
| |
| | |
| ====LIMSwiki resources====
| |
| | |
| *
| |
| | |
| <div align="center"><hr width="50%"></div>
| |
| | |
| ===Environmental===
| |
| [[File:K4641-1rootscientists.jpg|left|300px]]
| |
| {{clear}}
| |
| | |
| | |
| * exposure testing
| |
| * field testing
| |
| * radiological testing
| |
| * heavy metals testing
| |
| * air quality monitoring
| |
| * environmental assessments
| |
| * MSD Permit compliance testing
| |
| * environmental engineering
| |
| | |
| ''How do cosmetic laboratories intersect the average person's life on a daily basis?
| |
| | |
| ====Client types====
| |
| | |
| '''Private''' - Insert applicable text here.
| |
| | |
| Examples include:
| |
| | |
| * [http://aellabs.com/ American Environmental Laboratories]
| |
| * [http://www.caduceonlabs.com/ Caduceon Environmental Laboratories]
| |
| * [https://www.pacelabs.com/ Pace Analytical Services]
| |
| | |
| '''Government''' - Insert applicable text here.
| |
| | |
| Examples include:
| |
| | |
| * [http://www.health.state.mn.us/divs/phl/environmental/ Minnesota Department of Health's Environmental Laboratory]
| |
| * [http://www.stlouisco.com/HealthandWellness/EnvironmentalServices/EnvironmentalLaboratories Saint Louis County Environmental Health Laboratories]
| |
| * [https://www.epa.gov/aboutepa/about-national-health-and-environmental-effects-research-laboratory-nheerl U.S. Environmental Protection Agency's National Health and Environmental Effects Research Laboratory]
| |
| | |
| '''Academic''' -
| |
| | |
| Examples include:
| |
| | |
| * [http://www.enve-lab.eu/ Aristotle University of Thessaloniki's Environmental Engineering Laboratory]
| |
| * [http://web.plattsburgh.edu/academics/envsci/chemlab.php SUNY Plattsburgh's Lake Champlain Research Institute]
| |
| * [http://www.wm.edu/as/kecklab/ William & Mary's Keck Environmental Field Laboratory]
| |
| | |
| ====Functions====
| |
| | |
| ''What are the most common functions?'' analytical, research/design, QA/QC, and teaching
| |
| | |
| ''What materials, technologies, and/or aspects are being analyzed, researched, and quality controlled?'' acoustics, air quality, allergens, biological specimens, contaminates, finished products, hazardous waste, pesticides, raw materials, sediment, soil, solid waste, water quality
| |
| | |
| ''What sciences are being applied in these labs?'' chemistry, chemical engineering, environmental engineering, environmental science, microbiology, organic and inorganic chemistry, radiation chemistry
| |
| | |
| ''What are some examples of test types and equipment?''
| |
| | |
| Common test types include:
| |
| | |
| Absorption, Acute contact, Acute oral, Acute toxicity, Allergy, Anion, Antimicrobial, Atterberg limits, Bioaccumulation, Bioavailability, Bioburden, Biodegradation, Chemical and biochemical oxygen demand, Colorimetric, Conductivity, Consolidation, Contamination, Decomposition, Degradation, Density, Ecotoxicology, Emissions, Environmental fate, Environmental metabolism, Environmental monitoring, Geochemistry, Geophysics, Humidity, Hydraulic conductivity, Isotope analysis, Leak, Metallurgical analysis, Minimum bactericidal concentration, Minimum inhibitory concentration, Mobility, Organic carbon, Oxidation reduction potential, Permeability, pH, Photostability, Plant metabolism, Pressure, Proficiency, Radioactivity, Radiochemical, Refractive index, Seismic, Sensory, Soil microflora, Specific gravity, Temperature, Terrestrial toxicology, Turbidity, Wildlife toxicology
| |
| | |
| Industry-specific lab equipment may include:
| |
| | |
| balance, Bunsen burner, burette, colorimeter, centrifuge, chromatographic, crucible, desiccator, dropper, enzyme immunoassay, Erlenmeyer flask, extractor, Florence flask, flow meter, fume hood, funnel, graduated cylinder, hot plate, moisture analyzer, mortar and pestle, multi-well plate, organic carbon analyzer, oven, particle counter, pH meter, pipestem triangle, reagent dispenser, remote sensors, ring stand, rotary evaporator, sediment analyzer, spectrometer, spectrophotometer, stirring rod, thermometer, viscometer
| |
| | |
| ''What else, if anything, is unique about the labs in the environmental industry?'' "The environmental laboratory industry will be undergoing continuous radical change in coming years as environmental markets continue to evolve," stated Bangert and Lynch in a 1996 study for the National Research Council. "The model laboratory of the future, therefore, is likely to be far different from that of today," they added.<ref name="BangertEnviro96">{{cite web |url=https://www.nap.edu/read/9191/chapter/6 |chapter=Chapter 5: Environmental Testing Laboratories and Instruments |title=Risk & Innovation: Small Companies in Six Industries: Background Papers Prepared for the NAE Risk and Innovation Study |author=Bangert, C.E.; Lynch, R.A. |publisher=National Academies Press |date=1996 |pages=83–108 |doi=10.17226/9191}}</ref> Fast forward 20 years, and we see their then vision for the future of environmental testing labs came to fruition: today's environmental testing lab uses a [[laboratory information management system]] (LIMS) to manage data in an automated, innovative lab that provides analytical services as well as research.<ref name="BangertEnviro96" /><ref name="DePalmaInsights13">{{cite web |url=http://www.labmanager.com/insights/2013/09/insights-on-starting-and-running-an-environmental-lab |title=Insights on Starting and Running an Environmental Lab |author=DePalma, A. |work=Lab Manager |publisher=LabX Media Group |date=10 September 2013 |accessdate=03 June 2017}}</ref> And they need to be agile as the concepts of "climate change," "biodiversity," and "sustainable ecosystems" begin to weave their way into the focus of environmental laboratories.<ref name="SimmondsTheImport09">{{cite web |url=http://your.kingcounty.gov/dnrp/library/water-and-land/science/newsletter/2009/june/0906-3-monitoring-import.pdf |title=The Importance of Environmental Monitoring and Analysis |work=King County's SciFYI |author=Simmonds, J. |publisher=King County |date=June 2009 |accessdate=03 June 2017}}</ref><ref name="ERDCEnvironmental">{{cite web |url=http://www.erdc.usace.army.mil/Media/Fact-Sheets/Fact-Sheet-Article-View/Article/476745/environmental-laboratory/ |title=Environmental Laboratory |publisher=U.S. Army Corps of Engineers - Engineer Research & Development Center |accessdate=03 June 2017}}</ref>
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| ====LIMSwiki resources====
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| * [[Environmental informatics]]
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| * [[Hydroinformatics]]
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| <div align="center"><hr width="50%"></div>
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| ===Geology and mining===
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| ====LIMSwiki resources====
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| * [[Geoinformatics]]
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| <div align="center"><hr width="50%"></div>
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| ===Law enforcement and forensics===
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| ''What aspects and/or technologies are being calibrated, researched, and quality controlled?'' Insert text here
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| * [[Forensic science]]
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| ===Life sciences and biotechnology===
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| ====LIMSwiki resources====
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| '''Life sciences'''
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| * [[Biodiversity informatics]]
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| * [[Cancer informatics]]
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| * [[Genome informatics]]
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| '''Bioinformatics'''
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| * [[Bioinformatics]]
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| * [[Bioimage informatics]]
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| * [[Biotechnology]]
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| * [[Molecular informatics]]
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| ''What are the most common functions?'' Insert text here
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| ''What aspects and/or technologies are being calibrated, researched, and quality controlled?'' Insert text here
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| ====LIMSwiki resources====
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| * [[Biomedical engineering]]
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| * [[Clinical engineering]]
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| * [[Materials informatics]]
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| ===Nanotechnology===
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| ====Functions====
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| ''What are the most common functions?'' Insert text here
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| ''What aspects and/or technologies are being calibrated, researched, and quality controlled?'' Insert text here
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| ''What sciences are being applied in these labs?'' Insert text here
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| ''What are some examples of test types, terminology, and equipment?'' Insert text here
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| ''What else, if anything, is unique about the labs in the clinical research industry?'' Insert text here
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| ====LIMSwiki resources====
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| *
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| <div align="center"><hr width="50%"></div>
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| ===Petrochemical===
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| [[File:TASNEE 001.jpg|left|400px]]
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| {{clear}}
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| Insert broad information about the industry here.
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| ====Functions====
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| ''What are the most common functions?'' Insert text here
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| ''What aspects and/or technologies are being calibrated, researched, and quality controlled?'' Insert text here
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| ''What sciences are being applied in these labs?'' Insert text here
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| ''What are some examples of test types, terminology, and equipment?'' Insert text here
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| ''What else, if anything, is unique about the labs in the clinical research industry?'' Insert text here
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| ====LIMSwiki resources====
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| *
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| <div align="center"><hr width="50%"></div>
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| ===Pharmaceutical===
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| ====Functions====
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| ''What are the most common functions?'' Insert text here
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| ''What aspects and/or technologies are being calibrated, researched, and quality controlled?'' Insert text here
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| ''What sciences are being applied in these labs?'' Insert text here
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| ''What are some examples of test types, terminology, and equipment?'' Insert text here
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| ''What else, if anything, is unique about the labs in the clinical research industry?'' Insert text here
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| ====LIMSwiki resources====
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| * [[Pharmacoinformatics]]
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| <div align="center"><hr width="50%"></div>
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| ===Power and utility===
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| {{clear}}
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| ====Functions====
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| ''What are the most common functions?'' Insert text here
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| ''What aspects and/or technologies are being calibrated, researched, and quality controlled?'' Insert text here
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| ''What sciences are being applied in these labs?'' Insert text here
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| ''What are some examples of test types, terminology, and equipment?'' Insert text here
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| ''What else, if anything, is unique about the labs in the clinical research industry?'' Insert text here
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| ====LIMSwiki resources====
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| *
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| <div align="center"><hr width="50%"></div>
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| ===Veterinary===
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| [[File:Iranian cat in clinic.jpg|left|400px]]
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| {{clear}}
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| Insert broad information about the industry here.
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| ====Client types====
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| '''Private''' - Insert applicable text here.
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| Examples include:
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| *
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| '''Government''' - Insert applicable text here.
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| Examples include:
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| * http://agi.alabama.gov/divisions/veterinary-diagnostic-labs/diagnostic-laboratories
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| *
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| '''Academic''' -
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| Examples include:
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| *
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| *
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| ====Functions====
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| ''What are the most common functions?'' Insert text here
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| ''What aspects and/or technologies are being calibrated, researched, and quality controlled?'' Insert text here
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| ''What sciences are being applied in these labs?'' Insert text here
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| ''What are some examples of test types, terminology, and equipment?'' Insert text here
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| ''What else, if anything, is unique about the labs in the clinical research industry?'' Insert text here
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| ====LIMSwiki resources====
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| *
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| <div align="center"><hr width="50%"></div>
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| ==References==
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| {{Reflist|colwidth=30em}}
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| <!--Place all category tags here-->
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