Journal:Big data and public health systems: Issues and opportunities

Full article title	Big data and public health systems: Issues and opportunities
Journal	International Journal of Interactive Multimedia and Artificial Intelligence
Author(s)	Rojas de la Escalera, David; Carnicero Giménez de Azcárate, Javier
Author affiliation(s)	Sistemas Avanzados de Tecnología, Health Service of Nararre
Primary contact	Email: javier dot carnicero dot gimenez at cfnavarra dot es
Year published	2018
Volume and issue	4 (7)
Page(s)	53–59
DOI	10.9781/ijimai.2017.03.008
ISSN	1989-1660
Distribution license	Creative Commons Attribution 3.0 Unported
Website	http://www.ijimai.org/journal/node/1629
Download	http://www.ijimai.org/journal/sites/default/files/files/2017/03/ijimai_4_7_8_pdf_16011.pdf (PDF)

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Abstract

In recent years, the need for changing the current model of European public health systems has been repeatedly addressed, in order to ensure their sustainability. Following this line, information technology (IT) has always been referred to as one of the key instruments for enhancing the information management processes of healthcare organizations, thus contributing to the improvement and evolution of health systems. On the IT field, big data solutions are expected to play a main role, since they are designed for handling huge amounts of information in a fast and efficient way, allowing users to make important decisions quickly. This article reviews the main features of the European public health system model and the corresponding healthcare and management-related information systems, the challenges that these health systems are currently facing, and the possible contributions of big data solutions to this field. To that end, the authors share their professional experience on the Spanish public health system and review the existing literature related to this topic.

Keywords: big data, health system, healthcare organizations, health information systems, epidemiological surveillance, strategic planning

Introduction

The health system

According to the World Health Organization (WHO), “a health system consists of all organizations, people and actions whose primary intent is to promote, restore or maintain health. This includes efforts to influence determinants of health as well as more direct health-improving activities. A health system is therefore more than the pyramid of publicly owned facilities that deliver personal health services.”^[1] Furthermore, every health system performs the following set of basic functions^[2]:

delivering health services to individuals and to populations
creating resources
providing stewardship
financing the system

The center of any health system must be the first of these functions, since healthcare constitutes the paramount goal and therefore the reason for the existence of the health system itself. Around it, other functions are organized, essential for ensuring healthcare delivery and public health. Among these, the following must be remarked upon:

epidemiological surveillance, which comprises the collection and analysis of large volumes of data directly or indirectly related to people’s health, so as to detect or prevent possible health problems regarding public health
planning and overseeing the management of the health system, which allows healthcare organizations to set out their strategic goals, allocate the necessary resources, assess the degree of compliance of these goals and apply corrective measures if required
clinical research, focused on generating knowledge and applying it to the development of new diagnostic and therapeutic techniques
education and teaching, in order to train new professionals and keep the practicing ones appropriately updated and competent

The health cluster or ecosystem

From a structural point of view, a health system is neither an isolated nor homogeneous entity, but rather it comprehends or relates to entities of diverse nature, both public and private, with interests of their own, as well as shared interests. This ensemble is known as health cluster or ecosystem, and among its components the following must be pointed out^[3]:

central or federal government and regional or local authorities
healthcare services, conceived as organizations responsible for the management of a determined healthcare network
hospitals
primary care centers
emergency services
pharmacies
convalescent centers
health professionals acting as external providers to the health system
public health services
insurance companies, mutual societies, and other entities which finance healthcare
schools for the education and training of doctors, nurses, and other health professionals
research centers
professional associations and colleges
foundations and learned societies
stakeholders, such as patients associations
pharmaceutical and other health technology industries

Challenges faced by the health system

For decades, the public health systems of European countries, created following the end of World War II, have been frequently mentioned as a reference model to be followed, especially in those aspects regarding coverage, quality of service, and contribution to the welfare of society. However, the scene in which these systems arose has suffered a series of major changes, being the most important the following ones^[4]:

the aging of the population, with a continuous increment of chronic and degenerative diseases
the financial crisis, which causes important budget cuts in the public funds meant to finance the health systems activities, and makes it more difficult—or even impossible—for the citizens to compensate these cuts with out-of-pocket expenses
the creation of new techniques and drugs, more effective but also more expensive, mainly due to the necessity to compensate the research costs caused by their development
the increasing demands of the citizens, who require more and better healthcare services in a setting that seeks patient empowerment and promotion of personalized medicine

As a token of the first two determinants, aging of the population and public budget cuts, the Spanish case is addressed below. Table I shows the progress of these two indicators during the period between 2003 and 2014.

Year	Total population	Population 15–64 years	Population older than 64 years		Dependency ratio	Public health expenditure		Private health expenditure
Table 1. Demographics and health expenditure in Spain (2003–2014) Sources - demographics: Demographic Information System, Spanish National Statistics Institute (INE); health expenditure date: OECD Health Statistics
Year	Total population	Population 15–64 years	People	% over total	Dependency ratio	M€	% GDP	M€	% GDP
2003	42,717,064	29,396,965	7,276,620	17.03%	24.75%	43,158.4	5.37%	17,354.5	2.16%
2004	43,197,684	29,777,965	7,301,009	16.90%	24.52%	46,992.4	5.46%	18,651.1	2.17%
2005	44,108,530	30,511,110	7,332,267	16.62%	24.03%	51,351.5	5.52%	20,094.2	2.16%
2006	44,708,964	30,849,177	7,484,392	16.74%	24.26%	56,662.2	5.62%	21,520.7	2.14%
2007	45,200,737	31,188,079	7,531,826	16.66%	24.15%	61,612.0	5.70%	23,101.9	2.14%
2008	46,157,822	31,869,008	7,632,925	16.54%	23.95%	68,147.1	6.11%	24,392.9	2.19%
2009	46,745,807	32,145,023	7,782,904	16.65%	24.21%	73,035.6	6.77%	23,863.0	2.21%
2010	47,021,031	32,153,527	7,931,164	16.87%	24.67%	72,852.6	6.74%	24,593.7	2.28%
2011	47,190,493	32,082,758	8,093,557	17.15%	25.23%	71,800.0	6.68%	25,510.2	2.38%
2012	47,265,321	31,980,402	8,222,196	17.40%	25.71%	68,262.9	6.47%	26,594.3	2.55%
2013	47,129,783	31,718,285	8,335,861	17.69%	26.28%	65,718.5	6.26%	26,981.3	2.62%
2014	46,771,341	31,281,943	8,442,427	18.05%	26.99%	65,975.7	6.34%	28,558.1	2.74%

These data reveal that the Spanish population has increased from 42.72 to 46.77 million people during the 2003-2014 period, while the percentage of people older than 64 years has risen from 17.03% to 18.05% over total population, and the dependency ratio, which indicates the ratio between population older than 64 years and population between 15 and 64 years old, has risen from 24.75% to 26.99%. On the other hand, public health expenditure in 2003 meant 5.37% GDP, reaching a peak of 6.77% in 2009 and falling to 6.26% in 2013, experiencing a small recovery in 2014, with 6.34% GDP. Regarding private health expenditure, it was at minimums around 2.14%-2.17% GDP but it has risen year after year since the beginning of the financial crisis in 2008, reaching 2.74% GDP in 2014.

All things considered, the impact of all these determinants is so important that the sustainability of this model of public health system has been questioned in recent years.

The transformation of public health systems

Despite the fact that the challenges explained above make clear that a deep transformation of this health system model is needed, and IT is often considered as one of the main facilitators for this change, it is not admissible to think that health systems are going to lose their essential features. Health systems must improve people’s health, from both an individual and a collective point of view, and this final goal will not change in spite of the introduction of new technologies impacting big data.

The patient must always be the center of any health system and, in the same way, health information must always be the center of a health information system, which will be introduced below. The actions of a clinic professional focus on the achievement of specific healthcare goals customized for each one of their patients, improving or maintaining their health status. Besides knowledge, healthcare requires a connected and personalized relationship between the provider and the patient, so that interventions are tailored to the patient’s unique preferences and behavior, as with, for instance, drug adherence. Different people will have different reasons for non-adherence.^[5]

On their behalf, health systems managers must seek the compliance of the general goals defined by their organizations. These goals will be the aggregate of the individual goals related to each one of the professionals in their clinical staff. In addition, these managers will also be responsible for the allocation of the necessary resources and the financing of the whole activity in their organizations.

On the whole, health systems must focus their efforts on the creation of value for both the patient and society. To that end, clear goals must be defined that find an appropriate balance between the patient’s personal interests and the collective interest of society. For instance, in the event of a surgical intervention it is mandatory to measure some indicators such as mortality rate, adverse events, time of recovery, care costs, or time for the patients to return to their jobs at full capacity. Nevertheless, it is necessary to also take into account other indicators, maybe more subjective and thus harder to measure, but equally important because of their impact on the patient, such as post-surgery functionality, pain suffered, or the cost of all these factors from a quality-of-life point of view. If health systems are not focused on their patients’ interests and on achieving the corresponding goals, they will hardly be able to change and ensure their sustainability.^[6]

This article reviews the main features of the European public health system model and the corresponding healthcare and management-related information systems, the problems and challenges that these health systems are currently facing, and the solutions that big data tools may potentially offer in that respect. To that end, the authors have based this work on their professional experience with the Spanish public health system, an analysis of the scene that the latter is facing in the upcoming years and decades, and a review of the existing literature on big data applied to health.

References

↑ World Health Organization (2007). Everybody's business -- Strengthening health systems to improve health outcomes: WHO's framework for action. World Health Organization. pp. 44. ISBN 9789241596077. http://www.who.int/iris/handle/10665/43918.
↑ "The Tallinn Charter: Health Systems for Health and Wealth". World Health Organization. 27 June 2008. http://www.euro.who.int/en/publications/policy-documents/tallinn-charter-health-systems-for-health-and-wealth.
↑ Rojas, D.; Carnicero, J. (2015). "A Model Of Information System For Healthcare: Global Vision and Integrated Data Flows". In Berhardt, L.V.. Advances in Medicine and Biology. 82. Nova Science Publishers. ISBN 9781634636339. https://www.novapublishers.com/catalog/product_info.php?products_id=52835.
↑ Carnicero, J.; Rojas, D.; González, A. et al. (2016) (PDF). La explotación de datos de salud: Retos, oportunidades y límites. Sociedad Española de Informática de la Salud. ISBN 9788460889472. http://www.seis.es/documentos/Informe%20La%20explotacion%20de%20datos%20de%20Salud/LA%20EXPLOTACI%C3%93N%20DE%20DATOS%20DE%20SALUD.pdf.
↑ Hansen, M.M.; Miron-Shatz, T.; Lau, A.Y.; Paton, C. (2014). "Big Data in Science and Healthcare: A Review of Recent Literature and Perspectives - Contribution of the IMIA Social Media Working Group". Yearbook of Medical Informatics 9: 21–6. doi:10.15265/IY-2014-0004. PMC PMC4287084. PMID 25123717. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4287084.
↑ Porter, M.E.; Lee, T.H. (2013). "The Strategy That Will Fix Health Care". Harvard Business Review 10: 50–70. https://hbr.org/2013/10/the-strategy-that-will-fix-health-care.

Notes

This presentation is faithful to the original, with only a few minor changes to grammar, spelling, and presentation, including the addition of PMCID and DOI when they were missing from the original reference. Citation three is listed in the references of the original but inadvertently omitted from the inline citations; it has been placed in the text at what is believed to be the appropriate citation point.