AAL Information based Services and Care Integration
Alexandra Queirós
1
, Sandro Carvalho
2
, João Pavão
2
and Nelson Pacheco da Rocha
1
1
Health Sciences School, IEETA,University of Aveiro, Campo Universitário de Santiago, Aveiro, Portugal
2
Escola de Ciências e Tecnologia, Universidade de Trás-os-Montes e Alto Douro,
Quinta de Prados, Vila Real, Portugal
Keywords: Ambient Assisted Living, Integrated Care, Personalized Care, Electronic Health Record, Personal Health
Record, Social Health Record.
Abstract: Health and social care systems are currently faced with a set of challenges that continually require more
sophisticated responses. The integration of health, social and informal care and the care personalization are
important issues in the organization of the care systems. This article aims to propose an information
architecture for Ambient Assisted Living (AAL) environments that can contribute to integrated and
personalized care.
1 INTRODUCTION
Information Technologies (IT) in health care have
gained widespread usage. IT benefits include
availability and accessibility of vital information,
more effective and efficient treatments, reduction of
the number of redundant procedures, lower risks for
the patients, greater cost savings and, therefore,
improved quality of care. In individual terms, IT
based services empower the citizens to exercise
control over their own health, by facilitating them
the access to knowledge and adequate services and,
consequently, allowing informed choices within the
available options.
This paper discusses the possible contribution of
Ambient Assisted Living (AAL) in the integration
and personalization of care services. The paper also
presents an information architecture able to integrate
both user-generated and AAL services-generated
data with institutional health and social care
repositories of information.
2 CHALLENGES
The challenges faced today by health and social care
systems are theirs sustainability: with public budgets
at strain the systems can not afford to do less
because demands and expectations are increasing,
namely due to the demographic ageing. Therefore,
both effectiveness and efficiency of the care systems
should be increased (Codagnone, 2009).
Given the current pressure resulting from the
cost of the health and social care systems, the
interactions between different care organizations
have gained significant relevance (Dias and Queirós,
2010): the availability of effective and efficient care
services requires the involvement and coordination
of multiple stakeholders. Therefore, the care systems
must guarantee to the citizens’ access to the type and
intensity of care they actually need at the most
appropriate time and place, depending on their
specific situation. This is the aim of integrated care,
which can contribute to a more personalized care
and that must not be confused with continued care.
Continued care generally presumes that care is
provided for long periods of time and that there are
services that are delivered in addition to those ones
which are provided within the walls of the care
organizations. The provision of continued care
requires the involvement of a diversity of
professionals and organizations and the existence of
coordination mechanisms, generally in the context of
multidisciplinary team work (Dias and Queirós,
2010).
The provision of health care services is based on
scientifically optimized standard procedures oriented
to diagnosis-based needs and centred on diseases
(Rigby, 2012). However, there are a range of
activities that are essential for the maintenance of
individuals’ quality of life and that are part of the
normal living of every citizen. Such activities
include daily life activities (e.g. tasks at home,
403
Queirós A., Carvalho S., Pavão J. and Pacheco da Rocha N..
AAL Information based Services and Care Integration.
DOI: 10.5220/0004326004030406
In Proceedings of the International Conference on Health Informatics (HEALTHINF-2013), pages 403-406
ISBN: 978-989-8565-37-2
Copyright
c
2013 SCITEPRESS (Science and Technology Publications, Lda.)
mobility, recreation or safety) and social
participation.
The clients of home care services can range from
persons with complex needs (e.g. 24 hours support)
to those who only need help occasionally with
relatively simple tasks (e.g. domiciliary support to
some activities of daily living). Therefore, home
care comprises a broad range of services, such as
rehabilitation, supportive and technical nursing care,
domestic aid, personal care or support to informal
caregivers.
To adequately meet the new demand patterns,
while ensuring equal access and care with sufficient
resources, the health and social systems need to
promote further decentralisation, shared
responsibilities and increased integration levels of
the provided services. This discussion is urgent in
order to optimize both effectiveness and efficiency
of the health and social care systems (Dias and
Queirós, 2010).
Since the purpose of integrated care is to achieve
a care that is less oriented by supply and focused on
the actual needs of the citizen, it can contribute to
the personalization of the services. The concept of
personalized care can be understood as the
individually customization of diagnosis and therapy.
Personalized care can also mean the empowerment
of the common citizen, allowing him or her to be
actively evolved in his or her health and care
pathway. This may contribute to the overall quality
of the care services provision and its effectiveness
and efficiency.
3 TECHNOLOGICAL SUPPORT
Within the contexts of continued care, integrated
care and personalized care, the existence of eHealth
services is essential to provide a better resources
allocation management, in accordance with the
citizens’ needs and those of the organizations
providing care services, considering its different
levels (Dias and Queirós, 2010).
Although there are many different concepts
associated to eHealth (Eysenbach, 2001), it can be
understood as the individualised provision of care
services independent of the time these services are
delivered as well as the physical location of actors
and resources involved in the care process (Blobel,
2010). It is commonly accepted that eHealth can
contributed both to the sustainability of health and
social care systems, and the empowerment of the
citizens. The eHealth paradigm promotes an easy
access to the existing resources and the knowledge
sharing whenever and wherever is necessary. The
existence of electronic records emphasizes the
citizens centred care, improves the prevention,
reduces the information redundancy, facilitates the
exchange and sharing of information among the care
providers (because electronic information can be
consulted starting from any point by properly
authorized users) and reduces the probability of
errors in adverse situations, through the access to the
complete patient record and the use of decision
support systems. Nowadays, the essential electronic
information associated with care providing is
distributed by Electronic Health Records (EHR),
Electronic Social Records (ESR) and Personal
Health Records (PHR).
The usage of EHR information can be
categorized as either primary or secondary: primary
use is associated with encounters between patients
and health care professionals, and secondary use is
related with education, research and development,
regulation and policy making.
The exchange and sharing of information
requires the existence of interoperable protocols.
This interoperability should facilitate the transfer of
information automatically between different care
sites. However, despite all the developments in
terms of systems interconnection and
interoperability protocols, the semantic
heterogeneity of the information remains a difficult
problem to solve, even if only EHR are considered.
ESR and PHR introduce additional interoperability
issues.
To address the EHR semantic interoperability
issue, there are several standards currently under
development aiming to structure and mark-up the
clinical content for the purpose of its exchange and
sharing. However, it is still difficult to foresee a
common agreement. In parallel with the
developments of the HL7 (e.g. RIM or Clinical
Document Architecture - CDA), the European
Committee for Standardization - Technical
Committee 251 (CEN/TC 251) is being defining the
EHRcom, which includes the OpenEHR Archetype
methodology to support the interoperability of
systems and components interacting with EHR
services (Katehakis et al., 2006).
Considering the importance of the integration of
health and social care services, the definition and
implementation of ESR have been considered during
the last years (SCDH, 2004). ESR should be
composed by various types of information, namely,
forms (e.g. nationally used forms or local assessment
forms), coded data (mainly for management and
statistical reporting purposes) or unstructured
HEALTHINF2013-InternationalConferenceonHealthInformatics
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information covering all other recording, including
those ones originated outside the organization (e.g.
letters, emails or notes of meetings).
Since the service models employed by health
care providers and social care providers are different
there are important differences between EHR and
ESR: healthcare records are focused on a single
patient, often with considerable details and depth,
and the confidentiality of the individual is strongly
protected, while social care records, on the other
end, place the individual in their daily living context
of family and other informal carers, including the
attitudes and effects on each, so as to ensure mental
support and understanding (Rigby, 2012).
Since the empowerment of each citizen also
means that he or she should be able to contribute
with documentation, namely observations of his or
her daily living (Bos, 2012), PHR have, nowadays,
an increasing importance. They include data and
information related with the individuals’ lifetime
and individuals’ care maintain by each individual.
Furthermore, PHR can represent more than a
repository for the individual data, because they are
able to combine data, information, knowledge and
tools to help any individual to be proactive in their
own care (Schloeffel, 2003). This stands in contrast
with EHR, which are operated by organizations and
contains data entered by professionals.
The information on a PHR might include patient-
reported outcome data, laboratory results, and data
from a broad range of devices. For instance,
important data sources are wearable remote
monitoring systems with sensors to capture
physiological parameters such as electrocardiogram
(ECG), blood pressure, body temperature or heart
rate. These devices are particularly important for
home care and are one of the research investments of
the promising AAL developments (Queirós et al.,
2012).
4 CONCEPT
The AAL environments can increase or maintain the
individuals’ performance in a broad spectrum of
activities and participation. Furthermore, AAL
systems should acquire context information and
combine multiple sources of information and make
pattern-based predictions to be able to track the
individuals (e.g. localization, activities or
behaviours).
Another range of AAL services are related with
biomedical devices that can be implemented and
used both in clinical settings and in persons’ home,
smoothing the transition between both environments
(Blobel, 2010).
Since information is a requisite for high quality
care services and also for the empowerment of the
citizens’, the potential of AAL services can be
increased, if there is the possibility to create the
conditions to integrate both user-generated data and
AAL services-generated data with institutional EHR
and ESR, so that care can be more integrated,
personalized and useful for citizens. Consequently,
there is the need that AAL infrastructures should
support information architectures that enable the
creation and maintenance of information objects,
according to the requirements and needs of a wide
range of users and care providers.
Due to the difficult to accommodate the
development of new applications in poor structured
contexts (Heeks, 2006), open management
information paradigms (Yli-Hietanen and Niiranen,
2008) are required with robust and stable domain
models separated from the implementations and able
to specific adaptation. In this respect, we argue that
AAL information architectures should follow an
open management information paradigm, with two
modelling levels for the information structure: the
information model and the knowledge model.
The first level, the information model, embraces
all data types that are required to record the pertinent
information. It is the fundamental model required for
the technical implementation and, therefore, must be
stable over time in order to be maintainable. On the
other end, in the second level, the knowledge model,
domain and application specific concepts are
modelled (archetypes) with constraint rules to
specialize the underlying information model.
According to this approach, archetypes are instances
of an object oriented system implementation, which
means they can be created and manipulated by
adequate tools and alter as desired, without changing
the underlying information technical specifications.
The concept was validated by defining a data
repository (i.e. the information model), accordingly
to HL7 RIM and a set of functions for the
management of the archetypes, in order to shape the
HL7 RIM to specific application domains (i.e. the
knowledge model).
For the specification of the data repository we
select the HL7 RIM. Thus, data repository is
characterized by being a generic container and it is
necessary to evaluate whether this container is
adequate to accommodate all information objects
that can be associated with AAL services.
The followed validation procedure consisted in
the creation of scenarios, emphasizing not only the
AALInformationbasedServicesandCareIntegration
405
use of EHR but also the use of ESR and PHR, and in
the verification if all the information objects
required by these scenarios were supported by the
architecture.
In what respects PHR, it was considered the
implementation of a PHR application with a specific
interface to contribute with documentation related
with observations of daily living, namely, nutritional
and physical activities. The basic PHR structure was
based in the Health Information Form for Adults of
the American Health Information Management
Association (AHIMA) and the required archetypes
are compatible with the generic data container.
The ESR specification considered the
requirements of supporting all the information that is
essential for the care providing, reflecting on
different organizational levels and different types of
processes, namely in respect to observations,
reasoning or intentions.
The validation has shown that the generic data
container can support information structures not
only of EHR but also of PHR and ESR. The created
archetypes are compatible with the data container
and allow answering six basic questions linked to
each record: what, when, where, who, why and how.
Therefore, the information architecture is able to
integrate both user-generated and AAL services-
generated data with institutional health and social
care repositories and presents adequate models to
organize the information according to the
requirements of care services.
5 CONCLUSIONS
The AAL systems ability to acquire and combine
multiple sources of information to track the
individual’s activities and behaviours must be
considered in terms of the provision of health and
social care.
Therefore, it is required information architectures
able to accommodate a wide range of information
objects within the AAL environments. The proposed
architecture follows an open management
information paradigm, where the knowledge model
adjusts the information model to the requirements of
each specific domain application, which can
contribute to the integration of EHR, ESR and PHR.
ACKNOWLEDGEMENTS
This work was supported by COMPETE - Sistema
de Incentivos à Investigação e Desenvolvimento
Tecnológico, Projectos de I&DT Empresas em co-
promoção, under QREN TICE.Healthy.
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