197 research outputs found
The implementation of electronic records related to the nursing process: integrative review / A implementação dos registros eletrônicos relacionados ao processo de enfermagem: revisão integrativa
Objetivo O estudo objetivou identificar quais estratégias estão sendo utilizadas na implementação de registros eletrônicos relacionados ao processo de enfermagem, nas bases de dados: PubMed, Scopus e Web of Science. Métodos Trata-se de uma revisão integrativa na qual os descritores utilizados foram electronic healthrecords e nursing process. Resultados Os dados encontrados indicam que os estudos em sua maioria foram pesquisas quantitativas, publicadas no periódico Nursing informatics (Studies in Health Technology and Informatics) desenvolvidas em universidades e no continente americano. Conclusões Os dados apontam que a maior parte das pesquisas são referentes a usabilidade do registro eletrônico em saúde. Outros aspectos abordados foram as fragilidades e perspectivas associados ao uso do registro eletrônico, bem como o processo de enfermagem em sistemas informatizados
Patient-Centric Knowledge Graphs: A Survey of Current Methods, Challenges, and Applications
Patient-Centric Knowledge Graphs (PCKGs) represent an important shift in
healthcare that focuses on individualized patient care by mapping the patient's
health information in a holistic and multi-dimensional way. PCKGs integrate
various types of health data to provide healthcare professionals with a
comprehensive understanding of a patient's health, enabling more personalized
and effective care. This literature review explores the methodologies,
challenges, and opportunities associated with PCKGs, focusing on their role in
integrating disparate healthcare data and enhancing patient care through a
unified health perspective. In addition, this review also discusses the
complexities of PCKG development, including ontology design, data integration
techniques, knowledge extraction, and structured representation of knowledge.
It highlights advanced techniques such as reasoning, semantic search, and
inference mechanisms essential in constructing and evaluating PCKGs for
actionable healthcare insights. We further explore the practical applications
of PCKGs in personalized medicine, emphasizing their significance in improving
disease prediction and formulating effective treatment plans. Overall, this
review provides a foundational perspective on the current state-of-the-art and
best practices of PCKGs, guiding future research and applications in this
dynamic field
Doctor of Philosophy
dissertationElectronic Health Records (EHRs) provide a wealth of information for secondary uses. Methods are developed to improve usefulness of free text query and text processing and demonstrate advantages to using these methods for clinical research, specifically cohort identification and enhancement. Cohort identification is a critical early step in clinical research. Problems may arise when too few patients are identified, or the cohort consists of a nonrepresentative sample. Methods of improving query formation through query expansion are described. Inclusion of free text search in addition to structured data search is investigated to determine the incremental improvement of adding unstructured text search over structured data search alone. Query expansion using topic- and synonym-based expansion improved information retrieval performance. An ensemble method was not successful. The addition of free text search compared to structured data search alone demonstrated increased cohort size in all cases, with dramatic increases in some. Representation of patients in subpopulations that may have been underrepresented otherwise is also shown. We demonstrate clinical impact by showing that a serious clinical condition, scleroderma renal crisis, can be predicted by adding free text search. A novel information extraction algorithm is developed and evaluated (Regular Expression Discovery for Extraction, or REDEx) for cohort enrichment. The REDEx algorithm is demonstrated to accurately extract information from free text clinical iv narratives. Temporal expressions as well as bodyweight-related measures are extracted. Additional patients and additional measurement occurrences are identified using these extracted values that were not identifiable through structured data alone. The REDEx algorithm transfers the burden of machine learning training from annotators to domain experts. We developed automated query expansion methods that greatly improve performance of keyword-based information retrieval. We also developed NLP methods for unstructured data and demonstrate that cohort size can be greatly increased, a more complete population can be identified, and important clinical conditions can be detected that are often missed otherwise. We found a much more complete representation of patients can be obtained. We also developed a novel machine learning algorithm for information extraction, REDEx, that efficiently extracts clinical values from unstructured clinical text, adding additional information and observations over what is available in structured text alone
Towards a system of concepts for Family Medicine. Multilingual indexing in General Practice/ Family Medicine in the era of Semantic Web
UNIVERSITY OF LIÈGE, BELGIUM
Executive Summary
Faculty of Medicine
Département Universitaire de Médecine Générale.
Unité de recherche Soins Primaires et Santé
Doctor in biomedical sciences
Towards a system of concepts for Family Medicine.
Multilingual indexing in General Practice/ Family Medicine in the era
of SemanticWeb
by Dr. Marc JAMOULLE
Introduction
This thesis is about giving visibility to the often overlooked work of family
physicians and consequently, is about grey literature in General Practice
and Family Medicine (GP/FM). It often seems that conference organizers
do not think of GP/FM as a knowledge-producing discipline that deserves
active dissemination. A conference is organized, but not much is done with
the knowledge shared at these meetings. In turn, the knowledge cannot be
reused or reapplied. This these is also about indexing. To find knowledge
back, indexing is mandatory. We must prepare tools that will automatically
index the thousands of abstracts that family doctors produce each year in
various languages. And finally this work is about semantics1. It is an introduction
to health terminologies, ontologies, semantic data, and linked
open data. All are expressions of the next step: Semantic Web for health
care data. Concepts, units of thought expressed by terms, will be our target
and must have the ability to be expressed in multiple languages. In turn,
three areas of knowledge are at stake in this study: (i) Family Medicine as a
pillar of primary health care, (ii) computational linguistics, and (iii) health
information systems.
Aim
• To identify knowledge produced by General practitioners (GPs) by
improving annotation of grey literature in Primary Health Care
• To propose an experimental indexing system, acting as draft for a
standardized table of content of GP/GM
• To improve the searchability of repositories for grey literature in GP/GM.
1For specific terms, see the Glossary page 257
x
Methods
The first step aimed to design the taxonomy by identifying relevant concepts
in a compiled corpus of GP/FM texts. We have studied the concepts
identified in nearly two thousand communications of GPs during
conferences. The relevant concepts belong to the fields that are focusing
on GP/FM activities (e.g. teaching, ethics, management or environmental
hazard issues).
The second step was the development of an on-line, multilingual, terminological
resource for each category of the resulting taxonomy, named
Q-Codes. We have designed this terminology in the form of a lightweight
ontology, accessible on-line for readers and ready for use by computers of
the semantic web. It is also fit for the Linked Open Data universe.
Results
We propose 182 Q-Codes in an on-line multilingual database (10 languages)
(www.hetop.eu/Q) acting each as a filter for Medline. Q-Codes are also available
under the form of Unique Resource Identifiers (URIs) and are exportable
in Web Ontology Language (OWL). The International Classification of Primary
Care (ICPC) is linked to Q-Codes in order to form the Core Content
Classification in General Practice/Family Medicine (3CGP). So far, 3CGP is
in use by humans in pedagogy, in bibliographic studies, in indexing congresses,
master theses and other forms of grey literature in GP/FM. Use by
computers is experimented in automatic classifiers, annotators and natural
language processing.
Discussion
To the best of our knowledge, this is the first attempt to expand the ICPC
coding system with an extension for family physician contextual issues,
thus covering non-clinical content of practice. It remains to be proven that
our proposed terminology will help in dealing with more complex systems,
such as MeSH, to support information storage and retrieval activities.
However, this exercise is proposed as a first step in the creation of an ontology
of GP/FM and as an opening to the complex world of Semantic Web
technologies.
Conclusion
We expect that the creation of this terminological resource for indexing abstracts
and for facilitating Medline searches for general practitioners, researchers
and students in medicine will reduce loss of knowledge in the
domain of GP/FM. In addition, through better indexing of the grey literature
(congress abstracts, master’s and doctoral theses), we hope to enhance
the accessibility of research results and give visibility to the invisible work
of family physicians
Automatic Generation of Personalized Recommendations in eCoaching
Denne avhandlingen omhandler eCoaching for personlig livsstilsstøtte i sanntid ved bruk av informasjons- og kommunikasjonsteknologi. Utfordringen er å designe, utvikle og teknisk evaluere en prototyp av en intelligent eCoach som automatisk genererer personlige og evidensbaserte anbefalinger til en bedre livsstil. Den utviklede løsningen er fokusert på forbedring av fysisk aktivitet. Prototypen bruker bærbare medisinske aktivitetssensorer. De innsamlede data blir semantisk representert og kunstig intelligente algoritmer genererer automatisk meningsfulle, personlige og kontekstbaserte anbefalinger for mindre stillesittende tid. Oppgaven bruker den veletablerte designvitenskapelige forskningsmetodikken for å utvikle teoretiske grunnlag og praktiske implementeringer. Samlet sett fokuserer denne forskningen på teknologisk verifisering snarere enn klinisk evaluering.publishedVersio
- …