Comput Struct Biotechnol J
December 2024
Precision health extends beyond the scope of precision medicine and involves a broader range of activities, including the prediction, prevention, treatment, and management of diseases. Tailored to specific populations, precision health offers personalized treatment and preventive measures considering genetics, lifestyle behaviors, social determinants of health, and environmental factors. Precision medicine focuses on the personalized treatment of diseases, whereas precision health aims to promote health and prevent diseases using tools such as big data and advanced analytics to predict health risks and prevent diseases at the population level.
View Article and Find Full Text PDFA gene bank for farm animal genetic resources (FAGR) is an important facility for the diversity conservation of FAGR. The primary purpose of gene banks for FAGR is the reconstruction of those breeds. With the advent of the post-genomic era, gene banks for FAGR have increasingly become an infrastructure for the support of livestock research and animal breeding, and a platform for international research collaboration.
View Article and Find Full Text PDFComput Struct Biotechnol J
March 2022
"Precision medicine" has revolutionized how we respond to diseases by using an individual's genomic data and lifestyle and environment-related information to create an effective personalized treatment. However, issues surrounding regulations, medical insurance payments and the use of patients' medical data, have delayed the development of precision medicine and made it difficult to achieve "true" personalization. We therefore recommend that precision medicine be transformed into precision health: a novel and generalized platform of tools and methods that could prevent, manage, and treat disease at a population level.
View Article and Find Full Text PDFResearchers expect a high quality of biospecimens/data and value-added services from biobanks. Therefore, the concept of "biobank 3.0" was introduced so that biobanks could better meet the needs of stakeholders and maintain sustainable operations.
View Article and Find Full Text PDFComput Struct Biotechnol J
August 2019
Background: In this article, incidental findings (IF) refer to unforeseen findings made possible through biobanking research and advances in medical diagnostic technologies that raise issues regarding the obligation and/or responsibility of biobank-users and biobanks to return clinically significant information to participants. The World Medical Association (WMA) Declaration of Taipei (2016) highlights the possibility of encountering IF and requires that research on biospecimens address biobank feedback policies in their informed consent process, leaving open the possibility that the policy may be "no return". As clinicians and researchers begin to use these "resources", the possibility of finding clinically significant IF is becoming a reality.
View Article and Find Full Text PDFThe emergence of biobanks has expanded the scope of biomedical research, ushering in an era of "precision medicine" to improve the treatment of disease. However, biobanks also face sustainability challenges comprising three dimensions-"financial," "operational," and "social." The Taiwan Biobank (TWB), as a large-scale national biobank that supplies valuable phenotypic and genetic information to biomedical researchers on an application basis to investigate the relationship among personal health, genes, lifestyle, environment and diseases of the Taiwanese population, has not been sufficiently explored by researchers.
View Article and Find Full Text PDFThe Taiwan Biobank (TWB) is a biomedical research database of biopsy data from 200 000 participants. Access to this database has been granted to research communities taking part in the development of precision medicines; however, this has raised issues surrounding TWB's access to electronic medical records (EMRs). The Personal Data Protection Act of Taiwan restricts access to EMRs for purposes not covered by patients' original consent.
View Article and Find Full Text PDFThis paper introduces legal framework and governance structure in relation to the management and development of biobanks in Taiwan. At first, we briefly describe Taiwan's population, political system and health care system. Secondly, this research introduces biobanking framework of Taiwan including 25 biobanks established with the approval of the Ministry of Health and Welfare.
View Article and Find Full Text PDFThis paper reports the results of a workshop held in January 2013 to begin the process of establishing standards for e-learning programmes in the ethics of research involving human participants that could serve as the basis of their evaluation by individuals and groups who want to use, recommend or accredit such programmes. The standards that were drafted at the workshop cover the following topics: designer/provider qualifications, learning goals, learning objectives, content, methods, assessment of participants and assessment of the course. The authors invite comments on the draft standards and eventual endorsement of a final version by all stakeholders.
View Article and Find Full Text PDFTogether with the completion of the Human Genome Project, biomedical research has marched into the "Post-Genomic Era." In order to take advantage of this extracted gene related information extensively and precisely so as to realize man's biological phenomena as well as the mechanism of pathogenesis, consequentially, a large scale sample collection of different geological areas and/or ethnic groups becomes necessary for the future population based genetic research of a country and, in turn, the construction of population-based genetic database (Biobank). In recent years, both mainland China and Taiwan have not only made great progress in information and computation technologies, but have also gradually taken a close look into the quality of medicine delivery.
View Article and Find Full Text PDFTogether with the completion of the Human Genome Project, biomedical research has marched into the "Post-Genomic Era." In order to take advantage of these extracted gene related information extensively and precisely so as to realize the human being's biological phenomena as well as the mechanism of pathogenesis, consequentially, large scale sample collection of different geological areas and/or ethic group becomes necessary for the future population based genetic research of a country and, in turn, the construction of population-based genetic database (Biobank). In recent years, both mainland China & Taiwan have not only made great progress in information & computation technologies but have also gradually taken a close look into the quality of medicine delivery.
View Article and Find Full Text PDFPharmacogenomics
February 2008
Essentially, the term 'biobank' can be defined in different ways. Taking the UK Biobank's experience as the main example, the Taiwan Biobank aims to collect the DNA of a large group of people on the population base and track their health and lifestyle for at least 10 years. It is hoped that the information collected, regarding the mechanisms underlying how genes and environmental factors interact with each other to make us ill, will benefit the society in various ways, including the exploration of a new generation of treatments, support to preventive medicine discovery and also the possible benefits for the promotion of evolving public health-related industries in Taiwan.
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