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What’s Biomedical Informatics?

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Biomedical informatics is a rapidly growing field that combines biology and information technology to advance healthcare. It has led to groundbreaking advances in personalized medical care, medical assessments, and diagnostic techniques. The goal is to further consolidate and develop the field by studying available biological data and creating innovative algorithms and software. The engagement and support of the entire health sector is necessary to make widespread use of available clinical data and information systems.

Biomedical informatics, as a scientific discipline, traces its roots back to the early 1970s. It includes the fields of bioinformatics, medical imaging, health informatics, and many other disciplines. In recent years, this biological field has experienced explosive growth, thanks to public access to massive amounts of data generated by the Human Genome Project. A number of other complementary research efforts have also contributed to the knowledge base. This synergistic blend of multiple branches of biology, combined with information technology and knowledge, has enabled researchers and clinicians to use a variety of information to advance biological research and health care.

The integration of information technology and biomedical knowledge has paved the way for remarkable advances in the healthcare and pharmaceutical industries. Health-related events, such as modeling, DNA sequence identification, protein structure analysis, and data manipulation, can be performed effortlessly and with remarkable speed. The breadth and depth of innovative information and understanding of the human organism and its environment run the gamut. The accumulation and application of data and knowledge ranges from molecular exchanges and cellular communication to personal genotypes and group populations.

Many life sciences professionals expect groundbreaking volumes of knowledge from various projects to revolutionize the field of health. Perhaps the most significant application of biomedical informatics is probably in personalized medical care. By using traditional health data already included in personal health records, individual phenotype information, and other sources, clinicians can deliver better health services. They may also position themselves to be more proactive and better able to detect disease early in development.

Another benefit derived from the advancement of biomedical informatics is the ability of healthcare professionals to create lucid and sophisticated medical assessments of individuals. Profiles can be made available to patients and their healthcare professionals. Some people may even choose to leverage this information in other areas of their lives, including nutritional options, lifestyle decisions, career choices, and identifying prenatal illnesses. Other goals inherent in biomedical informatics include the promotion of discoveries and innovations in diagnostic and corrective techniques. These findings not only have the potential to improve the healthcare system, but can also create greater effectiveness and efficiency across the industry.
As the field of biomedical informatics matures, proponents have the broader goal of further consolidation and development of this branch of science. This could be accomplished by researchers continuing to study and decipher the abundance of available biological data. Refining and creating innovative algorithms, specialized software, and automated processes can also help. In the post-genome era, the challenge remains to make significant progress in the delivery of personalized medical services and to reduce costs. This could be achieved with the engagement and support of the entire health sector to make widespread use of available clinical data, knowledge and information systems.

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