Genomic medicine is the latest in healthcare. Genomic medicine uses a patient’s individual immune system to supply personal medical treatment. Genomic medicine is making a strong impact in the area of infectious diseases, oncology, undiagnosed, and rare diseases, and pharmacology.
The history of Genomic medicine dates had to 2O11, when the National Academy of Sciences requested a need for the adoption of precision medicine. Genomics, along with environmental exposure, epigenomics, etc., can create new and improved medical treatments. People are individuals, and their medical treatment should also be individual. Precision medicine can use a very accurate guide individual diagnosis. The guide is considered a subgroup of precision medicine.
Genomic is leading the fight in oncology to help eventually cure all cancers. Genomic treatment for oncology patients includes cancer screenings. The screenings will help physicians guide individualized treatments and strategies for each cancer patient. Oncologists are starting to use genome markers.
What is genometics? Genomics is to a person’s medical history, what genealogy is about the family history. Genetics can give doctors a clue about the medical family history. Some diseases, like breast cancer, can run in the family. Genomics is an elaborate word for DNA.
Genometics is on the threshold of emerging rapidly. Genometics tells the story of how a person developed from a tiny cell. The genome will guide the organs to do their job correctly and repair themselves when they become damaged. The more a person knows about their genome, the better off they’ll be able to make proper health decisions.
A genome is when the entire DNA is stretched out from end to end. The genome creates a very long 6 billion letter code. Many people find it hard to believe how much DNA can be packed into a tiny cell. DNA genome is so small that it can only be seen through a microscope.
A genome is the long twisted ladder-like object known as a double DNA helix. The DNA is a code series of letters A, C, G, and T. The building block codes A, C, G, and T codes stand for adenine, cytosine, guanine, and thymine. The codes vary and change ever so slightly to make every person unique. The DNA is divided into different 23-length pairs of chromosomes.