Medical Biochemistry is the branch of Biochemistry that studies the chemical composition and process in the human body. Pharmaceutical manufacturing, clinical laboratory, molecular biology forensic investigations are some of the interesting areas of medical biochemistry.
Similarly one may ask, how biochemistry could be useful in health & disease?
Biochemistry makes significant contributions to the fields of cell biology, physiology, immunology, microbiology, pharmacology, and toxicology, as well as the fields of inflammation, cell injury, and cancer. These close relationships emphasize that life, as we know it, depends on biochemical reactions and processes.
Regarding this, what are examples of biochemistry?
The definition of biochemistry is a field of science that deals with the study of chemical processes in plants and animals. An example of biochemistry is the study of cell metabolism.
What are the 5 metabolic disorders?
Examples include:
- Familial hypercholesterolemia.
- Gaucher disease.
- Hunter syndrome.
- Krabbe disease.
- Maple syrup urine disease.
- Metachromatic leukodystrophy.
- Mitochondrial encephalopathy, lactic acidosis, stroke-like episodes (MELAS)
- Niemann-Pick.
What are the most common metabolic disorders?
Diabetes
- liver cirrhosis.
- liver cancer.
- diabetes.
- heart disease.
What are the top 5 biochemistry careers?
Job options
- Clinical scientist, biochemistry.
- Forensic scientist.
- Medicinal chemist.
- Nanotechnologist.
- Pharmacologist.
- Physician associate.
- Research scientist (life sciences)
- Scientific laboratory technician.
What is biochemistry in medical laboratory?
Clinical Biochemistry is the division of laboratory medicine that deals with the measurement of chemicals (both natural and unnatural) in blood, urine and other body fluids. These test results are useful for detecting health problems, determining prognosis and guiding the therapy of a patient.
What tests are in biochemistry?
Special biochemical tests
- Zinc (urine or semen)
- Lactate dehydrogenase isoenzymes (LDH-ISO)
- Alkaline phosphatase isoenzymes (ISO-ALP)
- Creatine phosphatase isoenzymes (ISO-CPK)
- Sweat conductivity test (to diagnose cystic fibrosis – CF)
- Copper (blood and urine)
Why do we study biochemical diseases?
Biochemical techniques advance our understanding of the chemical structures and processes that underpin human health and disease, revealing the underlying transformations between these two physiological states. The implications of uncovering the causes of pathologies on a cellular level are huge.