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Understanding the metabolic changes that occur in various disease states allows a more accurate diagnosis to be made. Further, understanding mechanisms behind metabolic changes establishes a relationship between phenotype, biological function, and metabolic markers.
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While genomics and proteomics are concerned with upstream events as a consequence of genetic processes and the resulting protein populations, metabolomics measures the end product once genetic, environmental, pharmacological and pathological influences have been accounted for.
The Human Metabolome Database presently lists over 114,000 molecules. Each cell type, tissue or organ has a particular metabolomic fingerprint, unique due to the number and type of certain metabolites that are found there. Unexpected amounts or types of metabolites may imply a current or impending health issue.
What are the diagnostic applications of metabolomic profiling?
Diagnosing organ dysfunction
Many types of organ dysfunction may be diagnosed through metabolomic profiling, tetracycline amoxicillin particularly where the organs are responsible for the processing of chemicals from one form to another, or of metabolizing. For example, the onset of fatty liver disease and kidney disease can be predicted with high accuracy in young adults due to high concentrations of circulating lipid and fatty acid metabolites.
Predicting disease state
Many conditions that a patient is likely to develop may be predicted by the population of metabolites, such as heart failure. Pharmaceutical companies frequently perform metabolomic profiling on patients undergoing clinical trials, and the biodistribution, efficacy, and toxicity of a drug can be determined.
Metabolomic profiling can be used to assess the impact of any genetic changes to the metabolome. Post-mortem metabolomic profiling of the brain can provide insights regarding a wide range of neuronal disorders and mental illnesses, such as Alzheimer’s, schizophrenia, depression and others.
What analytical techniques are applied to study metabolome?
Multiple complimentary analytical techniques are used to determine the presence and concentration of various metabolites. The metabolites represent a wide array of chemical classes, including organic acids, fatty acids, sugars, alcohols, steroids, nucleic acid bases, phospholipids, and many more.
A diverse collection of analytical methods is usually employed for non-targeted metabolomic profiling. Nuclear magnetic resonance spectroscopy, mass spectrometry, Fourier-transform infrared spectroscopy, and gas and liquid chromatography are frequently used.
What is non-invasive metabolomic profiling?
Although blood and tissue are commonly used sample sources for metabolomic profiling, the collection is frequently uncomfortable for the patient and requires highly trained staff to properly extract and handle these samples. Urine, exhaled breath, saliva, sweat, hair, and fecal extract represent non-invasive sources for metabolomic profiling,
Sources
- Metabolomic profiling as a useful tool for diagnosis and treatment of chronic disease: focus on obesity, diabetes and cardiovascular diseases.
- Noninvasive metabolic profiling for painless diagnosis of human diseases and disorders.
- Targeted Metabolomics.
- The metabolomic quest for a biomarker in chronic kidney disease.
- Metabolic profiling of fatty liver in young and middle‐aged adults: Cross‐sectional and prospective analyses of the Young Finns Study.
Further Reading
- All Metabolomics Content
- What is Metabolomics?
- Applications of Metabolomics?
- Metabolites – What are Metabolites?
- History of Metabolomics
Last Updated: Jan 22, 2019
Written by
Michael Greenwood
Michael graduated from Manchester Metropolitan University with a B.Sc. in Chemistry in 2014, where he majored in organic, inorganic, physical and analytical chemistry. He is currently completing a Ph.D. on the design and production of gold nanoparticles able to act as multimodal anticancer agents, being both drug delivery platforms and radiation dose enhancers.
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