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Clinical chemistry

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(Redirected from Pathological chemistry)
A clinical chemistry analyzer; hand shows size

Clinical chemistry (also known as chemical pathology, clinical biochemistry or medical biochemistry) is a division in medical laboratory sciences focusing on qualitative tests of important compounds, referred to as analytes or markers, in bodily fluids and tissues using analytical techniques and specialized instruments.[1] This interdisciplinary field includes knowledge from medicine, biology, chemistry, biomedical engineering, informatics, and an applied form of biochemistry (not to be confused with medicinal chemistry, which involves basic research for drug development).[citation needed]

The discipline originated in the late 19th century with the use of simple chemical reaction tests for various components of blood and urine. Many decades later, clinical chemists use automated analyzers in many clinical laboratories. These instruments perform experimental techniques ranging from pipetting specimens and specimen labelling to advanced measurement techniques such as spectrometry, chromatography, photometry, potentiometry, etc.[2] These instruments provide different results that help identify uncommon analytes, changes in light and electronic voltage properties of naturally-occurring analytes such as enzymes, ions, electrolytes, and their concentrations, all of which are important for diagnosing diseases.

Blood and urine are the most common test specimens clinical chemists or medical laboratory scientists collect for clinical routine tests, with a main focus on serum and plasma in blood.[3] There are now many blood tests and clinical urine tests with extensive diagnostic capabilities. Some clinical tests require clinical chemists to process the specimen before testing. Clinical chemists and medical laboratory scientists serve as the interface between the laboratory side and the clinical practice, providing suggestions to physicians on which test panel to order and interpret any irregularities in test results that reflect on the patient's health status and organ system functionality.[4] This allows healthcare providers to make more accurate evaluation of a patient's health and to diagnose disease, predicting the progression of a disease (prognosis), screening, and monitoring the treatment's efficiency in a timely manner. The type of test required dictates what type of sample is used.

Common Analytes

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Some common analytes that clinical chemistry tests analyze include:

Panel tests

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A physician may order many laboratory tests on one specimen, referred to as a test panel, when a single test cannot provide sufficient information to make a swift and accurate diagnosis and treatment plan. A test panel is a group of many tests a clinical chemists do on one sample to look for changes in many analytes that may be indicative of specific medical concerns or the health status of an organ system.[5] Thus, panel tests provide a more extensive evaluation of a patient's health, have higher predictive values for confirming or disproving a disease, and are quick and cost-effective.

Metabolic Panel

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A Metabolic Panel (MP) is a routine group of blood tests commonly used for health screenings, disease detection, and monitoring vital signs of hospitalized patients with specific medical conditions. MP panel analyzes common analytes in the blood to assess the functions of the kidneys and liver, as well as electrolyte and acid-base balances. There are two types of MPs - Basic Metabolic Panel (BMP) or Comprehensive Metabolic Panel (CMP).[6]

Basic Metabolic Panel

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BMP is a panel of tests that measures eight analytes in the blood's fluid portion (plasma). The results of the BMP provide valuable information about a patient's kidney function, blood sugar level, electrolyte levels, and the acid-base balance. Abnormal changes in one or more of these analytes can be a sign of serious health issues:

  • Sodium, Potassium, Chloride, and Carbon Dioxide: they are electrolytes that have electrical charges that manage the body’s water level, acid-base balance in the blood, and kidney function.[7]
  • Calcium: This charged electrolyte is essential for the proper functions of nerve, muscle, blood clotting, and bone health. Changes in the calcium level can be signs of bone disease, muscle cramps/ spasms, thyroid disease, or other conditions.[8]
  • Glucose: This measures the blood sugar levels, which is a crucial energy for your body and brain. High glucose levels can be a sign of diabetes or insulin resistance.[7]
  • Urea and Creatinine: These are waste products that the kidney filters out from blood. Urea measurements are helpful in detecting and treating kidney failure and related metabolic disorders, whereas creatinine measurements give information on kidney’s health, tracking renal dialysis treatment, and monitor hospitalized patients that are on diuretics.[7]

Comprehensive Metabolic Panel

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Comprehensive metabolic panel (CMP) - 14 tests - above BMP plus total protein, albumin, alkaline phosphatase (ALP), alanine amino transferase (ALT), aspartate amino transferase (AST), bilirubin.

Specimen Processing

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For blood tests, clinical chemists must process the specimen to obtain plasma and serum before testing for targeted analytes. This is most easily done by centrifugation, which packs the denser blood cells and platelets to the bottom of the centrifuge tube, leaving the liquid serum fraction resting above the packed cells. This initial step before analysis has recently been included in instruments that operate on the "integrated system" principle. Plasma is obtained by centrifugation before clotting occurs.

Instruments

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Most current medical laboratories now have highly automated analyzers to accommodate the high workload typical of a hospital laboratory, and accept samples for up to about 700 different kinds of tests.[9] Even the largest of laboratories rarely do all these tests themselves, and some must be referred to other labs. Tests performed are closely monitored and quality controlled.

Specialties

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The large array of tests can be categorised into sub-specialities of:

See also

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Notes and references

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  1. ^ Bishop, Michael L.; Fody, Edward P.; Schoeff, Fody (2020). Clinical Chemistry: Principles, Techniques, Correlations. Enhanced Edition (8th ed.). Burlington: Jones & Bartlett Learning. pp. 76–77. ISBN 9781284510140.
  2. ^ Burtis, Carl A.; Bruns, David E. (2014). Tietz Fundamentals of Clinical Chemistry and Molecular Diagnostics (7th ed.). Missouri: Elsevier. pp. 674–709. ISBN 978-1-4557-4165-6.
  3. ^ Science, Mayo Clinic College of Medicine and. "Medical Laboratory Scientist - Explore Health Care Careers - Mayo Clinic College of Medicine & Science". Mayo Clinic College of Medicine and Science. Retrieved 2023-04-02.
  4. ^ Abisti, Gerard Evans. "Chemical Pathology". The Association of Clinical Pathologists. Retrieved 2023-03-31.
  5. ^ thrive (2020-05-10). "Benefits of Lab Test Panels (Bundled Tests)". Test Smartly Labs. Retrieved 2023-04-15.
  6. ^ "Basic Metabolic Panel (Blood) - Health Encyclopedia - University of Rochester Medical Center". www.urmc.rochester.edu. Retrieved 2023-04-15.
  7. ^ a b c Rao, L. V.; Snyder, L. Michael (2020). Wallach's Interpretation of Diagnostic Tests: Pathways to Arriving at a Clinical Diagnosis (11th ed.). Lippincott Williams & Wilkins. ISBN 978-1-97-510558-7.
  8. ^ MedlinePlus [Internet]. Bethesda (MD): National Library of Medicine (US); Calcium Blood Test; [updated 2022 Jun 02; cited 2023 April 05]; [about 3 screens]. Available from: https://medlineplus.gov/lab-tests/calcium-blood-test/
  9. ^ Armbruster DA, Overcash DR, Reyes J (August 2014). "Clinical Chemistry Laboratory Automation in the 21st Century - Amat Victoria curam (Victory loves careful preparation)". The Clinical Biochemist Reviews. 35 (3): 143–53. PMC 4204236. PMID 25336760.

Bibliography

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Burtis, Carl A.; Ashwood, Edward R.; Bruns, David E. (2006). Tietz textbook of clinical chemistry (4th ed.). Saunders. p. 2448. ISBN 978-0-7216-0189-2.

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