Medical laboratory scientist

Medical laboratory scientist
A medical laboratory scientist at the National Institutes of Health preparing DNA samples.
Occupation
Names
  • Medical Laboratory Scientist (MLS) / Clinical Laboratory Scientist (CLS) / Medical Technologist (MT)
  • Doctor of Medical Laboratory Science (DMLS) / Doctor of Clinical Laboratory Science (DCLS)
Occupation type
Professional
Activity sectors
Health care, Medicine, Research & Development, Allied Health, Biomedical research
Description
CompetenciesAnalytical skills, quality control and knowledge of laboratory medicine and technology, ethics, art and science of medicine, analytical skills, and critical thinking
Education required
  • Doctor of Philosophy for Management/Directorship Roles
  • Doctor of Medical Laboratory Sciences (DMLS) for Management/Directorship Roles
  • Master of Science often for Education/Management Roles
  • Honours degree in Laboratory Science (Scientist)
  • Bachelor of Science in Medical Laboratory Science (Scientist)
  • Bachelor of Biomedical Science
  • Bachelor of Medical Laboratory Technology
  • Doctor of Medical Laboratory Science (Doctor or DMLS )
Fields of
employment
  • Hospital
  • Clinic
  • Private laboratory
  • Government agency
  • Non-Governmental Organization
  • Biomedical Engineer
  • Biomedical technology industry
Related jobs

A Medical Laboratory Scientist (MLS) or Clinical Laboratory Scientist (CLS) or Medical Technologist (MT) is a licensed Healthcare professional who performs diagnostic testing of body fluids, blood and other body tissue. The Medical Technologist is tasked with releasing the patient results to aid in further treatment. The scope of a medical laboratory scientist's work begins with the receipt of patient or client specimens and finishes with the delivery of test results to physicians and other healthcare providers.[1] The utility of clinical diagnostic testing relies squarely on the validity of test methodology.[2][3][4] To this end, much of the work done by medical laboratory scientists involves ensuring specimen quality, interpreting test results, data-logging, testing control products, performing calibration, maintenance, validation, and troubleshooting of instrumentation as well as performing statistical analyses to verify the accuracy and repeatability of testing.[5][6][7][8][9] Medical laboratory scientists may also assist healthcare providers with test selection and specimen collection and are responsible for prompt verbal delivery of critical lab results.[10][11][12] Medical Laboratory Scientists in healthcare settings also play an important role in clinical diagnosis; some estimates suggest that up to 70% of medical decisions are based on laboratory test results and MLS contributions affect 95% of a health system's costs.[13][14]

The most common tests performed by medical laboratory scientists are complete blood count (CBC), comprehensive metabolic panel (CMP), electrolyte panel, liver function tests (LFT), renal function tests (RFT), thyroid function test (TFT), urinalysis, coagulation profile, lipid profile, blood type, semen analysis (for fertility and post-vasectomy studies), serological studies and routine cultures. In some facilities that have few phlebotomists, or none at all, (such as in rural areas) medical laboratory scientists may perform phlebotomy. Because medical laboratory scientists have many transferable technical skills, employment outside of the medical laboratory is common. Many medical laboratory scientists are employed in government positions such as the FDA, USDA, non-medical industrial laboratories, and manufacturing.

In the United Kingdom and the United States, senior laboratory scientists, who are typically post-doctoral scientists, take on significantly greater clinical responsibilities in the laboratory. In the United States these scientists may function in the role of clinical laboratory directors, while in the United Kingdom they are known as consultant clinical scientists.

Though clinical scientists have existed in the UK National Health Service for ≈60 years, the introduction of formally-trained and accredited consultant-level clinical scientists is relatively new, and was introduced as part of the new Modernizing Scientific Careers framework developed in 2008.

Consultant clinical scientists are expected to provide expert scientific and clinical leadership alongside and, at the same level as, medical consultant colleagues. While specialists in healthcare science will follow protocols, procedures and clinical guidelines, consultant clinical scientists will help shape future guidelines and the implementation of new and emerging technologies to help advance patient care.

In the United Kingdom, healthcare scientists including clinical scientists may intervene throughout entire care pathways from diagnostic tests to therapeutic treatments and rehabilitation. Although this workforce comprises approximately 5% of the healthcare workforce in the UK, their work underpins 80% of all diagnoses and clinical decisions made.[15]

  1. ^ Dawande, Pratibha P.; Wankhade, Rashmi S.; Akhtar, Faizan I.; Noman, Obaid (September 2022). "Turnaround Time: An Efficacy Measure for Medical Laboratories". Cureus. 14 (9): e28824. doi:10.7759/cureus.28824. ISSN 2168-8184. PMC 9535613. PMID 36225468.
  2. ^ Loh, Tze Ping; Cooke, Brain Roger; Markus, Corey; Zakaria, Rosita; Tran, Mai Thi Chi; Ho, Chung Shun; Greaves, Ronda F. (November 2022). "Method evaluation in the clinical laboratory". Clinical Chemistry and Laboratory Medicine. 61 (5): 751–758. doi:10.1515/cclm-2022-0878. PMID 36327459 – via ResearchGate.
  3. ^ Küme, Tuncay; Sağlam, Barıs; Ergon, Cem; Sisman, Ali Rıza (January 2018). "Evaluation and comparison of Abbott Jaffe and enzymatic creatinine methods: Could the old method meet the new requirements?". Journal of Clinical Laboratory Analysis. 32 (1): e22168. doi:10.1002/jcla.22168. ISSN 1098-2825. PMC 6816857. PMID 28205269.
  4. ^ Livshits, Leonid; Bilu, Tal; Peretz, Sari; Bogdanova, Anna; Gassmann, Max; Eitam, Harel; Koren, Ariel; Levin, Carina (2022). "Back to the "Gold Standard": How Precise is Hematocrit Detection Today?". Mediterranean Journal of Hematology and Infectious Diseases. 14 (1): e2022049. doi:10.4084/MJHID.2022.049. ISSN 2035-3006. PMC 9266461. PMID 35865397.
  5. ^ Padmanabhan, P (November 2024). "Basics of Quality Control in Clinical Laboratory". Journal of Clinical and Laboratory Research – via ResearchGate.
  6. ^ Pang, Richard (February 2015). A Practical Guide to Internal Quality Control (IQC) for Quantitative Tests in Medical Laboratories (2nd ed.). Hong Kong: Bio-Rad Pacific LImited.
  7. ^ Niraula, Apeksha; Bataju, Mahima (November 2020). "External Quality Assessment Practices in Clinical Biochemistry Laboratory: What is the need ?". Kathmandu University Medical Journal. 69 (1): 86–92. doi:10.3126/kumj.v18i1.34660 – via ResearchGate.
  8. ^ Lou, Yongyong; Shan, Zhiming; Chen, Qian; Kang, Fengfeng (5 April 2025). "Intra- Laboratory and Inter- Laboratory Variations Analysis for HbA1c Assays in China: Using Internal Quality Control and External Quality Assessment Data". Journal of Clinical Laboratory Analysis. 39 (8): e70036. doi:10.1002/jcla.70036. PMC 12019688. PMID 40219668 – via ResearchGate.
  9. ^ Alyami, Abdulaziz Abdullah; Alaqil, Naif Mana; Alsulayyim, Ali Salem Mana; Al yami, Ramzi Mubarak Khayri; Salem, Fatimah Jaber Mohd; Al hatailah, Abdullah Maadi Hussain; Al zandan, Salem Abdullah; Al Mushref, Sultan Akram Nasser; Al Musharraf, Saleh Akram Nasser; Balharith, Ali Saleh (December 2024). "Comprehensive Review of Laboratory Automation, Quality Control, And Workforce Adaptation". Journal of Ecohumanism. 3 (8): 5548–5557. doi:10.62754/joe.v3i8.5269 – via ResearchGate.
  10. ^ Bhatt, Rajendra Dev; Shrestha, Chandani; Risal, Prabodh (March 2019). "Factors Affecting Turnaround Time in the Clinical Laboratory of the Kathmandu University Hospital, Nepal". EJIFCC. 30 (1): 14–24. ISSN 1650-3414. PMC 6416806. PMID 30881271.
  11. ^ Delgado Rodríguez, Jose A.; Pastor García, Maria I.; Gómez Cobo, Cristina; Pons Más, Antonia R.; Llompart Alabern, Isabel; Bauça, Josep Miquel (2019-10-15). "Assessment of a laboratory critical risk result notification protocol in a tertiary care hospital and their use in clinical decision making". Biochemia Medica. 29 (3): 030703. doi:10.11613/BM.2019.030703. ISSN 1846-7482. PMC 6610674. PMID 31379461.
  12. ^ AlSadah, Kawthar; S El-Masry, Omar; Alzahrani, Faisal; Alomar, Amer; Ghany, Magdy Abdel (2019). "Reporting Clinical Laboratory Critical Values: A Focus On The Recommendations Of The American College Of Pathologists". Journal of Ayub Medical College, Abbottabad. 31 (4): 612–618. ISSN 1819-2718. PMID 31933321.
  13. ^ American Society for Clinical Pathology. "The Medical Laboratory Personnel Shortage" (PDF). ASCP Stronger Together.
  14. ^ Hallworth, Mike J (November 2011). "The '70% claim': what is the evidence base?". Annals of Clinical Biochemistry. 48 (6): 487–488. doi:10.1258/acb.2011.011177. ISSN 0004-5632. PMID 22045648. S2CID 207193643.
  15. ^ "Careers in Healthcare Science". www.nshcs.hee.nhs.uk.
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