Purpose and Role
- Clinical Biochemistry Laboratory: A specialized lab analyzes bodily fluids (like blood, urine, and cerebrospinal fluid) to diagnose, monitor, and manage diseases.
- Applications: Diagnostic testing, monitoring treatment efficacy, disease screening, and therapeutic drug monitoring.
Types of Tests and Analytes
- Blood Glucose: Measurement of glucose levels to diagnose and monitor diabetes.
- Lipid Profile: Includes cholesterol, triglycerides, HDL, and LDL to assess cardiovascular risk.
- Liver Function Tests (LFTs): Assesses liver health via enzymes like ALT, AST, and bilirubin.
- Renal Function Tests: Using creatinine and blood urea nitrogen (BUN) markers, evaluate kidney function.
- Electrolytes: Sodium, potassium, chloride, and bicarbonate levels to assess metabolic and hydration status.
- Hormones: Includes tests for thyroid hormones (T3, T4, TSH), cortisol, and reproductive hormones.
- Proteins: Albumin, total protein, and specific proteins like C-reactive protein (CRP) for inflammation.
- Enzymes: Specific enzyme levels to diagnose conditions like myocardial infarction (e.g., troponins, CK-MB).
Key Equipment and Instruments
- Automated Analyzers: Machines that handle multiple samples and perform various tests quickly and efficiently (e.g., chemistry analyzers).
- Spectrophotometers: Measure the absorbance of specific wavelengths to quantify analytes.
- Electrophoresis Apparatus: Separates proteins or nucleic acids for detailed analysis.
- Mass Spectrometry: Advanced technique for precise identification and quantification of compounds, especially in toxicology and endocrinology.
- pH and Ion-selective Electrodes: Measure blood samples’ pH, ions, and gases.
Common Techniques and Methods
- Colorimetry: Measures the concentration of substances based on the colour intensity of a solution.
- Enzyme-Linked Immunosorbent Assay (ELISA): Detects and quantifies hormones, proteins, and antibodies.
- Gas Chromatography-Mass Spectrometry (GC-MS): Analyzes complex mixtures, often used for drug testing.
- High-Performance Liquid Chromatography (HPLC): Separates and quantifies components in a mixture, commonly used for vitamin assays.
- Fluorescence Spectroscopy: Measures the intensity of fluorescent light emitted by a sample.
Quality Control and Assurance
- Internal Quality Control (IQC): Routine checks using control samples to ensure accuracy and precision within the lab.
- External Quality Assurance (EQA): Participation in external proficiency testing to compare results with other labs and maintain standards.
- Calibration: Regular calibration of instruments to ensure they provide accurate measurements.
- Standard Operating Procedures (SOPs): Detailed instructions for each test to ensure consistency and reliability.
Safety and Ethics
- Safety Protocols: Use of PPE, proper handling of biohazardous materials, and adherence to protocols for sample collection, handling, and disposal.
- Confidentiality: Protecting patient data and ensuring results are only accessible to authorized personnel.
- Ethical Reporting: Accurate reporting of test results without fabrication or manipulation, maintaining patient care integrity.
Documentation and Record Keeping
- Patient Records: Detailed records of tests ordered, results, and any relevant notes.
- Lab Information Systems (LIS): Digital systems used to manage patient data, track samples, and report results efficiently.
- Accreditation and Compliance: Adherence to standards set by regulatory bodies like CLIA (Clinical Laboratory Improvement Amendments) and CAP (College of American Pathologists).
Clinical Relevance
- Diagnostic Utility: How test results are used to diagnose diseases, such as high glucose for diabetes or elevated troponin for heart attacks.
- Monitoring Therapy: Regular testing to monitor the effectiveness of treatments, such as adjusting insulin for diabetes or checking cholesterol levels after statin therapy.
- Preventive Medicine: Using biochemical tests to identify risk factors early, allowing for intervention before disease develops.
Reference
- Burtis, C. A., Ashwood, E. R., & Bruns, D. E. (2012). Tietz Textbook of Clinical Chemistry and Molecular Diagnostics (5th ed.). Elsevier.
- This textbook is a comprehensive resource covering the principles and practices of clinical chemistry, including laboratory techniques, instrumentation, and clinical applications.
- Bishop, M. L., Fody, E. P., & Schoeff, L. E. (2017). Clinical Chemistry: Principles, Techniques, and Correlations (8th ed.). Wolters Kluwer.
- A widely used clinical biochemistry textbook provides detailed information on laboratory methods, quality control, and the clinical interpretation of results.
- Henry, J. B. (2011). Clinical Diagnosis and Management by Laboratory Methods (22nd ed.). Elsevier Saunders.
- This book is a key reference for laboratory professionals, focusing on the diagnostic use of laboratory tests and the interpretation of clinical results.
- Kaplan, L. A., & Pesce, A. J. (2019). Clinical Chemistry: Theory, Analysis, Correlation (6th ed.). Elsevier.
- A detailed guide to clinical chemistry, offering insights into the biochemical basis of diseases and the role of laboratory testing in clinical diagnosis.
- McPherson, R. A., & Pincus, M. R. (2020). Henry’s Clinical Diagnosis and Management by Laboratory Methods (24th ed.). Elsevier.