In our laboratory, we leverage a variety of cutting-edge technologies to provide accurate and efficient diagnostic services.
These technologies play pivotal roles in analysing a diverse range of samples and delivering precise results crucial for
clinical decision-making.
Chemiluminescence Immunoassay (CLIA) is an advanced immunological technique that offers high sensitivity, automated processing, and increased throughput, significantly transforming Immunodiagnostics. This method quantifies light intensity generated from the reaction between the antigen-enzyme linked antibody complex and a chemiluminescent molecule.
Enzyme-Linked Immunosorbent Assay (ELISA), a technique in immunology, is employed for identifying antibodies or antigens within a specimen by using of enzyme labels for generating observable signals which is then detected using state-of-the-art ELISA plate readers.
High-Performance Liquid Chromatography (HPLC) is a precise analytical technique used to separate, identify, and quantify components in a mixture with high sensitivity, resolution, and accuracy. It works by passing a liquid sample through a column packed with a stationary phase, where the components interact differently based on their chemical properties.
Photometry is the science of measuring light intensity or studying light's interactions with substances. It is done so by measuring the concentration of substances based on how much light they absorb or emit (Beer Lambert’s Law).
Fluorescence flow cytometry is a technique used to count cells by staining them with fluorescent dyes and detecting them using laser technology. It works by analyzing cells based on their physical and chemical properties. It is used in hematology for accurate cell counting, differentiation of blood cell types and more.
Ion Selective Electrode (ISE) is the estimation of serum electrolytes using a type of sensor used in analytical chemistry by measuring the concentration of specific ions in the sample. ISEs are designed to selectively respond to a particular ion of interest.
Medical technologists in this domain scrutinize blood samples to identify conditions such as anaemia, leukaemia, and clotting disorders. Automated analysers and manual microscopy are employed to enumerate blood cells and analyse their characteristics.
This field encompasses the identification of microorganisms like bacteria, viruses, and fungi. Medical laboratory technologists culture, isolate, and analyse samples to ascertain the presence of infections and guide appropriate treatments.
By means of chemical analysis of blood and urine samples, medical technologists evaluate organ function, electrolyte balance, glucose levels, and more. This information aids in diagnosing conditions like diabetes, kidney diseases, and liver disorders.
Medical laboratory technologists in this sector examine the immune system's responses by analysing antibodies and antigens. They diagnose conditions such as autoimmune disorders and infectious diseases.
Our test menu focuses on Metabolism, Hormones, Vitamins, Growth, Cancer, cardiac, infertility, pregnancy markers with special emphasis on Diabetes, thyroid and other endocrine disorders.
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