Welcome to Maruti Pathology Laboratory, Where Your Health Is Our Priority. Experience Precision, Care, and Excellence in Every Test.
⚕️ About Maruti Pathology Laboratory
Maruti Pathology Laboratory, founded by Jaimin Bhatt, is a premier Pathology Laboratory & Diagnostic Center in Mahemdabad. Our mission is to provide advanced and accurate diagnostic services, ensuring the well-being of our patients. Here are some key points about us:
- Comprehensive Services: We offer a wide range of diagnostic services, including Hematology, Clinical Biochemistry, Clinical Pathology, Immunology, Microbiology, Molecular, and Histopathology.
- Expert Team: Our team comprises expert pathologists, microbiologists, histopathologists, and transfusion medicine specialists, ensuring the highest standards of accuracy and reliability.
- Strong Associations: We are associated with over 200 consultants and more than 8 private hospitals, reflecting our commitment to excellence and trust in the medical community.
- Wide Reach: With six branches and numerous collection centers across Mahemdabad and its peripheries, we make our services accessible to a broad patient base.
- Patient Satisfaction: We take pride in serving an average of 5 lakh satisfied patients per year, testament to our dedication to quality healthcare.
- Comfort and Convenience: Our facility boasts a Central A/C Diagnostic Center and offers home and hospital visit facilities within a 10 km radius, ensuring comfort and convenience for our patients.
Overview
Clinical Biochemistry focuses on analyzing the chemical and biochemical substances in body fluids, primarily blood, urine, and cerebrospinal fluid. It provides insights into the functioning of organs like the liver, kidneys, and pancreas.
Techniques used include spectrophotometry for measuring enzyme activities, chromatography for separating and identifying chemical compounds, and immunoassays for detecting specific proteins or hormones.
Clinical biochemistry is crucial for diagnosing and monitoring diseases such as diabetes, where blood glucose levels are measured, liver diseases through liver function tests, and kidney diseases through electrolyte and creatinine measurements.
Why Is It Used?
In clinical biochemistry, various techniques are employed to analyze the chemical and biochemical substances in body fluids. Spectrophotometry is used to measure enzyme activities and the concentration of substances like bilirubin and cholesterol in the blood, providing insights into organ function and metabolic status.
Chromatography and electrophoresis are utilized to separate and identify metabolic disorders, drug levels, and hormone levels, aiding in the diagnosis and monitoring of various conditions.
Enzyme assays are crucial for diagnosing liver disease, myocardial infarction, and other enzyme-related disorders. Immunoassays are widely used for hormone level measurement, tumor marker detection, and infectious disease testing, offering specificity and sensitivity in detecting specific proteins or hormones.
Overview
Clinical Pathology involves the examination of bodily fluids and tissues to diagnose diseases. It encompasses various disciplines including hematology, which studies blood and its disorders, and microbiology, which deals with infectious agents.
Techniques used include microscopy for examining cells and organisms, culture and sensitivity testing for identifying infectious agents and their susceptibility to antibiotics, and hematology analyzers for counting blood cells.
Clinical pathology is essential for diagnosing conditions like anemia, infections, and clotting disorders, and for monitoring the effectiveness of treatments.
Why Is It Used?
Clinical pathology employs a range of techniques to examine bodily fluids and tissues for diagnosing diseases. Microscopy is used to examine blood smears for abnormal cells, urine for crystals and cells, and stool for parasites, providing valuable information for diagnosing infections, anemias, and other conditions.
Culture and sensitivity testing is essential for identifying infectious agents and determining their susceptibility to antibiotics, guiding effective treatment. Hematology analyzers are used for complete blood count (CBC) to diagnose anemia, infections, and clotting disorders.
Immunological assays are employed to detect autoimmune diseases and allergies by measuring antibodies in the blood, aiding in the diagnosis and management of immune-related conditions.
Overview
Hematology is the study of blood and its components, including red blood cells, white blood cells, platelets, and plasma. It is crucial for diagnosing blood disorders such as anemia, which is characterized by a low red blood cell count, and leukemia, a cancer of blood-forming tissues.
Techniques used in hematology include the complete blood count (CBC), which provides a comprehensive overview of blood cell levels, and coagulation tests, which assess the blood’s ability to clot.
Hematology also plays a role in diagnosing and monitoring infections, as changes in white blood cell counts can indicate an immune response to infection.
Why Is It Used?
Hematology focuses on the study of blood and its components. Techniques like the complete blood count (CBC) are used to evaluate overall health and detect a wide range of disorders, including anemia, infection, and leukemia.
Blood smear analysis is employed to examine the morphology of blood cells for diagnosing conditions like malaria and blood disorders. Coagulation tests assess the blood’s ability to clot, important for diagnosing hemophilia and monitoring anticoagulant therapy.
Flow cytometry is used to analyze the characteristics of blood cells, aiding in the diagnosis of lymphoma and leukemia.
Overview
Histopathology is the examination of tissues under a microscope to identify abnormalities and diagnose diseases. It is a critical component of cancer diagnosis, as it can identify the type and grade of a tumor.
Techniques used in histopathology include tissue processing to preserve and prepare samples, staining to highlight different structures, and microscopic examination to identify cellular abnormalities.
Histopathology is also used to diagnose inflammatory conditions and infections in tissues, providing valuable information for treatment planning.
Why Is It Used?
Histopathology involves the examination of tissues under a microscope to identify abnormalities and diagnose diseases. Tissue processing is used to preserve and prepare tissue samples for microscopic examination.
Staining techniques highlight different structures within the tissue, aiding in the diagnosis of cancer and other diseases. Microscopic examination is crucial for identifying abnormal cells and tissue structures, providing valuable information for treatment planning.
Overview
Microbiology focuses on the study of microorganisms, including bacteria, viruses, fungi, and parasites. It is essential for identifying the cause of infectious diseases and determining the appropriate antibiotic treatment.
Techniques used in microbiology include culture and sensitivity testing, where bacteria are grown in the laboratory and tested against different antibiotics to find the most effective treatment, and molecular techniques like PCR (polymerase chain reaction) for detecting the genetic material of pathogens.
Microbiology is crucial for controlling the spread of infections and ensuring the appropriate use of antibiotics.
Why Is It Used?
Microbiology focuses on the study of microorganisms, including bacteria, viruses, fungi, and parasites. Culture and sensitivity testing is used to identify infectious agents and determine the appropriate antibiotic treatment, guiding effective therapy.
Gram staining is employed to classify bacteria and guide initial treatment decisions. Molecular techniques like PCR (Polymerase Chain Reaction) rapidly detect the genetic material of pathogens, important for diagnosing viral infections and certain bacterial infections.
Overview
Immunology deals with the study of the immune system and its response to foreign substances. It is important for diagnosing autoimmune diseases, where the immune system attacks the body’s own tissues, and allergies, which are exaggerated immune responses to harmless substances.
Techniques used in immunology include ELISA (enzyme-linked immunosorbent assay) for detecting antibodies or antigens, and flow cytometry for analyzing immune cells.
Immunology also plays a role in diagnosing and monitoring immune deficiencies, where the immune system is unable to effectively fight infections.
Why Is It Used?
Immunology deals with the study of the immune system and its response to foreign substances. Techniques like ELISA (Enzyme-Linked Immunosorbent Assay) are used to detect and quantify antibodies or antigens, important for diagnosing infectious diseases and immune responses.
Western blot is employed to confirm the presence of specific proteins, used in HIV testing and Lyme disease diagnosis. Flow cytometry and immunofluorescence are utilized to analyze immune cells and detect specific antibodies or antigens in tissue samples, aiding in the diagnosis of autoimmune diseases, lymphoma, leukemia, and immune deficiencies.
Overview
Molecular diagnostics focuses on the analysis of DNA and RNA to diagnose and monitor diseases at a molecular level. It is particularly important in the field of genetics, where it is used to diagnose inherited disorders, and in oncology, where it is used to identify genetic mutations in tumors.
Techniques used in molecular diagnostics include PCR for amplifying small amounts of DNA, sequencing for determining the order of nucleotides in DNA, and FISH (fluorescence in situ hybridization) for detecting specific DNA sequences.
Molecular diagnostics provides precise information that can guide personalized treatment plans.
Why Is It Used?
Molecular diagnostics focuses on the analysis of DNA and RNA to diagnose and monitor diseases at a molecular level. Techniques like Polymerase Chain Reaction (PCR) are used to amplify and detect specific DNA sequences, important for diagnosing genetic disorders and infectious diseases.
Sequencing is employed to determine the exact sequence of nucleotides in DNA, used in genetic testing and cancer diagnosis. Fluorescence In Situ Hybridization (FISH) is utilized to detect and localize specific DNA sequences in chromosomes, important for diagnosing genetic abnormalities and certain cancers.