Blood tests are indispensable tools in modern medicine. They are critical aids in diagnosing diseases, monitoring health, and evaluating the effectiveness of treatments. Before discussing the different blood tests, let’s examine how the specimen is collected.
Upon patient identification, a skilled phlebotomist adeptly extracts a blood sample using a syringe from a suitable vein. Blood is collected in appropriately labeled containers to maintain traceability, ensuring accurate patient identification and test assignment.
The Complete Blood Count, or blood strength test as people usually call it, is a cornerstone of medical diagnosis, often included in routine health assessments. This comprehensive test evaluates several aspects of blood composition, including:
Red blood cells (RBCs) carry oxygen from the lungs to tissues. Abnormal RBC levels, whether high or low, can indicate underlying health issues. Elevated levels may suggest dehydration, while decreased levels could point to conditions like anemia or bleeding disorders.
White blood cells (WBCs) fight infections. Deviations in WBC counts, either up or down, may indicate systemic infections, blood cancers, or immune system problems, prompting further investigation.
Platelets are crucial for clot formation, which prevents excessive bleeding. Irregular platelet counts may signal clotting or bleeding disorders, necessitating prompt evaluation to manage potential risks.
Hemoglobin, a component of RBCs, helps transport oxygen, while hematocrit reflects blood volume and thickness. Changes in these levels can reveal conditions such as anemia or dehydration, guiding treatment decisions.
MCV, which measures RBC size, provides additional information about blood disorders. Reduced MCV levels may indicate conditions like anemia or thalassemia, prompting further investigation.
Healthcare professionals can detect abnormalities early by monitoring these key parameters, enabling timely interventions and improved patient outcomes. Regular comprehensive blood testing is therefore essential for maintaining health and preventing diseases.
Blood clotting tests help assess the coagulation cascade, shedding light on the intricate mechanisms underlying hemostasis and aiding in managing coagulation disorders and anticoagulant therapy. These tests include:
Diabetes Mellitus, a metabolic disorder characterized by elevated blood sugar levels, necessitates precise diagnostic assessments for timely intervention and management. The blood tests your doctor might ask for include:
Fasting Blood Sugar (FBS) is a foundational test in diabetes diagnosis, evaluating blood sugar levels after an overnight fast. With a normal range of <126 mg/dL, elevated FBS levels indicate impaired fasting glucose metabolism, a hallmark feature of diabetes mellitus.
Random Blood Sugar (RBS) assessment offers real-time insights into blood sugar levels irrespective of fasting status. With a normal range of <200 mg/dL, RBS measurements provide immediate feedback on glycemic control, aiding in diabetes diagnosis and management.
Glycosylated Hemoglobin (HbA1c) quantifies the percentage of hemoglobin molecules bound to glucose over the preceding 2 to 3 months, reflecting long-term glycemic control. With a normal value of <6.5%, HbA1c is a reliable indicator of average blood glucose levels, offering valuable insights into overall diabetes management and risk stratification for complications.
The 2-hour 75 gram Oral Glucose Tolerance Test (OGTT) evaluates glucose metabolism following a standardized oral glucose load. With a normal value of <200 mg/dL at the 2-hour mark, OGTT delineates postprandial glucose regulation, aiding in diagnosing impaired glucose tolerance and diabetes mellitus.
Hepatobiliary diseases encompass a spectrum of conditions affecting the liver and biliary system, necessitating precise diagnostic evaluations to elucidate hepatic function and detect cellular injury. Below are the blood tests your doctor might ask for to check your liver function
Serum Albumin is a marker of hepatic synthetic function, reflecting the liver’s ability to produce proteins. Decreased serum albumin levels may signify hepatic dysfunction and impaired protein synthesis, indicative of hepatobiliary pathology.
Serum Bilirubin, encompassing total and direct bilirubin measurements, evaluates the hepatic excretory function and bilirubin metabolism. Elevated bilirubin levels may herald hepatocellular injury, biliary obstruction, or impaired bilirubin conjugation, warranting comprehensive hepatobiliary assessment.
Alanine Aminotransferase (ALT) and Aspartate Aminotransferase (AST) are enzymes predominantly localized within hepatocytes. They serve as sensitive markers of hepatocellular injury. Elevated enzyme levels suggest hepatocellular damage, prompting further investigation into the underlying etiology of hepatobiliary disease.
Alkaline Phosphatase (ALP) and Gamma-Glutamyl Transferase (GGT) are enzymes involved in biliary excretion and hepatobiliary function. Elevated levels may indicate cholestatic liver diseases, biliary obstruction, or intrahepatic cholestasis, necessitating thorough hepatobiliary evaluation.
Blood cultures detect and characterize bloodstream infections, enabling healthcare practitioners to initiate targeted antimicrobial therapy promptly. By isolating and identifying the causative pathogens from the bloodstream, blood cultures facilitate tailored treatment strategies, thereby minimizing the risk of complications and optimizing patient outcomes.