Metabolic wellness blood tests check how efficiently your body processes energy, fats, and sugars. At Bids Chemist, we use these insights to detect hormonal imbalances, thyroid problems, and metabolic conditions. Understanding your results helps you make better choices to maintain energy, manage weight, and support healthy body function.
This test measures total acid phosphatase enzyme levels in the blood, which can indicate certain conditions affecting the prostate, liver, or bone. Elevated levels may suggest prostate disease, bone disorders, or other medical concerns requiring further investigation. Blood is collected and analysed, and results help healthcare providers diagnose underlying conditions, guide treatment decisions, and monitor therapy effectiveness. Patients benefit by identifying potential health issues early, allowing timely intervention, improved treatment outcomes, and ongoing monitoring of relevant organ systems. Regular testing supports proactive healthcare, enabling prevention or management of complications and maintaining overall wellness.
This test measures aldolase, an enzyme involved in carbohydrate metabolism, which is particularly abundant in skeletal and cardiac muscle. Elevated levels can indicate muscle damage, inflammation, liver disease, or certain muscular disorders. Blood is collected via venipuncture, and results are interpreted alongside other enzymes, including creatine kinase, for a comprehensive assessment of muscle or liver health. Assessing aldolase levels helps healthcare providers diagnose conditions such as muscular dystrophy, myositis, or liver disorders. Timely identification allows patients to receive early interventions, treatment planning, and ongoing monitoring to prevent further damage. Understanding enzyme levels supports optimal muscle health, overall metabolism, and early detection of underlying disorders.
This test measures alkaline phosphatase (ALP) and its specific isoenzymes to determine the source of elevated ALP, which may originate from liver, bone, or other tissues. Blood is drawn and analysed, and results are interpreted alongside liver function tests, imaging studies, and clinical evaluation. Understanding isoenzyme patterns allows healthcare providers to diagnose liver disease, bone disorders, bile duct obstruction, or other conditions. Early detection and monitoring support timely interventions and treatment planning, preventing long-term complications. Patients benefit from accurate interpretation to maintain liver, skeletal, and metabolic health while receiving guidance for ongoing wellness and preventive care.
This test measures alpha-1 antitrypsin (A1AT), a protein that protects the lungs from enzyme-related damage during inflammation. Deficiency in A1AT can lead to lung diseases such as emphysema and liver disorders. Blood is collected, and results are interpreted alongside genetic testing if required. Early detection allows for lifestyle modifications, medical monitoring, and potential therapies to protect lung and liver function. Understanding A1AT status helps healthcare providers develop personalised plans to prevent disease progression and manage long-term respiratory and hepatic health. Patients benefit from early awareness, allowing proactive interventions and informed health decisions.
This test measures bicarbonate levels in blood, an important marker of acid-base balance. Blood is collected and analysed to assess metabolic function, respiratory status, and kidney function. Abnormal levels may indicate acidosis, alkalosis, or underlying organ dysfunction. Understanding bicarbonate status helps healthcare providers guide treatment, adjust medications, and monitor patient response. Patients benefit by gaining insight into their metabolic health and early detection of potential complications.
This test measures direct and indirect bilirubin levels, indicators of liver function and red blood cell breakdown. Blood is collected, and results help diagnose jaundice, liver disease, hemolysis, or bile duct obstruction. Understanding bilirubin levels helps healthcare providers monitor liver health, detect disease early, and guide treatment. Patients benefit from timely information on liver function, enabling preventive care and management of metabolic or hepatic conditions.
This test measures calcium in the blood, essential for bone health, nerve function, and muscle activity. Blood is drawn, and abnormal calcium levels may indicate parathyroid disorders, vitamin D deficiency, kidney disease, or other metabolic conditions. Understanding calcium status helps healthcare providers guide diet, supplementation, and treatment plans. Patients benefit by optimising bone strength, preventing metabolic complications, and supporting overall wellness.
This test measures ceruloplasmin, a protein involved in copper transport and antioxidant activity. Blood is drawn and analysed to detect abnormalities that may indicate Wilson’s disease, liver disease, or copper metabolism disorders. Early detection allows healthcare providers to implement dietary or medical interventions to correct copper imbalance and prevent organ damage. Patients benefit by understanding their ceruloplasmin levels and taking proactive steps to support liver and metabolic health.
This test measures cholinesterase activity in serum or pseudocholinesterase levels, which can indicate liver function, genetic variants, or exposure to certain chemicals. Blood is collected and analysed, providing important information for medication metabolism, toxicity risk, and organ function. Early detection allows healthcare providers to adjust treatment plans and monitor potential complications. Patients benefit from personalised care, safer medication management, and long-term health protection.
This test measures collagen type 1 cross-linked N-telopeptide (NTX), a marker of bone turnover. Blood is drawn and analysed to assess bone resorption, helping evaluate conditions such as osteoporosis or bone metabolic disorders. Monitoring NTX levels allows healthcare providers to track treatment effectiveness, adjust therapy, and prevent fractures or bone loss. Patients benefit by understanding bone health status, implementing lifestyle or medication strategies, and reducing long-term risk of skeletal complications.
This test measures copper in serum, an essential trace element involved in enzymatic reactions, iron metabolism, and neurological function. Blood is collected and analysed to detect deficiency or toxicity. Abnormal copper levels may indicate metabolic disorders such as Wilson’s disease or nutritional imbalances. Understanding copper status helps healthcare providers guide dietary recommendations, supplementation, and monitoring. Patients benefit by optimising metabolic and neurological health, preventing long-term complications, and supporting overall wellness.
This test measures creatinine clearance, a marker of kidney function. Blood and urine samples are collected and analysed to assess how efficiently kidneys filter waste products. Abnormal results may indicate kidney disease or impaired renal function. Understanding creatinine clearance helps healthcare providers guide treatment, adjust medications, and monitor kidney health. Patients benefit by detecting kidney issues early, implementing preventive strategies, and maintaining long-term renal and overall health.
This test measures cross-linked serum deoxypyridinoline (DPD), a marker of bone resorption. Blood is collected and analysed to assess bone turnover, aiding diagnosis of osteoporosis or metabolic bone disease. Monitoring DPD helps healthcare providers track therapy effectiveness, adjust treatment, and prevent fractures or bone loss. Patients benefit by maintaining skeletal health, implementing lifestyle or medication strategies, and reducing long-term risk of osteoporosis complications.
This test measures cystatin C, a protein that reflects kidney function and glomerular filtration rate. Blood is collected and analysed to detect early kidney dysfunction, even when creatinine levels appear normal. Abnormal results help healthcare providers diagnose kidney disease, monitor progression, and guide treatment. Patients benefit by protecting kidney health, implementing lifestyle interventions, and preventing complications through early detection and proactive management.
The Glucose test measures the level of sugar in your blood, an essential marker for energy metabolism and diabetes risk. It is often ordered as part of routine health checks or when symptoms like fatigue, excessive thirst, or frequent urination occur. Elevated glucose may indicate prediabetes, type 2 diabetes, or other metabolic disorders, while low glucose can signal hypoglycemia or other health issues. A blood sample is usually taken after fasting for accurate measurement. Results provide your healthcare provider with crucial information to guide diet, exercise, and treatment plans, and may prompt further testing such as an oral glucose tolerance test or HbA1c assessment. Regular monitoring of blood glucose helps manage health risks and maintain long-term wellbeing.
Measures serum iron, a critical mineral for oxygen transport and energy production. Low iron may indicate anemia or nutritional deficiency; high levels may indicate overload or metabolic disorders. Blood is collected via venipuncture, and results are interpreted with ferritin, transferrin, and hemoglobin levels. Understanding iron levels helps guide dietary interventions, supplementation, or further investigations to maintain optimal blood and metabolic health.
This test measures lactate dehydrogenase (LDH), an enzyme involved in energy production. Blood is collected and analysed to assess tissue damage, hemolysis, or certain cancers. Elevated LDH may indicate cell injury or metabolic disturbances. Healthcare providers use results to diagnose underlying conditions, monitor disease progression, and guide treatment. Patients benefit by detecting early signs of tissue damage, managing health proactively, and preventing complications, supporting overall wellness.
This test analyses LDH isoenzymes to determine the source of tissue damage, such as muscle, liver, or heart. Blood is collected and analysed to differentiate causes of elevated LDH. Results help healthcare providers diagnose, monitor disease, and guide treatment decisions. Patients benefit by understanding potential organ-specific damage, enabling targeted interventions, and supporting long-term health monitoring and management.
The ELF test measures biomarkers associated with liver fibrosis, helping detect scarring or damage due to chronic liver disease. It is useful in patients with hepatitis, fatty liver, or alcohol-related liver disease. Blood is collected and analysed, with results interpreted alongside liver function tests and imaging. Early detection of fibrosis allows timely interventions, including lifestyle changes, medication, or monitoring to prevent progression to cirrhosis. Understanding liver health through the ELF test helps patients and providers manage risk factors and improve long-term liver function and overall wellbeing.
This panel measures enzymes, proteins, and other markers to assess liver health, including ALT, AST, bilirubin, and albumin. It helps detect liver disease, inflammation, infection, or damage from medications. Blood is drawn via venipuncture, often fasting, and results are interpreted in combination with clinical history and imaging. Understanding liver function helps healthcare providers diagnose liver conditions, monitor treatment, and guide lifestyle interventions such as diet and alcohol moderation. Early detection of liver abnormalities can prevent progression to chronic liver disease or complications.
Measures serum magnesium, a mineral vital for nerve, muscle, and heart function. Low levels can cause fatigue, cramps, or arrhythmia; high levels may indicate kidney issues. Blood is drawn via venipuncture, and results guide dietary, supplement, or treatment strategies. Understanding magnesium status helps maintain cardiovascular, muscular, and metabolic health.
Measures serum magnesium, a mineral vital for nerve, muscle, and heart function. Low levels can cause fatigue, cramps, or arrhythmia; high levels may indicate kidney issues. Blood is drawn via venipuncture, and results guide dietary, supplement, or treatment strategies. Understanding magnesium status helps maintain cardiovascular, muscular, and metabolic health.
