Comprehensive Health Check up
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Comprehensive Health Check-up

Optimize your well-being with our Comprehensive Health Check-up. This in-depth evaluation is crafted for individuals dedicated to proactive health management, providing a thorough screening of vital health markers. By identifying potential health issues early, you can take preemptive steps to manage and resolve them. Our advanced diagnostics, combined with expert interpretation, offer you a clear path to maintaining and enhancing your health. Book your comprehensive checkup today to stay informed and one step ahead in your health journey

Know Why?

Complete Blood Count with ESR

This test measures the various components of blood, including red blood cells, white blood cells, platelets, and hemoglobin, along with the rate at which red blood cells settle at the bottom of a test tube over time (ESR). It helps in diagnosing a wide range of conditions, from anemia and infection to inflammatory diseases and autoimmune disorders. The ESR component specifically helps in detecting inflammation and is useful in monitoring conditions like rheumatoid arthritis.

Liver Function Test (LFT)

LFTs measure levels of enzymes and proteins produced by the liver. These tests can help detect liver damage or liver disease and monitor the effect of medications that can affect the liver

Blood - Sugar

Blood sugar tests measure how much glucose is in your blood. They are used to diagnose and monitor diabetes and can help manage diabetes treatment to prevent complications.

Urine Complete Analysis

This includes tests for different chemicals in your urine. It can detect urinary tract infections, kidney disease, and other metabolic conditions like diabetes.

Kidney Function Test Standard (KFT/RFT)

These tests measure various parameters to assess how well your kidneys are filtering waste from your blood. Kidney function tests are crucial for detecting kidney damage or disease, which can often be silent until it is quite advanced.

Lipid Profile

This test measures cholesterol levels, including total cholesterol, LDL (“bad” cholesterol), HDL (“good” cholesterol), and triglycerides. It’s a critical screening tool for assessing cardiovascular risk, guiding treatment decisions, and monitoring the effectiveness of interventions aimed at reducing the risk of heart attack and stroke.

Glycosylated Hemoglobin (HbA1c)

HbA1c provides an average blood glucose level over the past two to three months. It’s used to diagnose and monitor diabetes management, offering a long-term view of blood sugar control to help prevent complications associated with diabetes

Thyroid Function Test (TFT)

TFTs measure how well your thyroid is working and can detect too much or too little thyroid hormone. The thyroid regulates your body’s metabolism, so these tests can help explain symptoms like fatigue, weight gain, or weight loss.

Thyroid Function Test (TFT)

TFTs measure how well your thyroid is working and can detect too much or too little thyroid hormone. The thyroid regulates your body’s metabolism, so these tests can help explain symptoms like fatigue, weight gain, or weight loss.

Vitamin B12

B12 is crucial for proper red blood cell formation, neurological function, and DNA synthesis. Testing is essential to diagnose B12 deficiency, which can lead to serious neurological symptoms and blood disorders like megaloblastic anemia. It is especially important for people with dietary restrictions (like vegans), older adults, and those with digestive absorption issues.

Vitamin D, 25-Hydroxy

Vitamin D plays a significant role in bone health by regulating calcium and maintaining phosphorus levels in the blood. It is also important for immune function and has been linked to other health outcomes, including mood regulation and protection against chronic disease. Testing is essential for detecting deficiencies, which can lead to bone disorders like osteoporosis and rickets, and to ensure adequate vitamin D levels for overall health maintenance.

Iron Profile

This test measures several components (iron, ferritin, total iron-binding capacity) to evaluate the amount of iron in the body. It’s crucial for diagnosing iron-deficiency anemia or iron overload disorders, which can affect energy levels, cognitive function, and overall health.

High Sensitive C-Reactive Protein (HSCRP)

This test measures low levels of CRP in the blood, which is a marker of inflammation. It is especially useful for assessing the risk of cardiovascular disease. Elevated hs-CRP levels are associated with an increased risk of heart attacks and strokes.

RA Factor (Rheumatoid Factor)

This test is used to help diagnose rheumatoid arthritis (RA) and other autoimmune disorders. The presence of RA factor in the blood is an indicator of autoimmune activity.

RA Factor (RaAPO-A1/APO-B Ratioheumatoid Factor)

This test measures the ratio of Apolipoprotein A1 to Apolipoprotein B. Higher ratios are generally considered protective against cardiovascular diseases, as Apo-A1 is a component of HDL (“good” cholesterol) and Apo-B is a component of LDL (“bad” cholesterol).

Amylase

Amylase testing helps diagnose and monitor pancreatic disorders, including acute pancreatitis. Elevated levels can indicate pancreatic inflammation or injury.

Lactate Dehydrogenase (LDH)

LDH is an enzyme found throughout the body, and elevated levels can indicate tissue damage, including from conditions such as anemia, liver disease, and cancer.

Lipase

Similar to amylase, lipase is an enzyme that helps diagnose and monitor diseases of the pancreas. It is more specific than amylase for diagnosing pancreatitis.

Magnesium (Mg)

Magnesium is a critical mineral for many bodily functions, including nerve, muscle, and bone health. Testing for magnesium can help diagnose or monitor conditions associated with magnesium deficiency or excess.

Carcinoembryonic Antigen (CEA)

CEA is a protein that can be a marker of cancer, particularly colon cancer, though it can be elevated in other conditions too. It’s primarily used to monitor treatment response in individuals diagnosed with certain types of cancer and can help detect recurrences.

Including these tests in routine checkups can help detect potential health issues early, providing a valuable tool for managing your overall health and preventing more serious conditions.

How to Prepare?

Preparation guidelines for your screening package –
These steps will help ensure that your tests provide accurate and useful information for assessing your health.

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Frequently Asked Questions & Testimonials

What is included in a comprehensive health check-up?

A comprehensive health check-up typically includes a thorough physical examination, blood tests (e.g., complete blood count, cholesterol levels, blood sugar), urine tests, imaging studies (e.g., X-rays, ultrasounds), and screenings for specific conditions such as heart disease, diabetes, and cancer. It may also include assessments of liver and kidney function, thyroid function, and more.

How often should I get a comprehensive health check-up?

The frequency of comprehensive health check-ups can vary based on age, gender, medical history, and risk factors. Generally, adults are advised to have a check-up every 1-3 years. Those with chronic conditions or higher risk factors may need more frequent evaluations.

Why is a comprehensive health check-up important?

Comprehensive health check-ups are crucial for early detection and prevention of diseases. They help identify risk factors, monitor existing health conditions, and provide an opportunity to discuss lifestyle changes and preventive measures with healthcare providers.

What should I do to prepare for a comprehensive health check-up?

Preparation for a comprehensive health check-up may include fasting (typically 8-12 hours before blood tests), bringing a list of current medications, noting any symptoms or concerns to discuss with the doctor, and wearing comfortable clothing for physical examinations. It’s also helpful to bring any previous medical records.

Are there any risks associated with comprehensive health check-ups?

Comprehensive health check-ups are generally safe. However, some tests, like blood draws, may cause minor discomfort or bruising. In rare cases, certain procedures like imaging studies involving radiation may have minimal risks, but these are usually outweighed by the benefits of early disease detection.

Will my insurance cover a comprehensive health check-up?

Coverage for comprehensive health check-ups varies by insurance plan. Some plans cover preventive services fully, while others may require co-pays or may not cover certain tests. It’s essential to check with your insurance provider to understand your coverage details and any potential out-of-pocket costs.

MRI of the uterus is primarily used for diagnosing and evaluating conditions such as uterine fibroids, adenomyosis, and malignancies. It is particularly useful in the planning of surgical procedures and assessing the extent of gynecological diseases. This imaging test is valuable for its ability to deliver detailed cross-sectional images of the uterus and surrounding structures.
An MRI of the spleen can help diagnose various disorders affecting the spleen including splenomegaly (enlarged spleen), tumors, and other abnormalities. It provides clear, detailed images that are crucial for assessing the health of the spleen and planning potential surgical interventions.
Prostate MRI is a non-invasive imaging technique that provides detailed pictures of the prostate gland and surrounding tissues. It helps in the detection, staging, and monitoring of prostate cancer. Prostate MRIs are increasingly used to guide biopsy procedures and assist in the planning of treatment strategies for prostate health.
An MRI of the pancreas is used to identify issues such as pancreatitis, pancreatic cancer, and other pancreatic disorders. It offers high-resolution images that help in detecting small lesions and assessing the pancreatic ducts. This imaging technique is valuable for guiding biopsies and planning surgeries involving the pancreas.
MRI scans of the liver, kidney, and bile ducts provide detailed images that help diagnose various conditions, such as tumors, cysts, and blockages in the bile ducts. They are crucial for assessing organ damage, staging cancer, and planning liver or kidney-related surgeries. This type of MRI can also evaluate the health and function of these organs comprehensively.
Breast MRI is highly sensitive for detecting breast cancer, especially in individuals with dense breast tissue or a high risk of cancer. It is often used in conjunction with mammography to provide a more comprehensive evaluation. Breast MRIs can also monitor the response to breast cancer treatments and provide detailed pre-surgical mapping.
Brain and spine MRIs are critical tools for diagnosing and monitoring neurological conditions, including tumors, spinal cord injuries, and multiple sclerosis. These MRIs can reveal abnormalities in brain tissue and spinal cord structure that might not be visible with other imaging methods. They are essential for planning surgeries and assessing the effectiveness of treatments in neurology.
PET-CT scans of transplant organs like the liver, kidney, or pancreas are performed to assess metabolic activity, detect complications, and monitor post-transplant function. These scans play a vital role in the early detection of issues such as organ rejection, recurrence of disease, or infection, guiding timely interventions and optimizing transplant outcomes for patients.
PET-CT examinations of organs such as the liver, kidney, or prostate are crucial for assessing metabolic activity, detecting abnormalities, and monitoring disease progression. These scans help diagnose conditions such as liver metastases, renal cell carcinoma, or prostate cancer, guiding treatment decisions and monitoring response to therapy over time.
PET-CT scans of soft-tissue masses are utilized to assess metabolic activity and detect malignant tumors or other abnormalities. By combining PET imaging with CT imaging, these scans provide detailed information about tumor location, size, and metabolic characteristics, aiding in accurate diagnosis and treatment planning for soft-tissue cancers.
PET-CT scans are valuable for detecting cysts or fluid collections within the body, including cysts in the liver, kidneys, or other organs. These scans help characterize the nature and metabolic activity of cysts, guiding diagnosis and treatment planning for conditions such as cystic liver disease, renal cysts, or pancreatic cysts.
PET-CT scans of muscles are performed to assess metabolic activity and detect abnormalities such as inflammation, infection, or tumors. These scans provide valuable information about muscle function and pathology, aiding in the diagnosis and management of conditions like myositis, muscular dystrophy, or soft-tissue sarcomas.
PET-CT scans of the brain are utilized to evaluate brain metabolism and detect abnormalities such as tumors, epilepsy, or neurodegenerative diseases. By combining functional PET imaging with anatomical CT imaging, these scans offer comprehensive information about brain function and structure, guiding neurosurgical interventions and treatment decisions for neurological disorders
PET-CT scans of bones are commonly used to detect bone metastases in cancer patients, assess bone health in conditions like osteoporosis, and evaluate response to treatment. By combining PET and CT imaging, these scans provide detailed information about metabolic activity and anatomical changes in bone structures, aiding in accurate diagnosis and treatment planning for various bone-related conditions.
CT scans of the spine are conducted to assess the vertebrae, spinal cord, and surrounding soft tissues for conditions like herniated discs, spinal fractures, or spinal stenosis, aiding in the diagnosis and management of spinal disorders with detailed imaging essential for surgical planning and intervention.
CT scans of the pelvis are utilized to visualize the pelvic bones, reproductive organs, bladder, and surrounding structures for conditions such as fractures, tumors, or pelvic inflammatory disease, guiding treatment plans and surgical interventions with precise anatomical information.
CT scans of the neck are performed to evaluate structures such as the throat, thyroid gland, lymph nodes, and blood vessels for abnormalities like tumors, infections, or injuries, assisting in diagnosis and management of head and neck disorders with detailed imaging.
CT scans of the extremities are employed to assess bones, joints, and soft tissues in the arms or legs, aiding in the diagnosis of fractures, arthritis, or other musculoskeletal conditions, guiding orthopedic treatment and rehabilitation plans for optimal recovery.
CT scans of the chest are utilized to examine the lungs, heart, blood vessels, and surrounding structures for conditions such as lung nodules, pneumonia, or pulmonary embolism, facilitating accurate diagnosis and management of respiratory and cardiovascular diseases.
CT scans of the brain are conducted to assess brain structures, identify abnormalities like tumors, hemorrhages, or strokes, and aid in diagnosing neurological conditions, guiding neurosurgical interventions and treatment strategies with precise imaging of the brain’s anatomy.
CT scans of the abdomen are performed to visualize and evaluate the internal organs such as the liver, kidneys, pancreas, and intestines for conditions like tumors, infections, or injuries, providing detailed images essential for diagnosis and treatment planning.
Transplant organ ultrasound scans, including those of the liver, kidney, or pancreas, are performed to assess organ viability, detect complications, and monitor post-transplant function. These scans play a vital role in the early detection of issues such as organ rejection, vascular complications, or fluid collections, guiding timely interventions and optimizing transplant outcomes for patients.
Ultrasound examinations of organs such as the liver, kidney, or prostate are crucial for assessing organ structure, detecting abnormalities, and monitoring disease progression. These scans help diagnose conditions such as liver cirrhosis, kidney stones, or prostate enlargement, guiding treatment decisions and monitoring response to therapy over time.
Soft-tissue masses can be evaluated using ultrasound to determine their size, location, and characteristics. Ultrasound imaging helps differentiate between benign and malignant masses, guiding further diagnostic evaluation and treatment planning. By providing real-time imaging, ultrasound assists in the precise localization of soft-tissue masses for biopsy or surgical removal if needed.
Ultrasound scans are valuable for detecting cysts or fluid collections within the body, including cysts in the liver, kidneys, or other organs. These scans help characterize the nature and size of cysts, aiding in diagnosis and treatment planning for conditions such as cystic liver disease or renal cysts, and guiding interventions such as cyst drainage or sclerotherapy.
Musculoskeletal ultrasound scans are used to assess the health and integrity of muscles, identifying issues such as strains, tears, or muscle inflammation. These scans provide detailed images of muscle structures, allowing healthcare providers to diagnose muscle injuries accurately and develop personalized rehabilitation plans to promote recovery and restore function.
Ultrasound examinations of joints are essential for evaluating joint health, detecting abnormalities such as inflammation, fluid accumulation, or cartilage damage. By visualizing the joint structures in real-time, ultrasound helps diagnose conditions like arthritis, bursitis, or ligament injuries, guiding treatment decisions and monitoring disease progression over time.
Ultrasound scans of tendons are performed to assess for injuries, inflammation, or tears, aiding in the diagnosis and management of conditions such as tendonitis or tendon tears. These scans provide detailed images of tendon structures, helping healthcare providers determine the extent of damage and plan appropriate treatment strategies, including physical therapy or surgical intervention if necessary.
Pelvis X-rays play a crucial role in diagnosing injuries, diseases, and developmental conditions affecting the pelvic region. They provide detailed images of the hip bones, sacrum, and coccyx, aiding in the assessment of fractures, dislocations, or signs of arthritis. Pelvic X-rays are instrumental in guiding surgical interventions, monitoring healing progress, and evaluating conditions such as osteoporosis or tumors. By providing precise anatomical information, these imaging studies enable healthcare professionals to deliver personalized care and improve patient outcomes.
Teeth X-rays, known as dental radiographs, are indispensable tools for dentists to assess oral health. They aid in diagnosing dental decay, gum disease, and abnormalities in tooth structure or alignment. These images provide valuable insights into hidden dental issues, allowing for early intervention and prevention of complications. Additionally, dental X-rays are essential for planning treatments such as orthodontics, root canals, or dental implants, ensuring optimal outcomes and patient satisfaction.
Spine X-rays are pivotal in diagnosing spinal fractures, degenerative conditions, and spinal misalignments, providing critical information for treatment planning and monitoring spinal health. They offer detailed images of the vertebrae and surrounding structures, enabling healthcare professionals to identify issues such as scoliosis, disc herniation, or spinal stenosis
Skull X-rays are valuable for detecting fractures, assessing head trauma, and evaluating the alignment of facial bones, crucial in diagnosing conditions like fractures, tumors, or developmental abnormalities in the skull. They provide detailed views of the cranial structure, aiding clinicians in determining appropriate treatment strategies and ensuring patient safety.
For the heart, X-ray solutions can aid in the detection of various cardiac problems, ranging from mild to severe, including – Heart failure, Cardiac congestion and other heart-related conditions. In addition to cardiac assessments, X-ray solutions are also used for breast examinations to identify tumors or signs of breast cancer.

Bone X-rays are essential for diagnosing fractures and assessing bone alignment, aiding doctors in developing treatment plans and monitoring healing progress. They provide detailed images of the skeletal system, helping identify abnormalities or injuries that may not be visible through other imaging techniques

Abdominal X-rays are performed when patients experience symptoms such as significant nausea, ongoing vomiting, abdominal pain, flank or back pain, or abdominal swelling. These X-rays can help diagnose various conditions.
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