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Best PET Scan in Bangalore

Looking for PET Scan in Bangalore with quick, accurate reports and caring staff at a clean, reliable place like Koshikaa PET CT Scan Centre.

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What is PET CT Scan?

A PET-CT scan stands for positron emission tomography state of the art is a medical test that combines two scans:

  • PET: Shows how your organs or tissues are working using a safe, radioactive substance (tracer) injected into your body, which highlights active areas.
  • CT: Takes clear X-ray pictures of the inside of your body.

Together, they give a complete view of both the structure and activity of your organs. It’s commonly used to detect cancer, check heart or brain problems, or find infections. You get a small tracer injection, lie in a scanner for 20–60 minutes, and the test is done. It’s safe with minimal radiation.

Types of PET CT Scans We Offer

At Koshikaa, we provide different types of PET CT scans to suit your medical needs:

Whole Body PET CT Scan

This scan checks your entire body for cancer spread or other diseases in one go.

Brain PET CT Scan

It helps doctors evaluate brain function, tumours, epilepsy, or dementia effectively.

Cardiac PET CT Scan

This scan assesses blood flow and detects any heart-related problems.

Oncology PET CT Scan

Used mainly for cancer detection, staging, and checking how well treatment is working.

Bone PET CT Scan

It looks for cancer spread to bones or any bone disorders.

FDG PET CT Scan

This common scan uses FDG tracer to find active cancer cells in the body.

DOTANOC PET CT Scan

It is done for detecting neuroendocrine tumours.

PSMA PET CT Scan

This scan is used to detect and stage prostate cancer accurately.

Why Do You Need ?

Doctors may advise a PET CT scan to:

✔️ Detect cancer and see if it has spread
✔️ Check how well cancer treatment is working
✔️ Diagnose heart problems like reduced blood flow
✔️ Identify brain conditions such as Alzheimer’s

Why Choose Koshikaa

Ultrasound Scan In Bangalore with cutting edge technology

Advanced Imaging Technology

Affordable Pricing

Ultrasound scan in Bangalore with patient focused approach

Expert Radiologists

100% Reliable and accurate ultrasound scan reports

Fast Reports & Easy Booking

Trusted by Doctors Across Bangalore

Ultrasound scan in Bangalore with Comprehensive Screening

Hygiene & Comfort

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Cost of PET CT Scan in Bangalore

The average cost of a PET CT scan in Bangalore ranges from ₹15,000 to ₹30,000, depending on:

  • Type of scan (whole body, brain, cardiac)

  • Radiotracer used

  • Hospital or diagnostic centre location

At Koshikaa Diagnostics, we provide affordable PET CT scans with clear pricing and no hidden charges.

Bone PET CT – NaF18₹12000

Bone PET-CT (Positron Emission Tomography – Computed Tomography) using NaF-18 is a diagnostic imaging technique used to assess bone health and detect abnormalities such as fractures, infections, tumors, and metastases. NaF-18 is a radioactive tracer that binds to bone mineral, allowing PET-CT scans to highlight areas of increased bone activity or metabolism. This imaging modality is particularly useful in oncology for staging and monitoring skeletal metastases and in orthopedics for evaluating bone diseases and injuries.

Brain PET CT ₹14000

 
Brain PET-CT is a scan that shows both the structure and activity of the brain. A small amount of a substance called FDG is injected into the blood to help highlight active areas.

Regional PET CT ₹14000

Regional PET-CT is a scan that focuses on one part of the body instead of the whole body. It combines PET and CT to show both how that area looks and how it works.

PET Cardiac Viability ₹14000

PET cardiac viability imaging is a scan used to check if the heart muscle is still healthy and active in people with heart problems like blocked arteries.

Full Body FDG PET CT ₹25000

FDG PET is a scan that shows how active your cells are. A small amount of radioactive sugar (FDG) is injected into your blood. Active cells, like cancer cells, absorb more FDG and show up brighter in the scan.

PSMA PET CT₹29000

PSMA PET/CT scan is a special test used mainly for prostate cancer. A small amount of a radioactive tracer is injected, which sticks to prostate cancer cells. The PET scan shows where the cancer is active, and the CT scan shows the exact location inside the body.

DOTANOC PET CT ₹29000

DOTANOC PET/CT scan is a special test used to find and monitor neuroendocrine tumors (NETs). A small amount of a tracer called DOTANOC is injected, which sticks to NET cells. The PET scan shows where the tumor is active, and the CT scan shows its exact location in the body.

FAPI PET CT ₹29000

FAPI is a special tracer used in cancer scans. It targets a protein called FAP, which is found in support cells around tumors. These cells are often active in many types of cancer.

Where We Use

Utilizing PET CT Scan in Bangalore enables effective visualization of various structures and conditions within the body,

PET CT Scan In Bangalore

Bones

PET CT Scan In Bangalore

Brain

PET CT Scan In Bangalore

Muscles

PET CT Scan In Bangalore

Cysts or fluid collections

PET CT Scan In Bangalore

Soft-tissue masses

PET CT Scan In Bangalore

Organs such as liver, kidney, or prostate

PET CT Scan In Bangalore

Transplant organs like liver, kidney, or pancreas

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How PET CT Scan works?

Best Pet Ct Scan In Bangalore

How to Book a PET CT Scan at Koshikaa in Bangalore

Booking an Affordable PET CT Scan at Koshikaa Diagnostic scan center bangalore is easy and takes less than a minute. Just follow these 4 simple steps:

Fill Out the Booking Form

Enter your name, mobile number, and email. It helps us contact you quickly and confirm your appointment.

Wait for a Quick Confirmation Call

Our team will call you to confirm your appointment and guide you on any instructions for the scan.

Get Details via SMS or Email

Once confirmed, you’ll receive the appointment details, center address, and reporting time directly to your phone or inbox.

Walk In for Your Ultrasound Scan

Visit the center at your scheduled time. Our expert team will ensure a smooth, comfortable experience.

How to prepare for Scan?

Preparing for a PET scan involves following specific instructions from your healthcare provider, including the following –

✔️ Fasting: Do not eat for at least 6 hours before the scan.
✔️ Medications: Inform your doctor about any ongoing medicines.
✔️ Clothing: Wear comfortable clothes without metal zips or buttons.

Our team at Koshikaa will guide you with preparation instructions before your appointment.
  • Provide a current list of all medications, vitamins and supplements, as well as any allergies you have.
  • Abstain from food for six hours before the test (though this may vary for those with diabetes)
  • Drink only water before the scan
  • Avoid caffeine for 24 hours before the test if the scan is related to a heart problem.
  • Wear comfortable clothing and leaving metal accessories at home.

SCAN DURATION: The actual PET scan procedure typically takes about 30 minutes, but the entire process may last up to two – three hours due to the time required for the radiotracer to be absorbed by the body

TO-BE-MOMMYS  and BREAST FEEDING MOMMYS!! Please Inform your provider about the possibility of pregnancy or breastfeeding and follow the instructions advised by them

How does scan help in early cancer detection?

Cancer cells show up as bright spots on PET scans because they have a higher metabolic rate than the typical cells. PET scans may be useful in –
  • Detecting cancer diagnosis in early stage.
  • Revealing whether your cancer has spread in medical conditions.
  • Checking whether cancer treatment is working.
  • Finding a cancer recurrence.

Is it Safe?

Yes, it is safe. The radiation used is minimal and does not stay in your body for long. At Koshikaa, we follow strict safety protocols to keep you comfortable and protected.

PET CT vs MRI/CT – What’s the Difference?

FeaturePET CT ScanMRI ScanCT Scan
ShowsOrgan function + structureSoft tissue structureBody structure (bones, organs)
Best ForCancer, heart, brain metabolismBrain, spine, musclesBones, lungs, abdomen
Radiation?Yes (minimal)NoYes
Scan Time30–90 mins30–60 mins5–15 mins
Contrast UseSometimesSometimesSometimes

Reviews from Koshikaa Customers

Jacob Jones
Age : 45

I was thoroughly impressed with my lung PET CT scan here. The staff was friendly, the technician skilled, and results were promptly provided with clear explanations

Jayalakshmi Kumar
Age : 52

Koshikaa for thyroid PET CT scan surpassed my expectations. The staff was professional and caring, the technician thorough, and the facility clean and comfortable. Highly recommended.

Jay Singh
Age : 45

My Head and Neck PET CT scan experience here was seamless. The knowledgeable technician answered all my questions, and results were promptly delivered with follow up to ensure understanding.

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Frequently Asked Questions

What Is A PET-CT Scan Used For?

A PET-CT scan is used to combine two images a functional image from the PET (Positron Emission Tomography) and a structural image from the CT (Computed Tomography) to provide a comprehensive view of the body.

Why Would A Doctor Suggest A PET-CT Scan?

Doctors suggest a PET-CT Scan to:

  1. Detect and Stage Cancer: Find cancer, see if it has spread (staging), and check for recurrence.
  2. Monitor Treatment: Check how well chemotherapy or radiation treatment is working.
  3. Heart Health: Diagnose heart problems like reduced blood flow (Cardiac PET CT).
  4. Brain Disorders: Evaluate brain function and diagnose conditions like tumours, epilepsy, and neurodegenerative diseases (e.g., Alzheimer’s, dementia).

Identify Infections/Inflammation: Locate areas of infection or unexplained inflammation.

How Does A PET CT Scan Work?

A PET-CT scan works by performing two scans in one machine:

  1. PET (Positron Emission Tomography): A small amount of a radioactive substance (called a tracer, usually a form of glucose like FDG) is injected into the body. This tracer collects in areas with high metabolic activity (like cancer cells or areas of inflammation). The PET scanner detects the radiation from the tracer, showing how tissues are functioning.
  2. CT (Computed Tomography): This takes detailed X-ray pictures to show the structure and exact location of organs and tissues.
    The combined image precisely pinpoints where the abnormal activity (from the PET scan) is occurring within the body’s structure (from the CT scan).

What Are The Common Issues That A PET CT Scan Can Detect?

The scan detects abnormal metabolic activity at a cellular level, which can manifest as:

  • Cancer: Malignant tumours (which rapidly absorb the glucose tracer).
  • Metastasis (Cancer Spread): Identifying if cancer cells have travelled to bones or other organs.
  • Brain Issues: Areas of decreased activity (dementia) or increased activity (epilepsy, tumours).
  • Heart Issues: Areas of damaged or reduced blood flow to the heart muscle (viability).

Is a PET-CT Scan Only For Cancer?

No. While widely known and primarily used in oncology for cancer detection, staging, and monitoring, PET-CT scans are also vital for diagnosing:

  • Neurological Disorders (e.g., Alzheimer’s disease, brain tumours).
  • Cardiovascular Conditions (e.g., assessing heart muscle viability after a heart attack).
  • Identifying unknown infections or inflammation that isn’t easy to locate with other methods.

Who Should Take The PET CT Scan?

A PET-CT scan should only be taken when specifically ordered by a doctor, typically for patients who:

  • Have been newly diagnosed with cancer and require staging.
  • They are undergoing cancer treatment to monitor its effectiveness.
  • Require investigation for unexplained neurological symptoms (dementia, seizures).
  • Need assessment for heart viability (to determine if revascularisation will help).

How Much Does a PET Scan Cost in Bangalore?

The cost of a PET-CT scan in Bangalore varies based on the type of scan, the tracer used (FDG, PSMA, etc.), and the facility.

General Price Range in Bangalore: The average cost typically ranges from ₹15,000 to ₹30,000.

How Long Does A PET Scan Take?

The entire process, from injection to completion, can take 2 to 3 hours.

  • Radiotracer Uptake: You must rest quietly for approximately 60 minutes after the tracer injection to allow the substance to be fully absorbed.
  • Actual Scan Time: The time spent inside the scanner is typically 20 to 60 minutes.

Is PET-CT Better Than MRI?

It is not a question of which is “better,” but rather which is more appropriate for the clinical need:

  • PET-CT: Is superior for showing function and metabolic activity (e.g., locating active cancer cells).
  • MRI (Magnetic Resonance Imaging): Is superior for showing detailed structure and soft tissue contrast (e.g., visualising brain matter, ligaments, or spinal issues).

The two technologies are often complementary. For cancer, the PET-CT scan is usually preferred for staging and tracking treatment response because it can detect cellular changes earlier than structural-only scans.

Why Is Koshikaa The Best Choice For A PET CT Scan In Bangalore?

  • Because we are committed to offering state-of-the-art PET/CT diagnostic services combining functional (PET) and anatomical (CT) imaging for accurate, early detection.

  • Our radiologists and staff follow international clinical and safety protocols (including proper radiotracer use, patient preparation, and scan-reporting standards), ensuring high-quality and reliable scans. 

  • We aim for convenience: efficient booking, clear instructions, and timely delivery of reports (often within 24-48 hours) to help patients get prompt follow-up care.

What Are The Types Of PET CT Tests Available In Bangalore?

Different types of PET-CT scans are commonly available, depending on the clinical need. These include:

  • Whole-body / Full-body PET CT: often used for cancer staging, detecting metastasis or checking for recurrence.
  • Oncology PET CT – for tumour detection, mapping, treatment response and follow-up.
  • Brain / Neurological PET CT: for evaluating brain disorders such as tumours, seizures, dementia, or other neurological conditions.
  • Cardiac PET CT: for assessing heart muscle viability, blood flow, or damage (e.g. after heart attack) 
  • Bone PET CT / Bone-metastasis PET CT: for skeletal metastasis or bone-related metabolic abnormalities.
  • FDG-PET CT: (using tracer such as fluorodeoxyglucose): commonly used to detect metabolic abnormalities & cancers.

Which Body Parts Are Commonly Scanned Through PET CT in Bangalore?

Because PET-CT can be tailored based on the tracer used and the clinical question, common scans include:

  • Entire body (full-body) for comprehensive cancer check, metastasis screening or follow-up.

  • Brain / head region for neurological issues, brain tumours, epilepsy, dementia, etc.

  • Heart / cardiac region for cardiac PET-CT to assess blood flow or heart muscle health.

  • Bones / skeletal system especially for detecting bone metastasis or bone-related lesions.

  • Specific organs or regions depending on clinical need (e.g. lungs, abdomen, lymph nodes, etc.), especially when cancer or tumour staging is being done.

How To Book a PET CT Scan in Bangalore Online?

You can typically book a PET-CT scan by following these steps:

  1. Online Booking Form: Click the Book An Appointment Now” button or use the Call +91 7996666104
  2. Confirmation Call: Our team will call you back to confirm your appointment, discuss the necessary preparation (e.g., fasting for 6 hours), and provide pre-scan instructions.
  3. Receive Details: You will receive confirmation details, the centre address, and the report time via SMS or email.
  4. On the day of scan, arrive ahead of scheduled time, complete registration and consent, and proceed with the scan.

What Special Preparation Is Needed For A PET-CT Scan?

This is the #1 concern, especially regarding fasting, diet, and exercise (all crucial for FDG tracer accuracy).

Why Is Fasting Required Before A PET-CT Scan?

Explains the importance of low blood sugar to ensure the tracer (FDG) goes to the target cells, not muscle or fat.

What Precautions Should Diabetic Patients Take Before A PET-CT Scan?

Diabetes significantly affects the tracer’s accuracy. This needs a specific, clear answer.

Are There Any Restrictions After The PET-CT Scan?

Addresses common safety concerns about exposure to others (especially pregnant women/children).

Can I Take My Regular Medications Before The Scan?

Clarifies medication rules, which can be confusing (especially steroids or diabetic drugs).

Can A PET-CT Scan Detect A Bone Fracture?

A common diagnostic question is to clarify what the structural (CT) and functional (PET) parts detect.

How Do I Find The Most Reliable PET CT Scan Centres In Bangalore?

When choosing a PET-CT centre, consider:

  • Accreditation and certification choose centres following proper radiology & nuclear medicine standards.
  • Use of modern PET/CT equipment and experienced radiologists.
  • Transparency about procedures, patient preparation and safety protocols.
  • Clear communication about costs, fasting/medication instructions, and report delivery time.
  • Patient reviews or feedback (if available), and ease of access (location, transport, ease of booking) especially important if follow-ups may be required.

How Long Does It Take To Get PET CT Scan Reports In Bangalore?

  • Typically, PET-CT scan reports are ready within 24 to 48 hours after the scan.
  • The exact time can vary based on the centre’s workload, complexity of the scan, and whether additional image processing or expert radiologist review is required.

Are There Any PET CT Scan Centres Open On Weekends In Bangalore?

  • Many diagnostic centres attempt to provide flexible timings, but weekend availability can vary widely.
  • It’s best to call ahead and check confirm whether they operate on Saturdays or Sundays, as well as slots for booking and report delivery.
  • For urgent cases, some centres may offer weekend or emergency slots, especially if referred by a doctor.

What Are The Service Hours Of PET CT Scan Centres In Bangalore?

Service hours vary by diagnostic centre. Typically:

  • PET-CT scanning centres operate during standard hospital/diagnostic-centre hours (morning to evening).
  • For example, some centres require you to arrive early for fasting/preparation, and scanning plus reporting procedures may extend into the evening.
  • Report pick-up or digital delivery is often within the next day some centres may allow report collection in the evening (or courier/email/WhatsApp delivery) for convenience

 

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.
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 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 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 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 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 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.
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.
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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