(Equipped with Artificial Intelligence & superior image quality)
A CT (Computed Tomography) scan is a diagnostic imaging procedure that combines X-rays with advanced computer technology to create highly detailed images of the body. It enables doctors to examine bones, blood vessels, and soft tissues with far greater clarity than standard X-rays, providing valuable insights into a patient’s condition.
CT scans have become an essential part of modern medicine, offering a quick, accurate, and non-invasive method for diagnosing a wide range of health conditions. The procedure usually takes between 5 to 30 minutes, depending on the area being scanned, and produces high-resolution images that help doctors detect abnormalities such as tumors, fractures, and infections. They are also used to evaluate the extent and progression of diseases like cancer, guide surgical procedures and biopsies, and monitor the effectiveness of ongoing treatments.
A detailed scan of the brain to detect bleeding, stroke, tumors, or trauma.
Often used in emergency settings for headache, injury, or neurological symptoms.
Provides fast, high-resolution images of brain structures.
Evaluates facial bone fractures, sinus issues, or facial deformities.
3D reconstruction offers detailed anatomical visualization for surgical planning.
Common in trauma, dental, and ENT evaluations.
Assesses soft tissues, lymph nodes, airways, and blood vessels in the neck.
Useful in evaluating infections, tumors, or swelling.
Often used in oncology, ENT, and emergency assessments.
Provides detailed images of lung parenchyma to assess interstitial lung disease.
Ideal for detecting fibrosis, infections, or chronic lung conditions.
Non-contrast study focused on fine pulmonary structures.
Visualizes abdominal organs like the liver, pancreas, kidneys, and intestines.
Helps detect tumors, infections, stones, or inflammation.
Often done with contrast for enhanced clarity.
Focused scan to detect kidney stones, infections, or urinary tract blockages.
Preferred imaging for suspected renal colic.
Fast and highly accurate in stone detection.
Evaluates pelvic organs, bones, and soft tissues.
Used for trauma, tumors, infections, or surgical planning.
Often combined with abdominal scan for complete lower torso assessment.
Assesses fractures, infections, or bone lesions in arms or legs.
Provides high-resolution images of bones and surrounding tissues.
Useful in orthopedic trauma and tumor evaluations.
Detailed imaging of shoulder joint, bones, and soft tissues.
Detects fractures, dislocations, or degenerative changes.
Useful in pre-operative planning and sports injuries.
Visualizes bones and joints of the elbow to detect fractures or joint disorders.
Helps evaluate pain, trauma, or post-surgical complications.
Often used in orthopedic and rheumatologic assessments.
Provides precise images of bones, joints, and soft tissues in the hand.
Detects small fractures, infections, or bone lesions.
Useful for trauma and post-operative evaluations.
Evaluates hip bones and joints for arthritis, fractures, or avascular necrosis.
Commonly used in elderly patients or after trauma.
Offers detailed visualization for surgical planning.
Assesses bony structures, joint space, and soft tissues of the knee.
Useful in trauma, arthritis, or post-operative follow-up.
Often used when MRI is contraindicated.
Provides detailed images of bones and joints in the ankle and foot.
Detects fractures, infections, or deformities.
Essential in trauma and complex foot pathologies.
Evaluates vertebrae, discs, and spinal cord in the neck region.
Used for trauma, degeneration, or suspected spinal injuries.
Quick and effective in assessing cervical spine alignment and pathology.
Assesses thoracic, lumbar, or sacral vertebrae for fractures, disc issues, or tumors.
Commonly used in back pain, trauma, or suspected spine infections.
Provides detailed bony anatomy and spinal canal imaging.
