Knee MRI Scan Price in Delhi [2024]

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Get up to 50% off on knee MRI prices in Delhi, and experience top-notch lab facilities ensuring the utmost precision in your diagnosis.

MRI Scan Knee in Delhi by MFine

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  • 20,000+ MRI scans completed 
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Looking for a knee MRI in Delhi? 

The usual market rate is above ₹7,000, but we have a special deal for you! For a limited period, you can get your MRI done for only ₹2,250, saving up to 50%! Don’t hesitate, click the button below to request a callback or call us at 

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You can book an online doctor consultation after booking the test.

Knee MRI scan costs in Delhi

We have consolidated the discounted rates for the most prevalent knee MRI scans offered in Delhi. Please note that these prices may be subject to revisions; for the most up-to-date information, kindly reach out to us.

MRI Knee Cost in Delhi Offer Price 
MRI Knee Price in Delhi ₹2250
MRI Both Knee Price in Delhi ₹4500


Contact us at ☏08061970525 to book a convenient lab appointment at your preferred time.

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Exclusive Benefits with MFine

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Get access to over 600+ labs certified by NABL and NABH

(2) Same-day slot available

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Get reports in 12 hours and digital films in 15 – 20 minutes

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All about Knee MRI Scan

A knee MRI scan is a valuable medical imaging procedure that allows healthcare professionals to obtain detailed images of the knee joint and its various components without resorting to invasive measures.

The knee joint is a complex structure comprising bones, cartilage, ligaments, tendons, muscles, joint capsule, and bursae, all working together to provide stability and facilitate movement. 

What is MRI Scan
MRI Scan

The Anatomy of the Knee Joint

The knee joint is a pivotal hinge joint that connects the femur (thigh bone), tibia (shin bone), and patella (knee cap). Its intricate design enables a wide range of motion while maintaining stability during weight-bearing activities.

Understanding the various structures involved in the knee joint is essential for comprehending the significance of a knee MRI scan. The major components include:

Bones

  • Femur (Thigh Bone): As the largest bone in the thigh, the femur forms the upper part of the knee joint and plays a crucial role in supporting body weight and facilitating various knee movements.
  • Tibia (Shin Bone): The larger of the two lower leg bones, the tibia constitutes the lower part of the knee joint and acts as the primary weight-bearing bone of the leg.
  • Patella (Knee Cap): Positioned in front of the knee joint, the patella protects the knee and provides leverage for knee movement. It is embedded within the tendon of the quadriceps muscle.

Cartilage

  • Meniscus: The knee joint is equipped with two menisci – medial and lateral – which are C-shaped cartilage structures that act as shock absorbers, cushioning the joint during movement and distributing body weight evenly.
  • Articular Cartilage: This smooth, protective covering on the ends of bones enables frictionless gliding during knee motion and protects the joint surfaces from wear and tear.

Ligaments

Ligaments are strong, fibrous bands that connect bones to bones and provide stability to the knee joint. The major ligaments in the knee include:

  • ACL (Anterior Cruciate Ligament): Situated at an angle in the middle of the knee, the ACL stabilizes the knee by preventing excessive forward movement of the tibia in relation to the femur.
  • PCL (Posterior Cruciate Ligament): Located behind the ACL, the PCL prevents excessive backward movement of the tibia in relation to the femur.
  • MCL (Medial Collateral Ligament): Found on the inner side of the knee, the MCL provides stability to the joint and prevents it from bending inward.
  • LCL (Lateral Collateral Ligament): Situated on the outer side of the knee, the LCL plays a crucial role in maintaining proper alignment and preventing the knee from bending outwards.

Tendons

Tendons are tough, fibrous tissues that connect muscles to bones. In the knee, they include:

  • Quadriceps Tendon: Connecting the quadriceps muscles to the patella, this tendon is essential for knee extension, allowing the leg to straighten.
  • Patellar Tendon: Linking the patella to the tibia, the patellar tendon facilitates movements like jumping and running by transferring force generated by the quadriceps muscles.

Muscles

Although not technically part of the knee joint, several muscles surround the knee and play vital roles in knee function and stability.

  • Quadriceps: Consisting of four muscles in the front of the thigh, the quadriceps work together to extend the knee and straighten the leg.
  • Hamstrings: Comprising three muscles at the back of the thigh, the hamstrings flex the knee, allowing the leg to bend. They also contribute to hip extension and knee stability.
  • Gluteal Muscles (Glutes): Located in the buttocks, the gluteal muscles, including the gluteus maximus, medius, and minimus, help position the knee during movement and contribute to overall knee stability.

Joint Capsule

The knee joint is surrounded by a thin, tough membrane called the joint capsule, which helps keep the joint stable. This capsule is lined with synovial fluid, which lubricates the joint and reduces friction during movement.

Bursa

Fluid-filled sacs called bursae are present around the knee joint and provide cushioning and reduce friction between tissues during knee movement, preventing irritation and inflammation.

Reasons for Ordering a Knee MRI Scan

A knee MRI scan is recommended for various reasons, including:

Common Injuries

  • Fractures: MRI scans can detect fractures in the bones of the knee joint, helping doctors assess the extent of the injury and plan appropriate treatment.
  • Ligament Injuries: Tears or damage to ligaments like the ACL, PCL, MCL, or LCL. MRI scans provide detailed images of ligament injuries, aiding in accurate diagnosis and treatment planning.
  • Meniscal Tears: The menisci are susceptible to tears, especially during sports or activities that involve sudden twisting or pivoting movements. MRI scans can identify meniscal tears and guide appropriate treatment strategies.
  • Bursitis: Inflammation of the bursae in the knee can cause pain and swelling. An MRI scan helps determine the extent of inflammation and assists in developing a suitable treatment plan.
  • Tendonitis: Inflammation of tendons in the knee, such as the patellar tendon or quadriceps tendon, can cause discomfort and limit mobility. MRI scans help visualize tendon inflammation and guide treatment decisions.
  • Tendon Tears: Tears or damage to tendons, such as the quadriceps or patellar tendon, can significantly impact knee function. MRI scans provide detailed images of tendon tears, facilitating accurate diagnosis and treatment planning.
  • Collateral Ligament Injuries: Injuries to the collateral ligaments on the inner (MCL) or outer (LCL) side of the knee can cause instability. MRI scans help assess the severity of collateral ligament injuries and guide appropriate management.
  • Iliotibial Band Syndrome: A common overuse injury that affects the outer part of the knee. MRI scans can help identify inflammation or injury to the iliotibial band, guiding appropriate treatment and rehabilitation.
  • Posterior Cruciate Ligament Injuries: Tears or damage to the PCL can occur due to significant trauma or sports-related injuries. MRI scans play a crucial role in diagnosing PCL injuries and planning suitable treatment approaches.

Prerequisites for a Knee MRI Scan

In most cases, there are no specific prerequisites for a knee MRI scan. However, patients should inform their doctors about any metal implants or devices in their bodies, as they may interfere with the MRI procedure. Additionally, any allergies or medical conditions should be communicated, as some contrast agents used in MRI scans may not be suitable for certain individuals.

What to Expect During a Knee MRI Scan?

If your doctor recommends a knee MRI scan, here’s what you can expect during the procedure:

Preparation

  • You will likely be asked to change into a hospital gown to avoid any interference from metal objects in your clothing.
  • You may also need to remove jewelry, watches, and other metallic accessories.

Positioning

  • You will lie down on a movable examination table, which will slide into the MRI machine.
  • The MRI technician will ensure that you are comfortably positioned for the scan.

Stillness

  • During the scan, it is essential to remain as still as possible to obtain clear and accurate images.
  • The MRI machine will make loud noises during the procedure, but earplugs or headphones may be provided to minimize discomfort.

Contrast Agent (If Required)

  • In some cases, a contrast agent may be administered intravenously to enhance the visibility of certain structures in the knee.
  • This contrast material helps highlight blood vessels and areas of inflammation.

Duration

  • The duration of the MRI scan can vary depending on the complexity of the images required.
  • On average, a knee MRI scan takes between 30 to 60 minutes to complete.

Comfort

  • While MRI scans are generally painless, some patients may find the enclosed space of the MRI machine uncomfortable.
  • If you experience claustrophobia or discomfort, inform the MRI technician, who may provide strategies to help you feel more at ease.

FAQs

Will an MRI show knee ligament damage? 

Yes, an MRI can effectively show knee ligament damage and provide detailed information about the extent of the injury.

Do all knee ligament tears need surgery? 

Not all knee ligament tears require surgery. The need for surgery depends on the severity of the tear and the individual’s activity level.

Is MRI or X-ray better for ligament tear? 

MRI is generally better for assessing ligament tears because it provides more detailed images of soft tissues like ligaments, whereas X-rays focus on bones.

Read more on which is better: MRI or CT scan?

Is walking good for torn ligaments? 

Walking might be beneficial during the healing process for some torn ligaments, but it’s important to follow medical advice to avoid worsening the injury.

How long do torn ligaments take to heal? 

Healing time for torn ligaments varies based on the type and severity of the tear, but it can range from a few weeks to several months. Rehabilitation is often needed for a full recovery.

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