Pace Hospitals | Best Hospitals in Hyderabad, Telangana, India
MRI Scan

Best MRI Scan in Hyderabad – Advanced & Affordable MRI Centre

PACE Hospitals is a leading MRI scan centre in Hyderabad, Telangana, India, offering advanced 1.5T MRI imaging for accurate diagnosis. Our radio diagnostic centre is equipped with the latest technology, ensuring clear, high-resolution scans for brain, spine, joints, abdomen, and cardiac imaging. Our expert radiologists provide precise reports, helping doctors in effective treatment planning. With affordable MRI scan costs and cashless insurance options, we ensure high-quality diagnostics without financial burden. Book your MRI scan appointment at PACE Hospitals today for reliable and timely medical imaging.

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Why Choose PACE Hospitals for MRI Scan in Hyderabad?

PACE Hospitals is the best MRI scan centre in Hyderabad, Telangana, India, offering high-resolution imaging with advanced 1.5T MRI technology for precise diagnoses. Here’s why we are the best choice for MRI scans:


Advanced MRI Technology: State-of-the-art 1.5 Tesla MRI machines for superior image quality.

Expert Radiologists: Highly experienced radiologists ensure accurate reports and fast diagnosis.

Affordable MRI Scan Cost in Hyderabad: Competitive pricing with no hidden charges.

Comprehensive MRI Scans: Brain, spine, joints, abdomen, cardiac, whole-body MRI, and more.

24/7 Availability: Emergency MRI scans available round-the-clock.

Cashless Insurance & Discounts: Hassle-free payment options with insurance tie-ups.

Comfort & Safety: Patient-friendly scanning experience with minimal noise and shorter scan times.


Book your MRI scan in Hyderabad at PACE Hospitals today for high-precision and affordable diagnostics!

What is an MRI Scan & How Does It Work?

MRI full form - Magnetic Resonance Imaging

Magnetic Resonance Imaging (MRI) is one of the most commonly used non-invasive medical imaging tests that uses powerful magnetic fields and radio waves to develop detailed images of the internal structures of the body. MRI is primarily used to examine the brain, spine, muscles, and joints and is also useful for diagnosing a range of conditions, from cancer to injuries. The procedure itself involves a sequence of steps that ensure safety, accuracy, and the acquisition of high-quality images.

Best MRI Scan in Hyderabad | MRI scan cost in Hyderabad | MRI lumbar spine in Hyderabad | MRI scan centre in Hyderabad, Telangana, India

How to Prepare for an MRI Scan?

Pre-procedure preparation

Pre-procedure preparation for an MRI involves removing all metal objects, changing into a hospital gown, and screening for implants or medical devices that may be affected by the magnetic field. Patients may also need to fast or provide health history details, depending on the procedure, as mentioned below:


Patient screening and history: Before the MRI procedure begins, the radiologic technologist or MRI technologist will thoroughly screen the patient to ensure the safety and appropriateness of the scan. A detailed medical history is gathered to determine if the patient has any contraindications to the MRI, such as:

  • Metal implants: MRI uses strong magnetic fields, so patients with metal implants, such as pacemakers, cochlear implants, metal prostheses, or clips from previous surgeries (e.g., brain aneurysm clips), may not be suitable candidates for the procedure.
  • Pregnancy: While MRI is generally considered safe, it is usually avoided in the first trimester unless necessary.
  • Other conditions: Any conditions such as claustrophobia (fear of enclosed spaces) or a history of allergies to contrast agents (if contrast is used) will also be considered.


Clothing and jewellery: Patients are typically required to remove any metallic objects or clothing containing metal before entering the MRI room. This includes jewellery, watches, eyeglasses, hairpins, and clothing with zippers or metallic fasteners. The patient is mostly provided with a hospital gown.


Administration of contrast Agent: Sometimes, a contrast agent (usually gadolinium-based) may be administered intravenously before or during the MRI scan. The contrast helps enhance the visibility of specific tissues, blood vessels, or abnormalities. The radiologist might ask the patient if they have allergies or hypersensitivity reactions to contrast agents.

During the procedure

During the MRI, the patient will lie still on a movable table while the machine emits intense radio waves and magnetic fields to produce detailed body images. The detailed procedure is as mentioned below:


Positioning the patient: Upon initial preparation of the patient for the procedure, the next step is positioning the patient on the MRI table. The MRI machine contains a large cylindrical magnet with an opening in the centre. The patient is positioned in such a way that the area of interest is placed in the centre of the magnetic field. Depending on the type of MRI being performed (e.g., brain, spine, joint), the patient may lie on their back, stomach, or side.


  • Head MRI: For an MRI brain, the patient lies on their back with their head inside a circular coil that provides radiofrequency signals. A foam pad or headrest may be used to immobilize the head.
  • Spinal MRI: For spinal scans, the patient typically lies on their back, and a specialized coil may be placed around the back or neck.
  • Joint MRI: For extremity MRIs (e.g., MRI knee, MRI shoulder), the patient's limb is positioned within the machine, sometimes with a dedicated extremity coil.


The patient must remain as still throughout the MRI scan to avoid blurring the images. In some cases, the patient may be instructed to hold their breath briefly to help reduce motion artefacts during the scan.


Image acquisition and sequences: Once the patient is positioned and the machine is ready, the actual scanning begins. The MRI technologist will input specific imaging sequences into the machine's computer system based on the area of interest and the diagnostic needs.

  • MRI sequences: MRI sequences are a series of timed radiofrequency pulses and magnetic gradients that help highlight different tissue properties. The most common sequences include:
  • T1-weighted imaging: This technique provides high-resolution images of anatomical structures. Tissues such as fat appear bright, while fluid appears dark. T1 images are often used to visualize the brain's anatomy and soft tissues.
  • T2-weighted imaging: This technique highlights differences in water content. Fluid (such as cerebrospinal fluid) appears bright, and tissues with less water (e.g., bone) appear dark. T2 imaging is commonly used to detect pathologies like oedema or inflammation.
  • Proton density (PD) imaging: Sensitive to the concentration of hydrogen nuclei in tissues. It is helpful in evaluating cartilage, muscle, and other soft tissues.
  • Diffusion-weighted imaging (DWI): Sensitive to the movement of water molecules. This is particularly useful for detecting acute stroke or ischemia.
  • Functional MRI (fMRI): Used to measure brain activity by detecting changes in blood flow, often used in neurological studies or pre-surgical planning.
  • Magnetic Resonance Angiography (MRA): A specialized sequence used to evaluate blood vessels. The MRI scanner typically performs multiple sequences, which may last 15 minutes to an hour or longer, depending on the complexity and area being examined.
  • Gradient echo and spin echo sequences: The two primary types of MRI pulse sequences are:
  • Spin echo (SE): Uses a 90-degree pulse followed by a 180-degree pulse. This type of sequence is often used for brain and spinal imaging.
  • Gradient echo (GRE): More sensitive to detecting changes in magnetic field strength, making it more suited for detecting blood flow, joint cartilage, or abnormal brain tissue.


Safety Considerations: Considering the patient safety during the procedure is of utmost important. Some of the precautions to be taken are as mentioned below:


  • Acoustic noise: MRI machines produce significant noise during the scan due to the switching of magnetic gradients. This noise can reach levels of 100 decibels or more, which may cause discomfort to the patient. To mitigate this, patients are provided with earplugs or headphones.


  • Magnetic field safety: Given the strong magnetic fields used in MRI, strict protocols must be followed to ensure safety. Patients are carefully screened for any metallic objects before entering the MRI chamber.


  • Monitoring the patient: The technologist closely monitors the patient during the scan. While MRI is generally safe, some patients may experience discomfort, anxiety, or claustrophobia due to the enclosed nature of the machine. In such cases, the technologist may provide support, and in some instances, sedatives may be administered.

Post-procedure

Once the scan is complete, the patient can typically resume normal activities immediately, as there are no residual effects from the MRI procedure. If contrast is used, the technologist will observe the patient for any allergic reactions, though these are rare.


The MRI images are then sent to a radiologist for interpretation analysis of the images. Upon careful examination of the images, the radiologist will check for any abnormalities and create a report, which is sent to the physician. Depending on the results, further tests or follow-up procedures may be necessary.

MRI Scan Cost in Hyderabad – Affordable & Transparent Pricing

The MRI scan cost in Hyderabad, Telangana varies based on the type of scan and whether contrast imaging is required. At PACE Hospitals, we offer cost-effective and high-quality MRI scans at competitive rates.


Estimated MRI Scan Cost at PACE Hospitals

✅ Brain MRI – ₹4,500 to ₹9,000

✅ Spine MRI (Cervical/Thoracic/Lumbar) – ₹5,000 to ₹10,000

✅ Whole Body MRI – ₹15,000 to ₹25,000

✅ Knee/Shoulder/Joint MRI – ₹5,000 to ₹9,000

✅ Contrast MRI Scans – ₹7,000 to ₹15,000

Types of MRI Scans Available

At PACE Hospitals, we offer a wide range of MRI scans in Hyderabad, tailored to diagnose various medical conditions accurately. Our 1.5T MRI machines provide high-resolution imaging for detailed analysis. At PACE Hospitals, we ensure high-precision MRI scans with expert radiologist reports for accurate diagnosis.


1. Brain & Neurological MRI

✅ Brain MRI – Detects tumors, stroke, multiple sclerosis, and other neurological conditions.

✅ MRI Angiography (MRA) – Examines blood vessels in the brain for aneurysms and blockages.

Functional MRI (fMRI) of the Brain - Brain Mapping MRI, evaluates cognitive functions and neurological disorders.


2. Spine MRI

✅ Cervical Spine MRI – Diagnoses neck pain, herniated discs, and spinal cord injuries.

✅ Thoracic Spine MRI – Detects spinal abnormalities in the upper and mid-back.

✅ Lumbar Spine MRI – Identifies lower back pain causes, including slipped discs and sciatica.


3. Musculoskeletal MRI

✅ Knee MRI – Evaluates ligament tears, arthritis, and joint damage.

✅ Shoulder MRI – Detects rotator cuff injuries and joint abnormalities.

✅ Hip MRI – Used for hip pain assessment and avascular necrosis diagnosis.


4. Abdominal & Pelvic MRI

✅ Liver & Pancreas MRI – Detects tumors, cysts, and liver cirrhosis.

✅ Kidney & Bladder MRI – Assesses kidney stones, tumors, and urinary issues.

✅ Pelvic MRI – Used for prostate (men) and uterine/ovarian (women) evaluations.


5. Cardiac MRI

✅ Heart MRI – Evaluates heart function, blood flow, and detects heart disease.

✅ Cardiac Stress MRI – Analyzes how well the heart pumps under stress.


6. Whole-Body MRI

✅ Full Body Screening MRI – Used for early cancer detection and general health screening.


7. Contrast MRI Scans

✅ MRI with Contrast (Gadolinium-based Dye) – Provides enhanced imaging for tumors, infections, and vascular conditions.


8. Breast MRI

✅ Breast MRI for Cancer Detection – Helps in early detection of breast tumors, especially in high-risk patients.

✅ MRI-Guided Breast Biopsy – Assists in targeted biopsy for abnormal breast tissues.


9. Fetal MRI (During Pregnancy)

✅ Fetal MRI Scan – Provides detailed imaging of the baby’s brain and organs when ultrasound results are inconclusive.


10. Temporomandibular Joint (TMJ) MRI

✅ Jaw MRI – Detects TMJ disorders, jaw pain, and misalignment issues.


11. Inner Ear & Sinus MRI

✅ Ear MRI – Evaluates hearing loss, infections, and vestibular disorders.

✅ Sinus MRI – Diagnoses chronic sinusitis, nasal polyps, and sinus tumors.


12. Prostate MRI

✅ Multiparametric Prostate MRI (mpMRI) – Detects prostate cancer and evaluates prostate gland abnormalities.


13. Brachial Plexus MRI

✅ Nerve MRI Scan – Examines nerve damage in the neck, shoulder, and arms due to injury or compression.


14. Whole Spine MRI

✅ Full Spine Screening MRI – Identifies multiple spinal abnormalities in one scan.


15. MRCP (Magnetic Resonance Cholangiopancreatography)

✅ MRCP Scan – Specialized MRI for detecting gallbladder, bile duct, and pancreatic disorders.

Image Analysis and Reporting

MRI images are highly detailed and require thorough analysis to interpret the structural and functional characteristics of the tissues. The radiologist may use various software tools to enhance image quality, such as adjusting contrast, rotating images, or applying advanced techniques like 3D reconstructions for more complex cases. The final report includes a detailed interpretation of the images, which may confirm a diagnosis, indicate the need for further investigation, or suggest a treatment plan.

Advantages of MRI scan

Magnetic resonance imaging (MRI) has many benefits, including:


  • Better soft tissue contrast: MRI scans can differentiate between different types of soft tissue, such as fat, muscle, and water, better than CT scans. This makes MRI a good choice for imaging the brain, spinal cord, nerves, muscles, ligaments, and tendons. 


  • No radiation exposure: MRI scans do not use ionizing radiation like x-rays, so there's no risk of exposure. This makes MRI a good choice when frequent imaging is needed. 


  • Non-invasive and Painless: MRI scans are painless. 


  • Detailed images: MRI scans produce highly detailed images of the inside of the body. 


  • Can be used for many conditions: MRI scans can help diagnose a wide variety of conditions, including injuries, tumors, infections, inflammation, and more. 


  • Specialized types of MRIs: There are specialized types of MRI scans, such as functional MRI (fMRI), which can help determine the exact location of brain functions like speech and memory.

Complications of magnetic resonance imaging scan

While MRIs are generally safe, there are some potential complications, including:


  • Magnetic fields: The strong magnetic field of an MRI scanner can cause:


  • Loud noises: Can damage hearing.


  • Muscle or nerve stimulation: Can cause peripheral muscle or nerve stimulation.


  • Movement of medical devices: Can pull on magnetic materials and cause unwanted movement of medical devices, such as pacemakers.


  • Radiofrequency energy: Can heat the body, especially during longer scans.


  • Contrast dye: Can cause allergic reactions, such as itching, swelling, rash, nausea, headache, or pain at the injection site. You should contact your doctor immediately if you experience any of these side effects. Severe allergic reactions can result in anaphylaxis, which can be fatal.


  • Burns: You may develop a burn up to 24 hours after your scan. Symptoms include red or peeling skin, swelling, white or charred skin, or blisters. Keep the burn clean and contact your doctor if you need assistance.


  • Metal objects: Metal objects, such as jewelry, can cause injury. They can also distort MRI images.


  • Claustrophobia: If you have a fear of confined spaces, you should discuss this with your doctor before your scan. 

Advanced MRI technique and their role in medical diagnosis

The MRI procedure is a complex but highly effective method for diagnosing and monitoring various medical conditions. From patient preparation to image acquisition, the MRI process involves careful attention to detail and safety protocols to ensure high-quality images are produced while minimizing risks. Through advanced techniques such as T1 and T2 imaging, functional MRI, and diffusion-weighted imaging, MRI provides an unparalleled view of the body's internal structures, aiding in diagnosing and managing a wide range of medical conditions.

Frequently asked questions (FAQs) on MRI Scan

  • Is an MRI safe?

    MRI is generally considered safe because it does not use ionizing radiation, unlike X-rays or CT scans. However, because MRI uses strong magnets, people with certain implants, such as pacemakers, cochlear implants, or metal fragments in their bodies, may not be eligible for MRI. It's essential to inform the technician about any implants or medical conditions prior to the procedure to ensure safety.

  • What can an MRI detect?

    MRI scans are incredibly versatile and can detect a wide range of medical conditions, such as brain and spinal cord disorders, joint and bone injuries, tumors, heart conditions, and abdominal issues. They are often used to diagnose conditions like multiple sclerosis, stroke, herniated discs, and various cancers. MRI is particularly effective for soft tissue imaging, such as muscles, ligaments, and organs.

  • Can I have an MRI if I am pregnant?

    MRI is considered safe during pregnancy, especially in the second and third trimesters, as it doesn't use ionizing radiation. However, it's generally recommended to avoid MRI during the first trimester unless necessary. Always inform the technician or doctor if you are pregnant or think you might be, as they will assess whether an MRI is appropriate for you at that time.

  • Are there any risks associated with MRI?

    MRI is a low-risk procedure when performed appropriately, but there are a few risks. People with certain medical implants, such as pacemakers, metal clips, or cochlear implants, should avoid MRI unless specifically approved by their doctor. Additionally, the use of MRI contrast agents can cause allergic reactions in rare cases. Pregnant women should avoid MRI in the first trimester unless medically necessary.

What is MRI and how does it work?

MRI (Magnetic Resonance Imaging) is a non-invasive medical imaging technique that uses powerful magnetic fields and radio waves to generate detailed images of organs and tissues inside the body. It works by aligning hydrogen atoms in the body using magnetic fields. When a radio frequency pulse is applied, the atoms emit signals that are captured to create an image. MRI does not use ionizing radiation, making it safer for repeated imaging compared to X-rays or CT scans.

How long does an MRI scan take?

The duration of an MRI scan can vary depending on the type of imaging being done, but it typically lasts between 20 to 60 minutes. Some scans may take longer if more detailed images or multiple parts of the body are involved. The process involves several rounds of imaging, and the technician will guide the patient throughout to ensure the best results.

Are MRI scans painful?

No, MRI scans are completely painless. However, the procedure can be uncomfortable for some people due to the need to remain still for an extended period. The noise of the machine can also be loud, but patients are usually provided with ear protection to reduce the sound. In some cases, a contrast agent might be used, which may cause mild discomfort or a cold sensation.

What should I wear for an MRI?

Patients are usually asked to wear a hospital gown for an MRI scan to avoid interference with the magnetic field. Clothing with metal parts, such as zippers, buttons, jewellery, or watches, must be removed before the scan, as metal can distort the images or pose a risk due to the strong magnetic field. It's important to inform the technician if any of your clothing has metallic elements.

Do I need to prepare for an MRI scan?

Preparation for an MRI scan typically depends on the type of MRI being performed. For most scans, no special preparation is required, but you may be asked to avoid eating or drinking for a few hours if a contrast dye is involved. You will also need to inform the technician of any medical implants or conditions that could affect the procedure, such as pregnancy or claustrophobia.

What is MRI contrast and why is it used?

MRI contrast agents are substances injected into the body to enhance the clarity of the images produced by the MRI machine. They help highlight areas of the body with abnormal blood flow, tissues, or tumors. The most common contrast agent is gadolinium-based, which is generally safe but may cause mild side effects like a metallic taste or a warm sensation during injection.

Can I eat before an MRI scan?

In most cases, you can eat and drink normally before an MRI, unless you are undergoing a procedure involving a contrast agent. For certain types of MRIs, particularly those involving the abdominal or pelvic areas, you may be instructed to fast for a few hours before the scan. Always follow the specific instructions given by your healthcare provider.

Why is MRI preferred over CT scans or X-rays?

MRI is preferred over CT scans and X-rays in certain situations due to its ability to provide more detailed images of soft tissues without using ionizing radiation. MRI excels in imaging the brain, spinal cord, muscles, and organs, while CT scans are better for detecting bone fractures and certain types of internal bleeding. MRI is also safer for repeated imaging due to the lack of radiation exposure.

Is MRI better than a CT scan?

MRI is often better than a CT scan for soft tissue imaging, making it the preferred choice for diagnosing neurological, muscular, and joint conditions. For example, MRI provides clearer images of the brain, spinal cord, and muscles, while CT scans are faster and more effective for detecting bone fractures and bleeding. The choice between MRI and CT depends on the condition being investigated.

What should I do if I feel claustrophobic during an MRI?

Claustrophobia is a common concern for some patients undergoing an MRI. If you feel anxious or claustrophobic, talk to the technician beforehand. They may offer a sedative to help calm you down or provide an open MRI machine, which has a wider opening. You can also ask for music or a relaxation technique during the procedure to help distract you.

How do I know if I need an MRI?

An MRI is typically recommended by a doctor when other imaging techniques (like X-rays or ultrasound) are not providing enough information or when a doctor suspects a problem with soft tissues, nerves, or organs. Your doctor may order an MRI if you have symptoms of conditions like back pain, headaches, joint problems, or unexplained neurological issues. Your medical history and symptoms will guide the decision.

Can I have an MRI if I have metal in my body?

Having metal in the body doesn't automatically disqualify someone from having an MRI. However, certain metal implants, such as pacemakers, certain surgical clips, or fragments from accidents, can interfere with the MRI or pose risks. It's critical to inform the technician about any metal implants, as they will evaluate whether the MRI is safe for you.

Can I drive after an MRI?

Generally, you can drive after an MRI unless you were given a sedative or contrast dye that causes drowsiness or dizziness. If you were given a sedative to help with anxiety or claustrophobia, you will need to arrange for someone else to drive you home. It's important to check with your doctor or technician beforehand.

What happens if I move during an MRI?

Movement during an MRI scan can blur the images and make it difficult for the radiologist to interpret the results. If you move, the technician may need to repeat the scan, which could extend the duration of the procedure. To avoid this, you may be asked to remain as still as possible during the scan, and some MRIs involve specific breathing instructions.

How soon will I know the results of my MRI?

MRI results are typically available within a few days after the procedure. A radiologist will analyze the images and prepare a report, which is sent to the doctor who ordered the MRI. The doctor will then discuss the results with you, usually during a follow-up appointment. In urgent cases, results may be available more quickly.

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