MRI Orbit Scan: Get Price, Purpose, Sample Report & Result [2024]
Magnetic Resonance Imaging (MRI) of the orbit is a type of diagnostic test that produces detailed images of the eye and surrounding structures such as the bones and muscles of the orbit (eye socket). It can help diagnose a variety of orbital conditions such as tumors, inflammation, and trauma, and can help identify the specific location, size, and shape of the problem. This test is non-invasive and does not involve exposure to ionizing radiation. It instead uses strong magnets, radio waves, and a computer for the generation of images.
The cost of MRI orbit in India can vary depending on several factors such as location, the type of MRI machine, and the type of facility. On average, the cost can range from Rs. 3000 to Rs. 8000.
Your healthcare provider may suggest an MRI Orbit test if you exhibit the following signs and symptoms-
- Strabismus (misalignment of the eyes)
- Orbital tumors
- Trauma or injury to the eye or orbit
- Orbital cellulitis (infection of the eye socket)
- Double vision
- Orbital inflammation
- Evaluation of changes in vision or eye movement (include changes in visual acuity, peripheral vision, eye movement, or other visual symptoms).
MRI Orbit Scan Test Details in Brief
Also Known As | Orbital MRI, ocular MRI, eye MRI, optic nerve MRI, Eye MRI, MRI orbitography, Ocular MRI, Neuro-ophthalmic MRI. |
Purpose | To view the orbital region, including the eyes, optic nerves, and surrounding structures, and diagnose and monitor related conditions such as tumors, inflammation, and degenerative diseases. |
Preparation | No special preparation is required. Remove metal objects, and wear comfortable clothing. |
Fasting | No |
Reporting Time | <24 hrs. |
Cost | ₹ 2000 – ₹ 8000 |
MRI Orbit Cost
MRI Orbit cost usually ranges from Rs 2000 to Rs 8000. However, it may go up in cases involving special scans or if the test involves the use of a contrast media. The actual price would depend on the type of study, MRI centre, city, and technology. Bookmerilab partner with more than 80 MRI centres in India and provide up to 50% discount. Contact us for more details.
Cost at Popular MRI Centres
The MRI Orbit prices at some of the Popular MRI centres in India are listed below. 10-50% discounts are available at the below prices.
Diagnostic Centres | Price |
---|---|
City X-Ray | ₹ 4800 |
Ganesh Diagnostics | ₹ 4800 |
Mahajan Imaging | ₹ 7200 |
Healthmap Gurugram | ₹ 2248 |
Srivastava MRI-NOIDA | ₹ 5250 |
PULSE IMAGING | ₹ 4550 |
Chhatrapati Shivaji Maharaj Hospital – KRSNAA | ₹ 1785 |
NM Medical | ₹ 7225 |
Shree Krishna Diagnostics | ₹ 4900 |
Aloka Medicare Pvt Ltd | ₹ 6650 |
Vijaya Diagnostics | ₹ 7500 |
Test Price in Different Cities
BookmeriLab has partnered with more than 80 MRI centres across India. We offer this test at an affordable starting price of Rs 2000 to Rs 8000. The table below shows the cost of ocular MRI in major cities.
Cities | Price Range |
---|---|
MRI Orbit Test Price in Delhi | ₹ 1805 – ₹ 7200 |
MRI Orbit Test Price in Gurgaon | ₹ 2247 – ₹ 7200 |
MRI Orbit Test Price in Noida | ₹ 5250 – ₹ 7200 |
MRI Orbit Test Price in Mumbai | ₹ 3285 – ₹ 7225 |
MRI Orbit Test Price in Kolkata | ₹ 3150 – ₹ 6650 |
MRI Orbit Test Price in Bangalore | ₹ 3285 – ₹ 8000 |
MRI Orbit Test Price in Hyderabad | ₹ 3285 – ₹ 8000 |
MRI Orbit Test Price in Chennai | ₹ 3150 – ₹ 8000 |
Purpose
This test may be used for the following purposes-
- To evaluate the blood vessels of the orbit and identify any symptomatic vascular abnormalities
- Diagnosis and evaluation of conditions that affect the eye socket, such as a tumor, infection, or inflammation.
- Evaluation and monitoring of the progression of conditions that cause changes in the eye or surrounding structures, such as Graves’ disease (thyroid eye disease).
- To assess the status of the optic nerve and evaluate any damage or compression.
- Planning and monitoring of treatment, such as surgery or radiation therapy, for conditions that affect the orbit.
- To provide additional information to complement other imaging tests, such as a CT (Computed Tomography) scan or X-ray, for a more complete understanding of a patient’s condition.
- Assessment of any abnormalities that may impact vision, such as a blocked tear duct or a detached retina.
- It is important in the diagnosis of certain ophthalmologic (eye-related) conditions like:
- Optic neuritis– an inflammation of the optic nerve causing vision loss, color vision changes, and pain with eye movement.
- Nystagmus– a rapid, involuntary movement of the eyes, causing vision to jump or wobble.
- Diplopia– a vision condition where two separate images are seen, also known as double vision.
- Glaucoma– a group of eye diseases causing optic nerve damage and progressive vision loss.
- Papilledema– a swelling of the optic disc, a part of the optic nerve, caused by increased intracranial(within the skull) pressure.
- Orbital Cellulitis– an infection of the eye socket causing pain, swelling, redness, and decreased vision.
- Papillitis– an inflammation of the optic nerve head, causing vision loss and potentially leading to permanent damage.
Anatomy of the Orbit
The orbit refers to the bony cavity in the skull that houses and protects the eye and its associated structures. The orbit is made up of several bones, including the frontal bone, the zygomatic bone, the sphenoid bone, and the ethmoid bone. Within the orbit, several important structures are located, including the eye, the optic nerve, the lacrimal glands (which produce tears), and various muscles responsible for eye movement. Understanding the anatomy and function of the orbit is critical for accurately diagnosing and treating conditions that affect the eyes and surrounding structures.
Preparation
- Before the MRI orbit scan, the patient should remove any metal objects such as jewelry, hairpins, a pacemaker, or any other type of metal in their body.
- Wear clothing without metal zippers or snaps.
- The patient should also inform the technician of any allergies or medical conditions. Particularly, those related to metal or contrast dyes.
- It is also important to inform the technician if the patient is pregnant.
The Procedure of MRI Orbit Scan
- The patient will lie down on a table that will slide into the MRI machine, which contains a large cylindrical magnet.
- Then the machine will take images of the orbits while the patient lies still and keeps their head on the headrest.
- The machine may make some sounds while taking images. The patient hence may be provided earplugs or headphones to make it a more comfortable experience.
- In the case of MRI Contrast, an IV line may be used to administer the contrast agent before the patient takes the scan. The contrast agent usually used is Gadolinium which is different from the one used in CT scans. This helps to highlight specific areas in the orbits, making it easier to see any abnormalities.
- This typically takes around 20-30 minutes.
- The medical team may use special equipment. For example, contrast agents enhance the images of the orbits.
MRI Orbit Views and Protocol
During the scan, your healthcare provider may employ a variety of scan sequences, including T1-weighted, T2-weighted, FLAIR, and sagittal or axial pictures, to obtain detailed views of the orbits. Your healthcare provider will make a decision on the best protocol and scan sequences depending on the purpose of the exam.
Protocol | Indications |
---|---|
T1-weighted | Provides high-resolution images and is used to evaluate bone and soft tissue |
T2-weighted images | Provides high-contrast images and is used to evaluate fluid-filled structures |
FLAIR | To see any lesions or irregularities in the orbits |
Gradient echo sequences | To evaluate the optic nerve and blood vessels |
Gadolinium contrast | To enhance the visibility of certain structures. |
Fat-saturation sequences | To reduce the effects of fat in the images |
Sagittal and axial pictures | To display the orbits in various planes |
The specific protocols used in an MRI orbit scan can be adjusted depending on the clinical indication and the referring physician’s preferences.
Interpretation of Results
Normal Vs Abnormal Results
A typical MRI orbit scan shows clear images of the bones, muscles, and other components in the eye and adjacent areas. The usual anatomical details will be visible in these photos. The optic nerve, eyelid muscles, eye socket bones, muscles that move the eye, and orbital fat will all be evident.
A scan with abnormal results could indicate the existence of tumors, inflammation, or other problems. Some common findings in MRI scans include:
- Optic nerve abnormalities: The optic nerve can be evaluated for signs of swelling, inflammation, or tumors.
- Orbital tumors within the orbit, including benign and malignant masses.
- Sinusitis: It can detect inflammation or infection within the sinuses, which can cause pressure and pain in the orbit.
- Trauma: It can help diagnose orbital fractures or other injuries sustained to the orbit.
- Eye socket anomalies: It can detect anomalies or congenital defects of the eye socket that may cause vision problems.
Comparison of Brain MRI vs Orbit MRI
MRI Brain | MRI Orbit | |
Purpose | MRI Brain is used to examine the brain and its structures. | MRI Orbit is used to examine the eye and surrounding structures. |
Anatomic Coverage | MRI Brain covers the entire brain. | It focuses on the eye and surrounding structures such as the eye socket, muscles, and nerves. |
Techniques | Different sequences are used in MRI Brain. | This test optimizes the images of the specific structures being examined. |
Indications | MRI Brain is used for a variety of neurological conditions. | MRI Orbit is used for conditions affecting the eye and surrounding structures. |
MRI Orbit Sample Report
Conclusion
In conclusion, MRI is a crucial tool for diagnosing illnesses of the orbit. It makes it possible to image the eye and its surroundings in great detail, giving researchers the data they need to diagnose, treat, and monitor orbital disorders. It is crucial to utilize the appropriate methodology and scan sequences to improve the photographs. With advancements in technology, the MRI orbit scan is becoming increasingly precise and efficient and is a valuable tool for healthcare professionals to diagnose and treat various ocular and neurological conditions. As with any medical procedure, it’s important to discuss the benefits and risks with a healthcare provider to determine if an MRI Orbit scan is appropriate for your individual needs.
FAQs
An MRI orbit scan is a non-invasive medical imaging test. It uses a powerful magnetic field, radio waves, and a computer to produce detailed images of the eye and surrounding structures.
An MRI orbit scan is performed to diagnose and evaluate a wide range of conditions affecting the eye and surrounding structures. Such as tumors, infections, and inflammation.
No, an MRI orbit scan is not painful. It is a non-invasive procedure and you will only feel the sensation of the table moving and the machine making noise.
The length of an MRI orbit scan can vary depending on the specific area being examined and the type of scan being performed. It typically takes between 30 and 60 minutes.
An MRI orbit scan is generally considered safe and has no known side effects. However, individuals with certain types of metal in their body such as cochlear implants, aneurysm clips, and some pacemakers may not be able to undergo an MRI.
After an MRI orbit scan, you can return to your normal activities. The radiologist will review the images and provide a report to your referring physician who will discuss the results with you.