MRI SCAN CHARGES AND PLACES IN KENYA
Magnetic resonance imaging (MRI) is a medical imaging technique used in radiology to image the body’s anatomy and physiological processes in both health and disease. MRI scanners use strong magnetic fields, radio waves, and field gradients to form images of the body.
Physicians use an MR examination to help diagnose or monitor treatment for conditions such as:
- tumors of the chest, abdomen, or pelvis.
- Liver diseases, such as cirrhosis, and abnormalities of the bile ducts and pancreas.
- inflammatory bowel diseases such as Crohn’s disease and ulcerative colitis.
- heart problems, such as congenital heart disease.
- malformations of the blood vessels and inflammation of the vessels (vasculitis).
- a fetus in the womb of a pregnant woman
How does the procedure work?
Unlike conventional x-ray examinations and computed tomography (CT) scans, MRI does not utilize ionizing radiation. Instead, radio waves redirect the alignment of hydrogen atoms that naturally exist within the body while you are in the scanner without causing any chemical changes in the tissues. As the hydrogen atoms return to their usual alignment, they emit energy that varies according to the type of body tissue from which they come. The MR scanner captures this energy and creates a picture of the tissues scanned based on this information.
How is the MRI Scan Kenya performed?
MRI examinations may be performed on outpatients or inpatients.
You will be positioned on the moveable examination table. Straps and bolsters may be used to help you stay still and maintain the correct position during imaging.
Devices that contain coils capable of sending and receiving radio waves may be placed around or adjacent to the area of the body being studied.
If a contrast material will be used in the MRI exam, a physician, nurse or technologist will insert an intravenous (IV) catheter, also known as an IV line, into a vein in your hand or arm. A saline solution may be used to inject the contrast material. The solution will drip through the IV to prevent blockage of the IV catheter until the contrast material is injected.
You will be placed into the magnet of the MRI unit and the radiologist and technologist will perform the examination while working on a computer outside of the room.
If a contrast material is used during the examination, it will be injected into the intravenous line (IV) after an initial series of scans. Other series of images will be taken during or following the injection.
When the examination is complete, you may be asked to wait until the technologist or radiologist checks the images in case additional images are needed.
Your intravenous line will be removed.
MRI exams generally include multiple runs (sequences), some of which may last several minutes.
Depending on the type of exam and the equipment used, the entire exam is usually completed in 30 to 50 minutes.
LIST OF HOSPITALS IN KENYA OFFERING MRI SCAN SERVICES
+254 732 109 100
+254 732 109 550
+254 732 109 100
+254 732 109 530
+254 788 278 952
+254 788 278 954
+254 732 109 100
+254 732 109 540
+254 737 745 334
+254 737 745 344
+254 722 356 464
+254 732 109 560
+254 732 109 100
+254 732 109 520
Nairobi MRI Centre
Mugo Kibiru Drive, Off Ngong Road Opp Nakumatt Prestige
P.O. Box 19606, Nairobi, 00202
Operating Hours: Monday – Friday: 7 am – 8 pm, Saturday: 8 am – 6 pm
Ground Floor, Mayfair Centre (next to UHMC) on Ralph Bunche Road, Nairobi, Kenya
Contact for additional information: Landline: +254 (0)20 2731 650/1 | Safaricom: +254 (0)705 120 400 | Airtel: +254 (0)737 556 119 | Email: firstname.lastname@example.org
West Kenya Diagnostic and Imaging Centre
Situated at Nakumatt Mega City Plaza, Next to Acacia Medical Centre,
P.O Box 19078 -40123
The Karen Hospital– Nairobi
P.O. Box 74240-00200
Tel : +254-20-6613000
Emergency Number: +254 702 222222
Metropolitan Diagnostic and MRI Centre
Dedan Kimathi, Mombasa
1915 – 80100, Mombasa
Plaza Imaging Solutions
P.O.Box: 352-00202 Kenyatta N. Hospital
General Accident Hse, Gr Flr, Ralph Bunche Rd, Nairobi
Tel: +254-202711599 Fax: +254-202715231
The Kisii Teaching and Referral Hospital
Phone: 0734 749 322. Mobile: 0734 749 322
The Nairobi Hospital
P.O. Box 30026-00100, Nairobi
Main Hospital Tel:020-2845000/ 020-2846000
Mobile: 0703 082000
Direct Line: +254-20-8245631/2
Opened Daily – 24 hours
The Nairobi West Hospital
0722 200 944, 0734 200 944
Gandhi Ave, Nairobi, Kenya
The Aga Khan University Hospital- Nairobi
Hours of Operation
Monday to Friday: 9:00 am – 5:00 pm
Phone: +254 (0)71109 2854
MP Shah Hospital
M.P. Shah Hospital offers MRI services through its Radiology Department supported by well-equipped state-of-the-art machinery and well-trained staff.
Monday to Friday: 8:00 am to 5:00 pm
Direct line: 0204291492
Shivachi Road, Parklands Nairobi, Kenya
P.O. Box 2234, 30100
Tel:+254 053 2062000 / 2032293
Fax:+254 053 2063686 / 2061446 / 053 2063686/2061446
Moi Teaching and Referral Hospital
P.O.Box: 3-30100 Eldoret
St.Lukes Orthopaedic and Trauma Hospital
0707611625 / 0780603060 / 0737419145
Scanlab Assumption Plaza MRI Services
HOW MUCH DOES A MRI SCAN COST IN KENYA
Magnetic Resonance Imaging (MRI) costs between Sh16, 000 to Sh33, 000.
Although it depends on the hospital I.e different hospitals have varying rates its always good to confirm with an individual hospital
Are MRI scans covered by insurance?
That depends on Hospital and Insurance plan, Kindly check with your insurance company if they cover MRI Scan in that particular Hospital
Does NHIF cover MRI scans?
Only in Select hospitals, Confirm with the hospital if MRI scans are covered.
MRI scan cost in Kenyatta Hospital
MRI services are covered by NHIF at KNH
CAN MRI SCAN DETECT CANCER?
Yes, MRI scans can be used to detect cancer. MRI is a powerful imaging tool that can provide detailed images of the body’s internal structures, including organs, tissues, and bones.
MRI can be used to detect cancer by visualizing abnormal changes in tissue structure that are often associated with cancer. For example, a cancerous tumor may appear as a mass with a different appearance compared to surrounding healthy tissue, and may also cause changes in the way that water molecules in the tissue behave.
In some cases, MRI can also be used to guide biopsy procedures, where a small sample of tissue is taken for examination to confirm the presence of cancer.
It’s important to note that MRI is not a perfect test for cancer and may not be able to detect all cancers. Other imaging tests, such as X-rays, CT scans, or PET scans, may be needed to provide a complete picture of a patient’s condition. Additionally, a biopsy is often needed to confirm the presence of cancer.
MRI SCAN ON DIFFERENT BODY PARTS
MRI scan for Brain
Magnetic resonance imaging (MRI) of the brain is a safe and painless test that uses a magnetic field and radio waves to produce detailed images of the brain and the brain stem. An MRI differs from a CAT scan (also called a CT scan or a computed axial tomography scan) because it does not use radiation. Magnetic resonance imaging (MRI) is a noninvasive medical test. The test normally takes 30 to 60 minutes
How much does an MRI brain scan cost?
MRI on Knee
Magnetic resonance imaging (MRI) of the knee uses a powerful magnetic field, radio waves, and a computer to produce detailed pictures of the structures within the knee joint. It is typically used to help diagnose or evaluate pain, weakness, swelling, or bleeding in and around the joint. Knee MRI does not use ionizing radiation, and it can help determine whether you require surgery
MRI on Heart
Cardiac MRI can provide detailed information on the type and severity of heart disease such: as coronary heart disease, heart valve problems, pericarditis, cardiac tumors, or damage from a heart attack.
Tell your doctor if you have:
- A pacemaker or other implanted device because the MRI machine can damage these devices.
- Metal inside your body from previous surgeries can interfere with the MRI machine.
- Metal on your body from piercings, jewelry, or some transdermal skin patches can interfere with the MRI machine or cause skin burns. Tattoos may cause a problem because older tattoo inks may contain small amounts of metal.
MRI Scan on Liver
MRI plays an increasingly important role in the assessment of patients with chronic liver disease and Cancer of the liver.MRI scans may sometimes be able to distinguish between benign and malignant tumors.
Some exams require a contrast dye to be injected into a vein before the procedure. This helps certain areas show up better on the images. The procedure is painless and typically takes 30-60 minutes. It doesn’t use ionization radiation like other procedures such as X-ray and CT scan
MRI Scan on Prostrate
Magnetic resonance imaging (MRI) of the prostate uses a powerful magnetic field, radio waves, and a computer to produce detailed pictures of the structures within a man’s prostate gland. It is primarily used to evaluate the extent of prostate cancer and determine whether it has spread. It also may be used to help diagnose infection, an enlarged prostate, or congenital abnormalities.
MRI Scan on Spine
A spine MRI uses powerful magnets, radio waves, and a computer to make very clear and detailed pictures of your spine. It is non-invasive and doesn’t use ionization radiation. The MRI scan is an imaging test that allows physicians to assess a patient’s spinal anatomy and investigate an anatomical cause of the patient’s back pain.
MRI Scan of the Abdomen
Magnetic resonance imaging (MRI) uses a magnetic field, radio waves, and a computer to create detailed images of organs, soft tissues, bones, and virtually all other internal body structures, including the liver. MR technology allows the physician to evaluate different types of body tissue, as well as distinguish normal, healthy tissue from diseased tissue.
MRI Scan Machines
A magnetic resonance imaging (MRI) machine is a sophisticated medical imaging and diagnostic device. They create a low-level magnetic field which causes a specific reaction inside the atoms of the body. Below are the types of MRI scan machines available:
- Sitting or Standing MRI
- Open MRI
- Traditional Closed MRI
MRI Scan machine’s signals range from approximately 1MHz to 300MHz, with the frequency range highly dependent on applied-static magnetic field strength. The bandwidth of the received signal is small, typically less than 20kHz, and dependent on the magnitude of the gradient field.
7T MRI SCANNER
A 7 Tesla (7T) MRI scanner is a high-field magnetic resonance imaging (MRI) machine that operates at a magnetic field strength of 7 Tesla. This is much stronger than the magnetic field strength used in conventional MRI machines, which typically range from 1.5 to 3 Tesla.
The higher magnetic field strength of a 7T MRI machine provides several advantages, including improved spatial resolution, better contrast resolution, and the ability to image finer structures within the body. These benefits can be particularly useful for applications such as brain imaging, cardiovascular imaging, and musculoskeletal imaging.
However, 7T MRI scanners also have some limitations, including increased susceptibility to artifacts, the need for specialized pulse sequences and hardware, and greater safety concerns due to the increased magnetic field strength. As a result, 7T MRI scanners are typically used only in specialized research centers or medical facilities with specific expertise and experience in this area.
3D MRI SCAN
A 3D MRI (magnetic resonance imaging) scan is a type of medical imaging that creates three-dimensional images of the body’s internal structures. Unlike traditional MRI scans, which produce 2D slices of the body, 3D MRI scans generate a 3D representation of the scanned area, allowing for a more comprehensive view of the tissue and organs being imaged.
3D MRI scans can be used to examine various parts of the body, including the brain, spine, chest, abdomen, and pelvis. They are particularly useful for visualizing complex anatomy and for detecting abnormalities or lesions within the body.
The 3D images produced by a 3D MRI scan can be reformatted in various ways, such as by cross-sectional slices, 3D surface renderings, and volume renderings. This allows radiologists to examine the images from different angles and perspectives, which can help improve the accuracy of their diagnoses.
It’s important to note that 3D MRI scans may take longer to perform and may require specialized software or hardware compared to traditional 2D MRI scans. Additionally, 3D MRI scans may be more expensive and may not be covered by all insurance plans.
2D MRI SCAN
A 2D MRI (magnetic resonance imaging) scan is a type of medical imaging that uses a strong magnetic field and radio waves to produce detailed images of the body’s internal structures, including organs, tissues, and bones. Unlike a 3D MRI scan, which creates a 3D representation of the scanned area, a 2D MRI scan generates a series of 2D slices that provide a cross-sectional view of the body.
2D MRI scans are commonly used to examine a variety of body parts, including the brain, spine, chest, abdomen, and pelvis. They are particularly useful for detecting abnormalities or lesions within the body, such as tumors, herniated discs, or inflammation.
While 2D MRI scans do not provide the same level of detail and information as a 3D MRI scan, they are still an important diagnostic tool in medical imaging. They are also typically faster and less expensive than 3D MRI scans and may be more widely available at medical facilities.
It’s important to note that the results of a 2D MRI scan should be interpreted by a radiologist, who will take into account a patient’s medical history and other diagnostic tests to arrive at a diagnosis.
PC-MRI (Phase Contrast Magnetic Resonance Imaging) is a type of MRI (magnetic resonance imaging) that uses specialized pulse sequences and image processing techniques to enhance the visualization of blood flow and blood vessel structure within the body.
In a PC-MRI scan, the magnetic field is used to measure the phase shift of water protons in flowing blood, which can be used to calculate blood flow velocity and direction. This information can be used to create detailed images of blood vessels and blood flow patterns, which can provide important information about cardiovascular and cerebrovascular diseases, among other conditions.
PC-MRI is particularly useful for visualizing small and narrow blood vessels, and for examining the blood flow patterns in regions such as the heart, brain, and extremities. It is also useful for detecting abnormal blood flow patterns, such as stenosis (narrowing of the blood vessels), which can be an early indicator of cardiovascular disease.
It’s important to note that PC-MRI is a specialized type of MRI and may not be available at all medical facilities. Additionally, PC-MRI scans may be more time-consuming and expensive compared to traditional MRI scans, and may require specialized hardware and software.
Open MRI (Magnetic Resonance Imaging) is a type of medical imaging that uses a large, open-sided MRI machine to produce detailed images of the body’s internal structures, including organs, tissues, and bones. The open design of the machine is intended to make the imaging process less claustrophobic and more comfortable for patients who may experience anxiety or discomfort in traditional, closed MRI machines.
Open MRI machines typically have a larger opening, which allows the patient’s head and limbs to be outside of the machine during the scan. This design can also be beneficial for larger patients or for those who have mobility issues.
Open MRI scans use the same basic principles as traditional MRI scans, producing detailed images of the body’s internal structures using a strong magnetic field and radio waves. However, the open design of the machine may result in slightly lower image quality compared to traditional MRI scans.
It’s important to note that not all medical facilities offer open MRI, and some imaging centers may have open MRI machines that are only available for specific types of scans. Additionally, open MRI scans may be more expensive compared to traditional MRI scans, and may not be covered by all insurance plans.
fMRI (functional Magnetic Resonance Imaging) is a type of MRI (Magnetic Resonance Imaging) that measures changes in blood flow to specific areas of the brain in response to specific stimuli, such as a visual image, sound, or touch. By tracking these changes in blood flow, fMRI can create maps of brain activity that reveal which areas of the brain are most active during different tasks or stimuli.
fMRI works by detecting the magnetic properties of oxygen-rich blood, which is attracted to areas of the brain that are most active. This increased blood flow results in a corresponding increase in the magnetic signal that can be measured by the fMRI scanner.
fMRI is widely used in the field of neuroscience and is particularly useful for studying the brain’s functional organization and for mapping the brain’s response to different stimuli. It has also been used in clinical applications, such as the diagnosis and treatment of neurological and psychiatric disorders, as well as for exploring the effects of different therapies and interventions on brain function.
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