Introduction
Patient Comfort is optimised using an ambient MRI Room designed specifically for this purpose and incorporates New Silent MRI Technology which decreases sound levels. The standard application portfolio offers a wide range of imaging solutions with Multiple Levels of Contrast Available, ranging from 2D to 3D Volumetric Data sets including motion correction capabilities.”
Patient-Centric MRI Experience
A Quiet MRI Will Help Improve Patient Comfort During An MRI Scan. One of the Most Common Reasons For A Patient Becoming Uncomfortable, And Maybe Even Afraid, During An MRI Scan Is The Noise Produced By The MRI Magnet. The Traditional 3.0T MRI Magnet Generates Noise During Scanning Of Up To 120 dBA-Similar To The Noise Of Thunder, Or A Race Car, Or A Power Drill.
Mahajan Imaging & Laboratories has a 3.0T MRI that also includes an innovative built-in Silent MRI technology. Silent MRI produces background noise only during select types of scanning procedures; this allows for patients to experience maximum comfort during their scanning procedures.
Wide-Bore Tunnel
Patients suffering from claustrophobia experience high levels of discomfort and anxiety when entering the traditional tube-shaped opening (normal bore) MRI. Meanwhile, at our 3.0 T wide-bore MRI, we have created a tunnel that is 70 cm in diameter with an illuminated interior and air flow built-in.
Claustrophobia Relief Through Our Audio Visual System
Our MRI Machines have created a very unique method to provide the claustrophobic patient with the ability to see media during his/her scan. They are the only manufacturers of MRI machines that have the special capability of providing a source of entertainment by allowing the patient view during the entire duration of their scan.
Feet First Imaging
Traditional MRI machines are designed for the patient to enter via the head, causing significant discomfort for a large number of patients. With the New Design of our MRI Machines, you are able to perform feet first imaging on all parts of the body, including the head and brain. The feet are allowed to enter the MRI tunnel first, giving the patient an unobstructed view of the surrounding area and putting them at ease.
Ambient Environment
Many patients find being confronted with the size of an MRI machine within a sterile metallic room overwhelming when they enter it for the first time; therefore, we have developed a room environment that provides a calming feeling similar to experiencing nature and promotes relaxation while the patient is being scanned. This scanning room environment is unprecedented globally.
The True Potential of 3.0 Tesla
The most significant issue associated with conventional 3.0 Tesla MRI systems is the presence of dielectric shadowing artifacts which distort the image and degrade the diagnostic capabilities and clinical utility of the higher magnetic-field-strength MRI systems.
Our DIGITAL 3.0T system uses Multidrive RF Transmit Technology allowing automatic uniform signal quality on a given range of patient sizes, thus resolving the issues associated with conventional 3.0T MRI systems, which allows for superior image quality at all times without distortion.
Unlike conventional MRI systems that acquire the data using copper cables connecting the coil to the electronics back at the machine room, our DIGITAL TECHNOLOGY 3.0T MRI system digitizes the signal is done in the machine room so no signal loss occurs when transmitted to the electronics room using Broadband Optical Fibre Cable technology. This virtually eliminates signal degradation resulting in improved quality images with increased diagnostic confidence.
By having a Software-Driven Automated Customization of Radiofrequency Pulses for Each Patient based on Patient Size and Shape, our digitally connected 3.0T machine can reduce the problem of tissue heating previously associated with generating RF Pulses.
Our digitally connected, state-of-the-art 3.0T machine harnesses the power of technology and provides clinical benefits across the broad spectrum of medical specialties, incorporating and implementing the latest in technologically advancing MRI Applications in Neurosciences, Spine, Vascular, Abdominal, Whole Body, Breast Imaging, Cardiac, Musculoskeletal and Orthopedic imaging; essentially opening up new horizons in an area that was previously closed and holds the potential to revolutionize how Patients are treated.
48 Channel 3D MRI (3T) Neuro Imaging Made Perfect
In the field of Neuro-radiological imaging, the use of the 48-channel head coil will provide the best and most accurate qualitative and quantitative assessment of imaging conditions to assist in determining diagnostic information for conditions such as tumors, stroke, dementia, infection, aneurysms, seizure disorders and cancer detection.
Our 3.0 Tesla MRI System has been designed to work with one of the most advanced coils on the planet today: The 48-channel head coil. Perform Neuro-radiological imaging quicker and easier than ever before, while obtaining the highest quality brain image available.
Advanced clinical examinations, including functional imaging (fMRI) with visual, auditory, olfactory, gustatory, tactile, motor, cognitive and other sensory input will be easily conducted using the MFMI method to increase understanding of brain function and the differences between normal brain function and brain function as MEDICAL Conditions Unfold.
Other Advanced Clinical Applications
Functional Nerve Imaging
The functional nerve imaging technique involves capturing images of the body’s nerves in relation to pain and compression. Instead of utilizing images generated from adjacent soft tissues or fat intended to help identify the location of the nerve, functional nerve imaging provides a detailed image of the actual nerve based solely on the diffusion signals associated with it. This technique will prove to be most beneficial when examining the brachial plexus, lumbosacral plexus, sciatic nerve, pudendal nerve, etc.
Non-Contrast Renal And Limb Angiographies
Patients suffering from renal diseases who cannot receive contrast agents now can have their major arteries and veins imaged without injecting any contrast agent. This is especially beneficial for those suffering from peripheral artery disease or varicosity.
Mavrik
Mavrik also allows for scanning of patients who have metal implants. Until now, MRIs have not been able to produce suitable images of areas with metallic implants in the knee and hip regions. MAVRIK sequences now make this possible.
Advanced Neuro Applications Suite
The Advanced Neuro Applications encompass applications that assist in analysing the brain. The suite comprises the SWAN (Susceptibility Weighted Average), 3D COSMIC (3D Coherent Multilevel Imaging), Diffusion Tensor Imaging, Fibertrak, AIF Parametric Maps using the Brain Stat methodology, Real-Time BrainWave and Fusion BrainWave (also known as BrainWave Real-time). These software products assist medical professionals with all of their neuroimaging needs, as well as allow them to perform accurate assessments of the head and brain in ways that were previously difficult to do with MRI.
Ideal IQ
This technique allows for a single breath hold for quantitative and qualitative assessment of the liver fat content. Assessing liver fat content is vital for patients with Non-Alcoholic Fatty Liver Disease (NAFLD) and Alcoholic Liver Disease (ALD) for surgical plans, donor evaluations, and nodule assessments.
3D ASL
Assessing blood flow to the brain is critical for neurological disease diagnosis, tumor evaluation, stroke/Transient Ischemic Attack (TIA) assessment, arteriovenous malformation (AVM), and other conditions. Dynamic susceptibility contrast (DSC) MRI is not always reproducible and gives a relative indication of perfusion throughout the entire brain, while whole-brain quantitative perfusion imaging using non-contrast-enhanced MRI allows for non-invasive assessment of perfusion in patients.
Conclusion
The advanced digital architecture, the use of broadband optical fiber to transmit signals and the implementation of personalised radiofrequency management allow for the production of high-quality images with minimal distortion over a wide spectrum of clinical applications. The system includes a 48-channel high-performance head coil in combination with neurovascular and musculoskeletal-specific sequences and is an innovative approach to MRI technology.
Frequently Asked Questions
Q. How Much Does 3 Tesla MRIs Cost In India?
The cost of a 3 Tesla MRI machine in India is so broad-from ₹8 Crores to ₹15 Crores for a brand-new one and from ₹2.8 Crores to ₹6.5 Crores for a refurbished one-depending on the brand, such as Siemens, GE, or Philips, model, and features.
Q. Is 3T MRI More Expensive?
Yes, a 3T MRI is usually costlier than the conventional 1.5T MRI. The reasons for this may be that such high-level technological advancement can create a stronger magnetic field that would yield sharper and more detailed images.
Q. What Is The Difference Between A Normal MRI And A 3 Tesla MRI?
A normal or standard MRI is usually at 1.5 Tesla (1.5T), while a 3 Tesla (3T) MRI boasts a magnet twice as strong for much sharper, more detailed images of subtle conditions in the brain, spine, and joints.
Q. What Are The Disadvantages Of 3T MRI?
The disadvantages of 3T MRI include increased cost, more noise/heat, more severe artifacts (especially with metal/implants), greater patient discomfort, implant safety issues, and specific imaging challenges in certain body parts such as the abdomen or spine.
Q. How Long Does A 3 Tesla MRI Take?
3 Tesla MRI typically takes 20 to 45 minutes; however, it could be as short as 15 minutes and as long as well over an hour, depending on the body part imaged, complexity, and if contrast is used.
Q. Where Can You Get 3T MRI Scan in Delhi at Lowest Cost?
If you’re searching for 3 tesla mri scan near me at lowest cost, you must contact carebox to get 3T MRI.
