MRI, or magnetic resonance imaging, is used as a noninvasive approach to investigating conditions occurring in organs, tissues, and the skeletal system. Since its implementation into the practice of medicine in the 1980s, it has been used to test and diagnose conditions occurring throughout the body and is frequently employed for imaging the brain and spinal cord. Using a system of magnetic fields to produce an image, MRI can help physicians diagnose eye and inner ear disorders, aneurysms, tumors, and bone infections, as well as other abnormalities of the organs and muscles. MRI scans do not emit radiation, and are a painless way for doctors to assess ailments and plan treatments for many patients.
An experienced radiologist in Boston, Massachusetts, Gul Moonis, MD, is an adept reader of CT and MRI examinations, reviewing a large number of them each day at the Beth Israel Deaconess Medical Center. Medical professionals like Dr. Gul Moonis may use MRI scans to help diagnose or treat patients with certain types of injuries and medical ailments.
MRI, or magnetic resonance imaging, is used as a noninvasive approach to investigating conditions occurring in organs, tissues, and the skeletal system. Since its implementation into the practice of medicine in the 1980s, it has been used to test and diagnose conditions occurring throughout the body and is frequently employed for imaging the brain and spinal cord. Using a system of magnetic fields to produce an image, MRI can help physicians diagnose eye and inner ear disorders, aneurysms, tumors, and bone infections, as well as other abnormalities of the organs and muscles. MRI scans do not emit radiation, and are a painless way for doctors to assess ailments and plan treatments for many patients.
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An radiologist, Gul Moonis, MD, joined the radiology team at Beth Israel Deaconess Medical Center in 2007. Dr. Gul Moonis is board certified in the field of radiology and possesses a subspecialty in diagnostic neuroradiology. Invited to review numerous medical publications, she utilizes her expertise to ensure accuracy of chapters and papers written about vascular diseases, brain tumors, and imaging of the temporal bone.
The use of high-resolution computed tomography (CT) scanning of the temporal bone dates back to the 1980s and has given medical professionals enhanced ability to accurately identify underlying issues in the body, including bony abnormalities and injuries. This is due in large part to a cross-sectional scanning method that rotates an X-ray beam around the head to capture sliced images of the skull. A person undergoing a CT scan of the temporal bone will be given a detailed explanation of the procedure beforehand. Depending on the type of issue, a technologist or radiologist may inject a contrast dye into the patient’s IV. A metal taste in the mouth and a warm sensation are typical. The patient must lie still during the entirety of the procedure, which includes being scanned in two different positions with the head placed in a holder. If at any point, the patient experiences nasal congestion, swelling, or itching, he or she should notify the medical professional, who is present at all times to monitor and administer the CT scan. A member of the Radiological Society of North America, Gul Moonis, MD, is an attending staff radiologist at the Beth Israel Deaconess Medical Center in Boston, Massachusetts. Over the course of her career, Dr. Gul Moonis has contributed to numerous medical publications and authored many chapters related to temporal bone imaging. In addition, she has presented on the topic at the medical center’s radiology conference and the American Society of Head and Neck Radiology .
Located at the base and sides of the skull, just below the temple, the temporal bone is the covering of the brain that serves as a site for muscle attachment and housing hearing organs. To gain insight on the bone’s condition, a computed tomography scan, commonly referred to as a CT or CAT scan, is used to capture different levels of the bone. The images are produced in slices, which allow a radiologist to closely exam multiple regions of the temple and skull and determine if any injuries or abnormalities exist. This information is then relayed to the attending physician to determine next steps for patient treatments. |
AuthorBoston Area Radiology Professor Dr. Gul Moonis Archives
October 2019
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