Rest-Stress Myocardial Perfusion Scintigraphy (Scan)
Research & Innovation
Because nuclear medicine procedures involve small amounts of radiation, we are committed to ensuring that your child receives the lowest possible dose needed to obtain the high-quality images needed for accurate diagnosis and treatment.
Our physicians and physicists are leaders in adjusting equipment and procedures to deliver low doses appropriate to children. We are part of the Image Gently Campaign and the Pediatric Imaging Council of the Society of Nuclear Medicine; we helped develop Image Gently guidelines so hospitals across the country can minimize children's exposure to radiation during medical procedures. We helped to write a brochure for parents available here.
From the lab to the clinic
Physicians and scientists in our research laboratories are working to develop new agents for the diagnosis and treatment of pediatric diseases. Our Small Animal Imaging Laboratory has a research PET scanner, called the microPET, which was the first of its kind to be installed at a pediatric hospital. The scanner helps scientists investigate mechanisms of disease and develop and refine new nuclear medicine imaging techniques.
Nuclear medicine studies can be particularly useful when they are digitally combined with the anatomical images generated by computed tomography (CT) or magnetic resonance imaging (MRI). Boston Children's Hospital is one of the few pediatric nuclear medicine programs nationwide that is routinely capable of electronically fusing nuclear medicine studies with images obtained from CT or MRI. In many cases, this gives a more complete assessment of the problems being investigated. For example, a neurologist can see the exact location in the brain where a seizure originated or an oncologist can determine which parts of a tumor are growing the fastest. Nuclear medicine studies that can be combined with MRI or CT include bone scans, brain SPECTs, PET scans, and rest-stress myocardial perfusion scintigraphy.