Abass Alavi


Abass Alavi is an Iranian-American physician-scientist specializing in the field of molecular imaging, most notably in the imaging modality of positron emission tomography. In August 1976, he was part of the team that performed the first human PET studies of the brain and whole body using the radiotracer Fludeoxyglucose |Fluorodeoxyglucose. Alavi holds the position of Professor of Radiology and Neurology, as well as Director of Research Education in the Department of Radiology at the University of Pennsylvania. Over a career spanning five decades, he has amassed over 2,300 publications and 60,000 citations, earning an h-index of 125 and placing his publication record in the top percentile of scientists.

Early life and education

Abass Alavi was born in Tabriz, the largest city in Iranian Azerbaijan. After graduating from high school in Tabriz, Alavi moved to Tehran and received his medical degree from the Tehran University of Medical Sciences in 1964. He began his training in internal medicine at the Albert Einstein Medical Center and the Philadelphia VA Hospital in 1966. Following subspecialization in hematology/oncology at the University of Pennsylvania, Alavi started his education in medical imaging by enrolling in the radiology department at the Harvard-affiliated Beth Israel Deaconess Medical Center. He joined the University of Pennsylvania School of Medicine in 1971 as a research fellow in nuclear medicine, and was soon appointed to the faculty. He currently holds appointments as Professor and Director of Research Education in the Department of Radiology.
Alavi began his work in tomographic imaging under the guidance of Dr. David Kuhl. He and his colleagues at the University of Pennsylvania were pioneers in performing modern tomographic imaging by utilizing single gamma emitting radionuclides. In 1973, he—along with his colleagues Dr. Kuhl and Dr. Martin Reivich—were the first scientists to conceive the idea of labeling deoxyglucose with positron-emitting fluroide, leading to the development of FDG. In August 1976, Alavi became the first to administer FDG to a human being and acquire tomographic images of the brain and whole body. He was also among the first to utilize Iodine-123 in the diagnosis of thyroid cancer, MIBG in the assessment of pheochromocytoma, radiolabled WBCs in the evaluation of infection, and 99mTc in the detection of gastrointestinal bleeds, among a host of other discoveries.
Alavi has been associated with the University of Pennsylvania for all of his career, beginning with a fellowship in Nuclear Medicine in 1971-1973. He was promoted to Professor of Radiology in 1982, and served as Chief of the Division of Nuclear Medicine from 1979 to 2006. Since then, he has been the Director of Research Education in the Department of Radiology.
Alavi has performed numerous research studies utilizing FDG since its inception. Furthermore, soon after the introduction of CT in the early '70s and MRI in the early '80s, Alavi has conducted research that combines PET with these imaging modalities. He is an expert in modern imaging techniques and the clinical applications of PET imaging for the detection of cancer and other disorders including dementia, seizures, cardiovascular disease, and infection.
Alavi served as a member and chairman of scientific study sections at the NIH and American Cancer Society. He has trained and mentored countless students in modern imaging techniques, and many of his former students and research fellows now occupy leadership positions in medical imaging across the world.
is a medical imaging technique that produces a three-dimensional image of molecular processes in the body. The system detects pairs of gamma rays emitted as a result of the annihilation of positrons emitted from radionuclides, which are used to label biologically active molecules.
One of the factors most responsible for the widespread adoption of positron imaging was the development of radiopharmaceuticals. In particular, the development of labeled 2-Fludeoxyglucose through the collaboration between scientists at the Brookhaven National Laboratory and investigators at the University of Pennsylvania, was a major factor in expanding the scope of PET imaging. The compound was first administered to two normal human volunteers by Alavi in August 1976 at the University of Pennsylvania.
In 1999, after decades of research demonstrating the unique and versatile utility of PET and the functional data it provides, the modality was approved for reimbursement by the Centers for Medicare and Medicaid Services and rapidly became a cornerstone of the evaluation of a host of diseases, most notably cancers.
It is now well established that without the introduction of FDG to medicine, the field of molecular imaging with PET would have been confined to major research institutions, precluding its current widespread clinical applications. In addition, FDG has resulted in the exploration of numerous biologically important compounds in research and drug development.

Awards, honors and membership in honorary societies

Alavi is the recipient of many awards and distinctions, among which are the highest distinctions in nuclear medicine: the Georg Charles de Hevesy Nuclear Pioneer Award given by the Society of Nuclear Medicine, the Cassen Prize of the Society of Nuclear Medicine, and honorary degrees from the University of Bologna, the University of the Sciences in Philadelphia and Shiraz University in Iran. The de Hevesy Award from the Society of Nuclear Medicine was given to Alavi for his pioneering work in the development of positron emission tomography.
He is an internationally renowned expert in modern imaging techniques and in the clinical applications of PET imaging for the detection of cancer as well as neurological, cardiovascular, and infectious disorders.
Alavi has been a long-time supporter of educational and research opportunities for students in nuclear medicine. While his name is associated with the Alavi-Mandell Awards, which recognize trainees and young scientists who publish articles as senior authors in the Journal of Nuclear Medicine, he also supports the Pilot Research Grants and the Bradley-Alavi Student Fellowship Awards. Bradley-Alavi Fellows are named in honor of the late Stanley E. Bradley, a professor of medicine at Columbia University College of Physicians and Surgeons and a prominent researcher in the fields of renal physiology and liver disease, and Abass Alavi, M.D., professor of radiology and chief of the division of nuclear medicine at the University of Pennsylvania Medical Center. funded by the Education and Research Foundation of the Society of Nuclear Medicine.