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个人简介
Dr. Roger Johns is a professor of anesthesiology and critical care medicine at the Johns Hopkins University School of Medicine. He is a world-renowned NIH-funded expert in both pulmonary hypertension as well as the neurosciences underlying the molecular mechanisms of anesthesia.
Dr. Roger Johns, a clinician-scientist who specializes in cardio-thoracic anesthesia, has a multitude of interests and is equally enthusiastic about each. He began his scientific career in the race to discover the identity of “Endothelium-Derived Relaxing Factor” or EDRF, which proved to be nitric oxide. This small, unassuming molecule (NO) has led him in a pursuit of the mechanisms underlying anesthesia, analgesia, pain, and lung vascular biology. Discoveries include the regulation of NO production by high and low oxygen concentrations and NO’s role in lung biology, including pulmonary hypertension, ciliary motility, development, and transition of the fetal pulmonary circulation. Dr. Johns and his group discovered the role of the NO pathway in mechanisms of anesthesia and have published important work implicating this pathway in the mechanism of plasticity associated with chronic inflammatory and neuropathic pain.
Dr. Roger Johns, a clinician-scientist who specializes in cardio-thoracic anesthesia, has a multitude of interests and is equally enthusiastic about each. He began his scientific career in the race to discover the identity of “Endothelium-Derived Relaxing Factor” or EDRF, which proved to be nitric oxide. This small, unassuming molecule (NO) has led him in a pursuit of the mechanisms underlying anesthesia, analgesia, pain, and lung vascular biology. Discoveries include the regulation of NO production by high and low oxygen concentrations and NO’s role in lung biology, including pulmonary hypertension, ciliary motility, development, and transition of the fetal pulmonary circulation. Dr. Johns and his group discovered the role of the NO pathway in mechanisms of anesthesia and have published important work implicating this pathway in the mechanism of plasticity associated with chronic inflammatory and neuropathic pain.
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Respiratory researchno. 1 (2024): 235-235
Circulation Heart failureno. 10 (2021)
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#Papers: 252
#Citation: 8304
H-Index: 52
G-Index: 84
Sociability: 6
Diversity: 3
Activity: 11
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