Researchers in the John Sampson Lab investigate relevant, appropriate, affordable and sustainable ways to improve anesthesia and perioperative care in low-resource settings. The team’s research interests include the Universal Anesthesia Machine; interpersonal relationships between anesthesia providers and their patients; how the quality of those relationships impacts professionalism, autonomy, anxiety, patient cooperation and patient satisfaction; how disease influences cerebrovascular reactivity as measured by MRI; and how education and communication can improve medical care in Africa and other austere environments. The team is currently working with clinicians in Ghana, Ethiopia and Kenya.
Dr. Hua's research has centered on the development of novel MRI technologies for in vivo functional and physiological imaging in the brain, and the application of such methods for studies in healthy and diseased brains. These include the development of human and animal MRI methods to measure functional brain activities, cerebral perfusion and oxygen metabolism at high (3 Tesla) and ultra-high (7 Tesla and above) magnetic fields. He is particularly interested in novel MRI approaches to image small blood and lymphatic vessels in the brain. Collaborating with clinical investigators, these techniques have been applied 1) to detect functional, vascular and metabolic abnormalities in the brain in neurodegenerative diseases such as Huntingdon's disease (HD), Parkinson's disease (PD), Alzheimer's disease (AD) and mental disorders such as schizophrenia; and 2) to map brain functions and cerebrovascular reactivity for presurgical planning in patients with vascular malformations, brain tumors and... epilepsy.view more
Research in the Raymond Koehler Lab explores cerebrovascular physiology and cerebral ischemic injury caused by stroke and cardiac arrest, using protein analysis, immunohistochemistry and histology. We also study ischemic preconditioning, neonatal hypoxic-ischemic encephalopathy and the mechanisms of abnormal cerebrovascular reactivity after ischemia. We 're examining ways to improve tissue oxygenation and seek to better understand the mechanisms that connect an increase in cerebral blood flow to neuronal activity.