Research Lab Results
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Nauder Faraday Lab
The Nauder Faraday Lab investigates topics within perioperative genetic and molecular medicine. We explore thrombotic, bleeding and infectious surgical complications. Our goal is to uncover the molecular determinants of outcome in surgical patients, which will enable surgeons to better personalize a patient’s care in the perioperative period. Our team is funded by the National Institutes of Health to research platelet phenotypes, the pharmacogenomics of antiplatelet agents for preventing cardiovascular disease, and the genotypic determinants of aspirin response in high-risk families. -
HEPIUS Innovation Lab
Led by Drs. Nicholas Theodore and Amir Manbachi, the HEPIUS team unites neurosurgeons, biomedical engineers, scientists, radiologists and other physicians to treat and diagnose spinal cord injuries -
Singh Lab: Stem Cell Transplant Group
The goal of the Singh Lab is to cure retinal degeneration due to genetic disease in patients. There are many retinal diseases such as Stargardts, Macular Degeneration, and Retinitis Pigmentosa, that are currently incurable. These diseases damage and eventually eliminate photoreceptors in the retina. The lab's aim is to take healthy photoreceptors derived from stem cells and transplant them into the patient’s retina to replace the lost photoreceptors. The transplanted photoreceptors are left to mature, make connections with the recipient’s remaining retina, and restore vision. Further, the lab is most interested in the cone-photoreceptor rich region of the macula, which is the central zone of the human retina, enabling high-acuity vision for tasks such as facial recognition and reading. -
Shivani Patel Lab
Investigators in the Shivani Patel Lab study ways to improve intraoperative resuscitation during pediatric surgeries. -
Pediatric Cerebral Palsy and Epilepsy Lab
The team headed by Shenandoah “Dody” Robinson, M.D., professor of neurosurgery, neurology and pediatrics, studies perinatal brain injury and repair. Employing developmentally age-appropriate models, the lab investigates neurological consequences of extremely preterm birth, including cerebral palsy, chronic pain, cognitive and behavioral impairment, epilepsy and posthemorrhagic hydrocephalus of prematurity. -
Jon Russell Lab
The Jon Russell lab focuses on thyroid and parathyroid pathology as well as improving patient safety and education using healthcare technology. Additional focuses include utilizing new technology to advance on the techniques of minimally invasive neck surgery. Current and previous efforts include the development of mobile and web-based applications to educate physicians and patients, utilizing ultrasound for vocal cord imaging, understanding the nuances of advanced thyroid cancer, and exploring the role of scarless thyroid surgery in a North American population. -
Jeffrey Dodd-o Lab
Research in the Jeffrey Dodd-o Lab aims to better understand the contributing factors of lung ischemia/reperfusion injuries and the role these injuries play in the lung dysfunction of patients soon after cardiopulmonary bypass surgery. We have created an ischemia/reperfusion model in a spontaneously breathing mouse that they use with an in situ mouse lung preparation to identify cardiopulmonary interactions that impact reperfusion-related lung injury. We are working to characterize the influence of atrial natriuretic peptide (ANP) on lung microvascular permeability. -
Chordoma Lab
Chordoma research is led by a comprehensive team including Gary Gallia, M.D., director of the Neurosurgery Skull Base Tumor Center. The laboratory focuses on developing new therapies for brain and skull base tumors, and has established the first primary skull base chordoma xenograft mouse model. The team is also exploring high throughput drug screening using the chordoma model, and the molecular pathways responsible for tumor maintenance and growth. -
Carey Research Group
John Carey’s Research Group conducts research regarding diseases of the inner ear that affect both balance and hearing mechanisms. Key interests include superior semicircular canal dehiscence syndrome (SCDS), the normal vestibular reflexes and how they change with age, novel intratympanic treatments (i.e., middle ear injections) for conditions like Menière’s disease and sudden hearing loss, and the mechanisms of vestibular migraine. With Lloyd Minor, Dr. Carey helped develop the operation to repair the superior canal in patients with SCDS using image-guided surgery. Dr. Carey has been funded by the National Institutes of Health – National Institute on Deafness and Other Communication Disorders to study inner ear balance function in Menière’s disease and steroid treatment of sudden hearing loss. -
Grant (Xuguang) Tao Lab
Research in the Grant (Xuguang) Tao Lab explores environmental and occupational epidemiology topics, including workers' compensation and injuries, and nosocomial infections. We conduct research through clinical trials and systematic literature reviews, and also use cancer registry data and GIS applications in environmental epidemiological research. Our recent studies have explored topics such as the effectiveness of lumbar epidural steroid injections following lumbar surgery, the effect of physician-dispensed medication on workers' compensation claim outcomes and how the use of opioid and psychotropic medications for workers' compensation claims impacts lost work time.