Characterization of fabricated inexpensive supercapacitors
Dr. Santiago-Aviles conducts his research at the interface between electrical engineering and materials science.
Neurosurgical Enhanced Recovery After Surgery
Dr. Ali, MD is interested in understanding the biomechanics of nerve injury and developing translational repair strategies for improving functional outcomes following nerve injury.
Mechanistic and translational studies for the treatment of hemophilia
Our research pivots on a unique model that we have developed, whereby we can enhance the extrinsic pathway of coagulation by raising the circulating levels of activated FVII (FVIIa) in animal models.
Oxygenation, Clinical Analgesia, and Ventilation
Dr. Hopster's research interests include tissue microperfusion and oxygenation, especially gastrointestinal; clinical analgesia; and pulmonary function, especially ventilation, during and after anesthesia.
Molecular mechanisms of nervous system plasticity
Using the zebrafish as an experimental model system, we are interested in deciphering the cellular and molecular mechanisms of nervous system plasticity.
Genetic Basis and Modifiers of Congenital Heart Disease
Identifing Genetic Alterations
Mechanisms by which diabetes negative affects wound healing and periodontitis
Diabetes affects wound healing and periodontal disease by impacting the level of inflammation.
Human Connectome Project: "Dimensional Connectomics of Anxious Misery"
A cross-sectional study investigating dimensions of brain structure and function across ""anxious misery"" disorders,
Translating NeuroEngineering Research into Patient Care
Individuals who apply should be self-motivated and able to work well independently and collaboratively within a multidisciplinary research environment.