Labs and Research Groups


Center for Safety, Simulation, & Advanced Learning Technologies

Advancing patient safety by training clinicians to use existing devices, procedures, and drugs better via simulation and re-designing devices, procedures, and drug delivery.

Dr. Lampotang instructing on a simulator

Doré Lab

NeuroICU Research Lab

Our goal is to discover new mechanisms that limit neuronal dysfunction associated with stroke, traumatic brain injury, Alzheimer disease, aging, and other neurological disorders.

Member of Dore lab working

Martynyuk Laboratory

Neurosciences in Anesthesiology

Our long-term goal is to develop translational strategies to study and mitigate long-term adverse effects of general anesthesia in humans.

Neuroscience research

Tighe Lab

Acute & Perioperative Pain

Our work centers on the application of machine learning to forecast severe, acute postoperative pain.

Dr. Tighe moderating a session at the AAPM conference


Malignant Hyperthermia

The North American Malignant Hyperthermia Registry, focused on improving MH treatment and outcomes.

NAMHR and the University of Florida


Perioperative Cognitive Anesthesia

We are a clinical, training, and research program designed to address the needs of older adults at-risk for poor postoperative outcomes.

PeCAN logo

Patient Blood Management

Blood Management Science

Our mission is to advance the science of patient blood management through research, education, collaboration, and advocacy.

Blood bag in a hospital room


Medical Statistics

The science of clinical translation, study design, measurement, data analysis, and communication in medical research.

Monitor screen with stats

The Pain Trail

Translational Research in Assessment and Intervention Lab

Investigating the interactive influences of biological, psychosocial, cognitive, and behavioral factors associated with chronic musculoskeletal pain conditions. 

two trails diverging in the forest

Translational Neurorehabilitation

Bose Lab

The primary focus of the Bose Laboratory is to understand the molecular neurobiology of motor, sensory (pain) and cognitive plasticity following CNS injury, and how therapies translate into changes in improved neurological function.

Brain image