Lipid Metabolomics

We are using high-through-put lipid chromatography and mass spectrometry (LC-MS) analysis to investigate membrane metabolism and signaling through sphingolipids. We use sickle red blood cells and adult stem cells as model systems to gain insight into disease pathology and therapeutic cell potency respectively. We believe that our integrated systems-based research approach can compliment existing knowledge bases linking sphingolipids to wife range of biological processed, including cell death mechanisms, formation of inflammatory membrane microparticles, and secretion of soluble signals. For broader discussion of our interests in systems based approaches to understand pathogenic mechanisms and to find ways to induce pro-regenerative signaling, see our previous review paper.

Preclinical Modeling

Traumatic injuries resulting from ischemic damage, nerve transection injuries, or volumetric defects in bone and soft tissues are an intractable problem. Surgical reconstruction can lead to extensive morbidity, muscle fibrosis and diminished limb function owing to chronic muscle strength deficits. Even minor damage and or overuse of supporting connective tissues such as the rotator cuff tendon, and associated mechanical unloading, results in disorganized tissue remodeling, gradual fatty/fibrous degeneration and strength deficits. And, as the sequelae of traumatic injuries increase at a disproportionate rate with advancing age, the burden of musculoskeletal injury to our aging population is increasingly severe. Our lab develops experimental models of musculoskeletal injury in order to develop newer, more highly effective treatments. For the latest insights into treatments that harness innate immune responses, please check out our recent review paper.