The Alison Moliterno Lab studies the molecular pathogenesis of myeloproliferative disorders (MPDs), including polycythemia vera, essential thrombocytosis and idiopathic myelofibrosis. Our research is focused on the genetic and epigenetic lesions associated with MPDs, with the goal of improving diagnosis and treatment for these disorders.
HPTN (HIV Prevention Trials Network) Network Laboratory (NL) is responsible for collecting, testing and reporting results from biological samples; assisting in the development and quality assurance assessment of local laboratory capacity at the Clinical Trials Units (CTUs) participating in HPTN clinical trials (www.hptn.org); and identifying and implementing state-of-the-art assays and technologies to advance the scientific agenda of the Network.
Research in the Jodi Segal Lab focuses on developing methodologies to use observational data to understand the use of new drugs, particularly drugs for treating diabetes, blood disorders and osteoporosis. We apply advanced methods for evidence-based review and meta-analysis, and—in collaboration with Johns Hopkins biostatisticians—we have developed new methodologies for observational research (using propensity scores to adjust for covariates that change over time) and methods to account for competing risks and heterogeneity of treatment effects in analyses.
The Linda Smith-Resar Lab primarily investigates hematologic malignancy and molecular mechanisms that lead to cancer as well as sickle cell anemia. Recent studies suggest that education is an important and effective component of a patient blood management program and that computerized provider order entry algorithms may serve to maintain compliance with evidence-based transfusion guidelines. Another recent study indicated that colonic epithelial cells undergo metabolic reprogramming during their evolution to colorectal cancer, and the distinct metabolites could serve as diagnostic tools or potential targets in therapy or primary prevention.
Research in the Steven Frank Lab focuses on processes to improve blood use and to avoid blood transfusions for patients who do not want to receive blood or blood products. Processes include autologous hemodilution and cell salvage, and treating or averting anemia pre- and post-surgery. Other lab studies have focused on blood conservation, bloodless medicine surgery, the regulation of body temperature during surgery and methods of preventing hypothermia during surgery.