Research Lab Results
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Raymond Reid Lab
Research in the Raymond Reid Lab focuses on community health and pediatric infectious diseases among Native American populations; epidemiologic studies of enteric infections, Haemophilus influenzae, and pneumococcus; and field testing of vaccines and treatments. -
Richard John Jones Lab
The Richard J. Jones Lab studies normal and cancerous stem cells in order to make clinical improvements in areas such as blood and marrow transplantation (BMT). We discovered one of the most common stem-cell markers, Aldefluor, which identifies cells based on their expression of aldehyde dehydrogenase 1 (ALDH1), and have used this marker to detect and characterize normal stem cells and cancer stem cells from many hematologic malignancies. We also developed post-transplant cyclophosphamide and effective related haploidentical BMT. -
The Sfanos Lab
The Sfanos Lab studies the cellular and molecular pathology of prostate disease at the Johns Hopkins University School of Medicine. We are specifically interested in agents that may lead to chronic inflammation in the prostate, such as bacterial infections and prostatic concretions called corpora amylacea. Our ongoing studies are aimed at understanding the influence of prostate infections and inflammation on prostate disease including prostate cancer and benign prostatic hyperplasia (BPH). The laboratory also focuses on the influence of the microbiome on prostate disease development, progression, and/or resistance to therapy. -
Stivers Lab
The Stivers Lab is broadly interested in the biology of the RNA base uracil when it is present in DNA. Our work involves structural and biophysical studies of uracil recognition by DNA repair enzymes, the central role of uracil in adapative and innate immunity, and the function of uracil in antifolate and fluoropyrimidine chemotherapy. We use a wide breadth of structural, chemical, genetic and biophysical approaches that provide a fundamental understanding of molecular function. Our long-range goal is to use this understanding to design novel small molecules that alter biological pathways within a cellular environment. One approach we are developing is the high-throughput synthesis and screening of small molecule libraries directed at important targets in cancer and HIV-1 pathogenesis. -
Sarah Clever Lab
Work in the Sarah Clever Lab focuses on medical education, patient-provider communication and the role of shared decision-making in patient recovery. We recently examined the ethical dilemmas of caring for “influential” patients whose attributes and characteristics (for example, social status, occupation, or position), coupled with their behavior, have the potential to significantly affect a clinician's judgment or actions.