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Displaying 1 to 9 of 9 results for osteoporosis

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  • Christopher B. Ruff Lab

    Research in the Christopher B. Ruff Lab focuses on biomechanics and primate locomotion, skeletal growth and development, osteoporosis, skeletal remodeling and the evolution of the hominoid postcranium. We primarily explore how variation in skeletal morphology is related to mechanical forces applied during life. Our studies have shown that the skeleton adapts to its mechanical environment, both developmentally and through evolutionary time, by altering its structural organization.

    Research Areas: anatomy, osteoporosis, biomechanics, locomotion, evolution, skeletal morphology

  • Clemens Lab

    Research in the Clemens Lab focuses on identification of the cellular and molecular mechanisms that mediate bone formation and repair. Currently, we are studying the role of sensory nerves in bone and the coupling of bone cell metabolic activity to the sensory nerves' development and function.

    The skeleton is one of the most important structures in our bodies. Bones allow us to stand, walk and move from one place to another, and they serve as protectors of our vital organs. With aging, our skeleton both loses its bone mineral and the structure (micro-architecture). The fine trabecular bone is organized into plates and rods, and these structures develop cracks and discontinuity. As we age, bone is lost and its structure compromised. This degradation of our bone structure — osteoporosis — is a global health problem. Thomas Clemens, M.D. is the director of the Clemens lab. He is the Lewis Cass Spencer professor of orthopaedic surgery and the vice chair for research in the Department of... Orthopaedic Surgery at Johns Hopkins. view more

    Research Areas: osteoporosis, orthopaedics, sensory nerves, osteopenia, bone disease, bone repair

    Lab Website

    Principal Investigator

    Thomas Clemens, Ph.D.

    Department

    Orthopaedic Surgery

  • Jodi Segal Lab

    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.

    Research Areas: blood disorders, osteoporosis, diabetes, drugs, evidence-based medicine

    Principal Investigator

    Jodi Segal, M.D., M.P.H.

    Department

    Medicine

  • Kendall Moseley Lab

    Research in the Kendall Moseley Lab is focused on the interplay between type 2 diabetes, aging and osteoporosis. We also study the function of bone stem cells in the regulation of bone remodeling.

    Research Areas: type 2 diabetes, osteoporosis, stem cells, aging

    Principal Investigator

    Kendall Moseley, M.D.

    Department

    Medicine

  • Mark Liu Lab

    Research in the Mark Liu Lab explores several areas of pulmonary and respiratory medicine. Our studies primarily deal with allergic inflammation, chronic obstructive pulmonary disease (COPD) and asthma, specifically immunologic responses to asthma. We have worked to develop a microfluidic device with integrated ratiometric oxygen sensors to enable long-term control and monitoring of both chronic and cyclical hypoxia. In addition, we conduct research on topics such as the use of magnetic resonance angiography in evaluating intracranial vascular lesions and tumors as well as treatment of osteoporosis by deep sea water through bone regeneration.

    Research Areas: respiratory system, pulmonary medicine, asthma, COPD, inflammation, hypoxia

    Principal Investigator

    Mark Liu, M.D.

    Department

    Medicine

  • Michelle Belantoni Lab

    Research interests in the Michelle Belantoni Lab include osteoporosis screening using heel ultrasonography and quality outcomes in post-acute care settings.

    Research Areas: osteoporosis, gerontology, ultrasonography

    Principal Investigator

    Michele Bellantoni, M.D.

    Department

    Medicine

  • Noah Lechtzin Lab

    Research in the Noah Lechtzin Lab investigates several important aspects of cystic fibrosis (CF), including the impact of antibiotic-resistant bacterial infections in CF patients and new therapy options for individuals with CF. Our research into new CF therapies has included studies on home electronic symptom and lung function monitoring, transbronchial needle aspiration and bedside percutaneous endoscopic gastrostomy tube placement. We also explore the role of metabolic complications in CF patients by examining how the disease is impacted by factors such as vitamin D deficiency, osteoporosis and testosterone deficiency.

    Research Areas: osteoporosis, cystic fibrosis, pulmonary medicine, metabolism, antibiotic-resistant bacterial infections, testosterone

    Principal Investigator

    Noah Lechtzin, M.D., M.H.S.

    Department

    Medicine

  • Redonda Miller Lab

    Research in the Redonda Miller Lab is focused on women’s health, including osteoporosis and menopause, and medical education. We're also interested in physician practice issues.

    Research Areas: medical education, osteoporosis, internal medicine, women's health

    Principal Investigator

    Redonda Miller, M.B.A., M.D.

    Department

    Medicine

  • Suzanne Jan de Beur Lab

    Researchers in the Suzanne Jan de Beur Lab are interested in bone and mineral metabolism, endocrinology and osteoporosis. In addition, we focus on hormonal regulators of phosphate homeostasis, parathyroid hormone signaling and the molecular basis of hypophosphatemic disorders.

    Research Areas: osteoporosis, metabolism, diabetes, endocrinology

    Principal Investigator

    Suzanne Jan De Beur, M.D.

    Department

    Medicine

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