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  • Braunstein Lab

    Lab Website
    Principal Investigator:
    Evan Braunstein, M.D., Ph.D.
    Medicine

    Dr. Braunstein's research focuses on inherited predisposition to hematologic diseases. His labo...ratory studies the inherited genetic changes in DNA that increase susceptibility to disease. Blood cancers such as myeloproliferative neoplasms and myelodysplastic syndromes are traditionally thought to be acquired disorders, however there is increasing evidence that inherited genetic changes play a role. In addition, Dr. Braunstein studies non-malignant blood diseases including atypical hemolytic uremic syndrome (aHUS) and related thrombotic disorders such as APLS, TTP and HELLP syndrome which are caused in part by genetic mutations. His work has identified a germline variants in the ERBB genes that predispose to hematologic malignancies. In addition, his research group found that patients with catastrophic APLS and HELLP syndrome frequently harbor germline mutations in complement regulatory genes. This has led directly to clinical trials designed to test the efficacy of complement inhibition in patients with these disorders. Dr. Braunstein continues to work toward translating the scientific findings from the laboratory into improved care and treatment for patients. view more

    Research Areas: Myeloproliferative neoplasms, complement disorders
  • Charles W. Flexner Laboratory

    Principal Investigator:
    Charles Flexner, M.D.
    Medicine

    A. Laboratory activities include the use of accelerator mass spectrometry (AMS) techniques to m...easure intracellular drugs and drugs metabolites. AMS is a highly sensitive method for detecting tracer amounts of radio-labeled molecules in cells, tissues, and body fluids. We have been able to measure intracellular zidovudine triphosphate (the active anabolite of zidovudine) in peripheral blood mononuclear cells from healthy volunteers given small doses of 14C-zidovudine, and have directly compared the sensitivity of AMS to traditional LC/MS methods carried out in our laboratory.

    B. Clinical research activities investigate the clinical pharmacology of new anti-HIV therapies and drug combinations. Specific drug classes studied include HIV reverse transcriptase inhibitors, protease inhibitors, entry inhibitors (selective CCR5 and CXCR4 antagonists), and integrase inhibitors. Scientific objectives of clinical studies include characterization of early drug activity, toxicity, and pharmacokinetics. Additional objectives are characterization of pathways of drug metabolism, and identification of clinically significant harmful and beneficial drug interactions mediated by hepatic and intestinal cytochrome P450 isoforms.
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    Research Areas: antiretroviral drugs, infectious disease, HIV protease inhibitors, HIV, drugs, accelerator mass spectrometry
  • Edgar Miller Lab

    Principal Investigator:
    Edgar Miller, M.D., Ph.D.
    Medicine

    Research in the Edgar Miller Lab focuses on nutrition, hypertension and kidney disease. Current... projects include a National Heart, Lung, and Blood Institute study on dietary carbohydrate and glycemic index effects on markers of oxidative stress, inflammation and kidney function; and a National Institute of Diabetes and Digestive and Kidney Diseases randomized controlled trial that examines the effects of omega-3 fatty acid supplementation on urine protein excretion in diabetic kidney disease. view more

    Research Areas: nutrition, kidney diseases, diabetes, inflammation
  • Gail Daumit Lab

    Principal Investigator:
    Gail Daumit, M.D., M.H.S.
    Medicine

    Research in the Gail Daumit Lab is devoted to improving overall health and decreasing premature... mortality for people with serious mental illnesses, such as schizophrenia and bipolar disorder. We have conducted observational studies to determine and convey the burden of physical health problems in this vulnerable population, and are currently leading a randomized trial funded by the National Heart, Lung, and Blood Institute to test a comprehensive cardiovascular risk reduction program in people with serious mental illness. view more

    Research Areas: mental health, schizophrenia, bipolar disorder, cardiovascular diseases
  • Haughey Lab: Neurodegenerative and Neuroinfectious Disease

    Lab Website
    Principal Investigator:
    Norman Haughey, Ph.D.
    Neurology
    Neurosurgery

    Dr. Haughey directs a disease-oriented research program that address questions in basic neurobi...ology, and clinical neurology. The primary research interests of the laboratory are:

    1. To identify biomarkers markers for neurodegenerative diseases including HIV-Associated Neurocognitive Disorders, Multiple Sclerosis, and Alzheimer’s disease. In these studies, blood and cerebral spinal fluid samples obtained from ongoing clinical studies are analyzed for metabolic profiles through a variety of biochemical, mass spectrometry and bioinformatic techniques. These biomarkers can then be used in the diagnosis of disease, as prognostic indicators to predict disease trajectory, or as surrogate markers to track the effectiveness of disease modifying interventions.
    2. To better understand how the lipid components of neuronal, and glial membranes interact with proteins to regulate signal transduction associated with differentiation, motility, inflammatory signaling, survival, and neuronal excitability.
    3. To understand how extracellular vesicles (exosomes) released from brain resident cells regulate neuronal excitability, neural network activity, and peripheral immune responses to central nervous system damage and infections.
    4. To develop small molecule therapeutics that regulate lipid metabolism as a neuroprotective and restorative strategy for neurodegenerative conditions.
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    Research Areas: multiple sclerosis, PTSD, HAND, HIV
  • Hsin-Chieh Yeh Lab

    Lab Website
    Principal Investigator:
    Hsin-Chieh Yeh, Ph.D.
    Medicine

    Work in the Hsin-Chieh Yeh Lab focuses on clinical trials and cohort studies of diabetes, obesi...ty and behavioral intervention, cancer and hypertension. Recent investigations have focused on novel risk factors and complications related to obesity and type 2 diabetes, particularly lung function, smoking and cancer. We recently co-led a randomized clinical trial of tailored dietary advice for consumption of dietary supplements to lower blood pressure and improve cardiovascular disease risk factors in hypertensive urban African Americans. view more

    Research Areas: epidemiology, African Americans, cancer, obesity, hypertension, diabetes, behavioral medicine
  • James Pekar Lab

    Lab Website

    How do we see, hear, and think? More specifically, how can we study living people to understand... how the brain sees, hears, and thinks? Recently, magnetic resonance imaging (MRI), a powerful anatomical imaging technique widely used for clinical diagnosis, was further developed into a tool for probing brain function. By sensitizing magnetic resonance images to the changes in blood oxygenation that occur when regions of the brain are highly active, we can make "movies" that reveal the brain at work. Dr. Pekar works on the development and application of this MRI technology.

    Dr. Pekar is a biophysicist who uses a variety of magnetic resonance techniques to study brain physiology and function. Dr. Pekar serves as Manager of the F.M. Kirby Research Center for Functional Brain Imaging, a research resource where imaging scientists and neuroscientists collaborate to study brain function using unique state-of-the-art techniques in a safe comfortable environment, to further develop such techniques, and to provide training and education. Dr. Pekar works with center staff to serve the center's users and to keep the center on the leading edge of technology.
    view more

    Research Areas: magnetic resonance, functional magnetic resonance imaging, radiology
  • Jennifer Lee-Summers Lab

    Research in the Jennifer Lee-Summers Lab explores cerebrovascular autoregulation, particularly ...during anesthesia. Our previous studies have examined cerebrovascular autoregulation and blood flow in patients with hypothermia, in neonatal patients with hypoxic-ischemic encephalopathy and in pediatric patients with moyamoya disease. view more

    Research Areas: hypothermia, moyamoya, neonatal, cerebrovascular, anesthesia, pediatrics
  • Jeremy Sugarman Lab

    Research in the Jeremy Sugarman Lab focuses on biomedical ethics—particularly, the application ...of empirical methods and evidence-based standards to the evaluation and analysis of bioethical issues. Our contributions to medical ethics and health policy include work on the ethics of informed consent, umbilical cord blood banking, stem cell research, international HIV prevention research, global health and research oversight. view more

    Research Areas: global health, medical ethics, stem cells, HIV, evidence-based medicine, bioethics
  • Jinyuan Zhou Lab

    Lab Website

    Dr. Zhou's research focuses on developing new in vivo MRI and MRS methodologies to study brain ...function and disease. His most recent work includes absolute quantification of cerebral blood flow, quantification of functional MRI, high-resolution diffusion tensor imaging (DTI), magnetization transfer mechanism, development of chemical exchange saturation transfer (CEST) technology, brain pH MR imaging, and tissue protein MR imaging. Notably, Dr. Zhou and his colleagues invented the amide proton transfer (APT) approach for brain pH imaging and tumor protein imaging. His initial paper on brain pH imaging was published in Nature Medicine in 2003 and his most recent paper on tumor treatment effects was published in Nature Medicine in 2011. A major part of his current research is the pre-clinical and clinical imaging of brain tumors, strokes, and other neurologic disorders using the APT and other novel MRI techniques. The overall goal is to achieve the MRI contrast at the protein and peptide level without injection of exogenous agents and improve the diagnostic capability of MRI and the patient outcomes. view more

    Research Areas: magnetic resonance, functional magnetic resonance imaging, brain, stroke
  • Jodi Segal Lab

    Principal Investigator:
    Jodi Segal, M.D., M.P.H.
    Medicine

    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. view more

    Research Areas: blood disorders, osteoporosis, diabetes, drugs, evidence-based medicine
  • John Schroeder Lab

    Principal Investigator:
    John Schroeder, Ph.D.
    Medicine

    The John Schroeder Lab focuses on understanding the role human basophils and mast cells play in... allergic reactions, as it relates not only to their secretion of potent inflammatory mediators (e.g., histamine and leukotriene C4) but also to their production of pro-inflammatory cytokines. We have long utilized human cells rather than cell lines in order to address the parameters, signal transduction and pharmacological aspects underlying clinically relevant basophil and mast cell responses. As a result, the lab has established protocols for rapidly isolating large numbers of basophils at high purity from human blood and for growing culture-derived mast cells/basophils from human progenitor cells. A variety of assays and techniques are also in place for concurrently detecting cytokines and mediators following a wide range of stimuli. These have facilitated the in vitro testing of numerous anti-allergic drugs for inhibitory activity on basophil and mast cell activation. The lab also studies counter-regulation between the IgE and innate immune receptors on human immature dendritic cell subtypes. view more

    Research Areas: cell biology, allergies, inflammation
  • John Ulatowski Lab

    Lab Website

    Research in the John Ulatowski Lab explores the regulatory mechanisms of oxygen delivery to the... brain and cerebral blood flow. Our work includes developing and applying new techniques and therapies for stroke as well as non-invasive techniques for monitoring brain function, fluid management and sedation in brain injury patients. We also examine the use of novel oxygen carriers in blood. We’ve recently begun exploring new methods for perioperative and periprocedural care that would help to optimize patient safety in the future. view more

    Research Areas: cerebrovascular, brain, stroke, oxygen, blood
  • Jun Hua Lab

    Lab Website

    Dr. Hua's research has centered on the development of novel MRI technologies for in vivo functi...onal and physiological imaging in the brain, and the application of such methods for studies in healthy and diseased brains. These include the development of human and animal MRI methods to measure functional brain activities, cerebral perfusion and oxygen metabolism at high (3 Tesla) and ultra-high (7 Tesla and above) magnetic fields. He is particularly interested in novel MRI approaches to image small blood and lymphatic vessels in the brain. Collaborating with clinical investigators, these techniques have been applied 1) to detect functional, vascular and metabolic abnormalities in the brain in neurodegenerative diseases such as Huntingdon's disease (HD), Parkinson's disease (PD), Alzheimer's disease (AD) and mental disorders such as schizophrenia; and 2) to map brain functions and cerebrovascular reactivity for presurgical planning in patients with vascular malformations, brain tumors and epilepsy. view more

    Research Areas: imaging technology development, applications in brain diseases
  • Komatsu Lab

    Malfunction and malformation of blood vessels are associated with a broad range of medical cond...itions, including cancer, cardiovascular diseases, and neurological disorders. The ultimate goal of the Komatsu lab is to find a way to reverse the process of abnormal vessel formation and restore normal function to these vessels. In cancer, normalization of tumor blood vessels facilitates lymphocyte infiltration, potentiating anti-tumor immunity, and enhances the efficacy of immunotherapies as well as conventional cancer treatments. Normalization of regenerating blood vessels is also necessary for reestablishing blood flow to ischemic hearts and limbs, and preventing blindness caused by diabetic retinopathy or macular degeneration. Komatsu lab’s research is uncovering key molecular pathways important for the normalization of pathological vasculature. view more

    Research Areas: Tertiary lymphoid structure (TLS) in cancer, Drug targeting, High endothelial venules and their role in lymphocyte recruitment, Vascular normalization
  • Linda Smith-Resar Lab

    Lab Website
    Principal Investigator:
    Linda Smith Resar, M.D.
    Medicine

    The Linda Smith-Resar Lab primarily investigates hematologic malignancy and molecular mechanism...s 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. view more

    Research Areas: blood disorders, sickle cell diseases, blood management programs, hematologic malignancies
  • Machine Biointerface Lab

    Lab Website

    Dr. Fridman's research group invents and develops bioelectronics for Neuroengineering and Medic...al Instrumentation applications. We develop innovative medical technology and we also conduct the necessary biological studies to understand how the technology could be effective and safe for people.

    Our lab is currently focused on developing the "Safe Direct Current Stimulation" technology, or SDCS. Unlike the currently available commercial neural prosthetic devices, such as cochlear implants, pacemakers, or Parkinson's deep brain stimulators that can only excite neurons, SDCS can excite, inhibit, and even sensitize them to input. This new technology opens a door to a wide range of applications that we are currently exploring along with device development: e.g. peripheral nerve stimulation for suppressing neuropathic pain, vestibular nerve stimulation to correct balance disorders, vagal nerve stimulation to suppress an asthma attack, and a host of other neuroprosthetic applications.

    Medical Instrumentation MouthLab is a "tricorder" device that we invented here in the Machine Biointerface Lab. The device currently obtains all vital signs within 60s: Pulse rate, breathing rate, temperature, blood pressure, blood oxygen saturation, electrocardiogram, and FEV1 (lung function) measurement. Because the device is in the mouth, it has access to saliva and to breath and we are focused now on expanding its capability to obtaining measures of dehydration and biomarkers that could be indicative of a wide range of internal disorders ranging from stress to kidney failure and even lung cancer.
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    Research Areas: medical instruments, bioelectricities, neuroengineering, nerve stimulation
  • Mark Levis Laboratory

    Lab Website
    Principal Investigator:
    Mark Levis, M.D., Ph.D.
    Medicine
    Oncology

    Our broad research goals are to identify and validate novel molecular therapeutic targets in he...matopoietic malignancies. We are interested in the identification and pre-clinical development of novel targeted therapies, and, in particular, the “translational” step of this research by using correlative studies to incorporate these novel therapies into existing treatments. Our research is of particular interest to those who wish to be involved in directly translating the results of laboratory bench work into meaningful benefits for patients.

    Currently, we are actively involved in the pre-clinical and clinical development of small molecule kinase inhibitors targeting the FLT3 signaling pathway in acute myeloid leukemia. We are interested in 3 compounds in particular- AC220, a FLT3/KIT inhibitor; crenolanib,a selective FLT3 inhibitor with activity against resistant point mutations; and PLX3397, another inhibitor of KIT and FLT3. The active projects in the lab include:
    1) Characterization of cytotoxic responses of different hematologic malignancies to FLT3 and KIT kinase inhibition; 2) Examination of the interaction of bone marrow stroma and stroma-derived cytokines on the efficacy of these inhibitors; 3) Examination of the differential effect of FLT3 inhibition versus combined FLT3/KIT inhibition on acute myeloid leukemia and bone marrow progenitor cells; and 4) Correlative laboratory studies using blood and marrow samples from patients treated with FLT3 inhibitors, with the aim of developing predictive models for clinical response.
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    Research Areas: leukemia
  • Nicholas Flavahan Lab

    Lab Website

    The Nicholas Flavahan Lab primarily researches the cellular interactions and subcellular signal...ing pathways that control normal vascular function and regulate the initiation of vascular disease. We use biochemical and molecular analyses of cellular mediators and cell signaling mechanisms in cultured vascular cells, while also conducting physiological assessments and fluorescent microscopic imaging of signaling systems in isolated blood vessels. A major component of our research involves aterioles, tiny blood vessles that are responsible for controlling the peripheral resistance of the cardiovascular system, which help determine organ blood flow. view more

    Research Areas: biochemistry, Raynaud's phenomenon, vascular biology, vasospasms
  • Obesity Hypertension Clinic: Reversing the Negative Cardiovascular Effects of Weight (ReNEW)

    Lab Website
    Principal Investigator:
    Tammy Brady, M.D., Ph.D.
    Medicine
    Pediatrics

    Hypertension in children is a major cause of disease, including early onset heart disease. Up t...o 25% of children who are overweight or obese have hypertension (high blood pressure), and children with obesity are at greater risk for having other cardiovascular disease risk factors such as high cholesterol and diabetes. The ReNEW Clinic at The Johns Hopkins University provides an innovative multidisciplinary approach to the evaluation and treatment of obesity-related hypertension to help prevent and treat cardiovascular disease. This clinic is designed for children with elevated blood pressure (prehypertension and hypertension) and a BMI at or above the 85th percentile. Many children in this clinic are enrolled in a longitudinal registry to help researchers learn how to better care for children with multiple risk factors for heart disease.

    Read more about the ReNEW clinic: Childhood Obesity: A Focus on Hypertension

    view more

    Research Areas: obesity, hypertension, pediatric cardiology
  • Paul Rothman Lab

    Lab Website
    Principal Investigator:
    Paul Rothman, M.D.
    Medicine

    Research in the Paul Rothman Lab has focused on cytokines. We’ve investigated the role these mo...lecules play in the normal development of blood cells as well as the abnormal blood-cell development that leads to leukemia. We’ve also studied the function of cytokines in immune system responses to asthma and allergies. view more

    Research Areas: leukemia, asthma, allergies, cytokines, immune system
  • Peter Abadir Lab

    Principal Investigator:
    Peter Abadir, M.D.
    Medicine

    Research in the Peter Abadir Lab focuses on the renin-angiotensin system (RAS), a signaling pat...hway that regulates blood pressure and has been linked independently to both aging and inflammation. We’re particularly interested in changes in RAS that occur with aging. We also study signal transduction and the role of the crosstalk between angiotensin II receptor in aging and are interested in understanding the function of angiotensin II in the process of vascular aging. view more

    Research Areas: renin-angiotensin system, aging, inflammation, gerontology
  • Peter Agre Lab

    Principal Investigator:
    Peter Agre, M.D.
    Biological Chemistry

    Work in the Peter Agre Lab focuses on the molecular makeup of human diseases, particularly mala...ria, hemolytic anemias and blood group antigens. In 2003, Dr. Agre earned the Nobel Prize in Chemistry for discovering aquaporin water channels. Building on that discovery, our recent research has included studies on the protective role of the brain water channel AQP4 in murine cerebral malaria, as well as defective urinary-concentrating ability as a result of a complete deficiency in aquaporin-1. We also collaborate on scientific training and research efforts with 20 Baltimore-area labs and in field studies in Zambia and Zimbabwe. view more

    Research Areas: infectious disease, anemia, malaria
  • Pluznick Lab

    Lab Website
    Principal Investigator:
    Jennifer Pluznick, Ph.D.
    Physiology

    The Pluznick Lab is interested in the role that chemosensation plays in regulating physiologica...l processes, particularly in the kidney and the cardiovascular system. We have found that sensory receptors (olfactory receptors, taste receptors, and other G-protein coupled receptors) are expressed in the kidney and in blood vessels, and that individual receptors play functional roles in whole-animal physiology. We are currently working to identify the full complement of sensory receptors found in the kidney, and are working to understand the role that each receptor plays in whole-animal physiology by using a variety of in vitro (receptor localization, ligand screening) and in vivo (whole-animal physiology) techniques. view more

    Research Areas: sensory receptors, cardiovascular, physiology, chemosensation, renal
  • Richard John Jones Lab

    Principal Investigator:
    Richard Jones, M.D.
    Medicine

    The Richard J. Jones Lab studies normal and cancerous stem cells in order to make clinical impr...ovements 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. view more

    Research Areas: enzymes, stem cells, blood and marrow transplantation, leukemia, cancer
  • Rita Kalyani Lab

    Principal Investigator:
    Rita Kalyani, M.D., M.H.S.
    Medicine

    Research in the Rita Kalyani Lab examines the decreased physical functioning observed in patien...ts with diabetes as they age. Through several ongoing epidemiological cohorts, we are investigating the association of high blood glucose and high insulin levels with accelerated muscle loss, and possible contributions to the physical disability observed in diabetes. We are currently involved in clinical studies that aim to understand the underlying mechanisms for these associations and to facilitate the development of novel strategies to prevent muscle loss and disability in people with diabetes. view more

    Research Areas: metabolism, insulin, diabetes, cardiovascular diseases, endocrinology, blood glucose
  • Romsai Boonyasai Lab

    Lab Website
    Principal Investigator:
    Romsai Boonyasai, M.D., M.P.H.
    Medicine

    Research in the Romsai Boonyasai Lab focuses on systems-based approaches for improving health c...are quality, including reducing harm during care transitions after hospital discharge and improving outcomes related to hypertension and other chronic diseases. We recently have focused on developing and evaluating practice-based tools for improving the accuracy of blood pressure measurement, overcoming clinical inertia to treatment, and engaging patients in self-management of their health. view more

    Research Areas: health care quality, hypertension, care coordination, chronic illnesses
  • Samuel R. Denmeade Laboratory

    Lab Website

    The main research goals of my laboratory are: (1) to identify and study the biology of novel ca...ncer selective targets whose enzymatic function can be exploited for therapeutic and diagnostic purposes; (2) to develop methods to target novel agents for activiation by these cancer selective targets while avoiding or minimizing systemic toxicity; (3) to develop novel agents for imaging cancer sites at earliest stages. To accomplish these objectives the lab has originally focused on the development of prodrugs or protoxins that are inactive when given systemically via the blood and only become activated by tumor or tissue specific proteases present within sites of tumor. Using this approach, we are developing therapies targeted for activation by the serine proteases prostate-specific antigen (PSA), human glandular kallikrein 2 (hK2) and fibroblast activation protein (FAP) as well as the membrane carboxypeptidase prostate-specific membrane antigen (PSMA). One such approach developed in the lab consists of a potent bacterial protoxin that we have reengineered to be selectively activated by PSA within the Prostate. This PSA-activated toxin is currently being tested clinically as treatment for men with recurrent prostate cancer following radiation therapy. In a related approach, a novel peptide-cytotoxin prodrug candidate that is activated by PSMA has been identified and is this prodrug candidate is now entering early phase clinical development. In addition, we have also identified a series of potent inhibitors of PSA that are now under study as drug targeting and imaging agents to be used in the treatment and detection of prostate cancer.
    view more

    Research Areas: cancer therapies, prodrugs, cancer, protease inhibitors, protoxins, cancer imaging
  • Sarbjit Saini Lab

    Principal Investigator:
    Sarbjit Saini, M.D.
    Medicine

    The research in the Sarbjit Saini Laboratory focuses on IgE receptor biology and IgE receptor-m...ediated activation of blood basophils and mast cells. We have examined the role of IgE receptor expression and activation in allergic airways disease, anaphylaxis and chronic urticaria. Our research has been supported by the NIH, American Lung Association and the AAAAI. Our current research interests have focused mechanisms of diease in allergic asthma, allergic rhinitis and also translational studies in chronic idiopathic urticaria. view more

    Research Areas: anaphylaxis, airway diseases, cell biology, asthma, allergies, chronic idiopathic urticaria
  • Steven Frank Lab

    Research in the Steven Frank Lab focuses on processes to improve blood use and to avoid blood t...ransfusions 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. view more

    Research Areas: bloodless surgery, blood disorders, hypothermia, blood transfusions, blood conservation, cell salvage, anemia, autologous hemodilution, bloodless medicine
  • Vascular Neurology Lab

    Lab Website
    Principal Investigator:
    Rafael Tamargo, M.D.
    Neurology
    Neurosurgery

    Vascular research led by Rafael Tamargo, M.D., the Walter E. Dandy Professor of Neurosurgery, e...xplores treatment of aneurysms, arteriovenous malformations, cavernous malformations, and arteriovenous fistulas of the brain and spinal cord. Basic science research has focused on endothelial cell-leukocyte interactions (inflammation) after subarachnoid hemorrhage and identifying drugs that might inhibit this inflammatory response as well as the narrowing of blood vessels. view more

    Research Areas: aneurysm, stroke
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