D. W. Clapp, MD
Chair, Department of Pediatrics
Bio
D. Wade Clapp, MD, is the Richard L. Schreiner Professor, Chairman of the Department of Pediatrics and a Distinguished Professor at Indiana University. He is also Physician-in-Chief for Riley Hospital for Children and a Professor; Microbiology & Immunology/Biochemistry & Molecular Biology. Dr. Clapp was named Chair of Pediatrics in September 2009. He is a neonatologist and a physician/scientist with an active lab and NIH grant support focusing on translational research. His research has been internationally acclaimed and has resulted in several clinical trials. He is also past director of the MD/PhD program at IU which is now an NIH designated Medical Scientist Training Program. Dr. Clapp is an active member of the Association of Medical School Pediatric Department Chairs (AMSPDC) where he serves as Treasurer, Director of the Frontiers in Science program, and is on the Steering Committee for the Physician Scientist Development Program.
Titles & Appointments
- Chair, Department of Pediatrics
- Distinguished Professor
- Richard L. Schreiner Professor of Pediatrics
- Professor of Microbiology & Immunology
- Professor of Biochemistry & Molecular Biology
- Professor of Medical & Molecular Genetics
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Education1990 FEL Research Fellowship, Case Western Reserve University (Ireland Cancer Center)1989 FEL Neonatology Fellowship, Case Western Reserve University1986 RES Pediatrics Residency, Indiana University School of Medicine1982 MD Indiana University1977 BA Hanover College
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Research
Our laboratory focuses on the molecular pathogenesis of neurofibromatosis type 1 and neurofibromatosis type 2. Neurofibromatosis type 1 is the most common genetic disease with a predisposition to cancer and one of a series of developmental disorders called Rasopathies that have a range of malignant, neurodevelopmental and other non-malignant disease manifestations. A major effort in the laboratory is understanding the genetic, biochemical and cell-cell interactions that lead to the genesis and progression of plexiform neurofibromas that are often congenital in origin and become clinically apparent in babies and young children. To elucidate key pathological cell-cell and hyperactive Ras-mediated signaling pathways we utilize a genetically engineered murine model that closely recapitulates the steps in plexiform neurofibroma formation in humans that was originally developed by Dr. Luis Parada and students in his laboratory. Given the intractability of targeting Ras directly, our laboratory has to date focused on genetically disrupting components of the Ras pathway, both using mouse genetics and subsequently by pharmacologic inhibition. Molecular targets that have been identified in the lab as having a significant therapeutic effect are then moved forward into phase 1 and phase 2 clinical trials and an FDA RO1 sponsored clinical trial began in 2015. The drug discovery work has been supported with support from NINDS via a UO1 mechanism, in the context of a preclinical consortium of investigators supported by Neurofibromatosis Therapeutics Acceleration Program (NTAP) and the Children’s Tumor Foundation (CTF) and a SPORE application that will start this fall. Three drug targets tested in our preclinical model have now moved forward to the clinic. Our efforts in neurofibromatosis type 2 are more recent. Building on the novel Nf2flox/flox mouse originally developed by Dr. Marco Giovannini, we have generated a murine model that accurately recapitulates the genesis of human vestibular and paraspinal schwannomas with 100% penetrance. Much like the efforts in NF1, we are utilizing the model in part to better understand the molecular pathogenesis of schwannoma formation. In addition, we are collaborating with other investigators in a multi-investigator initiative focused on identifying novel experimental therapeutics (Synodos) sponsored by the Children’s Tumor Foundation.
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PublicationsThe importance of nerve microenvironment for schwannoma development.
Schulz A; Büttner R; Hagel C; Baader SL; Kluwe L; Salamon J; Mautner VF; Mindos T; Parkinson DB; Gehlhausen JR; Clapp DW; Morrison H; Acta neuropathologica 2016 May 28Nf1+/- monocytes/macrophages induce neointima formation via CCR2 activation.
Bessler WK; Kim G; Hudson FZ; Mund JA; Mali R; Menon K; Kapur R; Clapp DW; Ingram DA Jr; Stansfield BK; Human molecular genetics 2016 Jan 5Spatially- and temporally-controlled postnatal p53 knockdown cooperates with embryonic Schwann cell precursor Nf1 gene loss to promote malignant peripheral nerve sheath tumor formation.
Hirbe AC; Dahiya S; Friedmann-Morvinski D; Verma IM; Clapp DW; Gutmann DH; Oncotarget 2016 Feb 16Fanconi Anemia Proteins Function in Mitophagy and Immunity.
Sumpter R Jr; Sirasanagandla S; Fernández ÁF; Wei Y; Dong X; Franco L; Zou Z; Marchal C; Lee MY; Clapp DW; Hanenberg H; Levine B; Cell 2016 Apr 28Preclinical Evidence for the Use of Sunitinib Malate in the Treatment of Plexiform Neurofibromas.
Ferguson MJ; Rhodes SD; Jiang L; Li X; Yuan J; Yang X; Zhang S; Vakili ST; Territo P; Hutchins G; Yang FC; Ingram DA; Clapp DW; Chen S; Pediatric blood & cancer 2015 Sep 16Social learning and amygdala disruptions in Nf1 mice are rescued by blocking p21-activated kinase.
Molosh AI; Johnson PL; Spence JP; Arendt D; Federici LM; Bernabe C; Janasik SP; Segu ZM; Khanna R; Goswami C; Zhu W; Park SJ; Li L; Mechref YS; Clapp DW; Shekhar A; Nature neuroscience 2014 Sep 21Fanconi anemia and the cell cycle: new perspectives on aneuploidy.
Nalepa G; Clapp DW; F1000prime reports 2014 Apr 1Periostin downregulation is an early marker of inhibited neonatal murine lung alveolar septation.
Ahlfeld SK; Gao Y; Wang J; Horgusluoglu E; Bolanis E; Clapp DW; Conway SJ; Birth defects research. Part A, Clinical and molecular teratology 2013 May 30Neurofibromin-deficient myeloid cells are critical mediators of aneurysm formation in vivo.
Li F; Downing BD; Smiley LC; Mund JA; Distasi MR; Bessler WK; Sarchet KN; Hinds DM; Kamendulis LM; Hingtgen CM; Case J; Clapp DW; Conway SJ; Stansfield BK; Ingram DA Jr; Circulation 2013 Dec 26Fanconi anemia signaling network regulates the spindle assembly checkpoint.
Nalepa G; Enzor R; Sun Z; Marchal C; Park SJ; Yang Y; Tedeschi L; Kelich S; Hanenberg H; Clapp DW; The Journal of clinical investigation 2013 Aug 15Imatinib mesylate for plexiform neurofibromas in patients with neurofibromatosis type 1: a phase 2 trial.
Robertson KA; Nalepa G; Yang FC; Bowers DC; Ho CY; Hutchins GD; Croop JM; Vik TA; Denne SC; Parada LF; Hingtgen CM; Walsh LE; Yu M; Pradhan KR; Edwards-Brown MK; Cohen MD; Fletcher JW; Travers JB; Staser KW; Lee MW; Sherman MR; Davis CJ; Miller LC; Ingram DA; Clapp DW; The Lancet. Oncology 2012 Oct 23A Pak1-PP2A-ERM signaling axis mediates F-actin rearrangement and degranulation in mast cells.
Staser K; Shew MA; Michels EG; Mwanthi MM; Yang FC; Clapp DW; Park SJ; Experimental hematology 2012 Oct 11The plexiform neurofibroma microenvironment.
Yang FC; Staser K; Clapp DW; Cancer microenvironment : official journal of the International Cancer Microenvironment Society 2012 Jul 24Normal hematopoiesis and neurofibromin-deficient myeloproliferative disease require Erk.
Staser K; Park SJ; Rhodes SD; Zeng Y; He YZ; Shew MA; Gehlhausen JR; Cerabona D; Menon K; Chen S; Sun Z; Yuan J; Ingram DA; Nalepa G; Yang FC; Clapp DW; The Journal of clinical investigation 2012 Dec 10Inhibition of p21 activated kinase (PAK) reduces airway responsiveness in vivo and in vitro in murine and human airways.
Hoover WC; Zhang W; Xue Z; Gao H; Chernoff J; Clapp DW; Gunst SJ; Tepper RS; PloS one 2012 Aug 10The haploinsufficient hematopoietic microenvironment is critical to the pathological fracture repair in murine models of neurofibromatosis type 1.
Wu X; Chen S; He Y; Rhodes SD; Mohammad KS; Li X; Yang X; Jiang L; Nalepa G; Snider P; Robling AG; Clapp DW; Conway SJ; Guise TA; Yang FC; PloS one 2011 Sep 29Fanconi anemia D2 protein is an apoptotic target mediated by caspases.
Park SJ; Beck BD; Saadatzadeh MR; Haneline LS; Clapp DW; Lee SH; Journal of cellular biochemistry 2011 SepInhibition or ablation of p21-activated kinase (PAK1) disrupts glucose homeostatic mechanisms in vivo.
Wang Z; Oh E; Clapp DW; Chernoff J; Thurmond DC; The Journal of biological chemistry 2011 Oct 3Pathogenesis of plexiform neurofibroma: tumor-stromal/hematopoietic interactions in tumor progression.
Staser K; Yang FC; Clapp DW; Annual review of pathology 2011 Nov 7Kinase suppressor of Ras (KSR1) modulates multiple kit-ligand-dependent mast cell functions.
Chen M; Burgin S; Staser K; He Y; Li X; Robinson M; Jiang L; Chan RJ; Ingram D; Clapp DW; Experimental hematology 2011 Jul 1Nf1-/- Schwann cell-conditioned medium modulates mast cell degranulation by c-Kit-mediated hyperactivation of phosphatidylinositol 3-kinase.
Chen S; Burgin S; McDaniel A; Li X; Yuan J; Chen M; Khalaf W; Clapp DW; Yang FC; The American journal of pathology 2010 Oct 29Mast cells and the neurofibroma microenvironment.
Staser K; Yang FC; Clapp DW; Blood 2010 Mar 16Genetic disruption of both Fancc and Fancg in mice recapitulates the hematopoietic manifestations of Fanconi anemia.
Pulliam-Leath AC; Ciccone SL; Nalepa G; Li X; Si Y; Miravalle L; Smith D; Yuan J; Li J; Anur P; Orazi A; Vance GH; Yang FC; Hanenberg H; Bagby GC; Clapp DW; Blood 2010 Jul 6Plexiform neurofibroma genesis: questions of Nf1 gene dose and hyperactive mast cells.
Staser K; Yang FC; Clapp DW; Current opinion in hematology 2010 JulLoss of SIMPL compromises TNF-alpha-dependent survival of hematopoietic progenitors.
Benson EA; Goebl MG; Yang FC; Kapur R; McClintick J; Sanghani S; Clapp DW; Harrington MA; Experimental hematology 2009 Nov 23p21-activated kinase regulates mast cell degranulation via effects on calcium mobilization and cytoskeletal dynamics.
Allen JD; Jaffer ZM; Park SJ; Burgin S; Hofmann C; Sells MA; Chen S; Derr-Yellin E; Michels EG; McDaniel A; Bessler WK; Ingram DA; Atkinson SJ; Travers JB; Chernoff J; Clapp DW; Blood 2009 Jan 5Pak1 regulates multiple c-Kit mediated Ras-MAPK gain-in-function phenotypes in Nf1+/- mast cells.
McDaniel AS; Allen JD; Park SJ; Jaffer ZM; Michels EG; Burgin SJ; Chen S; Bessler WK; Hofmann C; Ingram DA; Chernoff J; Clapp DW; Blood 2008 Sep 2Nf1-dependent tumors require a microenvironment containing Nf1+/-- and c-kit-dependent bone marrow.
Yang FC; Ingram DA; Chen S; Zhu Y; Yuan J; Li X; Yang X; Knowles S; Horn W; Li Y; Zhang S; Yang Y; Vakili ST; Yu M; Burns D; Robertson K; Hutchins G; Parada LF; Clapp DW; Cell 2008 Oct 31AMD3100 synergizes with G-CSF to mobilize repopulating stem cells in Fanconi anemia knockout mice.
Pulliam AC; Hobson MJ; Ciccone SL; Li Y; Chen S; Srour EF; Yang FC; Broxmeyer HE; Clapp DW; Experimental hematology 2008 May 20Optimization of autologous muscle stem cell survival in the denervated hemilarynx.
Halum SL; Hiatt KK; Naidu M; Sufyan AS; Clapp DW; The Laryngoscope 2008 JulOvernight transduction with foamyviral vectors restores the long-term repopulating activity of Fancc-/- stem cells.
Si Y; Pulliam AC; Linka Y; Ciccone S; Leurs C; Yuan J; Eckermann O; Fruehauf S; Mooney S; Hanenberg H; Clapp DW; Blood 2008 Aug 6Nf1+/- mice have increased neointima formation via hyperactivation of a Gleevec sensitive molecular pathway.
Lasater EA; Bessler WK; Mead LE; Horn WE; Clapp DW; Conway SJ; Ingram DA; Li F; Human molecular genetics 2008 Apr 28K-ras is critical for modulating multiple c-kit-mediated cellular functions in wild-type and Nf1+/- mast cells.
Khalaf WF; Yang FC; Chen S; White H; Bessler W; Ingram DA; Clapp DW; Journal of immunology (Baltimore, Md. : 1950) 2007 Feb 15Hyperactivation of p21ras and PI3K cooperate to alter murine and human neurofibromatosis type 1-haploinsufficient osteoclast functions.
Yang FC; Chen S; Robling AG; Yu X; Nebesio TD; Yan J; Morgan T; Li X; Yuan J; Hock J; Ingram DA; Clapp DW; The Journal of clinical investigation 2006 Oct 19HMGB1 expression and release by bone cells.
Charoonpatrapong K; Shah R; Robling AG; Alvarez M; Clapp DW; Chen S; Kopp RP; Pavalko FM; Yu J; Bidwell JP; Journal of cellular physiology 2006 MayRac2 concentrations in umbilical cord neutrophils.
Meade VM; Barese CN; Kim C; Njinimbam CG; Marchal CC; Ingram DA; Clapp DW; Dinauer MC; Yoder MC; Biology of the neonate 2006 Mar 30Nf1+/- mast cells induce neurofibroma like phenotypes through secreted TGF-beta signaling.
Yang FC; Chen S; Clegg T; Li X; Morgan T; Estwick SA; Yuan J; Khalaf W; Burgin S; Travers J; Parada LF; Ingram DA; Clapp DW; Human molecular genetics 2006 Jul 11Continuous in vivo infusion of interferon-gamma (IFN-gamma) enhances engraftment of syngeneic wild-type cells in Fanca-/- and Fancg-/- mice.
Si Y; Ciccone S; Yang FC; Yuan J; Zeng D; Chen S; van de Vrugt HJ; Critser J; Arwert F; Haneline LS; Clapp DW; Blood 2006 Aug 31Developmental regulation of the immune system.
Clapp DW; Seminars in perinatology 2006 AprStimulus-evoked release of neuropeptides is enhanced in sensory neurons from mice with a heterozygous mutation of the Nf1 gene.
Hingtgen CM; Roy SL; Clapp DW; Neuroscience 2005 Nov 17Sensory neurons from Nf1 haploinsufficient mice exhibit increased excitability.
Wang Y; Nicol GD; Clapp DW; Hingtgen CM; Journal of neurophysiology 2005 Aug 10Rapid mobilization of murine and human hematopoietic stem and progenitor cells with AMD3100, a CXCR4 antagonist.
Broxmeyer HE; Orschell CM; Clapp DW; Hangoc G; Cooper S; Plett PA; Liles WC; Li X; Graham-Evans B; Campbell TB; Calandra G; Bridger G; Dale DC; Srour EF; The Journal of experimental medicine 2005 Apr 18A role for the Fanconi anemia C protein in maintaining the DNA damage-induced G2 checkpoint.
Freie BW; Ciccone SL; Li X; Plett PA; Orschell CM; Srour EF; Hanenberg H; Schindler D; Lee SH; Clapp DW; The Journal of biological chemistry 2004 Sep 17Oxidative stress/damage induces multimerization and interaction of Fanconi anemia proteins.
Park SJ; Ciccone SL; Beck BD; Hwang B; Freie B; Clapp DW; Lee SH; The Journal of biological chemistry 2004 May 10Continuous in vivo infusion of interferon-gamma (IFN-gamma) preferentially reduces myeloid progenitor numbers and enhances engraftment of syngeneic wild-type cells in Fancc-/- mice.
Li X; Yang Y; Yuan J; Hong P; Freie B; Orazi A; Haneline LS; Clapp DW; Blood 2004 Apr 27Loss of the nf1 tumor suppressor gene decreases fas antigen expression in myeloid cells.
Hiatt K; Ingram DA; Huddleston H; Spandau DF; Kapur R; Clapp DW; The American journal of pathology 2004 AprA positive role for the Ku complex in DNA replication following strand break damage in mammals.
Park SJ; Ciccone SL; Freie B; Kurimasa A; Chen DJ; Li GC; Clapp DW; Lee SH; The Journal of biological chemistry 2003 Nov 15Fanconi anemia type C-deficient hematopoietic stem/progenitor cells exhibit aberrant cell cycle control.
Li X; Plett PA; Yang Y; Hong P; Freie B; Srour EF; Orschell CM; Clapp DW; Haneline LS; Blood 2003 May 22Stromal cell-derived factor-1/CXCL12 directly enhances survival/antiapoptosis of myeloid progenitor cells through CXCR4 and G(alpha)i proteins and enhances engraftment of competitive, repopulating stem cells.
Broxmeyer HE; Kohli L; Kim CH; Lee Y; Mantel C; Cooper S; Hangoc G; Shaheen M; Li X; Clapp DW; Journal of leukocyte biology 2003 MayTransgenic expression of stromal cell-derived factor-1/CXC chemokine ligand 12 enhances myeloid progenitor cell survival/antiapoptosis in vitro in response to growth factor withdrawal and enhances myelopoiesis in vivo.
Broxmeyer HE; Cooper S; Kohli L; Hangoc G; Lee Y; Mantel C; Clapp DW; Kim CH; Journal of immunology (Baltimore, Md. : 1950) 2003 Jan 1Neurofibromin-deficient Schwann cells secrete a potent migratory stimulus for Nf1+/- mast cells.
Yang FC; Ingram DA; Chen S; Hingtgen CM; Ratner N; Monk KR; Clegg T; White H; Mead L; Wenning MJ; Williams DA; Kapur R; Atkinson SJ; Clapp DW; The Journal of clinical investigation 2003 DecLeukemic potential of doubly mutant Nf1 and Wv hematopoietic cells.
Ingram DA; Wenning MJ; Shannon K; Clapp DW; Blood 2002 Oct 17Enforced expression of CUL-4A interferes with granulocytic differentiation and exit from the cell cycle.
Li B; Yang FC; Clapp DW; Chun KT; Blood 2002 Oct 10Quantitative effects of Nf1 inactivation on in vivo hematopoiesis.
Zhang Y; Taylor BR; Shannon K; Clapp DW; The Journal of clinical investigation 2001 SepHyperactivation of p21(ras) and the hematopoietic-specific Rho GTPase, Rac2, cooperate to alter the proliferation of neurofibromin-deficient mast cells in vivo and in vitro.
Ingram DA; Hiatt K; King AJ; Fisher L; Shivakumar R; Derstine C; Wenning MJ; Diaz B; Travers JB; Hood A; Marshall M; Williams DA; Clapp DW; The Journal of experimental medicine 2001 Jul 2Neurofibromin GTPase-activating protein-related domains restore normal growth in Nf1-/- cells.
Hiatt KK; Ingram DA; Zhang Y; Bollag G; Clapp DW; The Journal of biological chemistry 2000 Nov 15Genetic and biochemical evidence that haploinsufficiency of the Nf1 tumor suppressor gene modulates melanocyte and mast cell fates in vivo.
Ingram DA; Yang FC; Travers JB; Wenning MJ; Hiatt K; New S; Hood A; Shannon K; Williams DA; Clapp DW; The Journal of experimental medicine 2000 Jan 3Loss of FancC function results in decreased hematopoietic stem cell repopulating ability.
Haneline LS; Gobbett TA; Ramani R; Carreau M; Buchwald M; Yoder MC; Clapp DW; Blood 1999 Jul 1Cell cycle-related changes in repopulating capacity of human mobilized peripheral blood CD34(+) cells in non-obese diabetic/severe combined immune-deficient mice.
Gothot A; van der Loo JC; Clapp DW; Srour EF; Blood 1998 Oct 15Nf1 regulates hematopoietic progenitor cell growth and ras signaling in response to multiple cytokines.
Zhang YY; Vik TA; Ryder JW; Srour EF; Jacks T; Shannon K; Clapp DW; The Journal of experimental medicine 1998 Jun 1Multiple inhibitory cytokines induce deregulated progenitor growth and apoptosis in hematopoietic cells from Fac-/- mice.
Haneline LS; Broxmeyer HE; Cooper S; Hangoc G; Carreau M; Buchwald M; Clapp DW; Blood 1998 Jun 1Osteoprogenitor cells as targets for ex vivo gene transfer.
Onyia JE; Clapp DW; Long H; Hock JM; Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research 1998 JanVariation in long-term engraftment of a large consecutive series of lambs transplanted in utero with human hematopoietic cells.
Bernstein J; Boyle DW; Srour EF; Cooper R; Jacobs C; Freie B; Liechty E; Clapp DW; Biology of blood and marrow transplantation : journal of the American Society for Blood and Marrow Transplantation 1997 NovThe highest concentration of primitive hematopoietic progenitor cells in cord blood is found in extremely premature infants.
Haneline LS; Marshall KP; Clapp DW; Pediatric research 1996 MayMolecular evidence that in situ-transduced fetal liver hematopoietic stem/progenitor cells give rise to medullary hematopoiesis in adult rats.
Clapp DW; Freie B; Lee WH; Zhang YY; Blood 1995 Sep 15The use of umbilical cord blood as a cellular source for correction of genetic diseases affecting the hematopoietic system.
Clapp DW; Williams DA; Stem cells (Dayton, Ohio) 1995 NovRapid exit from G0/G1 phases of cell cycle in response to stem cell factor confers on umbilical cord blood CD34+ cells an enhanced ex vivo expansion potential.
Traycoff CM; Abboud MR; Laver J; Clapp DW; Srour EF; Experimental hematology 1994 DecStable integration of retrovirally transduced genes into human umbilical cord blood high-proliferative potential colony-forming cells (HPP-CFC) as assessed after multiple HPP-CFC colony replatings in vitro.
Lu L; Xiao M; Clapp DW; Li ZH; Broxmeyer HE; Blood cells 1994Human umbilical cord blood hematopoietic progenitor cells: are they the same as their adult bone marrow counterparts?
Traycoff CM; Abboud MR; Laver J; Clapp DW; Hoffman R; Law P; Srour EF; Blood cells 1994Ex vivo expansion of CD34+ cells from purified adult human bone marrow and umbilical cord blood hematopoietic progenitor cells.
Traycoff CM; Abboud MR; Laver J; Clapp DW; Hoffman R; Srour EF; Progress in clinical and biological research 1994Somatic gene therapy into hematopoietic cells. Current status and future implications.
Clapp DW; Clinics in perinatology 1993 MarHigh efficiency retroviral mediated gene transduction into single isolated immature and replatable CD34(3+) hematopoietic stem/progenitor cells from human umbilical cord blood.
Lu L; Xiao M; Clapp DW; Li ZH; Broxmeyer HE; The Journal of experimental medicine 1993 Dec 1 -
Professional OrganizationsAlpha Omega Alpha Honor Medical SocietyAmerican Association for Cancer ResearchAmerican Pediatric SocietyAmerican Society for Clinical InvestigationAmerican Society of Clinical OncologyAmerican Society of HematologyAssociation of Medical School Pediatric Department ChairsInternational Society for Experimental HematologySociety for Developmental BiologySociety for Pediatric Research
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Board CertificationsAmerican Board of Pediatrics - Neonatal-Perinatal MedicineAmerican Board of Pediatrics - Pediatrics
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Clinical Interests
Understand the molecular pathogenesis of two genetic diseases that result in malignancies and tumors, with a focus in the role of the NF1 tumor suppressor gene. Study the cellular and biochemical functions of the disorder Fanconi anemia.
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AwardsOrg: Indiana University School of Medicine
Desc: Trustee Teaching Award
Scope: University
Date: 2005-01-01
Org: Alpha Omega Alpha Medical Honor Society
Desc: Alpha Omega Alpha
Scope: National
Date: 1985-01-01
Org: Indiana University
Desc: Dintinguished Professor
Scope: University
Date: 1905-07-15
Org: American Association for the Advancement of Science
Desc: Fellow (Medical Sciences)
Scope: National
Date: 1905-07-15
Research Labs
Faculty research at IU School of Medicine is transforming health. Details about the medical research being conducted in faculty labs throughout IU School of Medicine are available in the Research section of this site.