{"result":[{"lastName":"Carter","clinicalFocus":[],"appointments":[{"appointment":"Professor,Mechanical Engineering"},{"appointment":"Member,Bio-X"},{"appointment":"Professor,Bioengineering"}],"primaryAppointment":"Professor,Mechanical Engineering","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=6095&type=small&showNoImage","displayName":"Dennis Carter","firstName":"Dennis","href":"http://med.stanford.edu/profiles/Dennis_Carter","researchInterest":"Professor Carter studies the influence of mechanical loading upon the growth, development, regeneration, and aging of skeletal tissues. Basic information from such studies is used to understand skeletal diseases and treatments. He has served as President of the Orthopaedic Research Society and is a Fellow of the American Institute for Medical and Biological Engineering."},{"lastName":"Smith","clinicalFocus":[],"appointments":[{"appointment":"Emeritus (Active) Professor,Orthopaedic Surgery"},{"appointment":"Emeritus Faculty, Acad Council,Orthopaedic Surgery"},{"appointment":"Member,Bio-X"}],"primaryAppointment":"Emeritus (Active) Professor,Orthopaedic Surgery","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=4314&type=small&showNoImage","displayName":"Robert Lane Smith","firstName":"R","href":"http://med.stanford.edu/profiles/R_Smith","researchInterest":"Our group is interested in the molecular and cell biology underlying bone and cartilage metabolism in health and disease. Normal daily activities are linked to the ability of the articular cartilage to withstand normal joint forces that may reach 5-7 times body weight and bone homeostasis depends on daily mechanical loading histories."},{"lastName":"Chung","clinicalFocus":[],"appointments":[{"appointment":"Postdoctoral Research fellow, Materials Science and Engineering"}],"primaryAppointment":"Postdoctoral Research fellow, Materials Science and Engineering","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=14759&type=small&showNoImage","displayName":"Cindy Chung","firstName":"Cindy","href":"http://med.stanford.edu/profiles/Cindy_Chung","researchInterest":""},{"lastName":"Caves","clinicalFocus":[],"appointments":[{"appointment":"Postdoctoral Research fellow, Medicine"}],"primaryAppointment":"Postdoctoral Research fellow, Medicine","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=34664&type=small&showNoImage","displayName":"Jeffrey Caves","firstName":"Jeffrey","href":"http://med.stanford.edu/profiles/Jeffrey_Caves","researchInterest":""},{"lastName":"Yang","clinicalFocus":[],"appointments":[{"appointment":"Assistant Professor,Orthopaedic Surgery"},{"appointment":"Member,Child Health Research Institute"},{"appointment":"Assistant Professor,Bioengineering"}],"primaryAppointment":"Assistant Professor,Orthopaedic Surgery","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=14953&type=small&showNoImage","displayName":"Fan Yang","firstName":"Fan","href":"http://med.stanford.edu/profiles/Fan_Yang","researchInterest":"Our research seeks to understand how microenvironmental cues regulate stem cell fate, and to develop novel biomaterials and stem cell-based therapeutics for tissue engineering and regenerative medicine. Our work spans from fundamental science, technology development, to translational research.We are particularly interested in developing better therapies for treating musculoskeletal diseases, cardiovascular diseases and cancer."},{"lastName":"Gold","clinicalFocus":[{"focus":"Diagnostic Radiology"},{"focus":"Radiology"}],"appointments":[{"appointment":"Professor,Radiology - Diagnostic Radiology"},{"appointment":"Member,Bio-X"},{"appointment":"Professor (By courtesy),Bioengineering"},{"appointment":"Professor (By courtesy),Orthopaedic Surgery"}],"primaryAppointment":"Professor,Radiology - Diagnostic Radiology","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=4705&type=small&showNoImage","displayName":"Garry Gold","firstName":"Garry","href":"http://med.stanford.edu/profiles/Garry_Gold","researchInterest":"My primary focus is application of new MR imaging technology to musculoskeletal problems.  Current projects include: Rapid MRI for Osteoarthritis, Weight-bearing cartilage imaging with MRI, and MRI-based models of muscle.  We are studing the application of new MR imaging techniques such as rapid imaging, real-time imaging, and short echo time imaging to learn more about biomechanics and pathology of bones and joints."},{"lastName":"Maloney","clinicalFocus":[{"focus":"Orthopaedic Surgery"},{"focus":"Primary Total Hip and Knee Replacement"},{"focus":"Revision Total Hip and Knee Replacement"},{"focus":"Evaluation of Failed Joint Replacement"},{"focus":"Unicompartmental Knee Replacement"}],"appointments":[{"appointment":"Professor,Orthopaedic Surgery"}],"primaryAppointment":"Professor,Orthopaedic Surgery","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=6098&type=small&showNoImage","displayName":"William J. Maloney, MD","firstName":"William","href":"http://med.stanford.edu/profiles/William_Maloney","researchInterest":"Dr. Maloney is nationally and internationally recognized for his contributions to the improved understanding of the causes of failure of surgical joint replacement.  For example, he established a critical link between polyethylene wear debris and bony erosion, with resulting significant changes in the materials and design strategies of joint replacement surgery.  More recently, he has shown that wear debris particles are coated in vivo with human proteins, such as albumin; this observation has "},{"lastName":"Andriacchi","clinicalFocus":[],"appointments":[{"appointment":"Professor,Mechanical Engineering - Biomechanical Operations"},{"appointment":"Professor,Orthopaedic Surgery"}],"primaryAppointment":"Professor,Mechanical Engineering - Biomechanical Operations","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=5947&type=small&showNoImage","displayName":"Thomas P. Andriacchi","firstName":"Thomas","href":"http://med.stanford.edu/profiles/Thomas_Andriacchi","researchInterest":"Professor Andriacchi's research focuses on the biomechanics of human locomotion and applications to medical devices, sports injury, osteoarthritis, the anterior cruciate ligament and low cost prosthetic limbs"},{"lastName":"Yang","clinicalFocus":[],"appointments":[{"appointment":"Associate Professor,Orthopaedic Surgery"},{"appointment":"Member,Bio-X"},{"appointment":"Associate Professor (By courtesy),Materials Science and Engineering - Engineering Materials Science"}],"primaryAppointment":"Associate Professor,Orthopaedic Surgery","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=23912&type=small&showNoImage","displayName":"Yunzhi Peter Yang","firstName":"Yunzhi Peter","href":"http://med.stanford.edu/profiles/Yunzhi Peter_Yang","researchInterest":"Yang\u0092s research interests are based on bio-inspired biomaterials and approaches for re-creating a suitable microenvironment for cell growth and tissue regeneration, including enabling technology for bone regeneration, nanotechnology for dental and orthopedic implant devices, and naturally-based biomaterials for cancer treatment."},{"lastName":"Dragoo","clinicalFocus":[{"focus":"Sports Medicine"},{"focus":"Orthopaedic Surgery"}],"appointments":[{"appointment":"Associate Professor - Med Center Line,Orthopaedic Surgery"},{"appointment":"Member,Bio-X"}],"primaryAppointment":"Associate Professor - Med Center Line,Orthopaedic Surgery","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=6975&type=small&showNoImage","displayName":"Jason L. Dragoo, MD","firstName":"Jason","href":"http://med.stanford.edu/profiles/Jason_Dragoo","researchInterest":"Previous research in this laboratory has focused on the development of viable tissue engineered structures of the knee including articular (hyaline) and meniscal (fibrocartilage) cartilage, as well as bone. These tissues are engineered from adult stem cells extracted from fat tissue and bone marrow, as well as, biologic matrices and growth factors. The goal of this research will be curing the patient\u0092s arthritis by re-establishing articular cartilage using their own stem cells."},{"lastName":"Teng","clinicalFocus":[{"focus":"Emergency Medicine"}],"appointments":[{"appointment":"Clinical Instructor,Surgery - Emergency Medicine"},{"appointment":"Postdoctoral Research fellow, Surgery"}],"primaryAppointment":"Clinical Instructor,Surgery - Emergency Medicine","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=34609&type=small&showNoImage","displayName":"Margie Teng","firstName":"Margie","href":"http://med.stanford.edu/profiles/Margie_Teng","researchInterest":""},{"lastName":"Sorkin","clinicalFocus":[],"appointments":[{"appointment":"Postdoctoral Research fellow, Surgery"}],"primaryAppointment":"Postdoctoral Research fellow, Surgery","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=15174&type=small&showNoImage","displayName":"Michael Sorkin","firstName":"Michael","href":"http://med.stanford.edu/profiles/Michael_Sorkin","researchInterest":""},{"lastName":"Frank","clinicalFocus":[],"appointments":[{"appointment":"Member,Bio-X"}],"primaryAppointment":"Member,Bio-X","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=8065&type=small&showNoImage","displayName":"Curtis Frank","firstName":"Curtis","href":"http://med.stanford.edu/profiles/Curtis_Frank","researchInterest":""},{"lastName":"Longaker","clinicalFocus":[{"focus":"Plastic Surgery"},{"focus":"Plastic Surgery, Pediatric"}],"appointments":[{"appointment":"Professor,Surgery - Plastic & Reconstructive Surgery"},{"appointment":"Member,Bio-X"},{"appointment":"Member,Child Health Research Institute"},{"appointment":"Member,Stanford Cancer Institute"},{"appointment":"Professor (By courtesy),Bioengineering"},{"appointment":"Professor (By courtesy),Materials Science and Engineering - Engineering Materials Science"}],"primaryAppointment":"Professor,Surgery - Plastic & Reconstructive Surgery","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=4338&type=small&showNoImage","displayName":"Michael Longaker","firstName":"Michael","href":"http://med.stanford.edu/profiles/Michael_Longaker","researchInterest":"We have six main areas of current interest: 1) Cranial Suture Developmental Biology, 2)Distraction Osteogenesis, 3) Cleft Palate and Lip Biology, 4)Keloid and Hypertrophic Scar Biology, 5) Scarless Fetal Wound Healing, 6) Novel Gene and Stem Cell Therapeutic Approaches."},{"lastName":"Schaefer","clinicalFocus":[],"appointments":[{"appointment":"Visiting Assistant Professor,Neurosurgery"}],"primaryAppointment":"Visiting Assistant Professor,Neurosurgery","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=23991&type=small&showNoImage","displayName":"Richard Schaefer","firstName":"Richard","href":"http://med.stanford.edu/profiles/Richard_Schaefer","researchInterest":"- derivation of neural progenitor cells from hESCs\r\n- derivation of patient specific iPSCs\r\n- mesenchymal stromal cells\r\n- immunomodulation"},{"lastName":"Heilshorn","clinicalFocus":[],"appointments":[{"appointment":"Member,Bio-X"},{"appointment":"Member,Child Health Research Institute"}],"primaryAppointment":"Member,Bio-X","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=8100&type=small&showNoImage","displayName":"Sarah Heilshorn","firstName":"Sarah","href":"http://med.stanford.edu/profiles/Sarah_Heilshorn","researchInterest":"Protein engineering\r\nTissue engineering\r\nRegenerative medicine\r\nBiomaterials"},{"lastName":"Hargreaves","clinicalFocus":[],"appointments":[{"appointment":"Associate Professor (Research),Radiology - Diagnostic Radiology"},{"appointment":"Member,Bio-X"},{"appointment":"Associate Professor (Research) (By courtesy),Electrical Engineering"},{"appointment":"Associate Professor (Research) (By courtesy),Bioengineering"}],"primaryAppointment":"Associate Professor (Research),Radiology - Diagnostic Radiology","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=6626&type=small&showNoImage","displayName":"Brian Hargreaves","firstName":"Brian","href":"http://med.stanford.edu/profiles/Brian_Hargreaves","researchInterest":"I am interested in magnetic resonance imaging (MRI) applications including cardiovascular, abdominal, breast and musculoskeletal imaging. These applications require development of faster and more efficient MRI methods that provide improved diagnostic contrast compared with current methods. My work includes novel excitation schemes, efficient imaging methods and reconstruction tools.  Please see my research site (above) for most up-to-date information."},{"lastName":"Serpooshan","clinicalFocus":[],"appointments":[{"appointment":"Postdoctoral Research fellow, Pediatrics"}],"primaryAppointment":"Postdoctoral Research fellow, Pediatrics","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=21088&type=small&showNoImage","displayName":"Vahid Serpooshan","firstName":"Vahid","href":"http://med.stanford.edu/profiles/Vahid_Serpooshan","researchInterest":"My research at Ruiz-Lozano's Lab is focused on the micromechanisms involved in cardiac remodeling/regeneration following severe heart injuries, particularly, post myocardial infarction (MI). By employing engineered 3D collagen scaffolds, we aim to develop cardiac patches associated with specific targeting characteristics in order to efficiently interfere with cardiac remodeling phenomena after MI."},{"lastName":"Lu","clinicalFocus":[],"appointments":[{"appointment":"Professor,Health Research & Policy - Biostatistics"}],"primaryAppointment":"Professor,Health Research & Policy - Biostatistics","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=14526&type=small&showNoImage","displayName":"Ying Lu","firstName":"Ying","href":"http://med.stanford.edu/profiles/Ying_Lu","researchInterest":"Biostatistics, clinical trials, statistical evaluation of medical diagnostic tests, radiology, osteoporosis, meta-analysis, medical decisoin making"},{"lastName":"Gurtner","clinicalFocus":[{"focus":"Plastic Surgery"},{"focus":"Plastic & Recon Surgery"}],"appointments":[{"appointment":"Professor - Med Center Line,Surgery - Plastic & Reconstructive Surgery"},{"appointment":"Member,Stanford Cancer Institute"},{"appointment":"Professor - Med Center Line (By courtesy),Materials Science and Engineering - Engineering Materials Science"}],"primaryAppointment":"Professor - Med Center Line,Surgery - Plastic & Reconstructive Surgery","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=6890&type=small&showNoImage","displayName":"Geoffrey Gurtner","firstName":"Geoffrey","href":"http://med.stanford.edu/profiles/Geoffrey_Gurtner","researchInterest":"Geoffrey Gurtner's Lab is interested in understanding the mecahnism of new blood vessel growth following injury and how pathways of tissue regeneration and fibrosis interact in wound healing."},{"lastName":"Mulyasasmita","clinicalFocus":[],"appointments":[{"appointment":"Ph.D., Bioengineering"}],"primaryAppointment":"Ph.D., Bioengineering","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=19579&type=small&showNoImage","displayName":"Widya Mulyasasmita","firstName":"Widya","href":"http://med.stanford.edu/profiles/Widya_Mulyasasmita","researchInterest":""},{"lastName":"Rafat","clinicalFocus":[],"appointments":[{"appointment":"Postdoctoral Research fellow, Radiation Oncology"}],"primaryAppointment":"Postdoctoral Research fellow, Radiation Oncology","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=36358&type=small&showNoImage","displayName":"Marjan Rafat","firstName":"Marjan","href":"http://med.stanford.edu/profiles/Marjan_Rafat","researchInterest":"Radiation effects on tumor cell migration."}]}