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Displaying 1 to 20 of 34 results for surgery

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  • Athir Morad Lab

    Research in the Athir Morad Lab primarily focuses on perioperative pain management for neurosurgery patients. Our team has conducted two randomized controlled trials to assess the efficacy of patient-controlled analgesia (PCA) following craniotomy. Our current research includes studies on the safety of opioid administration following craniotomy through the use of end-tidal CO2 detection, as well as research into the use of transcortical magnetic stimulation (TMS) for managing pain after spine surgery.

    Research Areas: neurosurgery, opioids, spine, anesthesiology, pain

  • Carey Research Group

    John Carey’s Research Group conducts research regarding diseases of the inner ear that affect both balance and hearing mechanisms. Key interests include superior semicircular canal dehiscence syndrome (SCDS), the normal vestibular reflexes and how they change with age, novel intratympanic treatments (i.e., middle ear injections) for conditions like Menière’s disease and sudden hearing loss, and the mechanisms of vestibular migraine. With Lloyd Minor, Dr. Carey helped develop the operation to repair the superior canal in patients with SCDS using image-guided surgery. Dr. Carey has been funded by the National Institutes of Health – National Institute on Deafness and Other Communication Disorders to study inner ear balance function in Menière’s disease and steroid treatment of sudden hearing loss.

    Research Areas: meniere's disease, vertigo, audiology, neurotology/otology, superior canal dehiscence, cochlear implant, hearing loss

  • 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 less

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

    Lab Website

    Principal Investigator

    Thomas Clemens, Ph.D.

    Department

    Orthopaedic Surgery

  • Colleen Koch Lab

    Research in the Colleen Koch Lab covers a range of interdisciplinary topics, particularly within anesthesiology and critical care medicine. Our studies have explored topics such as hospital-acquired anemia, cardiac anesthesia, cardiac herniation, red blood cell storage and process improvement in cardiac surgery.

    Research Areas: critical care medicine, cardiac surgery, anesthesiology, anemia

  • David Thompson Lab

    Researchers in the David Thompson Lab examine the outcomes of patients treated in intensive care units (ICUs), patient safety efforts, quality improvement efforts, and multidisciplinary teamwork and safety curriculum development. We're taking part in a study aimed at reducing hospital-acquired infections among cardiovascular surgery patients. Our investigators also participated in a clinical research collaboration that saw an 81 percent reduction in bloodstream infections related to central lines.

    Research Areas: medical education, patient safety, quality improvement, infections, patient outcomes, ICU

  • Grant (Xuguang) Tao Lab

    Research in the Grant (Xuguang) Tao Lab explores environmental and occupational epidemiology topics, including workers' compensation and injuries, and nosocomial infections. We conduct research through clinical trials and systematic literature reviews, and also use cancer registry data and GIS applications in environmental epidemiological research. Our recent studies have explored topics such as the effectiveness of lumbar epidural steroid injections following lumbar surgery, the effect of physician-dispensed medication on workers' compensation claim outcomes and how the use of opioid and psychotropic medications for workers' compensation claims impacts lost work time.

    Research Areas: epidemiology, drug safety, cancer, nosocomial infections, GIS applications

    Principal Investigator

    Grant Tao, M.D., M.S., Ph.D.

    Department

    Medicine

  • Health Technologies

    The APL Health Technologies program's functional restoration focus area includes two portfolios with particular relevance in neurology. The first focuses on motor restoration, using teams with expertise in robotics, microsensors, haptics, artificial intelligence and brain-machine interfaces. One set of projects, currently sponsored by Defense Advanced Research Projects Agency (DARPA) and the Henry Jackson Foundation, centers on a bionic arm technology that integrates with bone and muscle in amputee patients, restoring a variety of normal functions to the patient like cooking, folding clothing, hand shaking, and hand gestures. This portfolio explores direct brain control of the bionic limb, through work led by Dr. Nathan Crone of Johns Hopkins Neurology and Dr. Pablo Celnik of Johns Hopkins Physical Medicine and Rehabilitation. Another set of related work aims to restore motor function by better understanding and using brain signals through brain-machine interfaces. This work is current...ly funded by the National Science Foundation and industry partners. Also in the functional restoration focus area is the vision restoration portfolio. In a partnership with Second Sight and the Mann Fund, the work aims to enhance function of a bionic eye, which couples a retinal implant with a computer vision system to restore vision in blind individuals with retinitis pigmentosa. Current work in the human-machine teaming focus area includes a portfolio that is building artificial intelligence systems that improve radiologic and ophthalmic diagnostics. Another portfolio, currently focused in the surgical setting, enhances the physician's ability to visualize and manipulate the physical world, such as with orthopaedic surgery. view less

    Research Areas: robotics, imaging systems, machine learning, data fusion, artificial intelligence

    Lab Website

    Principal Investigator

    Adam Cohen, M.D.

    Department

    Neurology

  • Hibino Lab

    The focus of the Hibino lab is cardiovascular tissue engineering, bio-3D-printing and cardiac surgery. In terms of cardiac tissue engineering, coronary heart disease and heart failure are major diseases worldwide and current strategies focus on revascularization. However, if the cardiac tissue is non-contractile and scarred, there is limited benefit in revascularization. We aim to use innovative and novel tissue engineering approaches to remascularize the heart. The second focus of our lab is vascular tissue engineering and focuses on using different bio-materials to create biodegradable vascular tissue that will mimic native vessels.

    Research Areas: tissue engineering

    Lab Website

    Principal Investigator

    Narutoshi Hibino, M.D., Ph.D.

    Department

    Surgery

  • Imaging for Surgery, Therapy and Radiology (I-STAR) Lab

    The Imaging for Surgery, Therapy and Radiology (I-STAR) Lab is a collaborative research endeavor based in the Department of Biomedical Engineering at Johns Hopkins University. Research areas include: (1) Imaging physics: Mathematical models of imaging performance in advanced modalities, including cone-beam CT and spectral/dual-energy imaging, (2) 3-D image reconstruction: Advanced 3-D image reconstruction based on statistical models of the imaging chain and prior information, (3) Novel imaging systems: Preclinical prototypes translated from the laboratory to first application in diagnostic and interventional procedures, and(4) Image-guided interventions and diagnostic radiology: High-precision interventional guidance systems (for surgery, interventional radiology, and radiation therapy) and new technologies for high-quality diagnostic imaging.

    Research Areas: 3-D, physics, imaging, radiology, surgery, CT

  • Interventional Cardiology Research Group

    Our group is interested in a broad array of clinical and translational investigations spanning the evaluation of basic pathophysiology in patients undergoing cardiac procedures, development and evaluation of new therapeutic strategies, and improving patient selection and outcomes following interventional procedures. We are comprised of a core group of faculty and dedicated research nurses as well as fellows, residents, and students. Projects range from investigator-initiated single-center observational studies to industry-sponsored multicenter phase 3 randomized controlled trials. We have established a database of all patients who have undergone TAVR at Johns Hopkins, which is providing the basis for several retrospective analyses and will serve as the foundation for future studies of TAVR. We are also engaged in collaborative projects with other groups from the Department of Medicine and other Departments including Cardiac Surgery, Anesthesiology, Radiology, Psychiatry, and Biomedical... Engineering. Members of our group are actively involved with the Johns Hopkins Center for Bioengineering Innovation and Design (CBID) in the development of novel minimally-invasive cardiovascular devices. view more

    Research Areas: coronary CT angiography, PCI, bioprosthetic leaflet thrombosis, myocardial regeneration, TAVR

    Principal Investigator

    Jon Resar, M.D.

    Department

    Medicine

  • Jeffrey Dodd-o Lab

    Research in the Jeffrey Dodd-o Lab aims to better understand the contributing factors of lung ischemia/reperfusion injuries and the role these injuries play in the lung dysfunction of patients soon after cardiopulmonary bypass surgery. We have created an ischemia/reperfusion model in a spontaneously breathing mouse that they use with an in situ mouse lung preparation to identify cardiopulmonary interactions that impact reperfusion-related lung injury. We are working to characterize the influence of atrial natriuretic peptide (ANP) on lung microvascular permeability.

    Research Areas: lung ischemia, ischemia-reperfusion injury, cardiopulmonary diseases, atrial natriuretic peptides

  • Jon Russell Lab

    The Jon Russell lab focuses on thyroid and parathyroid pathology as well as improving patient safety and education using healthcare technology. Additional focuses include utilizing new technology to advance on the techniques of minimally invasive neck surgery. Current and previous efforts include the development of mobile and web-based applications to educate physicians and patients, utilizing ultrasound for vocal cord imaging, understanding the nuances of advanced thyroid cancer, and exploring the role of scarless thyroid surgery in a North American population.

    Research Areas: patient satisfaction, thyroid cancer, perioperative information delivery, health outcomes, otolaryngology, postoperative care, endocrinology

  • Jonathan Walsh Lab

    The Jonathan Walsh Lab is currently researching longitudinal trends of diagnostic and procedural utilization in pediatric patients with head and neck complaints.

    Research Areas: airway imaging, otolaryngology, pediatric robotic surgery, pediatrics, ultrasound

  • Kathleen Cullen Lab

    We are continually in motion. This self-motion is sensed by the vestibular system, which contributes to an impressive range of brain functions, from the most automatic reflexes to spatial perception and motor coordination. The objective of Dr. Cullen's lab's research program is to understand the mechanisms by which self-motion (vestibular) information is encoded and then integrated with signals from other modalities to ensure accurate perception and control of gaze and posture. Our studies investigate the sensorimotor transformations required for the control of movement, by tracing the coding of vestibular stimuli from peripheral afferents, to behaviorally-contingent responses in central pathways, to the readout of accurate perception and behavior. Our experimental approach is multidisciplinary and includes a combination of behavioral, neurophysiological and computational approaches in alert behaving non-human primates and mice. Funding for the laboratory has been and is provided by th...e Canadian Institutes for Health Research (CIHR), The National Institutes of Health (NIH), the National Sciences and Engineering Research Council of Canada (NSERC), FQRNT / FQRSC (Quebec). view more

    Research Areas: otolaryngology, biomedical engineering, surgery, neuroscience

  • Marie Hanna Lab

    The Marie Hanna Lab conducts research on key topics within the field of anesthesiology. Our interests include both regional and obstetric anesthesia as well as patient-controlled analgesia, pain measurement, post-operative pain and acute pain management. Examples of our work include researching whether a surgery patient’s perception of pain control affects his or her satisfaction level and a comparison of air and liquid for use in the loss-of-resistance technique during labor epidurals.

    Research Areas: medical education, analgesia, anesthesia, obstetrics, pain

  • Nauder Faraday Lab

    The Nauder Faraday Lab investigates topics within perioperative genetic and molecular medicine. We explore thrombotic, bleeding and infectious surgical complications. Our goal is to uncover the molecular determinants of outcome in surgical patients, which will enable surgeons to better personalize a patient’s care in the perioperative period. Our team is funded by the National Institutes of Health to research platelet phenotypes, the pharmacogenomics of antiplatelet agents for preventing cardiovascular disease, and the genotypic determinants of aspirin response in high-risk families.

    Research Areas: cardiac surgery, molecular medicine, post-surgical outcomes, genomics, cardiovascular diseases, post-surgery complications

  • Neuromodulation and Advanced Therapies Center

    We investigate the brain networks and neurotransmitters involved in symptoms of movement disorders, such as Parkinson's disease, and the mechanisms by which modulating these networks through electrical stimulation affects these symptoms. We are particularly interested in the mechanisms through which neuromodulation therapies like deep brain stimulation affect non-motor brain functions, such as cognitive function and mood. We use imaging of specific neurotransmitters, such as acetylcholine and dopamine, to understand the changes in brain chemistry associated with the clinical effects of deep brain stimulation and to predict which patients are likely to have changes in non-motor symptoms following DBS. Through collaborations with our neurosurgery colleagues, we explore brain function by making recordings during DBS surgery during motor and non-motor tasks. Dr. Mills collaborates with researchers in the Department of Neurosurgery, the Division of Geriatric and Neuropsychiatry in the Depar...tment of Psychiatry and Behavioral Sciences and in the Division of Nuclear Medicine within the Department of Radiology to translate neuroimaging and neurophysiology findings into clinical applications. view more

    Research Areas: Molecular imaging of effects of deep brain stimulation on cognitive function in Parkinson's disease, Trajectories and types of cognitive impairment in Parkinson's disease, Effects of neuromodulation on impulsivity and addiction-related behaviors, Parkinson's disease, Effects of transcranial direct current stimulation on mood disorders and cognitive dysfunction in Parkinson's disease, Relationship between patient-reported and objective cognitive impairments in Parkinson's disease

    Principal Investigator

    Kelly Mills, M.D., M.H.S.

    Department

    Neurology
    Neurosurgery

  • Nicholas Rowan Lab

    Dr. Rowan is actively involved in both outcomes and translational research relating to chronic rhinosinusitis and endoscopic skull base surgery. He has a keen interest patient-reported quality of life outcomes as well as those that pertain to smell and taste. Dr. Rowan is also involved in sinus-related clinical trials, pursuing new medical therapies and technological advancements for the treatment of patients with chronic rhinosinusitis.

    Research Areas: clinical trials, smell and taste outcomes, Quality of life outcomes

  • Outcomes After Critical Illness and Surgery Group

    The Outcomes After Critical Illness and Surgery Group is focused on understanding and improving patient outcomes after critical illness and surgery. Research projects include improving long-term outcomes research for acute respiratory distress syndrome/acute respiratory failure (ARDS/ARF) patients; examining the long-term outcomes for acute lung injury/acute respiratory distress syndrome (ALI/ARDS) patients; and evaluating the effects of lower tidal volume ventilation and other aspects of critical illness and ICU care on the long-term physical and mental health outcomes of ALI/ARDS patients.

    Research Areas: critical care medicine, acute respiratory distress syndrome, pulmonary medicine, acute lung injury, rehabilitation

    Lab Website

    Principal Investigator

    Dale Needham, M.D., Ph.D.

    Department

    Medicine

  • Robert Wise Lab

    The Robert Wise Lab conducts clinical trials to study chronic obstructive lung diseases (COPD). We investigate inhaled corticosteroids in patients with mild to moderate COPD and the effectiveness of anti-inflammatories in allowing lung growth in mild to moderate asthmatic children. Our research includes exploring the efficacy of various treatments for asthmatic women who are pregnant and of lung-volume reduction surgery for emphysema patients. We also conduct studies of the clinical epidemiology, pathobiology and treatment of interstitial lung disease in patients with scleroderma.

    Research Areas: critical care medicine, emphysema, scleroderma, pulmonary medicine, asthma, lung-volume reduction surgery, COPD

    Principal Investigator

    Robert Wise, M.D.

    Department

    Medicine

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