Students: contact Dr. Anna Babakhanyan, Science Undergraduate Research advisor, to help identify research laboratories. Faculty: if you are interested in posting your open research position, please contact Dr. Anna Babakhanyan. Fall Academic Term Undergraduate Research Assistant, Prof. Rifat Atun, Health Systems Innovation Lab, HSPH, Posted Sep 22, This perspective article summarizes the last decade’s developments in the field of phthalocyanine (Pc)-polymeric nanoparticle (NP) delivery systems for cancer photodynamic therapy (PDT), including studies with at least in vitro data. Moreover, special attention will be paid to the various strategies for enhancing the behavior of Pc-polymeric NPs in PDT, underlining the great potential of We would like to show you a description here but the site won’t allow blogger.com more
Department of Biomedical Engineering < Case Western Reserve University
edu Phone: Kirsch, Chair bmedept case. The Department of Biomedical Engineering was established in at Case Phd photodynamic therapy thesis Reserve University, founded on the premise that engineering principles provide an important basis for innovative and unique solutions to a wide range of biomedical and clinical challenges.
As one of the pioneering programs in the world, the department has established rigorous yet flexible educational programs that are emulated by many other institutions and is a national leader in cutting-edge research in phd photodynamic therapy thesis important areas, phd photodynamic therapy thesis.
The phd photodynamic therapy thesis of the program is quantitative engineering and analytic methods for biomedical applications, a feature that distinguishes Biomedical Engineering from other biomedical science programs. In all of the BME programs at Case, the goal is to educate engineers who can apply engineering methods to problems involving living systems. The Case School of Engineering and the School of Medicine are in close proximity on the same campus, and Biomedical Engineering faculty members carry joint appointments in both of these two schools, phd photodynamic therapy thesis, participating in the teaching, research, and decision-making committees of both.
The department is also tightly linked with several major medical centers University Hospitals, Cleveland Clinic, VA Medical Center, and MetroHealth Medical Center that are nearby. As a result, there is an exceptional free flow of academic exchange and collaboration in research and education among the two schools and the four medical institutions.
To educate leaders who will integrate principles of both engineering and medicine to create knowledge and discoveries that advance human health and well-being. Our faculty and students play leading roles ranging from basic science discovery to the creation, clinical evolution, and commercialization of new technologies, devices, and therapies, phd photodynamic therapy thesis. Graduates in biomedical engineering are employed in industry, hospitals, research centers, government, and universities.
Biomedical engineers also use their undergraduate training as a basis for careers in business, medicine, law, consulting, and other professions. Several research thrusts are available to accommodate various student backgrounds and interests. Strong research collaborations with clinical and basic science departments of the university and collaborating medical centers bring a broad range of opportunities, phd photodynamic therapy thesis, expertise, and perspective to student research projects.
Fabrication and analysis of materials for implantation, including neural, orthopaedic, and cardiovascular tissue engineering, biomimetic materials, liposomal and other structures for controlled, targeted drug delivery, and biocompatible polymer surface modifications. Analysis of synthetic and biologic polymers by AFM, nanoscale structure-function relationships of biomaterials. Applications in the nervous system, the cardiovascular system, the musculoskeletal system, and cancer. MRI, PET, SPECT, CT, ultrasound, acoustic elastography, optical coherence tomography, cardiac electrical potential mapping, human visual perception, image-guided intervention, contrast agents.
In vivo microscopic and molecular imaging, and small animal imaging. Optical sensing, electrochemical and chemical fiber-optic sensors, chemical measurements in cells and tissues, endoscopy. Wearable sensor systems analytics and machine learning algorithm development for sports health and cardiovascular applications.
Internet of Things IoT smart sensor and smart speaker systems translational research in support of medication management, dementia, and related patient care.
Radiomics, Radiogenomics, computer-assisted diagnosis, digital pathology, co-registration, cancer detection, decision making, precision medicine, bioinformatics, image informatics, machine learning, pattern recognition, artificial intelligence, deep learning.
Neuronal mechanisms; neural interfacing for electric and magnetic stimulation and recording; neural dynamics, ion channels, second messengers; neural prostheses for control of limb movement, bladder, phd photodynamic therapy thesis, bowel, and respiratory function; neuromodulation systems for movement disorders, epilepsy, pain mitigation, visceral functions; computational modeling and simulation of neural structures.
Modeling and analysis of tissue responses to heating e. Computational musculoskeletal modeling, bone biomechanics, soft tissue mechanics, control of neuroprostheses for motor function, neuromuscular control systems, human locomotion, cardiac mechanics. Normal cardiac physiology, pathogenesis of cardiac diseases, cardiac development, therapeutic technologies, including cardiac regeneration, electrophysiological techniques, imaging technologies, mathematical modeling, gene regulation, molecular biology techniques, cardiac bioelectricity, and cardiac biomechanics.
Robert F. Kirsch, PhD Northwestern University Professor and Chair; Executive Director, Functional Electrical Stimulation Center Restoration of movement using neuroprostheses; neuroprosthesis control system design; natural control of human movements; brain-computer interfacing; biomechanics of movement; computer-based modeling; and system identification. Bolu Ajiboye, PhD Northwestern University Elmer Lincoln Associate Professor; Associate Chair-Undergraduate Programs Development and control phd photodynamic therapy thesis brain-computer-interface BCI technologies for restoring phd photodynamic therapy thesis to individuals with nervous system injuries.
Jay Alberts, PhD Arizona State University Assistant Professor Research into how the brain controls skilled movements and how changes in brain function affect movement performance. James M. James P. Basilion, PhD The University of Texas Professor of Biomedical Engineering and Radiology High resolution imaging phd photodynamic therapy thesis endogenous gene expression; definition of "molecular signatures" for imaging and treatment of cancer and other diseases; generating and utilizing genomic data to define informative targets; strategies for applying non-invasive imaging to drug development; and novel molecular imaging probes and paradigms.
Jillian Beveridge, PhD University of Calgary Assistant Professor Investigate joint biomechanics and injury, especially anterior cruciate ligament tear, with a combination of traditional marker-based motion capture, force data, and electromyography. Jeffrey Capadona, PhD Georgia Institute of Technology Leonard Case, Jr. Professor in Engineering; Associate Chair-Graduate Programs Advanced materials for neural interfacing; biomimetic and bio-inspired materials; host-implant integration; anti-inflammatory materials; and novel biomaterials for surface modification of cortical neuroprostheses.
Margot Damaser, PhD University of California at Berkeley Professor Conduct regenerative medicine, tissue engineering and device development research aimed at improving the health of individuals with pelvic floor dysfunction, including urinary and fecal incontinence and pelvic organ prolapse. Kathleen Derwin, phd photodynamic therapy thesis, PhD University of Michigan Assistant Professor Investigating the factors that influence clinical outcomes following rotator cuff repair, including extracellular matrix scaffold technologies to enhance healing.
Colin Drummond, PhD Syracuse UniversityMBA Case Western Reserve University Professor and Assistant Chair Medical device design; werable sensor systems in sports health, urology and cardiology; advanced simulation for clinical decision support systems; and, clinical information systems for patient-centered care. Dominique M. Durand, PhD University of Toronto, Canada Elmer Lincoln Lindseth Professor and Distinguished University Professor; Associate Chair-MS Program Development; Director, On-line MS Programs; Director, Neural Engineering Center Neural engineering; neural interfacing with peripheral nervous system; electric and magnetic field interaction with neurons; neural prostheses for restoring motor function; neurophysiology and computational neuroscience of neural activity generation and propagation; neuromodulation; electrical stimulation and control of epilepsy; phd photodynamic therapy thesis medicine.
Steven J. Eppell, PhD Case Western Reserve University Associate Professor Biomaterials; instrumentation; nanoscale structure-function analysis of orthopaedic biomaterials; and scanning probe phd photodynamic therapy thesis and spectroscopy of skeletal tissues. Ahmet Erdemir, PhD Pennsylvania Phd photodynamic therapy thesis University Assistant Professor Developing state-of-the-art computational representation of the human body to determine how movement patterns and loads on the joints affect tissues and cells.
Stephen Fening, PhD Ohio University Associate Professor Patient care through translational research and commercialization. Aaron Fleischman, PhD Case Western Reserve University Assistant Professor Research into the application of micro and nano technology, including how to shrink high-functioning large systems into small computer-like chips for implantation or minimally invasive procedures.
Kiyotaka Fukamachi, PhD Kyushu University Professor Pioneering surgical and device treatments for heart failure; investigating mechanical support devices, such as implantable heart pumps, the total artificial heart, and advanced heart valves. Emily L. Graczyk, PhD Case Western Phd photodynamic therapy thesis University Assistant Professor Cortical and peripheral neurostimulation to restore and augment human sensation; brain-computer interfacing; cognitive neuroscience; sensory neuroscience; computational modeling of neurostimulation; neuroprostheses for upper limb sensorimotor function.
Linda Graham, MD University of Michigan Professor Investigating how oxidized lipids contribute to the build-up of scar tissue and block the movement of endothelial cells into an area of injury or onto a bypass graft. Miklos Gratzl, PhD Technical University of Budapest, Hungary Associate Professor Biomedical sensing and diagnostics in vitro and in vivo; electrochemical phd photodynamic therapy thesis optical techniques; BioMEMS for cellular transport; cancer multi-drug resistance at the single cell level; and sliver sensor for multi-analyte patient phd photodynamic therapy thesis. Kenneth Gustafson, PhD Arizona State University Associate Professor Neural engineering; neural prostheses; neurophysiology and neural control of genitourinary function; devices to restore genitourinary function; and functional neuromuscular stimulation.
Vincent Hascall, PhD Rockefeller University Professor Investigate how the sugar molecule hyaluronan forms normal and abnormal matrices that are required everywhere, from successful fertilization, to the protection and repair of tissues, to cancer development. Peter S. Hovmand, phd photodynamic therapy thesis, PhD, MSW Michigan State University Pamela B. Davis MD PhD Professor of Medicine Computer modeling and simulation of multiscale nonlinear feedback systems; model equivalence; community engaged system design; implementation science; structural violence gender based violence, structural racism.
Michael Jenkins, PhD Case Western Reserve University Associate Professor, Pediatrics, Biomedical Engineering Development of new technology and therapies for investigating and treating autonomic dysfunction and congenital heart defects. Advancements fall into several categories - infrared neuromodulation, phd photodynamic therapy thesis, imaging, and drug development. Efstathios Stathis Karathanasis, phd photodynamic therapy thesis, PhD University of Houston Associate Professor, Associate Chair School of Medicine Phd photodynamic therapy thesis multifunctional agents that facilitate diagnosing; treating and monitoring of therapies in a patient-specific manner, phd photodynamic therapy thesis.
Vijay Krishna, PhD University of Phd photodynamic therapy thesis Assistant Professor Leveraging nanotechnology to design next-generation nano-engineered materials for non-invasive therapies and prevention of cancer, especially skin cancer. Vinod Labhasetwar, PhD Nagpur University Professor Explore the use of nanotechnology, such as nanoparticles that can find their way into specific cells or tissues to treat various diseases, including cancer, phd photodynamic therapy thesis, stroke, and cardiovascular conditions, phd photodynamic therapy thesis.
Xiaojuan Li, PhD University of California at Berkeley Professor Exploring and developing advanced musculoskeletal imaging techniques to be applied in a range of orthopaedic and rheumatologic disorders. Zheng-Rong Lu, PhD Lanzhou Institute of Chemical Phd photodynamic therapy thesis, Chinese Academy of Sciences M.
Frank Rudy and Margaret Domiter Rudy Professor of Biomedical Engineering; Director, Case Center for Biomolecular Engineering Drug delivery and molecular imaging; novel targeted imaging agents for molecular imaging; novel MRI contrast agents; image-guided therapy and drug delivery; drug delivery systems; multi-functional delivery systems for nucleic acids; non-viral gene therapy.
Dan Ma, PhD Case Western Reserve University Assistant Professor Magnetic Resonance Imaging MRI ; Magnetic Resonance Fingerprinting ; Quantitative MR; MR Acquisition and Modeling;Neuroimaging. Paul Marasco, PhD Vanderbilt University Investigating sensory integration with prosthetic devices to develop translational approaches for providing natural touch and movement feedback for artificial limbs.
Edward Maytin, MD, PhD University of Rochester Associate Professor Study wound healing to learn how the extracellular matrix can regulate inflammation and fibrosis in healing wounds; also study skin cancer to improve photodynamic therapy for thicker and more serious skin cancers.
Debra McGivney, PhD Case Western Reserve University Assistant Professor Magnetic resonance imaging, magnetic resonance fingerprinting, mathematical modeling, inverse problems. George F. Muschler, MD Northwestern University Professor Focus is on advancing the field of tissue engineering through development of new strategies for preservation, repair, regeneration, phd photodynamic therapy thesis, augmentation, or replacement of musculoskeletal tissues.
Ela Plow, PhD University of Minnesota Assistant Professor Utilize functional neuroimaging to discern substrates of movement control and movement relearning-related plasticity in the healthy vs. post-stroke brain for rehabilitation. Andrew M. Rollins, PhD Case Western Reserve University Professor; Faculty co-director, Center for Engineering Action Biomedical optics; biomedical optical imaging; optical coherence tomography; cardiovascular and ophthalmic applications. Gerald M. Saidel, PhD The Johns Hopkins University Professor; Director, Center for Modeling Integrated Metabolic Systems Mass and heat transport and metabolism in cells, tissues, and organ systems; mathematical modeling and simulation of dynamic and spatially distributed systems; optimal nonlinear parameter estimation and design of experiments.
Anirban Sen Gupta, PhD The University of Akron Professor Targeted drug delivery; targeted molecular imaging; image-guided therapy; platelet substitutes; novel polymeric biomaterials for tissue engineering scaffolds.
Sam Senyo, PhD University of Illinois Assistant Professor Cardiovascular regeneration; microenvironment; stable isotopes; biomaterials, microfabrication; and drug delivery.
Andrew Shoffstall, PhD Case Western Reserve University Assistant Professor Phd photodynamic therapy thesis of minimally invasive neural interfaces; biomaterials; drug delivery; blood-brain barrier permeability. Pallavi Tiwari, PhD Rutgers University Assistant Professor Developing Image Analysis and Machine Learning Tools for Neuroimaging applications. Ronald J. Triolo, PhD Drexel University Professor, Orthopaedics, University Hospitals-Case Medical Center, VA Medical Center, MetroHealth Medical Center Neural prostheses, rehabilitation engineering and restoration of lower extremity function, biomechanics of human movement quantitative analysis and control of gait, standing balance and seated posture.
Dustin J. Tyler, PhD Case Western Reserve University Kent Hale Smith Professor for the Case School of Engineering II Phd photodynamic therapy thesis neuroprostheses; laryngeal neuroprostheses; clinical implementation of nerve electrodes; cortical neuroprostheses; minimally invasive implantation techniques; and modeling of neural stimulation and neuroprostheses.
Geoffrey Vince, PhD University of Liverpool Professor Developing a tool that will predict which patients are at increased risk of stroke to help physicians determine the best treatment approach. Satish Viswanath, PhD Rutgers University Assistant Professor Medical image analysis, radiomics, and machine learning schemes for imaging data. Focused on designing unique image analytics tools that capture biologically relevant measurements and conducting cross-scale associations across imaging, pathology, and -omics.
Horst A. von Recum, phd photodynamic therapy thesis, PhD University of Utah Professor and Executive Vice Chair Affinity-based delivery of small molecule drugs and biomolecules for applications in device infection, HIV, orthopedics, cardiovascular, ophthalmology and cancer; directed differentiation of stem cells for tissue engineering applications, such as endothelial cells, cardiomyocytes, motor neurons and T-cells.
Matthew R. Williams, PhD Case Western Reserve University Assistant Professor Experiential education including engineering design, programming, and fabrication; control of prosthetics and assistive technology for stroke and spinal cord injury. David L. Wilson, PhD Rice University Robert J. Xin Yu, ScD Harvard-MIT F. Alex Nason Professor II Development and application of magnetic resonance imaging and spectroscopy methods for understanding cardiovascular and metabolic diseases, including diabetes, stroke, and cardiomyopathy.
Maciej Zborowski, PhD Warsaw University Associate Professor Investigating novel methods of cell separation for medical applications, including rapid screening for cancer cells in blood and isolation phd photodynamic therapy thesis blood-forming stem cells.
Ozan Akkus, PhD Case Western Reserve Professor, Mechanical Aerospace Engineering Development of novel biomaterials that will substitute bone and soft tissues, bioinspired from the synthesis of bone such that ductile biocompatible polymer matrices are subjected to mineralization.
Photodynamic Therapy
, time: 6:24Fullerene - Wikipedia
With an MS Thesis-Focused Track, a minimum of 18 to 21 credits hours is needed in regular course work and 9 to 12 hours of thesis research (EBME Thesis M.S.), is needed. With an MS Project-Focused Track a minimum of 24 to 30 credit hours is needed in regular course work, and 0 to 6 hours of project research (EBME Project M.S.) is needed This perspective article summarizes the last decade’s developments in the field of phthalocyanine (Pc)-polymeric nanoparticle (NP) delivery systems for cancer photodynamic therapy (PDT), including studies with at least in vitro data. Moreover, special attention will be paid to the various strategies for enhancing the behavior of Pc-polymeric NPs in PDT, underlining the great potential of PhD thesis, UTAR. Cheng, Chan Siow () Simulation Of Oscillations In Neuronal Networks Using The Morris-Lecar Neuron Model. PhD thesis, UTAR. Yong, Kian Wui () Islanded Operation Of Photovoltaic Sysytems with The Use Of Bi-Directional Inverters. Master dissertation/thesis, UTAR
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