Bob and Marilyn Nerem have a deep love for Georgia Tech and its students. In this video, the Nerems talk about the evolution of bioengineering at Tech and their vision for its future.. Nerems work has helped significantly to advance medical science and improve the quality of life. To many at Georgia Tech, he has been one of the pioneers in the field, instrumental in leading the effort in the areas of bioengineering and biosciences on campus and beyond.. After 26 years on the Tech faculty - and nearly 50 years in academia - Nerem is looking to ensure the Institutes continued preeminence in the field of bioengineering. To that end, he and his wife, Marilyn, have made plans in their estate that will one day establish the Marilyn R. and Robert M. Nerem faculty chair or professorship in Georgia Techs Parker H. Petit Institute of Bioengineering and Bioscience, whose creation will enhance the Petit Institutes ability to attract and retain eminent teacher-scholars to this position of academic ...
Bioengineering approaches to map mechanotransduction in the living cell Abstract Mechanical forces strongly influence the growth and form of virtually every tis...
Some of the prominent companies operating in the global bio-engineered stent market are Terumo Corporation, Biotronik SE &Co. KG, Stentys Sao, and Lombard Medical technologies.. Request TOC of the Report @. https://www.tmrresearch.com/sample/sample?flag=T&rep_id=5399 Global Bio-engineered Stent Market: Key Growth Drivers. Burgeoning Population Suffering from Renal and Cardiovascular Diseases to Boost Market. Bio-engineered stent plays a crucial role in expanding the blood vessel for preventing a blockage of arteries, especially in cardiovascular diseases. Thus, rising prevalence of different types of coronary heart diseases and growing population suffering from various cardiovascular diseases are propelling expansion in the global bio-engineered stent market. According to American Heart Association, a major population in the U.S is suffering from a few types of heart disorders and diseases, whereas a large number of people are suffering from the after-effects of stroke. According to World Health ...
A new class in bioengineering debuted this term at Caltech: "Exploring Biological Principles Through Bio-Inspired Design" (BE 107). The class was the brainchild of Michael Dickinson, the Esther M. and Abe M. Zarem Professor of Bioengineering, and Richard Murray, the Thomas E. and Doris Everhart Professor of Control and Dynamical Systems and Bioengineering, who are hoping to make this a regular part of the curriculum at Caltech to create more opportunities for interdisciplinary work in biology.. "Design courses in which students actually build something are not uncommon in some academic disciplines-such as electrical engineering, mechanical engineering, industrial design, and so forth-but are quite rare in biology," Dickinson says. BE 107 was designed to redress this lack. In the course, students were required to either build a new instrument that could derive information from a biological system or create a hardware platform, such as a robot, that successfully mimics a given biological ...
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The University of Dayton is moving forward on initiatives that will help position it as an international leader in the fields of bioengineering and bioscience with new curriculum, a new research center and a research alliance with a leading hospital. On deck are plans for a new masters degree in bioengineering, the emergence of a Center for Tissue Regeneration and Engineering at Dayton or TREND, and a research alliance with the Kettering Medical Center Network (KMCN). These initiatives will enable UD to compete for sponsored research that is expected to attract $1.36 billion in federal funding this year, according to the National Institutes of Health and National Science Foundation.. "The University of Dayton has made a strategic decision to be more aggressive in bioengineering and biosciences," said Daniel J. Curran, president of UD. "These initiatives will lend structure and focus to the Universitys goal of supporting interdisciplinary research and education efforts. Our partnership with the ...
Fischell Department of Bioengineering (BIOE) Ph.D. student Lisa Tostanoski has won a $15,000 Lemelson-MIT Student Prize for efforts to develop two novel biomaterials-based strategies to combat multiple sclerosis (MS) and other autoimmune diseases. Tostanoski, a researcher in BIOE assistant professor Christopher Jewells lab, is the first University of Maryland student to win the prestigious prize.. "Ms. Tostanoskis innovation gives me great hope for the future of human health and patient care," said Darryll J. Pines, dean of the University of Marylands A. James Clark School of Engineering. "Fresh approaches to bioengineering have the potential to impact millions of patients. I am incredibly proud of her and the resolve of our entire Fischell Department of Bioengineering in their efforts to dramatically alter the course of intractable diseases." The nine recipients of this years collegiate competition were selected from a diverse applicant pool of undergraduate and graduate students from ...
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Listing of Course Designations & Rubrics. Biological Engineering - BE. 1250 Introduction to Engineering Methods (2) F 6 hrs. lab. Fundamentals of engineering design; presentation of an engineering design; graphical expression of engineering design using computer-aided drafting.. 1252 Biology in Engineering (2) S Prereq.: credit or registration in BIOL 1201. 1 hr. lecture; 3 hrs. lab. Effect of variability and constraints of biological systems on engineering problem solving and design; engineering units; engineering report writing; oral report presentation; laboratory demonstration of biological engineering analysis.. 2307 Elements of Landscape Construction (3) F,S Prereq.: MATH 1015 or 1022. 2 hrs. lecture; 3 hrs. lab. Theory and use of tape, level, transit, plane table, and compass; principles of area and volume calculations, land slope, drainage grades, legal land descriptions, and topographic mapping.. 2350 Experimental Methods for Engineers (3) S Prereq.: MATH 1552. 2 hrs. lecture; 3 hrs. ...
SBE is a global technological community that promotes the integration of engineering with biology and realize its benefits through bioprocessing, biomedical, and biomolecular applications. SBE provides opportunities for interaction of engineers and scientists, develops products and services bring value to the broad biological engineering community, and infuses awareness of biological engineering among all functions and activities of AIChE.. ...
Description. Includes audio/video content: AV selected lectures, AV special element video. Bioengineering at MIT is represented by the diverse curricula offered by most Departments in the School of Engineering. This course samples the wide variety of bioengineering options for students who plan to major in one of the undergraduate Engineering degree programs. The beginning lectures describe the science basis for bioengineering with particular emphasis on molecular cell biology and systems biology. Bioengineering faculty will then describe the bioengineering options in a particular engineering course as well as the type of research conducted by faculty in the department. Includes audio/video content: AV selected lectures, AV special element video. Bioengineering at MIT is represented by the diverse curricula offered by most Departments in the School of Engineering. This course samples the wide variety of bioengineering options for students who plan to major in one of the undergraduate Engineering ...
Earn a Master of Science in Bioengineering and pursue interdisciplinary research into specialized biomedical research areas. Develop the expertise that will advance your career, help you transition into the field or prepare you for doctoral study. Bioengineering focuses on the application of advanced technology to solve complex biologic problems. Through this masters program, youll gain the credentials to claim expert status in areas ranging from tissue engineering to biomechanics and bioelectronics.. The program can be pursued through a customized area of specialization. Interdisciplinary collaboration is encouraged with faculty in- and outside the College of Engineering. Students have worked with researchers in Temples Fox Chase Cancer Center, Katz School of Medicine, Kornberg School of Dentistry, and College of Science and Technology. This flexible masters program can be completed full or part time, and evening classes are available. The departmental community is small, offering you an ...
New And Future Developments In Microbial Biotechnology And Bioengineering from the Author: Vijai G. Gupta. New and Future Developments in Microbial Biotechnology and Bioengineering: Penicillium System Properties and Applications covers important research work on the applications of penicillium from specialists from an international perspective. The book compiles advancements and ongoing processes in the penicillium system, along with updated information on the possibilities for future developments. All chapters are derived from current peer reviewed literature as accepted by the international scientific community. These important fungi were found to secrete a range of novel enzymes and other useful proteins, and are still being extensively studied and improved for specific use in the food, textile, pulp and paper, biocellulosic ethanol production and other industries. The book caters to the needs of researchers/academicians dealing with penicillium spp. related research and applications, ...
The Bioengineering Imaging Group is a world-leader in the development of the microscope-in-a-needle technology for clinical use. Our successful imaging needle technology is used to design and build novel imaging devices to explore the body, and then translate these devices into clinical usage. These highly miniaturised, fibre-optic imaging probes are small enough to be encased within a hypodermic needle and can be inserted deep into the body to acquire fluorescence and optical coherence tomography images.. Based in the Centre for Nanoscale Biophotonics (CNBP), which is part of the Institute for Photonics and Advanced Sensing (IPAS), the Bioengineering Imaging Group has strong research programs in optical coherence tomography and fluorescence imaging, with a particular focus on developing new optical imaging technologies. Our research team is a multi-disciplinary group of engineers, physicists and computer scientists who work together with clinicians. Our skills complement the expertise ...
As one of the top bioengineering programs in the region the University of Colorado Denver provides a unique opportunity for students to study engineering while gaining hands on experience in biomedical and clinical sciences.
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The Molecular Biophysics and Bioengineering (MBB) research group integrates a range of cross-disciplinary expertise that focuses on the integration of biology with biophysics and bioengineering. The current main objective of the MMB group is the development and application of nano- and bio-technological tools and materials, including their toxicological assessment, to marine sciences.
In case you did not see this release that someone else sent me. Is there any truth to this? Emre Press Release: FOR IMMEDIATE RELEASE JANUARY 15, 1999 FOR MORE INFORMATION CONTACT: BOYD E GRAVES (216) 382-9252 e-mail: [email protected] AIDS BIOENGINEERING ON TRIAL Cleveland, OH: The issue of governmental involvement in the creation, production, and proliferation of the AIDS virus will be resolved in the Federal Court in the Northern District of Ohio before Federal Judge Lesley Brooks Wells. The complaint (Graves v. Cohen; 98 CV 2209) filed by Boyd E Graves on September 28, 1998 contains direct evidence of bioengineering, including the Congressional Testimony of the Pentagon given on June 9, 1969 and July 1, 1969 before a U.S. House of Representatives Subcommittee. "The Pentagons Testimony of June 9, 1969 leaves no reasonable doubt of the absolute culpability of the government," remarked lead plantiff, Boyd E Graves, to John Mangels, Medical Reporter for the Cleveland Plain Dealer. "The ...
Flanked by three teammates, 17-year-old Alex Lee bent over a worktable in the Product Realization Lab at Stanford to show how he and his fellow high school students had embedded a sensor into a strip of surgical gauze.. Demonstrating the device, Lee waved his smart phone over the "smart gauze" and elicited a beep - showing how the sensor in the gauze and detector in the phone worked together to enable surgical staff to locate non-metallic objects that could, if left behind, harm patients and prompt lawsuits.. "Surgical sponges are the most common item left behind in surgeries and theyre very difficult to detect," said Lee, who was one of 26 participants in a free, six-week bioengineering boot camp for high school students organized by Stanford undergraduate Stephanie Young.. Young, a bioengineering student who grew up in San Mateo, Calif., said she got the idea for the boot camp last year after talking with a friend who had gone through a similar intensive summer program in the law.. "I ...
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BIOSYSTEMS is a research group at the Centre of Biological Engineering of the University of Minho using competences in systems biotechnology and bioengineering to foster the development of a knowledge-based bio-economy, leading to new added-value products and processes.
BIOSYSTEMS is a research group at the Centre of Biological Engineering of the University of Minho using competences in systems biotechnology and bioengineering to foster the development of a knowledge-based bio-economy, leading to new added-value products and processes.
CSBE/SCGAB Canadian Society for Bioengineering / Société Canadienne de Génie Agroalimentaire et de Bioingénierie. Provides information on and links to agricultural engineering, food engineering and biological engineering.
CSBE/SCGAB Canadian Society for Bioengineering / Société Canadienne de Génie Agroalimentaire et de Bioingénierie. Provides information on and links to agricultural engineering, food engineering and biological engineering.
The Butyl Lactate Market report contains data that has been carefully analyzed in the various models and factors that influence the industrial expansion of the Butyl Lactate market. An assessment of the impact of current market trends and conditions is also included to provide information on the future market expansion. The report contains comprehensive information on the global dynamics of Butyl Lactate, which provides a better prediction of the progress of the market and its main competitors [Corbion, Galactic, Yancheng Hongtai Bioengineering, Huade Biological Engineering, Yibang Industry & Commerce, Jindan Lactic Acid, Pianguan Shenxia]. The report provides detailed information on the future impact of the various schemes adopted by governments in different sectors of the world market.. The Butyl Lactate market report is crafted with figures, charts, tables, and facts to clarify, revealing the position of the specific sector at the regional and global level. The report also provides a brief ...
So too could the commercial opportunities, with interest now being directed at Fishers work from the likes of China. As head of the Biomaterials and Tissue Engineering Centre of Industrial Collaboration, Fisher is keen to emphasise that his work is not blue-skies research, but will have long-term social and economic benefits. The challenge of an ageing population, he believes, is far too great not to create a targeted solution.. My academic career hasnt been very conventional, said Fisher. I had 10-12 years outside academia, where I initially worked in the automotive, defence and healthcare sectors, but it has allowed me to see the impact of research and technology in a different way. So, when I do research, I try to establish what the challenge is - not from the academic perspective, but from how the research might impact on society.. The universitys Institute of Medical and Biological Engineering has developed a ceramic-on-metal hip joint that, unlike a metal hip joint, can last the 100 ...
h3. *ERC-funded Postdoc and PhD position on: Biological engineering of gene reporters for Electron Microscopy of brain circuits* Is your mind focused on synthetic biology, and do you want to contribute to unraveling how memories are encoded in brain circuits using molecular imaging at the best imaging resolution? Then you are likely interested in a recently ERC-funded project
Gary W. Krutz is a Professor in Agricultural and Biological Engineering at Purdue University. He received his B.S. and M.S. from the University of Wisconsin, M.A. from the University of Detroit and Ph.D. from Michigan State University. Gary joined Agricultural Engineering in 1976 as an assistant professor. His current responsibilities include teaching power and machinery courses, including hydraulic control systems, welding engineering and the capstone design class. Research interests involve traditional farm machinery automation and robotization along with development of non-contact electronic sensors to assure food quality. Gary is the academic advisor for agricultural engineering undergraduates and is very active in recruiting, advising and job placement of undergraduates ...
Pablo Debenedetti, Class of 1950 Professor and Vice Dean of the School of Engineering and Applied Science, and Professor of Chemical and Biological Engineering, has been elected to the National Academy of Sciences (NAS), as announced in a press release issued earlier this week. The NAS, established by a Congressional act signed by President Abraham Lincoln in 1863, is a private, non-profit society of distinguished scholars engaged in scientific and engineering research, dedicated to the ...
Next Generation Sequencing Approaches in Biological Engineering scheduled on April 29-30, 2022 in April 2022 in Jerusalem is for the researchers, scientists, scholars, engineers, academic, scientific and university practitioners to present research activities that might want to attend events, meetings, seminars, congresses, workshops, summit, and symposiums.
Dr. D. Marshall Porterfield is a Professor of Agricultural & Biological Engineering at Purdue, where his research focuses on biosensors, bionanotechnology, and space biology. Over the last 25 years he has worked experimentally to study biological systems in the spaceflight environment for development of biomedical countermeasures and bioregenerative life support technologies. He recently served NASA as Division Director for Space Life and Physical Sciences from 2012-2016 (Human Research, Physical Sciences, and Space Biology Programs), focused on science for future human exploration using the International Space Station. During his tenure at NASA he developed a new "open science" paradigm (geneLAB, materialsLAB) for the utilization of the ISS. He has published over 100 peer reviewed manuscripts, as well as numerous technical publications, patents, and book chapters. National leadership includes service as President of the American Society for Gravitational and Space Research, and the Institute ...
First-year Chemical and Biological Engineering Ph.D. student Anna Hailey was today awarded a three-year National Science Foundation (NSF) Graduate Research Fellowship in support of her research here at Princeton. Hailey is working with Professor Lynn Loo on "Controlling Crystallization in Solution-Processed Binary Blends for Organic Photovoltaics". CBE alumnus Jeff Thompson 10, currently a graduate student at the University of Texas at Austin, was also selected for this honor. Heartiest congratulations to both Anna and Jeff! ...
Yüksek lisans programları - sarıyer kimya. I469. Program description chemical & biological engineering is a discipline that integrates chemistry...
Rational Reprogramming of Fungal Polyketide First Ring Cyclization, Yuquan Xu, Tong Zhou, Zhengfu Zhou, Shiyou Su, Sue A. Roberts, William R. Montfort, Jia Zeng, Ming Chen, Wei Zhang, Min Lin, Jixun Zhan, and Istvan Molnar; Proceedings of the National Academy of Sciences of the United States of America. ...
Ginkgo Bioworks and Prospect Bio to collaborate on tools to accelerate biological engineering. Biosensors allow for rapid screening of organism design
... is a logical field of study if youre interested in medical school. This major will help you to practice your trade in the real world: curing disease, enhancing life, and giving loved ones more time with one another. ...
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Postmortem histologic analyses revealed that the implants were present 3 weeks after the implantation surgery. This is an important observation, as the hydrogels effect on ocular growth is likely to be short-lived if it is too rapidly degraded. The results of histologic analysis of the implant and adjacent tissues (sclera and Tenons capsule) also confirmed the biocompatibility of the hydrogel, as evidenced by extensive cell infiltration, providing further validation of our choice of an HyA-based hydrogel for our myopia-control studies. Interestingly, the nuclei of the cells in the implanted hydrogel were more rounded than the nuclei of fibroblasts in the native sclera. This suggests that despite the hydrogels ability to support cell migration, it lacked some critical feature of the native sclera required for the retention of the scleral fibroblasts normal phenotype. We also observed this phenomenon in in vitro migration studies, in which primary guinea pig scleral fibroblasts were allowed to ...
The broad goal of Beths research is to understand the mechanisms of injury that produce whiplash, sports-related, and other painful injuries. By combining biomechanical and immunological techniques, her lab can define the relationships between injury to the cervical spine/neck and physiological cascades of persistent pain. Particular emphasis is placed on understanding injury to individual structures in the neck, such as the facet joints, nerve roots and spinal cord and how mechanical loading to these structures elicits pain. Through this work she can begin to develop thresholds for mechanical injury that produce persistent pain; and work towards a definition of the necks tolerance for painful injury. Additional research efforts are aimed at understanding the role of biomechanics in the neuroimmunologic changes of the central nervous system that contribute to persistent pain. Applications of her current work are in the areas of automotive and whiplash-related injury and sports injuries and ...
End-stage renal disease (ESRD) is characterized by the progressive deterioration of renal function that may compromise different tissues and organs. The major treatment indicated for patients with ESRD is kidney transplantation. However, the shortage of available organs, as well as the high rate of organ rejection, supports the need for new therapies. Thus, the implementation of tissue bioengineering to organ regeneration has emerged as an alternative to traditional organ transplantation. Decellularization of organs with chemical, physical and/or biological agents generates natural scaffolds which can serve as basis for tissue reconstruction. The recellularization of these scaffolds with different cell sources, such as stem cells or adult differentiated cells, can provide an organ with functionality and no immune response after in vivo transplantation on the host. Several studies have focused on improving these techniques, but until now, there is no optimal decellularization method for the kidney
Biography: An engineer by training, Dr. Padala is currently focused on studying the biomechanics and mechanobiology of heart valve disease and heart failure. He received his BS in mechanical engineering from Osmania University in India in 2004, and an MS in mechanical engineering and PhD in bioengineering from Georgia Tech in 2010. Since joining Emory and establishing his independent laboratory in 2010, his focus has been on studying in-vivo heart valve and cardiac mechanics in pre-clinical models. In 2012, he spent one year at Imperial College London on a Leducq Fondation Career Development Award. He trained under Prof. Sir. Magdi Yacoub, a pioneer in cardiac transplantation and heart valve tissue engineering.. Research Keywords: Heart Failure, Cardiac Valve Disease, Cardiovascular Devices, Cell and Gene Therapy, Tissue Engineering of Heart Valves Research Areas: Research Interests: My laboratory is interested in the pathogenesis of heart valve disease and its impact on the onset and ...
Ref: PD-CA. The IMEM Group at the Institute for Bioengineering of Catalonia (IBEC) is looking for a Postdoctoral Researcher with broad experience in (Bio)Materials, Nanotechnology and Polymers/Biopolymers to develop a project on the development of (bio)polymeric materials for biomedical applications. The contract will be within the framework of IMEM-BRT research lines, whose objective is the development of new materials for regenerative therapies ...
Biography: An engineer by training, Dr. Padala is currently focused on studying the biomechanics and mechanobiology of heart valve disease and heart failure. He received his BS in mechanical engineering from Osmania University in India in 2004, and an MS in mechanical engineering and PhD in bioengineering from Georgia Tech in 2010. Since joining Emory and establishing his independent laboratory in 2010, his focus has been on studying in-vivo heart valve and cardiac mechanics in pre-clinical models. In 2012, he spent one year at Imperial College London on a Leducq Fondation Career Development Award. He trained under Prof. Sir. Magdi Yacoub, a pioneer in cardiac transplantation and heart valve tissue engineering.. Research Keywords: Heart failure, cardiac valve disease, cardiovascular devices, cell and gene therapy, tissue engineering of heart valves Research Affiliations: ...
Biography: An engineer by training, Dr. Padala is currently focused on studying the biomechanics and mechanobiology of heart valve disease and heart failure. He received his BS in mechanical engineering from Osmania University in India in 2004, and an MS in mechanical engineering and PhD in bioengineering from Georgia Tech in 2010. Since joining Emory and establishing his independent laboratory in 2010, his focus has been on studying in-vivo heart valve and cardiac mechanics in pre-clinical models. In 2012, he spent one year at Imperial College London on a Leducq Fondation Career Development Award. He trained under Prof. Sir. Magdi Yacoub, a pioneer in cardiac transplantation and heart valve tissue engineering.. Research Keywords: Heart Failure, Cardiac Valve Disease, Cardiovascular Devices, Cell and Gene Therapy, Tissue Engineering of Heart Valves Research Areas: ...
Proposal for the Establishment of a Graduate Program in Bioengineering at the College of Engineering of the University of Puerto Rico at Mayagüez June 20, 2008 College of Engineering University of Puerto
Lung disease models are useful to study how cell engraftment, proliferation and differentiation are modulated in lung bioengineering. The aim of this work was to characterize the local stiffness of decellularized lungs in aged and fibrotic mice. Mice (2- and 24-month old; 14 of each) with lung fibrosis (N=20) and healthy controls (N=8) were euthanized after 11 days of intratracheal bleomycin (fibrosis) or saline (controls) infusion. The lungs were excised, decellularized by a conventional detergent-based (sodium-dodecyl sulfate) procedure and slices of the acellular lungs were prepared to measure the local stiffness by means of atomic force microscopy. The local stiffness of the different sites in acellular fibrotic lungs was very inhomogeneous within the lung and increased according to the degree of the structural fibrotic lesion. Local stiffness of the acellular lungs did not show statistically significant differences caused by age. The group of mice most affected by fibrosis exhibited local ...
If someone says they use a microscope in their research, most people would assume its because they need to observe something very small. Sara Johnson, a Clark School senior majoring in bioengineering, uses one to write messages. Johnson, a member of Department of Materials Science and Engineering (MSE) assistant professor Joonil Seogs research group, is part of a team investigating how an atomic force microscope (AFM) can be used to grow and weave threads of silk-elastin-like peptide polymers (SELPs) into specific patterns or shapes-such as the letters "UMD" at only one thousandth of a millimeter wide. She is the first author of a recent paper about the work published in Chemical Communications, one of the premiere journals in its field. SELP is a polymer made out of alternating segments of genetically engineered spider silk and elastin, the protein responsible for giving skin and blood vessels their flexibility. SELP is studied because of its similarity to amyloid fibers, the suspected ...
Tissue engineering is the combinational usage of cells, engineering, materials methods, suitable biochemical and physicochemical factors in order to improve or replace the infected biological tissues. The field includes the development of materials, devices, techniques to detect and differentiate disease states ,the treatment response, aid tissue healing, precisely deliver treatments to tissues or cells, signal early changes in health status, and provide implantable bio artificial replacement organs for recover or establish of healthy tissue .Techniques developed here identify and detect biomarkers of disease sub-types, progression, and treatment response, from tissue imaging, gene testing and gene analysis, that aid the more rapid development of new treatments and guide their clinical applications in treating the disorder. It includes the usage of computational modelling, bioinformatics and quantitative pharmacology to integrate data from diverse experimental and clinical sources to discover ...
Bioengineering students majoring in Biological Resources Engineering gathered for the presentation of the projects that represented the completion of their undergraduate experience at the Capstone II finale May 11, 2007. Capstone, a two-part course taken in the fall and spring semesters of senior year, is one of the most important parts of the Clark Schools engineering program. In it, teams of students utilize what they have learned throughout their undergraduate studies to create their own engineering designs from concept to product. At last semesters (Fall 2006) Capstone I presentations, eight teams presented their visions for a wide range of products that could be produced to serve the needs of doctors, patients, researchers, human health, and society. Now, at the conclusion of Capstone II (Spring 2007), the seniors presented the results of their research and testing, outlined challenges and successes, and demonstrated their prototypes. Our seniors would like to thank their faculty mentors ...