School medical case studies

School medical case studies

EPFL researchers with Harvard Medical School recently met to discuss joint Harvard business school case studies related to medical care. It was reported recently on the agreement between federal Polytechnic School Lausanne (EPFL) and the Harvard Institute of Medicine, Harvard Medical School (HMS). The support of Bertarelli fund, funding the project with 3.6 million dollars, the two strongest universities were able to combine their efforts to study methods for the treatment of complex neurological pathologies. The research will be published/distributed through sample high school learning disability case studies for teachers and Willowbrook school case study answers for the ongoing class for students, especially senior high school African American students. Two months earlier, Swiss and American high case study school announced a program of joint research: six scientific projects destined to become premier neuron-engineering which is supposed to be a neurological diseases revolution treatment. Concerning latest achievements of the gene, optical tomography and systems of communication between man and computer, EPFL and Harvard Medical School researchers try to find new clinical treatments for spinal cord and hearing apparatus pathology.

Five of the six scientific neuron-engineering projects are included in the business law case studies for high school students are designed to develop new methods of diagnosis and therapy for a broad range of hearing diseases, primarily deafness caused by genetic abnormalities including external factors. The sixth project is based on the latest achievements of EPFL in the area of spinal cord stimulation. Cooperation with Harvard resource center will go to the next stage: The ultimate goal is to develop electronic mechanisms to repair damaged nerve compounds in the spinal cord.

To see that we hear the main problem of diagnosing pathology of the hearing apparatus is that the doctor cannot look near fabric and cell of the inner ear. Recent years, the introduction of micro-endoscopies has made the task a little easier. However, the need to use fluorescent markers continues to make diagnostics difficult for humans. On the other hand, engineers, physicists, and analytics of EPFL have long developed a method of optical visualization avoiding substance coloring. Professor of the Federal Polytechnic School of Lausanne, Demetri Psaltis will work with Harvard doctors to develop a whole new visualization technique for the inner ear. Researchers will try to optimize innovative diagnostic technologies that allow the tissue to be viewed through light waves.

The gene to combat congenital deaf gene is a relatively young area of research, combining the principles of genetic engineering, biotechnology, and medicine to make changes in the human genetic apparatus for treatment of the most complex diseases. Today, one out of a thousand children are born with hearing impairments, mostly caused by genetic pathologies. Gene method connected to the genetically modified viruses introduction that transporting “corrective” genes to cells with mutated genes causing the disease. The initial failures of such experiments tempered zeal of specialists, but recent case study features the hope that the genetic diseases of the hearing apparatus can be cured by genetic therapy.

Medical case studies