وبلاگ مهندسین پزشکی ایران

جامع، روزآمد و تخصصی در حوزه مهندسی پزشکی

وبلاگ مهندسین پزشکی ایران

جامع، روزآمد و تخصصی در حوزه مهندسی پزشکی

مشخصات بلاگ
بایگانی
آخرین مطالب

STANFORD RESEARCHERS DEVELOP MICROSCOPE THAT ALLOWS FIRST-EVER LOOK AT LIVE MUSCLE UNITS IN ACTION

The basic process of force-generation in muscle has been known for decades, but until now no one has ever seen it work at a microscopic level in a living human. The new microscope could provide unique insights into treating muscular degenerative diseases.


Millions of people each year are diagnosed with diseases that result in the loss of neuromuscular function. One of the complications in treating these people has been an inability to track the progression of disease and provide the best possible therapeutics.

Now, a team of Stanford researchers has developed a microscope that can visualize and measure the force-generating contractions of these patients' individual motor units. This action has been studied for nearly 100 years, but this is the first time it has ever been observed in the muscles of a living human.

"When it comes to muscle microstructure and dynamics, we have not been able to visualize normal muscle, and we don't know how it changes with disease," said co-author Scott Delp, a Stanford professor of bioengineering, of mechanical engineering and, by courtesy, of orthopaedic surgery. "With this microscope, we have opened up a new window to how muscles change with strokes and diseases like ALS or muscular dystrophy. We can immediately use it in humans; it's very low risk, and it gives us a new way to examine muscle microstructure and dynamics."

The findings are published in today's issue of Neuron.

Measuring muscle

Every move you make is made possible by an electrical handshake between a motor neuron and muscle fibers. When the signal from the brain activates the neuron, it triggers the fibers, which contain many force-generating units called "sarcomeres," which contract.

At the tissue level, the microstructure of skeletal muscle is striped – hence its name striated muscle – and the distance between sarcomeres dictates how much force can be generated. Too long or too short, and they generate very little force. Scientists believe that in certain neuromuscular disorders, the stripes gradually fall out of the sweet spot for maximum force generation, becoming either too long or too short, and that weakens the muscle.

"We stand to gain important insights by visualizing the contractions of individual motor units in live patients," said co-author Mark Schnitzer, an associate professor of biology and of applied physics at Stanford. "The structure at the level of individual sarcomeres relates to how much force the muscles can generate. We can also observe their contractions to see if the fiber is slow or fast twitch. If we can track the relative preponderance of fast versus slow twitch motor units, and how that changes in various disease states, we may be able to monitor how quickly a particular disease is progressing. This could provide useful insights for diagnostic tracking in individual patients, and tailoring therapeutics in a way that best treats their current condition."

Shrinking a microscope

The microscope is based on technology that existed for two decades and has previously returned promising results in terms of providing insights into human physiology. The format of previous devices has been cumbersome, however, consisting of an entire table of bulky optics and laser systems that could be operated only in total darkness, and were limited to analyzing tissue samples.

The new microscope consists of several small components that all fit neatly on a bedside pushcart. An ultrafast laser light source beams infrared light in 100-femtosecond pulses along an optical fiber from the cart to a handheld unit, which contains the miniaturized optics. This unit connects to an optical needle that is inserted into the patient's muscle. The light travels through the needle and sweeps over the sarcomere.

Through a process called second harmonic generation, the muscle fiber's striated structure converts the infrared light into a green light, which is returned up the needle, through the handset and to a detector and computer on the cart that interprets variations in the green return signal. These green images are pieced together to form an image of a sarcomere activation, and can provide precise measurement of the duration of a muscle twitch.

"In modern medicine, we're still taking pieces of people to microscopes, but now you can take a microscope to the living tissue and translate science into something that can be used clinically for a variety of diseases," said co-author Gabriel Sanchez, who prototyped the device while earning his doctorate at Stanford. "The size of the needle is similar to a flu shot, but it has optics in it, and produces the same optical performance as the table-size systems with an equivalent objective."

The needle probe can also act as a conductor and stimulate muscle to produce a contraction. This is particularly useful for gauging the muscle reactions in patients who have lost partial control of muscle function. For instance, in test subjects who had experienced partial loss of muscle function on one half of their body due to a stroke, the researchers were able to observe anatomic and physiological abnormalities in the affected muscle.

"In the affected muscle, we could see differences in the sarcomere lengths as opposed to unaffected muscle on other side of body," Schnitzer said. "We could also see ongoing fluctuations in sarcomere length in the affected muscle at a microscopic scale that have been never seen previously."

The authors are fine-tuning the device, and exploring applications to other tissues, such as skin and cartilage. Currently it has tremendous value for research, but their ultimate goal is to make it available in a clinical setting to help tailor therapies to patients' specific needs and physiology.

"We see this as a very useful companion diagnostic to track disease progression and, in the future, help personalize medicine by gauging how a person responds to a drug," Sanchez said.

Additional Stanford co-authors on the study included Supriyo Sinha, Holly Liske, Xuefeng Chen and Viet Nguyen.

To disseminate the wearable microscope technology for medical research and clinical imaging, Sanchez, Delp and Schnitzer have formed a company, Zebra Medical Technologies Inc., and they have a financial interest in the company.


موافقین ۰ مخالفین ۰ ۱۳ بهمن ۹۴ ، ۰۹:۰۴
Hosseindokht

Robert Kiosaky

موافقین ۰ مخالفین ۰ ۱۳ بهمن ۹۴ ، ۰۸:۴۰
Hosseindokht

Michelle Dell

موافقین ۰ مخالفین ۰ ۱۳ بهمن ۹۴ ، ۰۸:۳۸
Hosseindokht

Vincent Van Goph

موافقین ۰ مخالفین ۰ ۱۳ بهمن ۹۴ ، ۰۸:۳۲
Hosseindokht

Joseph Conrad

موافقین ۰ مخالفین ۰ ۱۳ بهمن ۹۴ ، ۰۸:۲۸
Hosseindokht

University of Washington

Top US Universities in Biomedical Engineering

 

Engineering School Overview

The application fee is $85 for U.S. residents and $85 for international students. Its tuition is full-time: $15,951 per year (in-state); full-time: $28,425 per year (out-of-state); part-time: $760 per credit (in-state); and part-time: $1,354 per credit (out-of-state). The 2014 Ph.D. student-faculty ratio is 3.7:1. The College of Engineering at University of Washington has 246 full-time faculty on staff.

Graduate students at the University of Washington’s College of Engineering can explore a range of research opportunities—from earthquakes to language processing and data mining—at the 33 different laboratories, institutes, and research centers housed on the school’s Seattle campus. At the UW Engineered Biomaterials Research Center, students and professors work with companies to develop medical implants, and the students at the Center for Collaborative Technology work to develop a new platform for Microsoft, the Center’s benefactor.

The broad array of research offerings complements the College of Engineering’s masters and Ph. D. degree offerings. Prospective students can earn master of science or master of engineering degrees in the following engineering disciplines: mechanical, electrical, chemical, computer science, aeronautics and astronautics, civil and environmental, industrial and systems, materials science, bioengineering, and human centered design.

The school also offers part-time master’s programs in aerospace engineering, pharmaceutical bioengineering, construction engineering, supply chain transportation and logistics, sustainable transportation, computer science, electrical engineering, industrial and systems engineering, and human centered design.

Outside of the classroom, graduate students at the University of Washington’s College of Engineering can get involved with the school’s chapter of Engineers Without Borders, or network through professional societies such as the society of Hispanic Professional Engineers, or the Society of Women Engineers.

Notable alumni from the College of Engineering include Bonnie Dunbar, a former astronaut who flew aboard the space shuttles Atlantis, Challenger, Columbia, and Endeavor; and Greg Badros, director of engineering at Facebook.

موافقین ۰ مخالفین ۰ ۲۲ آذر ۹۴ ، ۲۲:۰۷
Hosseindokht

Rice University (Brown)

Top US Universities in Biomedical Engineering

 

Engineering School Overview

The application fee is $85 for U.S. residents and $85 for international students. Its tuition is full-time: $39,880 per year and part-time: $2,216 per credit. The 2014 Ph.D. student-faculty ratio is 5.3:1. The George R. Brown School of Engineering at Rice University has 115 full-time faculty on staff.

Graduate students at Rice University’s Brown School of Engineering can join with faculty and outside researchers to explore topics ranging from tissue engineering to geophysics at one of nearly 20 research centers and institutes located at the school’s Houston campus. Research centers at Rice’s engineering school include the Center for Multimedia Communication, which researches algorithms and wireless communication, and the Shell Center for Sustainability.

The diverse range of research opportunities supplements the degree offerings at Rice University’s Brown School of Engineering. Graduate students can earn a master’s degree in several areas, including bioengineering, mechanical engineering, and computer science. The school also offers Ph.D. tracks in each of its engineering departments.

In addition to classroom and research opportunities, graduate students at the Brown School of Engineering can participate in student groups such as the Graduate Student Association or a professional society, many of which have student chapters at Rice.

Notable alumni from Rice University’s Brown School of Engineering include former NASA astronauts John Olivas and Peggy Whitson, who has spent more total time in space than any other woman.

موافقین ۰ مخالفین ۰ ۲۲ آذر ۹۴ ، ۲۲:۰۷
Hosseindokht

Boston University

Top US Universities in Biomedical Engineering

 

Engineering School Overview

The College of Engineering at Boston University has an application deadline of December 15. The application fee is $80 for U.S. residents and $80 for international students. Its tuition is full-time: $45,686 per year and part-time: $1,428 per credit. The 2014 Ph.D. student-faculty ratio is 3.9:1. The College of Engineering at Boston University has 119 full-time faculty on staff.

Graduate students at Boston University’s College of Engineering can get their hands into groundbreaking research, collaborating with the award-winning faculty, to contribute to a tradition of innovation that traces its roots back to the invention of the telephone. The school houses 20 major laboratories and 12 research centers focused on areas ranging from robotics to quantum imaging to neuromuscular research.

On the academics side, Boston University’s College of Engineering offers full-time master of science and/or master of engineering degrees in nine different areas, including manufacturing engineering, photonics, biomedical engineering, and electrical engineering. Students can also combine their master of science in engineering with an M.B.A. from the School of Management, pursue a doctorate in one of six areas, or earn a joint Ph.D./M.D. with the School of Medicine.

Outside of the classroom, students can gain global experience via study abroad programs in Germany, Israel, France, and several other countries. Graduate students at Boston University’s College of Engineering can also lend their skills to a humanitarian causes through the school’s chapter of Engineers Without Borders, which works on projects locally and internationally; U-Design, a summer program that encourages middle school students to explore engineering; and Boston Urban Fellows, which pairs graduate engineering students with teachers in area grade schools and high schools.

Notable alumni from Boston University’s College of Engineering include J Allard, former chief experience officer and chief technology officer of Microsoft’s Entertainment and Devices Division, who earned his bachelor’s from the College of Engineering before being awarded an honorary doctorate from the school in 2009.

موافقین ۰ مخالفین ۰ ۲۲ آذر ۹۴ ، ۲۲:۰۶
Hosseindokht

University of Pennsylvania

Top US Universities in Biomedical Engineering

 

Engineering School Overview

The School of Engineering and Applied Science at University of Pennsylvania has an application deadline of November 15. The application fee is $80 for U.S. residents and $80 for international students. Its tuition is full-time: $29,890 per year and part-time: $5,598 per credit. The 2014 Ph.D. student-faculty ratio is 4.1:1. The School of Engineering and Applied Science at University of Pennsylvania has 117 full-time faculty on staff.

Graduate students at the University of Pennsylvania’s Graduate School of Engineering and Applied Science (SEAS) have no shortage on research outlets. The school houses six dedicated research labs focused on areas ranging from nanotechnology to robotics to computer graphics and animation.

In addition to their lab facilities, Penn’s engineering school boasts more than a dozen research centers and institutes, including the Center for Engineering Cells and Regeneration, the Institute for Medicine and Engineering, and the Penn Center for Bioinformatics.

On the academics side, the SEAS at Penn offers full-time master’s degrees in 16 different areas—embedded systems, integrated product design, and robotics round out a list that also includes mechanical, electrical, chemical, and systems engineering, among others.

Students can also combine their master of science in engineering or master of biotechnology degrees with an M.B.A. from theWharton School, or pursue a doctorate in one of six areas.

Outside of the classroom, students can also choose to lend their engineering skills to a humanitarian cause through the school’s chapter of Engineers Without Borders, which works on projects locally and internationally; CommuniTech, a student-run nonprofit with a digital aim; and InnoWorks Academy, a nonprofit organization working to engage underprivileged middle school students in the sciences.

Notable alumni from Penn’s SEAS include NASA astronauts Michael Gernhardt and Garrett Reisman.

موافقین ۰ مخالفین ۰ ۲۲ آذر ۹۴ ، ۲۲:۰۵
Hosseindokht

University of California—Berkeley

Top US Universities in Biomedical Engineering

 

Engineering School Overview

The College of Engineering at University of California--Berkeley has an application deadline of February 10. The application fee is $90 for U.S. residents and $110 for international students. Its tuition is full-time: $11,220 per year (in-state) and full-time: $26,322 per year (out-of-state). The 2014 Ph.D. student-faculty ratio is 5.6:1. The College of Engineering at University of California--Berkeley has 252 full-time faculty on staff.

Graduate students at the UC-Berkeley College of Engineering can complete an advanced degree in eight areas, including Industrial Engineering & Operations Research and Applied Science & Technology.

Earning a master’s in engineering typically takes two years at Berkeley, but students can also opt for the accelerated Berkeley Engineering Professional Master’s Program, which graduates students in just one year. All graduate students must also complete two minors, which can include fields outside of the College of Engineering.

The College of Engineering has about 40 research centers and institutes where students can get involved. Graduate students can live on campus. For a break from school work, students can explore nearby San Francisco or take a quick trip to local beaches. To travel in and around San Francisco, students can take the Bay Area Rapid Transit, which stops a block from campus.

 

موافقین ۰ مخالفین ۰ ۲۲ آذر ۹۴ ، ۲۲:۰۴
Hosseindokht