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Groundbreaking, inexpensive, pocket-sized ultrasound device can help treat cancer, relieve arthritis
December 22, 2008A prototype of a therapeutic ultrasound device, developed by a Cornell graduate student, fits in the palm of a hand, is battery-powered and packs enough punch to stabilize a gunshot wound or deliver drugs to brain cancer patients. It is wired to a ceramic probe, called a transducer, and it creates sound waves so strong they instantly cause water to bubble, spray and turn into steam.
Tinkering in his Olin Hall lab, George K. Lewis, a third-year Ph.D. student in biomedical engineering and a National Science Foundation fellow, creates ultrasound devices that are smaller, more powerful and many times less expensive than today's models. Devices today can weigh 30 pounds and cost $20,000; his is pocket-sized and built with $100. He envisions a world where therapeutic ultrasound machines are found in every hospital and medical research lab.
"New research and applications are going to spin out, now that these systems will be so cheap, affordable and portable in nature," Lewis said.
The development of one of his portable devices is detailed in the journal Review of Scientific Instruments (79-114302), published online Nov. 11. Lewis, whose paper is co-authored by his adviser, William L. Olbricht, Cornell professor of chemical and biomolecular engineering, also presented his research in a talk at the November meeting of the Acoustical Society of America.
Ultrasound is commonly used as a nondestructive imaging technique in medical settings. Sound waves, inaudible to humans, can generate images through soft tissue, allowing, for instance, a pregnant woman to view images of her baby. But the higher-energy ultrasound that Lewis works with can treat such conditions as prostate tumors or kidney stones by breaking them up. His devices also can relieve arthritis pressure and even help treat brain cancer by pushing drugs quickly through the brain following surgery.
Lewis suggests that his technology could lead to such innovations as cell phone-size devices that military medics could carry to cauterize bleeding wounds, or dental machines to enable the body to instantly absorb locally injected anesthetic.
Lewis miniaturized the ultrasound device by increasing its efficiency. Traditional devices apply 500-volt signals across a transducer to convert the voltage to sound waves, but in the process, about half the energy is lost. In the laboratory, Lewis has devised a way to transfer 95 percent of the source energy to the transducer.
His new devices are currently being tested in a clinical setting at Weill Cornell Medical College. Under the direction of Jason Spector, M.D, director of Weill Cornell's Laboratory for Bioregenerative Medicine and Surgery and assistant professor of plastic surgery, Peter Henderson, M.D., the lab's chief research fellow, is using one of the devices in experiments that aim to minimize injury that occurs when tissues do not receive adequate blood flow.
Their lab is performing tests in animals to determine whether low doses of the chemical hydrogen sulfide, known to be toxic at high doses, might be able to minimize such injury by slowing cellular metabolism.
Doctors are hopeful that the ultrasound from Lewis' portable device will enable hydrogen sulfide to be targeted to specific parts of the body, allowing doctors to use less of it, and cutting down on toxicity risks, Henderson explained.
The medical doors that Lewis' device may one day open are groundbreaking, Henderson said.
"People are realizing that when harnessed appropriately, you can use ultrasound to treat things as opposed to just diagnose them," Henderson said. "It's a wide-open field right now, and George's device is going to play a huge role in catalyzing the discovery of new and better therapeutic applications."
Cornell University
The development of one of his portable devices is detailed in the journal Review of Scientific Instruments (79-114302), published online Nov. 11. Lewis, whose paper is co-authored by his adviser, William L. Olbricht, Cornell professor of chemical and biomolecular engineering, also presented his research in a talk at the November meeting of the Acoustical Society of America.
Ultrasound is commonly used as a nondestructive imaging technique in medical settings. Sound waves, inaudible to humans, can generate images through soft tissue, allowing, for instance, a pregnant woman to view images of her baby. But the higher-energy ultrasound that Lewis works with can treat such conditions as prostate tumors or kidney stones by breaking them up. His devices also can relieve arthritis pressure and even help treat brain cancer by pushing drugs quickly through the brain following surgery.
Lewis suggests that his technology could lead to such innovations as cell phone-size devices that military medics could carry to cauterize bleeding wounds, or dental machines to enable the body to instantly absorb locally injected anesthetic.
Lewis miniaturized the ultrasound device by increasing its efficiency. Traditional devices apply 500-volt signals across a transducer to convert the voltage to sound waves, but in the process, about half the energy is lost. In the laboratory, Lewis has devised a way to transfer 95 percent of the source energy to the transducer.
His new devices are currently being tested in a clinical setting at Weill Cornell Medical College. Under the direction of Jason Spector, M.D, director of Weill Cornell's Laboratory for Bioregenerative Medicine and Surgery and assistant professor of plastic surgery, Peter Henderson, M.D., the lab's chief research fellow, is using one of the devices in experiments that aim to minimize injury that occurs when tissues do not receive adequate blood flow.
Their lab is performing tests in animals to determine whether low doses of the chemical hydrogen sulfide, known to be toxic at high doses, might be able to minimize such injury by slowing cellular metabolism.
Doctors are hopeful that the ultrasound from Lewis' portable device will enable hydrogen sulfide to be targeted to specific parts of the body, allowing doctors to use less of it, and cutting down on toxicity risks, Henderson explained.
The medical doors that Lewis' device may one day open are groundbreaking, Henderson said.
"People are realizing that when harnessed appropriately, you can use ultrasound to treat things as opposed to just diagnose them," Henderson said. "It's a wide-open field right now, and George's device is going to play a huge role in catalyzing the discovery of new and better therapeutic applications."
Cornell University
Ultrasound Device Current Events and Ultrasound Device News RSSUltrasound imaging now possible with a smartphone
Computer engineers at Washington University in St. Louis are bringing the minimalist approach to medical care and computing by coupling USB-based ultrasound probe technology with a smartphone, enabling a compact, mobile computational platform and a medical imaging device that fits in the palm of a hand.
SCAN: Delivering bone disorder diagnosis, fracture healing
The fight against bone disorders that affect millions of Americans will soon receive a boost from an ultrasound device being developed by space biomedical researchers. The technology under development will allow early prediction of bone disorders such as osteoporosis and guided acceleration of fracture healing.
Nanomedical approach targets multiple cancer genes, shrinks tumors more effectively
Nanoparticles filled with a drug that targets two genes that trigger melanoma could offer a potential cure for this deadly disease, according to cancer researchers.
Endoscopic ultrasound highly accurate in evaluating ambiguous radiographic findings of the pancreas
Researchers from St. Louis University School of Medicine in Missouri report that EUS and EUS-FNA is 99.1 percent accurate in diagnosing pancreatic neoplasms (abnormal growths or tumors) in patients who were referred for endoscopic ultrasound (EUS) because of CT and/or MRI reports of two common, though somewhat ambiguous findings - enlargement of head of pancreas (HOP) or dilation of the pancreatic duct (PD).
Engineers develop way of detecting problems with artificial hip joints
A more efficient way of detecting loosened artificial hip implants, which affect thousands of people every year, has been developed.
3-D ultrasound scanner provides in-depth view of the brain
Biomedical engineers at Duke's Pratt School of Engineering have adapted a three-dimensional ultrasound scanner that might guide minimally invasive brain surgeries and provide better detection of a brain tumor's location.
3-D ultrasound scanner could guide robotic surgeries
Duke University engineers have shown that a three-dimensional ultrasound scanner they developed can successfully guide a surgical robot.
Ultrasound may help regrow teeth
Hockey players, rejoice! A team of University of Alberta researchers has created technology to regrow teeth—the first time scientists have been able to reform human dental tissue.
Ultrasound - a diagnostic tool for space, sports and more
An ultrasound training program for non-physicians gives astronauts and sports trainers the tools to assess injuries using real-time remote assistance from medical experts.
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Sonic Relief Portable Ultrasound Device by Sonic Relief This unit is great for reducing inflammation, increasing range of motion, and reducing pain for conditions including: * Bursitis * Carpal Tunnel Syndrome * Foot/Toe Sprains/Achilles Sprains and Strains * Ankle/Knee/Calf/Neck Sprains and Strains * Hip Sprains, Thigh Sprains/Strains * Ligament Strains * OsteoArthritis * Post - Exercise Recovery (when the workout goes a bit too far) * Plantar Fascitis (Heel Spurs) * Rheumatoid Arthritis * Sciatica (Nerve Root Pain) * Shoulder Capulitis * Supraspinatus / Infraspinatus * Tarsal Tunnel Syndrome * Tendonitis (acute or chronic) * Tennis Elbow, Golfers Elbow, * Tension Headaches * Upper and Lower Back Strains * Wrist/ Hand/Elbow/Shoulder Sprains and Strains |
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Premium Portable Ultrasonic Ultrasound Device by Koalaty Features of the Portable Ultrasound: Portable ultrasound unit features three power settings. Generates deep heat within body tissues for treatment of selected medical conditions, such as pain relief, muscle spasms and joint contractures. Not for the treatment of malignancies. Comes in a hard-sided, protective, plastic case. Includes AC adapter, ultrasound gel and instruction booklet. HCPCS E1399 Product Specifications: Waveform: Pulse. Output Frequency: 1 MHz. Pulse Width: 5.4 ?s. Repetition Rate: 150 Hz. Output Intensities: Low (1.6 W), Medium (2.6 W) and High (4.6 W). Duty Cycles: Low (7%), medium (15%) and high (30%). Maximum Power: 8 W, temporal. Timer: 30-minute with automatic shut-off. |
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Ultrasound Gel by Triad Disposables Ultrasound Gel Conducts broad range of frequencies. Prevents air from intruding between transducer and skin. Water-soluble (for easy clean-up). Safe for ultrasound equipment and electrodes. Non-irritating and hypoallergenic. Non-staining blue tint allows technicians to easily monitor coverage. 8 oz. coned spout controls application. |
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