Study: Electrical Medical Device Helps Improve Muscle Strength
2025-02-21
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1Researchers recently reported new evidence from a study of a medical device placed inside the body, a spine-stimulating implant.
2Three people with a muscle-destroying disease got a little stronger after using the implant.
3They were able to stand and walk more easily because of electrical stimulation to their spinal cord.
4Marco Capogrosso is an assistant professor at the University of Pittsburg, or Pitt, who led the research.
5"These people were definitely not expecting an improvement," he said.
6Capogrosso said, "They were getting better and better," over the study that lasted one month.
7The implant was able to return some muscle function, at least temporarily.
8The implant was already being tested to treat paralysis in other patients.
9This new evidence suggests it might also aid diseases of the nervous system like spinal muscle atrophy, or SMA.
10SMA is a genetic disease that slowly destroys motor neurons, nerve cells in the spinal cord that control muscles.
11That leads muscles to waste away, especially in the legs, hips, and shoulders and sometimes those involved with breathing and swallowing. There is no cure.
12A gene therapy can save the lives of very young children with a severe form of the disease, and there are some medicines to slow the disease in older patients.
13Stimulating the spinal cord with low levels of electricity has long been used to treat chronic, or long-term, pain.
14Capogrosso's team also has tested it to help people paralyzed by strokes or spinal cord injury move their arms and legs with assistance.
15The system sends electrical signals to nerves that have stopped reacting.
16This has the effect of activating the muscles.
17Capogrosso wondered if that same technology might help patients with SMA by stimulating sensory nerves to signal damaged muscle cells causing them to move.
18The researchers at the University of Pittsburgh published their study in Nature Medicine.
19They implanted electrodes over the lower spinal cord of the three adults with SMA.
20Using the device did not return normal movement but with a few hours of spinal stimulation a week, all soon experienced improvements in muscle strength and function, the researchers wrote.
21Fifty-seven-year-old Doug McCullough took part in the study.
22"With a progressive disease you never get any better," he said, adding,
23"So having any improvement is just a really surreal and very exciting benefit."
24All three subjects increased how far they could walk in six minutes by the study's end.
25Capogrosso said they could walk farther because they got less tired and "even a person this many years into the disease can improve."
26Researchers found the improvements did not disappear as soon as the stimulator was turned off.
27But they did decrease a few months after the study ended.
28Neuroscientist Susan Harkema led similar studies of stimulation for spinal cord injuries while at the University of Louisville.
29She warned that the new study is small and did not last very long but said it was an important test of the device.
30She said it should be tested next with other muscle-degenerating diseases.
31Capogrosso said some small but longer studies are beginning.
32I'm Dorothy Gundy.
1Researchers recently reported new evidence from a study of a medical device placed inside the body, a spine-stimulating implant. 2Three people with a muscle-destroying disease got a little stronger after using the implant. They were able to stand and walk more easily because of electrical stimulation to their spinal cord. 3Marco Capogrosso is an assistant professor at the University of Pittsburg, or Pitt, who led the research. "These people were definitely not expecting an improvement," he said. Capogrosso said, "They were getting better and better," over the study that lasted one month. 4Returning muscle function 5The implant was able to return some muscle function, at least temporarily. The implant was already being tested to treat paralysis in other patients. This new evidence suggests it might also aid diseases of the nervous system like spinal muscle atrophy, or SMA. 6SMA is a genetic disease that slowly destroys motor neurons, nerve cells in the spinal cord that control muscles. That leads muscles to waste away, especially in the legs, hips, and shoulders and sometimes those involved with breathing and swallowing. There is no cure. A gene therapy can save the lives of very young children with a severe form of the disease, and there are some medicines to slow the disease in older patients. 7Stimulating the spinal cord with low levels of electricity has long been used to treat chronic, or long-term, pain. Capogrosso's team also has tested it to help people paralyzed by strokes or spinal cord injury move their arms and legs with assistance. The system sends electrical signals to nerves that have stopped reacting. This has the effect of activating the muscles. 8Capogrosso wondered if that same technology might help patients with SMA by stimulating sensory nerves to signal damaged muscle cells causing them to move. The researchers at the University of Pittsburgh published their study in Nature Medicine. 9They implanted electrodes over the lower spinal cord of the three adults with SMA. Using the device did not return normal movement but with a few hours of spinal stimulation a week, all soon experienced improvements in muscle strength and function, the researchers wrote. 10"You never get better" 11Fifty-seven-year-old Doug McCullough took part in the study. "With a progressive disease you never get any better," he said, adding, "So having any improvement is just a really surreal and very exciting benefit." 12All three subjects increased how far they could walk in six minutes by the study's end. 13Capogrosso said they could walk farther because they got less tired and "even a person this many years into the disease can improve." 14Researchers found the improvements did not disappear as soon as the stimulator was turned off. But they did decrease a few months after the study ended. 15Neuroscientist Susan Harkema led similar studies of stimulation for spinal cord injuries while at the University of Louisville. She warned that the new study is small and did not last very long but said it was an important test of the device. She said it should be tested next with other muscle-degenerating diseases. 16Capogrosso said some small but longer studies are beginning. 17I'm Dorothy Gundy. 18Lauran Neergaard reported this story for the Associated Press. Jill Robbins adapted it for Learning English. 19_____________________________________________________ 20Words in This Story 21stimulate - v. to make (something) more active 22implant - n. something placed in a person's body through a medical operation 23function -n. the work that something is designed to do 24paralysis -n. the condition of not being able to move muscles, especially those in the arms and legs 25neuron - n. a cell that carries messages between the brain and other parts of the body and that is the basic unit of the nervous system 26stroke -n. a serious medical condition caused by a loss of oxygen or blood flow to the brain when a blood vessel is blocked or bursts 27surreal - adj. very strange or unusual; having the quality of a dream 28degenerate - v. to change to a worse state or condition; to become worse, weaker, or less useful 29benefit -n. a good result from doing something 30What do you think of this story? Write to us in the Comments Section.