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Neuroscientists restore significant bladder control to 5 men with spinal cord injuries

Magnetic stimulation of lower spine eliminates need of catheter for up to 4 weeks

Date:
August 22, 2018
Source:
University of California - Los Angeles Health Sciences
Summary:
Magnetic stimulation of the lower spinal cord through the skin enabled five men with spinal-cord injuries to recover significant urination control for up to two weeks. The new approach could enhance patients' quality of life by increasing independence and reducing reliance on a catheter to empty the bladder.
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More than 80 percent of the 250,000 Americans living with a spinal cord injury lose the ability to urinate voluntarily after their injury. According to a 2012 study, the desire to regain bladder control outranks even their wish to walk again.

In a UCLA study of five men, neuroscientists stimulated the lower spinal cord through the skin with a magnetic device placed at the lumbar spine. The research is the first to show that the technique enables people with spinal-cord injuries to recover significant bladder control for up to four weeks between treatments. The findings were published Aug. 22 in Scientific Reports.

The treatment improved the men's quality of life by an average of 60 percent (according to a questionnaire they completed before and after the study). And if the technique is replicable on other people, it could help reduce the social stigma and health risks linked to frequent catheter use.

"We were excited to see a positive effect in all five patients after only four sessions of mild magnetic stimulation," said Dr. Daniel Lu, the study's principal investigator and an associate professor of neurosurgery at the David Geffen School of Medicine at UCLA. "The benefit persisted from two to four weeks, suggesting that the spinal cord's neural circuitry retains a 'memory' of the treatment."

The timing of the men's spinal-cord injuries ranged from five to 13 years ago.

People with spinal cord injuries must slide a narrow tube called a catheter into the bladder several times a day to drain urine. Patients whose injuries prevent use of their hands must depend on a caretaker to insert the catheter.

Relying on a catheter long-term can be dangerous, because the procedure can introduce bacteria that lead to urinary tract infections and permanent scarring. Bladder problems after spinal cord injuries can also lead to kidney failure and death. Lu hopes his laboratory's research will ultimately reduce those risks by eliminating the need for catheters.

Lu and his colleagues applied magnetic stimulation to the spinal cord to access the cellular machinery controlling urination. Doctors previously have used the same approach with the brain to improve nerve cell function for conditions ranging from depression to migraine.

"Most spinal cord injuries are not anatomically complete; the spinal cord retains a weak, residual connection with the brain," Lu said. "We are restoring bladder function by amplifying these faint signals and enhancing the spinal circuits' ability to respond to them."

Each participant underwent 15 minutes of weekly stimulation for four months. At first, the scientists saw no results. But after four sessions, the men began to experience measurable improvement.

"All five of the men regained the ability to urinate on their own during stimulation," Lu said. "In one case, the patient was able to completely stop using a catheter and empty his bladder several times a day, up to four weeks after his last treatment."

The ability to urinate at will improved in each patient. Four of the men still had to use a catheter at least once a day -- but that was still a significant drop from their average of more than six times a day before the treatment.

The patients' average bladder capacity increased from 244 millimeters to 404 millimeters, and the volume of urine they produced voluntarily rose from 0 to 1120 cubic centimeters per day.

The experiment built upon Lu's earlier research, in which he surgically implanted electrical stimulation devices in the spine to improve hand control in two people with cervical spinal cord injuries. While the concept for the new study is similar, Lu's team used magnetic stimulation because it's noninvasive, painless and less costly than an electrical implant.

Lu's laboratory plans to evaluate the approach with a larger number of men and women in a second study to gain a deeper understanding of how magnetic stimulation alters neural activity in the spinal cord. His team will also explore whether different stimulation patterns improve responses in patients who didn't benefit to the same degree as others in the study.

The magnetic stimulation device is FDA-approved for use in humans; however, its application for bladder rehabilitation is experimental.

The U.S. Department of Defense and H&H Evergreen Foundation funded the study. Lu's coauthors are Dr. Tianyi Niu, Dr. J.C. Leiter, Dr. Carol Bennett and Tina Keller, all of UCLA.


Story Source:

Materials provided by University of California - Los Angeles Health Sciences. Note: Content may be edited for style and length.


Journal Reference:

  1. Tianyi Niu, Carol J. Bennett, Tina L. Keller, J. C. Leiter, Daniel C. Lu. A Proof-of-Concept Study of Transcutaneous Magnetic Spinal Cord Stimulation for Neurogenic Bladder. Scientific Reports, 2018; 8 (1) DOI: 10.1038/s41598-018-30232-z

Cite This Page:

University of California - Los Angeles Health Sciences. "Neuroscientists restore significant bladder control to 5 men with spinal cord injuries." ScienceDaily. ScienceDaily, 22 August 2018. <www.sciencedaily.com/releases/2018/08/180822082648.htm>.
University of California - Los Angeles Health Sciences. (2018, August 22). Neuroscientists restore significant bladder control to 5 men with spinal cord injuries. ScienceDaily. Retrieved November 17, 2024 from www.sciencedaily.com/releases/2018/08/180822082648.htm
University of California - Los Angeles Health Sciences. "Neuroscientists restore significant bladder control to 5 men with spinal cord injuries." ScienceDaily. www.sciencedaily.com/releases/2018/08/180822082648.htm (accessed November 17, 2024).

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