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Home SCIENCE NEWS Biology

High-frequency spinal cord stimulation shows improved longer lasting pain relief

April 28, 2022
in Biology
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Spinal cord stimulation (SCS) for chronic pain involves delivering low levels of electricity directly into the spinal cord using an implanted device, which modifies or blocks nerve activity to minimize the sensation of pain reaching the brain. The approach is most often used after nonsurgical pain treatment options have failed to provide sufficient relief.

Imanuel Lerman, University of California San Diego School of Medicine

Credit: UC San Diego Health Sciences

Spinal cord stimulation (SCS) for chronic pain involves delivering low levels of electricity directly into the spinal cord using an implanted device, which modifies or blocks nerve activity to minimize the sensation of pain reaching the brain. The approach is most often used after nonsurgical pain treatment options have failed to provide sufficient relief.

The underlying mechanisms of how SCS works are not fully understood, but in a new paper published in the April 28, 2022 online issue of the journal Bioelectronic Medicine, a research team led by scientists at University of California San Diego School of Medicine report high-frequency SCS proved more effective at improving perceived pain reduction (PPR) than low-frequency SCS in patients studied, and that there was some variation in PPR between male and female patients.

Low-frequency SCS (50 Hz) was originally approved by the U.S. Food and Drug Administration (FDA) as a treatment for intractable back and leg pain in 1989. In 2015, the FDA approved high-frequency SCS (10,000 Hz), which delivers electrical stimulation pulses that are shorter in duration, lower in amplitude and do not induce paresthesia, the abnormal sensation of tingling or prickling.

The newly published retrospective study examined 237 patients who had received SCS treatment between 2004 and 2020: 94 patients (40 females, 54 males) who received HF-SCS and 143 patients (70 females and 73 males) who received LF-SCS. At three and six months post-implantation, the researchers found that PPR across all patients improved compared to baseline, but HF-SCS produced greater PPR than LF-SCS. HF-SCS was also associated with less subsequent use of opioids to mitigate pain.

However, there were differences in the findings between sexes:

  • Male PPR, for example, was significantly better for HF-SCS at three and six months when compared to LF-SCS, while this was only true for females at the 6 month time point.
  • LF-SCS males used more opioids post-implantation and at six months while females used more opioids post-implantation, at three, six and tended to use more opiates at the 12-month time-point.

“Our work was sparked by a growing literature that demonstrate sex specific immune pathways differentially contribute to chronic pain processes,” said senior author Imanuel Lerman, MD, associate professor of anesthesiology and a pain management specialist at UC San Diego Health. “The observed parameter-specific (high versus low frequency) sex-based differences in spinal cord stimulation efficacy and opiate use are definitely intriguing. 

“It’s a first step in the right direction, but clearly more work needs to be done to carefully characterize sex specific pain regulatory pathways that may prove responsive to specific types of neuromodulation and or pharmaceutical therapies.”

Co-authors include: Rosalynn R.Z. Conic, Zabrina Reyes and Sopyda Yin, all at UC San Diego; Jacob Caylor, UC San Diego and Northwest Pain Care, Spokane, WA; Christina L. Cui, Duke University; and Eric Nelson, Pacific Western University of Health Sciences.

# # #



Journal

Bioelectronic Medicine

DOI

10.1186/s42234-022-00090-2

Article Publication Date

28-Apr-2022

Tags: cordhighfrequencyImprovedlastinglongerPainreliefshowsspinalstimulation
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