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- Title
Pulsed radiofrequency stimulation suppresses palmar hyperhidrosis in an animal study.
- Authors
Lin, Mu‐Lien; Huang, Tzu‐Rung; Kao, Ming‐Chien; Chiu, Hung‐Wei; Lin, Sheng‐Chieh; Chang, Fang‐Chia
- Abstract
Objectives Palmar hyperhidrosis (PH) exhibits excessive and unpredictable sweating. The most effective treatment for permanent cure is the ablation of thoracic sympathetic ganglia innervating hands. However, sympathectomy of T2 sympathetic ganglion by clipping or cauterization causes irreversible nerve damage, and results in a compensatory hyperhidrosis (CH). We herein used the pulsed radiofrequency (PRF) stimulation to reversibly block sympathetic ganglion to treat PH and avoid CH. Material and Methods A bipolar electrode was implanted into the right T2 sympathetic trunk by endoscopic surgery and PRF was delivered through the electrode. The humidity (%) of right palm was measured to indicate sweating level. Results Six out of 13 rats (46.2%) that received a 5-min PRF stimulation on the T2 sympathetic trunk showed a decrease in the right palm humidity during the surgery. PRF stimulation significantly reduced humidity from 69.17% ± 0.72% obtained from baseline condition to 66.93% ± 0.69%. The humidity reduction was also observed at 10 min after the PRF stimulation. We further evaluated the effect of PRF stimulation 1 week after surgery and found that the PRF stimuli reduced right hand humidity in 5 out of 8 rats (62.5%). PRF stimulation significantly reduced humidity from 66.11% ± 0.81% obtained from sham operation control to 63.62% ± 0.82%. The percentage of right hand humidity obtained 10 min after PRF stimulation was also reduced to 63.38% ± 0.80%. Anesthetics have no effect on humidity. Conclusions These results indicate that PRF stimulation of T2 sympathetic trunk reduces palm sweating in rats.
- Subjects
HYPERHIDROSIS treatment; SYMPATHECTOMY; ENDOSCOPIC surgery; CATHETER ablation; ANIMAL models in research
- Publication
Brain & Behavior, 2017, Vol 7, Issue 11, pn/a
- ISSN
2162-3279
- Publication type
Article
- DOI
10.1002/brb3.833