OBJECTIVE: To investigate whether repeated administration of modulating frequency transcutaneous electric nerve stimulation (TENS) prevents development of analgesic tolerance. DESIGN: Knee joint inflammation (3% carrageenan and kaolin) was induced in rats. Either mixed or alternating frequency was administered daily (20min) for 2 weeks to the inflamed knee under light halothane anesthesia (1%-2%). SETTING: Laboratory. ANIMALS: Adult male Sprague-Dawley rats (N=36). INTERVENTION: Mixed- (4Hz and 100Hz) or alternating- (4Hz on 1 day; 100Hz on the next day) frequency TENS at sensory intensity and 100micros pulse duration. MAIN OUTCOME MEASURES: Paw and joint withdrawal thresholds to mechanical stimuli were assessed before induction of inflammation, and before and after daily application of TENS. RESULTS: The reduced paw and joint withdrawal thresholds that occur 24 hours after the induction of inflammation were significantly reversed by the first administration of TENS when compared with sham treatment or to the condition before TENS treatment, which was observed through day 9. By the tenth day, repeated daily administration of either mixed- or alternating-frequency TENS did not reverse the decreased paw and joint withdrawal thresholds. CONCLUSIONS: These data suggest that repeated administration of modulating frequency TENS leads to a development of opioid tolerance. However, this tolerance effect is delayed by approximately 5 days compared with administration of low- or high-frequency TENS independently. Clinically, we can infer that a treatment schedule of repeated daily TENS administration will result in a tolerance effect. Moreover, modulating low and high frequency TENS seems to produce a better analgesic effect and tolerance is slower to develop.
OBJECTIVE: To investigate whether repeated administration of modulating frequency transcutaneous electric nerve stimulation (TENS) prevents development of analgesic tolerance. DESIGN:Knee joint inflammation (3% carrageenan and kaolin) was induced in rats. Either mixed or alternating frequency was administered daily (20min) for 2 weeks to the inflamed knee under light halothane anesthesia (1%-2%). SETTING: Laboratory. ANIMALS: Adult male Sprague-Dawley rats (N=36). INTERVENTION: Mixed- (4Hz and 100Hz) or alternating- (4Hz on 1 day; 100Hz on the next day) frequency TENS at sensory intensity and 100micros pulse duration. MAIN OUTCOME MEASURES: Paw and joint withdrawal thresholds to mechanical stimuli were assessed before induction of inflammation, and before and after daily application of TENS. RESULTS: The reduced paw and joint withdrawal thresholds that occur 24 hours after the induction of inflammation were significantly reversed by the first administration of TENS when compared with sham treatment or to the condition before TENS treatment, which was observed through day 9. By the tenth day, repeated daily administration of either mixed- or alternating-frequency TENS did not reverse the decreased paw and joint withdrawal thresholds. CONCLUSIONS: These data suggest that repeated administration of modulating frequency TENS leads to a development of opioid tolerance. However, this tolerance effect is delayed by approximately 5 days compared with administration of low- or high-frequency TENS independently. Clinically, we can infer that a treatment schedule of repeated daily TENS administration will result in a tolerance effect. Moreover, modulating low and high frequency TENS seems to produce a better analgesic effect and tolerance is slower to develop.
Authors: Mayara A Menezes; Thaís A B Pereira; Leonardo M Tavares; Belissa T Q Leite; Antônio G R Neto; Leury M S Chaves; Lucas V Lima; Marzo E Da Silva-Grigolleto; Josimari M DeSantana Journal: Eur J Appl Physiol Date: 2018-07-05 Impact factor: 3.078
Authors: Carol Grace T Vance; Barbara A Rakel; Nicole P Blodgett; Josimari Melo DeSantana; Annunziato Amendola; Miriam Bridget Zimmerman; Deirdre M Walsh; Kathleen A Sluka Journal: Phys Ther Date: 2012-03-30
Authors: Brian Noehren; Dana L Dailey; Barbara A Rakel; Carol G T Vance; Miriam B Zimmerman; Leslie J Crofford; Kathleen A Sluka Journal: Phys Ther Date: 2014-09-11