Indie Garwood, PhD - Time‐Frequency Analysis of Increases in Vaginal

Journal article

Indie C. Rice, Lauren L. Zimmerman, Shani E. Ross, M. Berger, T. Bruns
Neuromodulation (Malden, Mass.), 2017

Cite

APA Click to copy
Rice, I. C., Zimmerman, L. L., Ross, S. E., Berger, M., & Bruns, T. (2017). Time‐Frequency Analysis of Increases in Vaginal Blood Perfusion Elicited by Long‐Duration Pudendal Neuromodulation in Anesthetized Rats. Neuromodulation (Malden, Mass.).

Chicago/Turabian Click to copy
Rice, Indie C., Lauren L. Zimmerman, Shani E. Ross, M. Berger, and T. Bruns. “Time‐Frequency Analysis of Increases in Vaginal Blood Perfusion Elicited by Long‐Duration Pudendal Neuromodulation in Anesthetized Rats.” Neuromodulation (Malden, Mass.) (2017).

MLA Click to copy
Rice, Indie C., et al. “Time‐Frequency Analysis of Increases in Vaginal Blood Perfusion Elicited by Long‐Duration Pudendal Neuromodulation in Anesthetized Rats.” Neuromodulation (Malden, Mass.), 2017.

BibTeX Click to copy

@article{indie2017a,
  title = {Time‐Frequency Analysis of Increases in Vaginal Blood Perfusion Elicited by Long‐Duration Pudendal Neuromodulation in Anesthetized Rats},
  year = {2017},
  journal = {Neuromodulation (Malden, Mass.)},
  author = {Rice, Indie C. and Zimmerman, Lauren L. and Ross, Shani E. and Berger, M. and Bruns, T.}
}

Abstract

Female sexual dysfunction (FSD) affects a significant portion of the population. Although treatment options for FSD are limited, neuromodulation for bladder dysfunction has improved sexual function in some women. A few studies have investigated peripheral neuromodulation for eliciting changes in vaginal blood flow, as a proxy for modulating genital sexual arousal, however results are generally transient. Our central hypothesis is that repeated or extended‐duration pudendal nerve stimulation can elicit maintained vaginal blood flow increases.