View clinical trials related to Dyspareunia.
Filter by:The purpose of this study is to evaluate the acceptability and effectiveness of two tools that may help address the management of deep dyspareunia: 1) A phallus length reducer (PLR, brand name: Ohnut), consisting of 4 interconnected silicone rings worn externally over the penetrating object to reduce pain with deep penetration by allowing adjustable limitation of penetration depth, and 2) A vaginal insert for at home self-assessment of the extent and severity of deep dyspareunia.
The regulation of clitoral vascularization by sex steroids is still under-investigated. We aimed to explore the effects of 6 months transdermal Testosterone (T) therapy on clitoral color Doppler ultrasound (CDU) parameters in pre- and postmenopausal women with female sexual dysfunction (FSD). In order to do that, we retrospectively recruited n=81 women with FSD, divided into 4 groups according to different treatments followed as per clinical practice, for 6 months: transdermal systemic 2% T gel; local estradiol ovules; local non-hormonal moisturizers; transdermal T plus local estrogens. Our main hypothesis is that systemic T treatment is able to positively modulate clitoral blood flow in basal conditions, specifically to increase clitoral artery Peak systolic velocity (PSV).
Dyspareunia, or pain experienced by women during penetrative sexual activities, affects the psychological and sexual health of more than one in five Canadian women [1], yet its pathophysiology is poorly understood [2-4] and evidence for management approaches is limited.[5] It is thought that pelvic floor muscle (PFM) dysfunction is implicated in many forms of dyspareunia, while the nature and aetiology of this involvement remain largely unknown. The goal of this study is to understand if and how PFM dysfunction contributes to the pain experienced by women with provoked vestibulodynia (PVD), the most common cause of dyspareunia. This goal will be achieved through implementing an innovative and comprehensive approach to measuring the neuromuscular function of the PFMs. Understanding the pathophysiology of PVD is essential to the development of effective interventions to improve the health and quality of life of the many Canadian women who suffer from dyspareunia.
Superficial dyspareunia represents a major health problem especially for the newly wed couples. Pulsed radiofrequency for pudendal nerve is a non-neurolytic neuromodulatory method that is effective in relief of this type of pain. Objectives: to evaluate the efficacy of bilateral pudendal nerve fluoroscopic guided pulsed radiofrequency in treatment of intractable non-organic dyspareunia, and compare between trans-gluteal and transvaginal approaches regarding patient comfort and satisfaction.
Gynecological cancers represent more than half of female cancers. It has been clearly established that cancer survivors suffer from important health issues such as pain during sexual intercourse (dyspareunia) and sexual dysfunctions which sorely impact their quality of life. Although it affects more than 63% of cancer survivors, the available treatments remain limited and poorly studied. Cancer survivors are thus confronted with these health issues as well as relationship difficulties and psychological consequences, with limited treatment avenues. Addressing pelvic floor muscle dysfunctions and loss of vaginal elasticity, pelvic floor physiotherapy was shown to be effective in reducing or even alleviating dyspareunia and improving sexual function. Until now, no study investigated this treatment in gynecological cancer survivors with dyspareunia. Therefore, there is a need to examine pelvic floor physiotherapy to determine whether or not gynecological cancer survivors with dyspareunia could benefit from this treatment. The objectives of this single-arm mixed-method study are to evaluate the acceptability and feasibility of a physiotherapy treatment in gynecological cancer survivors suffering from dyspareunia and to explore treatment effects. This single-arm study using mixed methods will involve three data collections (pre- and post-treatment assessments). These assessments will be carried out by physiotherapists. Participants will receive physiotherapy treatment weekly in individual 60-minute sessions for 12 weeks. Thirty-one gynecological cancer survivors with vulvovaginal pain during sexual intercourse for at least 3 months will be recruited. The results of this study will bring new information regarding physiotherapy treatment for this population in preparation for a definitive randomized controlled trial.
The aim of this study was to explore the effect of neural therapy on postoperative pain and discomfort such as abdominal swelling; and gynecologic symptoms such as dysmenorrhea, dyspareunia, amount of menstrual bleeding and vaginitis. It also aimed to find out any possible links between the clinical changes and pathophysiologic mechanisms. One hundred and thirteen patients were randomly divided into two groups (neural therapy and control). Postoperative first day, neural therapy was applied to the T10 to S4 dermatomes and utero-vaginal ganglion in random with local anesthetic agent. All patients were recalled one year after the treatment. The visual analog scale (VAS) were noted in both groups, also discomfort and gynecologic symptoms are recorded.
This randomized, controlled trial will evaluate hybrid fractional laser treatment for vulvovaginal atrophy in breast cancer survivors and menopausal females
Open label study at a single research center. Subjects meeting inclusion and exclusion criteria will receive 6.5 mg prasterone vaginal inserts daily for twenty weeks. A physical examination and vulvoscopy with photography of the vulva, vestibule, urethral meatus and vagina will be performed at baseline and every 4 weeks for 20 weeks. Pain diaries will be completed between visits.
This randomized pilot trial studies how well fractional carbon dioxide (CO2) laser therapy works in minimizing genitourinary syndrome of menopause (GSM) in gynecological cancer survivors. Fractional CO2 laser therapy may reduce symptoms of GSM in survivors of gynecologic cancers.
This pilot clinical trial studies how well fraction carbon dioxide (CO2) laser therapy works in treating vaginal atrophy in patients with breast cancer. Fraction CO2 laser therapy uses intense beams of light to cut, burn, or destroy tissue and may remodel vaginal tissue and direct controlled thermal damage of vaginal mucosa.