View clinical trials related to Fibroid Uterus.
Filter by:The purpose of this study is to evaluate the effectiveness of a comprehensive approach to anesthesia in patients with uterine myoma using pre-incisional infiltration of the anterior abdominal wall and presacral blockade of the hypogastric nerve plexus during laparoscopic myomectomy
This study aims to investigate the efficacy of temporary clipping of the uterine artery and utero-ovarian ligament during robotically assisted myomectomy (RAM) for uterine fibroids. While RAM is increasingly used for myomectomy, bleeding control remains challenging. Temporary clipping of arteries has shown promise in conventional laparoscopy but has not been studied in RAM. This randomized controlled trial will assess primary endpoints such as estimated blood loss, need for transfusion, and hemoglobin drop, alongside secondary outcomes like complication rates and operation time.
The PLUM Study is a randomized, double-blinded, 2-arm, parallel-group, placebo-controlled trial is designed to compare the efficacy of letrozole versus placebo on leiomyoma-related symptoms and quality of life as well as leiomyoma and uterine size.
Rationale: 20-30% of women of reproductive age have leiomyomas, causing symptoms like dysmenorrhea and pelvic pain which both effect quality of life.[1-4] The natural behaviour of uterine fibroids is to grow between 7 to 84% in 3 to 12 months.[5-7] Non-surgical options to treat uterine fibroids are non-hormonal or hormonal medical therapies and minimally invasive interventional radiologic techniques. Exogenous hormone exposure including COC, POP or Mirena give in conflicting literature minimal growth to 60% volume shrinkage. [8, 9]] Selective progesterone receptor modulators (SPRM) eg. Esmya and GnRH-analogues intent to reduce fibroids volume after several months; GnRH-agonists provide a 31-63% shrinkage and less frequently applied GnRH-antagonists 14.3 - 42.7%.[10-16] Esmya gives a volume reduction varying between 10 to 48%.[17] Radiological technique like embolization decreases dominant fibroid volume with 40-70%.[1, 18-22] UAE fails in case of devascularized or minimal vascularized fibroids.[23] Ablation techniques show shrinkage up to a maximum of 90% depending e.g. which treatment.[24-41] Clear prognostic models to predict the effect on fibroid related symptoms and volume reduction are lacking. We postulate higher vascularity to be related to 1) larger fibroid growth during the natural course or during exogenous hormonal exposure; 2) more effective shrinkage during progestogens, GnRH-analogues, SPRM and UAE; but 3) less effective after ablation therapy. Objectives: To study the value of sonographic features including vascularity in the prediction of fibroids' volume change at follow-up during their (1) natural course or (2) long-term use of exogenous hormone exposure; after initiation of (3) SPRM or GnRH-analogues treatment or (4) exogenous hormonal exposure; or after (5) embolization or (6) ablation therapy. Study design: Observational cohort study during 5 years in the outpatient clinic. Patientselection: Women ≥18 years with 1 to 3 fibroids with a maximal diameter ≥ 3cm and ≤ 10cm diagnosed on ultrasound examination, planned for expectant or non-surgical management. Study objectives: The primary outcome is volume reduction after 3 to 12 month depending on the study group. The secondary outcome include UFS-QOL, EQ-5D score, PBAC, hemoglobin level, treatment failure rate and (re)intervention rate. Nature and extent of the burden and risks associated with participation, benefit and group relatedness: No risks are associated with the participation of this observational study since the outcome measures include vaginal ultrasound, questionaires and a hemoglobin test. These measurements are also applied in daily practice, the burden for the patient is time. Extra in the context of the study are questionnaires which last a maximum of 5-15 minutes. The treatment considering the fibroid(s) is independent of this research.
The purpose of this research study is to determine if low-dose (i.e., a fraction of what is commonly used) carboprost (Hemabate) helps facilitate fibroid removal (myomectomy).
To determine if opioid consumption postoperatively among patients undergoing non-emergent laparotomy by the gynecologic oncology service who receive intrathecal morphine with intraoperative lidocaine (IML) infusion are lower than patients who have epidural anesthesia with PCA (EPCA).
This is a Double-blinded randomized placebo-controlled trial based at Eastern Virginia Medical School. Subjects who are identified in clinic having menorrhagia or abnormal Uterine bleeding (AUB) due to uterine fibroids and meet inclusion criteria based on the ultrasound (US) or Magnetic Resonance Imaging (MRI), aged 18-45 undergoing laparoscopic or Robotic assisted myomectomies. A total of 50 women in each arm of the study with symptomatic fibroids. Patients will be randomized to receive a single IV bolus injection of TXA 30mg/kg in 50ml of normal saline (intervention group) versus an IV bolus injection of normal saline of equivalent volume (placebo group) 15 minutes prior to initial surgical incision.
Postoperative ileus (POI) is a transient loss of coordinated peristalsis precipitated by surgery and exacerbated by opioid pain medication.So,how to provide patients with ideal analgesia without affecting the recovery of postoperative gastrointestinal function?This was a prospective randomized controlled study. A total of 105 patients who were scheduled for laparoscopic hysterectomy were randomly selected from The First Affiliated Hospital with Nanjing Medical University by random number table. These patients were randomly divided into three groups: fentanyl(F) group, oxycodone(O) group and butorphanol(B) group.
The study team will be randomizing patients presenting for open myomectomy to either received transversus abdominal plane blocks with either liposomal bupivacaine or standard bupivacaine. The study team will be analyzing the impact of local anesthetic on opiate consumption as the investigator's primary endpoint with other secondary endpoints.
There are limited treatment options for management of dysmenorrhea, and the physiological processes they affect are not completely understood. For example, NSAIDs are effective in reducing menstrual pain in some women by inhibition of prostaglandin synthesis, but whether those effects are mediated by affecting contractility, perfusion, or hypoxemia is unknown. Understanding how these drugs relieve menstrual pain (and why they fail) would be of substantial clinical significance. Given the foregoing, Two Specific Aims are proposed: Aim #1: Characterize menstrual pain phenotypes associated with impairments in myometrial activity, perfusion, and/or oxygenation. Continuous MRI scans of the uterus will be performed with simultaneous measurement of self-reported pain in healthy women and those experiencing menstrual pain. The investigators will include cohorts of women with imaging diagnosed leiomyoma and surgically-confirmed endometriosis to evaluate the contribution of structurally identifiable factors. Based on preliminary data, the investigators anticipate finding four phenotypes with menstrual pain related to: 1) myometrial activity, 2) inadequate perfusion and/or oxygenation, 3) a combination of phenotypes 1 & 2, and 4) a non-uterine source. Aim #2: Evaluate the effects of naproxen on myometrial activity, perfusion, and/or oxygenation with respect to pain relief. In women with primary dysmenorrhea, the investigators will acquire pelvic MRI scans and evaluate self-reported menstrual cramping pain before and after administration of randomized naproxen or placebo. Naproxen could principally affect one or more potential sources of uterine pain such as myometrial activity, perfusion, and/or oxygenation. The investigators will corroborate preliminary data findings, which suggest menstrual phenotypes with myometrial activity will be more likely to respond. Conversely, Aim 2 will also elucidate the mechanisms responsible for inadequate pain relief from naproxen. Bioavailability of naproxen levels and other molecules associated with NSAID-resistance will be evaluated from the serum of participants after taking naproxen using HPLC-MS.