The appearance of levator ani muscle abnormalities in magnetic resonance images after vaginal delivery.
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OBJECTIVE: To describe the appearance and occurrence of abnormalities in the levator ani muscle seen on magnetic resonance imaging (MRI) in nulliparous women and in women after their first vaginal birth. METHODS: Multiplanar proton density magnetic resonance images were obtained at 0.5-cm intervals from 80 nulliparous and 160 vaginally primiparous women. These had been previously obtained in a study of stress incontinence, and half the primiparas had stress incontinence. All scans were reviewed independently by at least two examiners blinded to parity and continence status. RESULTS: No levator ani defects were identified in nulliparous women. Thirty-two primiparous women (20%) had a visible defect in the levator ani muscle. Defects were identified in the pubovisceral portion of the levator ani in 29 women and in the iliococcygeal portion in three women. Within the pubovisceral muscle, both unilateral and bilateral defects were found. The extent of abnormality varied from one individual to the next. Of the 32 women with defects, 23 (71%) were in the stress incontinent group. CONCLUSION: Abnormalities in the levator ani muscle are present on MRI after a vaginal delivery but are not found in nulliparas. (+info)
Motor evoked potentials from the pelvic floor in patients with multiple sclerosis.
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The use of motor evoked potentials (MEPs) to study the integrity of pelvic floor motor innervation is poorly described in the literature. This study evaluated the clinical use of pelvic floor MEPs in 16 women with multiple sclerosis. Lower urinary tract dysfunction was assessed with urodynamic investigations. Transcutaneous magnetic stimulation was applied over the motor cortex and spinal roots, and MEPs were recorded from the puborectalis, the external urethral sphincter, and the abductor hallucis muscles. In many patients, responses from the pelvic floor muscles could not be evoked, and central motor conduction times for the puborectalis motor pathways could only be calculated in 56%. There was a poor correlation of abnormal conduction to lower urinary tract dysfunction. It is concluded, that unevokable responses from pelvic floor muscles in a patient with multiple sclerosis should be interpreted with care, and that pelvic floor MEPs have a limited clinical value in the investigation of suspected demyelinating disease. (+info)
Urinary incontinence. Non-surgical management by family physicians.
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OBJECTIVE: To review current evidence on conservative management of urinary incontinence (UI) by family physicians. QUALITY OF EVIDENCE: Articles were sought through MEDLINE, EMBASE, Cochrane Database of Systematic Reviews, CINAHL, PsycLit, ERIC, two consensus meetings, and review of abstracts presented at urology meetings. References of these articles were searched for relevant trials. Strong evidence supports bladder training, pelvic floor exercises, and some medications, but only fair evidence supports fluid adjustment, caffeine reduction, and stopping smoking. Weight loss and exercise are supported by expert opinion only. Consensus opinion is that, whenever possible, conservative management should be considered first. MAIN MESSAGE: Good evidence shows that initial management by primary care physicians is effective. After basic assessment and tests, strategies such as bladder retraining, pelvic floor exercises, and lifestyle modifications, augmented by appropriate medications, can be successful. If initial strategies are unsuccessful, patients can be referred. CONCLUSION: More than a million Canadians suffer from UI. In almost all cases, family physicians are the first health professionals contacted by patients. Basic assessment and conservative management can go far to ameliorate the problem. (+info)
Approach to urinary incontinence in women. Diagnosis and management by family physicians.
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OBJECTIVE; To outline an approach to diagnosis and management of the types of urinary incontinence seen by family physicians. SOURCES OF INFORMATION: Recommendations for diagnosis are based on consensus guidelines. Treatment recommendations are based on level I and II evidence. Guidelines for referral are based on the authors' opinions and experience. MAIN MESSAGE: Diagnoses of stress, urge, or mixed urinary incontinence are easily established in family physicians' offices by history and gynecologic examination and sometimes a urinary stress test. There is little need for formal diagnostic testing. Management by family physicians (without need for specialist referral) includes lifestyle modification, pelvic floor muscle strengthening, bladder retraining, and pharmacotherapy with muscarinic receptor antagonists. Patients with pelvic organ prolapse might require specialist referral for consideration of pessaries or surgery, but family physicians can provide follow-up care. Women with more complex problems, such as severe prolapse or failed continence surgery, require referral. CONCLUSION: Urinary incontinence is a common condition in women. In most cases, it can be diagnosed and managed effectively by family physicians. (+info)
Three-dimensional ultrasound imaging of the pelvic floor: the effect of parturition on paravaginal support structures.
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OBJECTIVE: It is assumed that support of the female urethra and bladder is maintained by paraurethral and paravaginal fascial structures, with hypermobility resulting from delivery-related trauma. This study used three-dimensional translabial ultrasound to assess these structures and document peripartal changes. DESIGN: A clinical observational pilot study was performed on 26 nulliparous women recruited in the third trimester of pregnancy. They underwent translabial two- and three-dimensional ultrasound. Twenty-three women were again seen 2-5 months postpartum. The assessor was blinded against two-dimensional ultrasound and delivery data. Vaginal tenting was rated as being present, indeterminate or absent at each of three levels, and was correlated with bladder neck descent (BND) and urethral rotation on Valsalva maneuver. RESULTS: Tenting was visible at all levels in 21 of 26 women antepartally. In three women tenting was absent on one level; in two cases tenting was rated indeterminate. There was no significant difference in BND between women with visible tenting and those without. The BND range for women with intact tenting was 5.4-41.6 mm. Twenty-one of the 26 women were included in the postpartum analysis. Of these, obvious peripartal changes were documented in five. Loss of tenting did not correlate significantly with changes in BND. CONCLUSIONS: Most nulliparous women showed evidence of intact paravaginal support structures. Tenting occurred in women with widely varying BND, implying that excess bladder neck mobility may be due to increased fascial compliance. Postnatally, fascial disruption was suspected in a minority of patients only. In some women delivery-related changes may be due to attenuation rather than disruption of structures. (+info)
Multiple luteinizing hormone receptor (LHR) protein variants, interspecies reactivity of anti-LHR mAb clone 3B5, subcellular localization of LHR in human placenta, pelvic floor and brain, and possible role for LHR in the development of abnormal pregnancy, pelvic floor disorders and Alzheimer's disease.
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Distinct luteinizing hormone receptor (LHR) protein variants exist due to the posttranslational modifications. Besides ovaries, LHR immunoreactivity (LHRI) was also found in other tissues, such as the brain, fallopian tube, endometrium, trophoblast and resident tissue macrophages. The 3B5 mouse monoclonal antibody was raised against purified rat LHR. In rat, porcine and human ovaries, the 3B5 identified six distinct LHR bands migrating at approximately 92, 80, 68, 59, 52 and 48 kDa. Characteristic LHRI was detected in rat, human and porcine corpora lutea. During cellular differentiation, subcellular LHR distribution changed from none to granular cytoplasmic, perinuclear, surface, nuclear and no staining. There were also differences in vascular LHR expression--lack of LHRI in ovarian vessels and strong staining of vessels in other tissues investigated. In normal human term placentae, villous LHRI was associated with blood sinusoids and cytotrophoblast cells, and rarely detected in trophoblastic syncytium. In all abnormal placentae, the LHRI of sinusoids was absent, and syncytium showed either enhanced (immature placental phenotypes) or no LHRI (aged placental phenotype). LHRI in human brain was identified in microglial cells (CD68+ resident macrophages). Protein extracts from human vaginal wall and levator ani muscle and fascia showed strong approximately 92 and 68 kDa species, and LHRI was detected in smooth muscle cells, fibroblasts, resident macrophages and nuclei of skeletal muscle fibers. Our observations indicate that, in contrast to the theory on the role of vascular hormone receptors in preferential pick up of circulating hormones, there is no need to enhance selective pick up rather only prevent LH/CG transport to inappropriate sites. Abnormal placental LHR expression may play a role in the development of abnormal pregnancy. Expression of LHR in the pelvic floor compartments suggests that high LH levels in postmenopausal women may contribute to the pelvic floor relaxation and increased incidence of pelvic floor disorders. Since chorionic gonadotropin increases secretion of a variety of cytokines by monocytes, and induces their inflammatory reaction and phagocytic activity, high LH levels in aging individuals may also activate microglia (mononuclear phagocyte system in the central nervous system) and contribute to the development of Alzheimer's disease and other inflammation-mediated neurodegenerative diseases. (+info)
Introital and transvaginal ultrasound as the main tool in the assessment of urogenital and pelvic floor dysfunction: an imaging panel and practical approach.
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This article reviews the different applications of ultrasound in benign urogynecological diseases. The findings presented here were obtained by introital and transvaginal ultrasound, both of which can be performed with the same equipment (5-7-MHz sector transducer, emission angle of at least 90 degrees; for introital sonography, the transducer is placed over the external urethral orifice with the transducer axis corresponding to the body axis). Female voiding dysfunction, including urge symptoms, recurrent urinary tract infections and urinary incontinence, may occur secondary to morphological and topographical changes of the urogenital organs. Findings such as urethral diverticula, periurethral masses, funneling of the urethra and distension cystoceles are identified by introital ultrasound. Transvaginal ultrasound enables the detection of pathologies of the bladder and uterus including its appendages. Ultrasound as part of the diagnostic work-up of stress urinary incontinence and genitourinary prolapse allows for the morphological and dynamic assessment of the lower urinary tract. It is possible, for example, to classify sonographically identified changes of the endopelvic fascia as lateral (distraction cystocele, funneling of the urethra) and central (pulsation cystocele) defects as well as to determine the reactivity of the pelvic floor muscles. Ultrasound has replaced radiography in yielding information on the abnormal morphology of the urogenital organs, which should be taken into account in planning the treatment of urogynecological conditions. (+info)
Innervation of the levator ani and coccygeus muscles of the female rat.
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In humans, the pelvic floor skeletal muscles support the viscera. Damage to innervation of these muscles during parturition may contribute to pelvic organ prolapse and urinary incontinence. Unfortunately, animal models that are suitable for studying parturition-induced pelvic floor neuropathy and its treatment are rare. The present study describes the intrapelvic skeletal muscles (i.e., the iliocaudalis, pubocaudalis, and coccygeus) and their innervation in the rat to assess its usefulness as a model for studies of pelvic floor nerve damage and repair. Dissection of rat intrapelvic skeletal muscles demonstrated a general similarity with human pelvic floor muscles. Innervation of the iliocaudalis and pubocaudalis muscles (which together constitute the levator ani muscles) was provided by a nerve (the "levator ani nerve") that entered the pelvic cavity alongside the pelvic nerve, and then branched and penetrated the ventromedial (i.e., intrapelvic) surface of these muscles. Innervation of the rat coccygeus muscle (the "coccygeal nerve") was derived from two adjacent branches of the L6-S1 trunk that penetrated the muscle on its rostral edge. Acetylcholinesterase staining revealed a single motor endplate zone in each muscle, closely adjacent to the point of nerve penetration. Transection of the levator ani or coccygeal nerves (with a 2-week survival time) reduced muscle mass and myocyte diameter in the iliocaudalis and pubocaudalis or coccygeus muscles, respectively. The pudendal nerve did not innervate the intrapelvic skeletal muscles. We conclude that the intrapelvic skeletal muscles in the rat are similar to those described in our previous studies of humans and that they have a distinct innervation with no contribution from the pudendal nerve. (+info)