Postcesarean pelvic floor dysfunction contributes to undisclosed psychosocial morbidity

OBJECTIVE: To estimate the prevalence and severity of postcesarean pelvic dysfunction. STUDY DESIGN: Using biopsychosocial interviewing at home, 184 postcesarean primiparas were compared to 100 vaginally delivered women regarding symptoms of stress incontinence, anal incontinence and dyspareunia. Delivery details were confirmed from medical records. RESULTS: Comparison of postcesarean vs. vaginally delivered women revealed stress incontinence in 33% vs. 54% and dyspareunia in 27% vs. 46%, both differences reaching statistical significance, unlike anal incontinence, which was manifest in 51% vs. 44%. When compared to emergency cesarean the relative risk of stress incontinence following an elective cesarean was 0.99 (0.71, 1.39), of dyspareunia 1.02 and of anal incontinence 1.05, indicating no statistically significant difference. Thirty (22%) stress incontinent and 4 (3%) fecally incontinent mothers used pads continuously, suggesting severe physical morbidity. Severe dysphoria (depression) was expressed by 41 (35%) stress incontinent mothers, 38 (30%) with dyspareunia and 34 (26%) with anal incontinence; the association of severe dysphoria with dyspareunia was statistically significant (OR = 2.504 [1.362, 4.602]). Few women came forward to seek help. CONCLUSION: Pelvic dysfunction was similar after elective or emergency cesarean. Compared to vaginal delivery, postcesarean stress incontinence and dyspareunia were less frequent but biopsychosocial morbidity could be severe.

A low mortality, high morbidity Reduced Intensity Status Epilepticus (RISE) model of epilepsy and epileptogenesis in the rat

Animal models of acquired epilepsies aim to provide researchers with tools for use in understanding the processes underlying the acquisition, development and establishment of the disorder. Typically, following a systemic or local insult, vulnerable brain regions undergo a process leading to the development, over time, of spontaneous recurrent seizures. Many such models make use of a period of intense seizure activity or status epilepticus, and this may be associated with high mortality and/or global damage to large areas of the brain. These undesirable elements have driven improvements in the design of chronic epilepsy models, for example the lithium-pilocarpine epileptogenesis model. Here, we present an optimised model of chronic epilepsy that reduces mortality to 1% whilst retaining features of high epileptogenicity and development of spontaneous seizures. Using local field potential recordings from hippocampus in vitro as a probe, we show that the model does not result in significant loss of neuronal network function in area CA3 and, instead, subtle alterations in network dynamics appear during a process of epileptogenesis, which eventually leads to a chronic seizure state. The model’s features of very low mortality and high morbidity in the absence of global neuronal damage offer the chance to explore the processes underlying epileptogenesis in detail, in a population of animals not defined by their resistance to seizures, whilst acknowledging and being driven by the 3Rs (Replacement, Refinement and Reduction of animal use in scientific procedures) principles.