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1.
Acta Radiol ; 59(8): 932-938, 2018 Aug.
Article in English | MEDLINE | ID: mdl-29065701

ABSTRACT

Background Identification of the source of postpartum hemorrhage (PPH) is important for embolization because PPH frequently originates from non-uterine arteries. Purpose To evaluate the clinical importance of identifying the non-uterine arteries causing the PPH and the results of their selective embolization. Material and Methods This retrospective study enrolled 59 patients who underwent embolization for PPH from June 2009 to July 2016. Angiographic findings and medical records were reviewed to determine whether non-uterine arteries contributed to PPH. Arteries showing extravasation or hypertrophy accompanying uterine hypervascular staining were regarded as sources of the PPH. The results of their embolization were analyzed. Results Of 59 patients, 19 (32.2%) underwent embolization of non-uterine arteries. These arteries were ovarian (n = 7), vaginal (n = 5), round ligament (n = 5), inferior epigastric (n = 3), cervical (n = 2), internal pudendal (n = 2), vesical (n = 1), and rectal (n = 1) arteries. The embolic materials used included n-butyl cyanoacrylate (n = 9), gelatin sponge particles (n = 8), gelatin sponge particles with microcoils (n = 1), and polyvinyl alcohol particles (n = 1). In 13 patients, bilateral uterine arterial embolization was performed. Re-embolization was performed in two patients with persistent bleeding. Hemostasis was achieved in 17 (89.5%) patients. Two patients underwent immediate hysterectomy due to persistent bleeding. One patient experienced a major complication due to pelvic organ ischemia. One patient underwent delayed hysterectomy for uterine infarction four months later. Conclusion Non-uterine arteries are major sources of PPH. Detection and selective embolization are important for successful hemostasis.


Subject(s)
Embolization, Therapeutic/methods , Postpartum Hemorrhage/therapy , Adult , Angiography , Epigastric Arteries/diagnostic imaging , Epigastric Arteries/physiopathology , Female , Genitalia, Female/blood supply , Genitalia, Female/diagnostic imaging , Genitalia, Female/physiopathology , Humans , Postpartum Hemorrhage/diagnostic imaging , Pudendal Nerve/blood supply , Pudendal Nerve/diagnostic imaging , Pudendal Nerve/physiopathology , Rectum/blood supply , Rectum/diagnostic imaging , Rectum/physiopathology , Retrospective Studies , Treatment Outcome , Urinary Bladder/blood supply , Urinary Bladder/diagnostic imaging , Urinary Bladder/physiopathology , Young Adult
2.
Neuromodulation ; 20(8): 807-815, 2017 Dec.
Article in English | MEDLINE | ID: mdl-29034542

ABSTRACT

OBJECTIVES: 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. MATERIALS AND METHODS: Under ketamine anesthesia, the pudendal nerve of 14 female rats was stimulated at varying frequencies (1-100 Hz) and durations (0.15-60 min). Vaginal blood perfusion was measured with a laser Doppler flowmetry probe. Changes in blood perfusion were determined through raw signal analysis and increases in the energy of neurogenic (0.076-0.200 Hz) and myogenic (0.200-0.740 Hz) frequency bands through wavelet analysis. Additionally, a convolution model was developed for a carry-over stimulation effect. RESULTS: Each experiment had significant increases in vaginal blood perfusion due to pudendal nerve stimulation. In addition, there were large concurrent increases in neurogenic and myogenic frequency-band energy in 11/14 experiments, with an average maximal response at 31.3 min after stimulation initiation. An effective stimulation model with a 30-min carry-over effect had a stronger correlation to blood perfusion than the stimulation period itself. CONCLUSIONS: Repeated or extended-duration pudendal nerve stimulation can elicit maintained increases in vaginal blood perfusion. This work indicates the potential for pudendal neuromodulation as a method for increasing genital arousal as a potential treatment for FSD.


Subject(s)
Anesthesia/methods , Pudendal Nerve/blood supply , Vagina/blood supply , Vagina/innervation , Animals , Electric Stimulation/methods , Female , Laser-Doppler Flowmetry/methods , Pudendal Nerve/physiology , Rats , Rats, Sprague-Dawley , Time Factors , Vagina/physiology
3.
J Pediatr Urol ; 12(3): 173.e1-6, 2016 Jun.
Article in English | MEDLINE | ID: mdl-26947891

ABSTRACT

INTRODUCTION: Adequate penile length in males with bladder exstrophy or epispadias is a major challenge. Kelly previously described a surgical technique of a single stage reconstruction for patients with exstrophy or epispadias that potentially achieves significant penile lengthening by completely detaching the insertion of the corpora cavernosa from the ischiopubic rami. However, because of the possibility of damage to the pudendal neurovascular supply that may lead to partial or complete penile loss, this technique has not gained popularity. The aim of this study is to describe the surgical anatomic relationship of the pudendal neurovascular bundle (NVB) to the ischiopubic rami and to determine a safer approach to dissection during the Kelly procedure. METHODS: We performed meticulous dissection in three formalin-fixed and one fresh adult male cadavers to demonstrate the anatomical relationships between the pudendal neurovascular supply of the penis and the cavernosal insertion to the ischiopubic ramus. RESULTS AND DISCUSSION: We demonstrated the relationships and distance between the NVB and the area of separation between the crus and the ischiopubic ramus at the level of the periosteum. The insertion of the crus to the ischiopubic ramus is inferior lateral, whereas the NVB lies at a superior medial position. This anatomical relationship is best visualized when the dissection is carried out starting from the distal portion of the NVB and proceeding proximally. This area of the periosteum is avascular and the NVB can be preserved safely as long as the dissection is conducted at that subperiosteal level. Based on this cadaver dissection study, we suppose that detaching the corporal cavernosa from the pubic bones at the subperiosteal level allows for a safe distance to be maintained from the pudendal nerve at all times. We believe that if a surgeon performs the dissection inferiorly and laterally, the corpora cavernosa can be safely detached from the ischiopubic ramus and injury to the pudendal vessels and nerve can be avoided. However, it must be noted that there are limitations to applying the results from this study of normal, adult cadavers to the anatomy of children and adolescents with exstrophy or epispadias, who form the largest proportion of patients who are candidates for this procedure. CONCLUSION: This anatomical study demonstrates the relationship between the pudendal NVB, the crus, and the ischiopubic ramus. We demonstrated how the separation of the crus from the ischiopubic periosteum might be performed more safely.


Subject(s)
Bladder Exstrophy/surgery , Epispadias/surgery , Pudendal Nerve/anatomy & histology , Adult , Cadaver , Humans , Male , Pudendal Nerve/blood supply , Urologic Surgical Procedures, Male/methods
4.
World Neurosurg ; 89: 208-14, 2016 May.
Article in English | MEDLINE | ID: mdl-26855312

ABSTRACT

OBJECTIVE: The Adamkiewicz artery (AKA) supplies pudendal nerve roots and conus medullaris. The aim of this study was to elucidate if there is any relationship between neurodegenerative changes of the Onuf nucleus (ON)-pudendal nerve ganglia complex secondary to vasospasm of the AKA after spinal subarachnoid hemorrhage (SAH). METHODS: This study was conducted on 22 rabbits, which were randomly divided into 3 groups: control (n = 5), sham (n = 5), and spinal SAH (n = 12). Experimental spinal SAH was induced at the L2 level. After 2 weeks, the ON-pudendal nerve ganglia complex and AKA were examined histopathologically. Bladder volume values were estimated, and results were analyzed statistically. RESULTS: Two animals died within the first week of experiment. Histopathologically, severe vasospasm of the AKA and neuronal degeneration and neuronal apoptosis were observed in the ON-pudendal nerve ganglia complex in 5 animals of the SAH group. The mean volume of the imaginary AKA, mean bladder volumes, and degenerated neuron densities of ON and pudendal nerve ganglia were estimated. We found that vasospasm of the AKA led to numerous neuron degenerations in ON and pudendal ganglia and consequently urinary retention (P < 0.005). CONCLUSIONS: ON-pudendal nerve ganglia complex degeneration secondary to vasospasm of the AKA may be a cause of urinary retention after spinal SAH.


Subject(s)
Anterior Horn Cells/physiology , Ganglia, Spinal/physiopathology , Pudendal Nerve/physiopathology , Subarachnoid Hemorrhage/physiopathology , Urinary Retention/physiopathology , Animals , Anterior Horn Cells/pathology , Apoptosis/physiology , Arteries/pathology , Arteries/physiopathology , Disease Models, Animal , Ganglia, Spinal/pathology , Lumbar Vertebrae , Male , Nerve Degeneration/etiology , Nerve Degeneration/pathology , Nerve Degeneration/physiopathology , Organ Size , Pudendal Nerve/blood supply , Pudendal Nerve/pathology , Rabbits , Random Allocation , Sacrum , Subarachnoid Hemorrhage/complications , Subarachnoid Hemorrhage/pathology , Urinary Bladder/pathology , Urinary Bladder/physiopathology , Urinary Retention/etiology , Urinary Retention/pathology
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