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Intercostal Nerve (intercostal + nerve)

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Medical Sciences50%

Selected Abstracts

Intercostal nerve transfer in infants with obstetric brachial plexus palsy

MICROSURGERY, Issue 7 2008
Tarek A. El-Gammal M.D.
The use of intercostal nerve (ICN) transfer to repair brachial plexus lesions associated with root avulsions is a well known procedure in adults. However, there is a paucity of reports on the use of ICN in infants with obstetrical brachial plexus palsy (OBPP). This study included 46 infants with obstetric brachial plexus palsy who underwent 62 neurotization procedures. Clinically, 2 cases had upper trunk injury, 19 had upper-middle trunk injury, 3 had lower trunk injury, and 22 had total palsy. The average age at surgery was 14 months. Twelve patients underwent surgery younger than 6 months of age, 11 patients at 6 to <9 months, 9 patients at 9,12 months, and 14 patients at >12 months. The average follow-up period was 49 months. ICN transfer resulted in 76% satisfactory (good and excellent) outcome, and was best for restoration of elbow flexion (93.5%). Functional results were best when the operation was done before the age of 9 months; however, the difference between age groups was statistically insignificant. Functional results were also independent of the extent of the original injury. Nine children had preoperative and postoperative CT chest scans. All the nine children developed basal pulmonary atelectasis postoperatively. Pulmonary atelectasis was mostly ipsilateral and was not correlated to the patient age (months), or the duration of anesthesia (in minutes). We conclude that, intercostals nerve transfer is an effective procedure for restoration of function in infants with OBPP and root avulsions. The procedure is associated with variable degree of ipsilateral pulmonary atelectasis. © 2008 Wiley-Liss, Inc. Microsurgery, 2008. [source]

Anatomical basis for a successful upper limb sympathectomy in the thoracoscopic era

CLINICAL ANATOMY, Issue 4 2004
L. Ramsaroop
Abstract In this clinico-anatomical study, factors potentially responsible for unsuccessful upper limb sympathectomy (ULS) by the thoracoscopic route were evaluated. This study comprised two subsets: 1) in the clinical subset, 25 patients (n = 50 sides) underwent bilateral second thoracic ganglionectomy for palmar hyperhidrosis, and factors predisposing to unsuccessful ULS were identified; and 2) in the anatomical subset, the neural connections of the first and second intercostal spaces were bilaterally dissected in 22 adult cadavers (22 right, 21 left; n = 43 sides). Alternate neural pathways (ANP) were noted in 9 of 50 sides in the 25 clinical cases (18%). In three asthenic patients (5 sides), fascia overlying the longus colli muscle mimicked the sympathetic chain. The right superior intercostal vein (SIV) was located anterior to the second thoracic ganglion in 6 of 50 sides (12%) and predisposed to troublesome bleeding in 2 of 50 cases; the SIV was posterior to the ganglion in 19 of 50 sides (38%), posing no technical problem. On the left, the SIV was noted outside the field of dissection in all but one case. A successful outcome to sympathectomy was noted in all 25 patients. A spectrum of sympathetic contributions to the first thoracic ventral ramus for the first intercostal space was noted in 37 of 43 anatomical cases (86%). These were categorized according to the arrangements of the intrathoracic ramus between the second intercostal nerve and the first thoracic ventral ramus. The cervicothoracic ganglion (37/43 cases; 86%) and an independent inferior cervical ganglion (6/43 cases; 14%) were always located above the second rib. The second thoracic ganglion was consistently located in the second intercostal space. This study demonstrates that ANPs have little clinical significance when a second thoracic ganglionectomy is undertaken. Technical failures may be avoided if the surgeon is mindful of anatomical variations at surgery. Clin. Anat. 17:294,299, 2004. © 2004 Wiley-Liss, Inc. [source]

Comparison of the experience with acute and chronic electrically stimulated detrusor myoplasty,

NEUROUROLOGY AND URODYNAMICS, Issue 5 2002
John G. Van Savage
Abstract Aims To evaluate the acute and chronic urodynamic effects of electrically stimulated detrusor myoplasty in dogs. Methods Eight female mongrel dogs were studied acutely and six dogs chronically (0 to 12 weeks postoperatively). Bladders were wrapped with the rectus abdominis muscle, keeping an intact blood supply and at least two intercostal nerves of the flap preserved. Bladders were electrically stimulated with bipolar electrodes inserted into the muscle. Urodynamics and post void residual were measured post operatively in the acute studies and every 2 weeks for 3 months in chronic studies. Results Acutely, the increase in intravesical pressure was 45±7 cm H2O, which resulted in a postvoid residual of 26±3%. In the chronic study, increases of intravesical pressure sufficient to empty the bladder during myoplasty electrical stimulation were not sustained, although detrusor compliance and flap viability were preserved. Conclusions The electrically stimulated detrusor myoplasty worked well acutely to increase vesical pressure sufficient to empty the bladder, but the chronically stimulated myoplasty did not maintain efficient bladder emptying primarily due to electrode problems. Further studies with improved electrode material and placement are required before clinical application of the electrically stimulated detrusor myoplasty can be assessed. Neurourol. Urodynam. 21:516,521, 2002. © Wiley-Liss, Inc. [source]

Anatomical study to investigate the feasibility of pedicled nerve, free vessel gastrocnemius muscle transfer for restoration of biceps function

CLINICAL ANATOMY, Issue 4 2001
Lucy Katharine Cogswell
Abstract A challenging problem is the patient with a total brachial plexus injury with nerve root avulsions. In these patients nerve repair is not possible and no local functioning muscles are available for transfer. Current techniques involve either nerve repair using donor nerves from the contralateral limb or free muscle transfer neurotized by intercostal nerves. The problem with both these techniques is that they are dependent on neural regeneration, which is imperfect. To overcome the problem we propose a technique of transferring a distant muscle whilst retaining its neural supply. Gastrocnemius is a strong muscle and one suitable for free tissue transfer. This study assessed the possibility of transferring gastrocnemius on its neural supply by determining the length of nerve available and whether it was possible to dissect the nerve to gastrocnemius from the main body of the sciatic nerve. We found that the latter was possible, and that the length of dissected nerve would allow transfer of the innervated muscle from the calf to the axilla. Clin. Anat. 14:242,245, 2001. © 2001 Wiley-Liss, Inc. [source]