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Muscle Transfer (muscle + transfer)

Distribution by Scientific Domains
Medical Sciences50%

Selected Abstracts

Large recurrent plexiform neurofibroma of the foot and ankle

MICROSURGERY, Issue 1 2004
Lee L.Q. Pu M.D., Ph.D.
Plexiform neurofibroma often causes significant pain, deformity, and functional problems in the affected part of the body. Surgical management of the condition can be challenging, and local recurrence is common because of inadequate resection of the tumor. One patient with a large recurrent plexiform neurofibroma of the foot and ankle was treated successfully with a complete resection of the tumor, followed by a free latissimus dorsi muscle transfer with a skin graft for soft-tissue reconstruction. The patient has regained good contour of the foot and ankle, and has been symptom-free with no evidence of local recurrence in the affected area for 18 months. The authors believe that thorough preoperative planning and state-of-the-art reconstructions, as described here, are the keys to their success. © 2003 Wiley-Liss, Inc. [source]

The gracilis muscle and its use in clinical reconstruction: An anatomical, embryological, and radiological study

CLINICAL ANATOMY, Issue 7 2008
V. Macchi
Abstract The gracilis muscle is used widely in reconstructive surgery, as a pedicled or as a free microsurgical flap, for soft tissue coverage or as a functioning muscle transfer. Many studies, based on cadaver dissections, have focused on the vascular anatomy of the gracilis muscle and provided different data about the number, origin, and caliber of its vascular pedicles. Computed tomographic (CT) angiography of both thighs of 40 patients (35 males and 5 females, mean age: 63 years) have been analyzed to provide a detailed anatomical description of the arterial supply of the gracilis muscle. The gracilis muscle had a mean length of 41 ± 2.1 cm. The principal pedicle enters the gracilis muscle at a mean distance (±SD) of 10 ± 1 cm from the ischiopubic attachment of the muscle. Its caliber shows a mean value of 2.5 ± 0.5 mm, and it is statistically larger when originating directly from the deep femoral artery (45%) than from its muscular branch supplying the adductors, i.e., the "artery to the adductors" (46%) (P < 0.01). A significant correlation between the caliber of the artery of the main pedicle and the volume of the gracilis muscle was found (P < 0.01). The mean number of distal accessory pedicles is 1.8 (range, 1,4,) and the artery of the first of these pedicles shows a mean caliber of 2.0 mm. There is no correlation between either the number or the caliber of the artery of the accessory pedicles and the volume of the gracilis muscle. CT angiography, providing detailed images of the muscular and vascular structures of the thigh of each patient, could be a useful preoperative study for the reconstructive surgeon. It would allow a personalized planning of a gracilis flap, reducing the risk of iatrogenic damage. Clin. Anat. 21:696,704, 2008. © 2008 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]

Functional reconstruction of the lateral face after ablative tumor resection: Use of free muscle and musculocutaneous flaps

HEAD & NECK: JOURNAL FOR THE SCIENCES & SPECIALTIES OF THE HEAD AND NECK, Issue 10 2001
Tugrul Maral MD
Abstract Background Wide resection of tumors of the middle third of the face often results in complex three-dimensional defects and facial paralysis either due to removal of the facial nerve within the tumoral tissue or to extensive resection of the facial muscles. Methods We report the cases of three patients who underwent wide excision of tumors of the cheek region, operations that resulted in tissue defects and facial palsy. Defect reconstruction and facial reanimation was accomplished in one stage through functional muscle transplantation. Results Follow-up of more than 1 year showed good symmetry at rest and reanimation of the corner of the mouth in all cases, but one patient, in which the ipsilateral facial main trunk was used as motor nerve supply to the transplanted muscle, developed significant muscle contracture and binding of the cheek skin. Conclusions Every effort should be made to optimize the functional and cosmetic outcomes of neurovascular muscle transfers through precise planning and careful execution of the intricate details of the surgical technique for muscle transplantation. © 2001 John Wiley & Sons, Inc. Head Neck 23: 836,843, 2001. [source]

Multimodality Approach to Management of the Paralyzed Face

THE LARYNGOSCOPE, Issue 8 2006
Tessa A. Hadlock MD
Abstract Objectives: Despite the ability of facial reanimation techniques to introduce meaningful movement to the paralyzed face, dynamic methods do not address all zones of the face. Our objective was to retrospectively review outcomes after multimodality management of the patient with facial paralysis, to describe several novel surgical methods that introduce subtle improvements in static facial balance, and to present an algorithm for comprehensive management of the paralyzed face. Methods/Results: Three hundred thirty-seven patients with facial paralysis were seen and treated in a busy facial nerve center setting over a 3-year period using a range of standard muscle transfers, physical therapy, chemodenervation with botulinum toxin, and static surgical techniques. Three adjunct techniques emerged as novel and useful procedures that more fully addressed facial balance issues than existing techniques. Of patients proceeding with physical therapy, greater than 80% of patients experienced a benefit, and 97% of those who proceeded with botulinum toxin therapy experienced a benefit. Conclusions: Facial paralysis is best managed using a multimodality approach that includes surgical interventions, physical therapy, and chemodeneveration. We describe three adjunctive surgical techniques for management of the paralyzed face and present a comprehensive algorithm for management of the paralyzed face. That may provide improved function and cosmesis in all zones of the paralyzed face. [source]