Dual nerve transfer of gracilis and adductor longus nerves in restoration of complete femoral nerve palsy

Contemporary Approaches to Peripheral Nerve Surgery

"State of the Art" Learning Objectives: This manuscript serves to provide the reader with a general overview of the contemporary approaches to peripheral nerve reconstruction as the field has undergone considerable advancement over the last 3 decades. The learning objectives are as follows: To provide the reader with a brief history of peripheral nerve surgery and some of the landmark developments that allow for current peripheral nerve care practices.To outline the considerations and management options for the care of patients with brachial plexopathy, spinal cord injury, and lower extremity peripheral nerve injury.Highlight contemporary surgical techniques to address terminal neuroma and phantom limb pain.Review progressive and future procedures in peripheral nerve care, such as supercharge end-to-side nerve transfers.Discuss rehabilitation techniques for peripheral nerve care.

Tendon Transfers for Knee Extension Following Femoral Nerve Injury After Hip Arthroplasty

Femoral nerve injury is a rare but devastating complication of direct anterior approach total hip arthroplasty that occurs in about 1% of the cases and could potentially lead to debilitating loss of knee extension. In this case report, we present a case of femoral nerve injury following direct anterior approach hip arthroplasty with an inability to extend the affected knee, gait instability, and multiple falls. For this patient, an innovative functional adductor magnus muscle transfer was performed to restore knee extension. At 6 months after surgery, the patient's knee extension was partly restored, and ambulation was significantly improved.

Motor and sensory nerve transfers in the lower extremity: Systematic review of current reconstructive possibilities

BACKGROUND

Peripheral nerve injuries (PNI) are predominantly treated by anatomical repair or reconstruction with autologous nerve grafts or allografts. Motor nerve transfers for PNI in the upper extremity are well established; however, this technique is not yet widely used in the lower extremity. This literature review presents an overview of the current options and postoperative results for nerve transfers as a treatment for nerve injury in the lower extremity.

METHODS

A systematic search in PubMed and Embase databases was performed. Full-text English articles describing surgical procedures and postoperative outcomes of nerve transfers in the lower extremity were included. The primary outcome was postoperative muscle strength measured using the British Medical Research Council (MRC) scale, with MRC> 3 considered good and postoperative return of sensation reported according to the modified Highet classification.

RESULTS

A total of 36 articles for motor nerve transfer and 7 for sensory nerve transfer were included. Sixteen articles described motor nerve transfers for treating peroneal nerve injury, 17 for femoral nerve injury, 2 for tibial nerve injury, and one for obturator nerve injury. Transfers of multiple branches to restore deep peroneal nerve function led to a good outcome in 58% of patients and 43% when a single branch was used as a donor. The transfer of multiple branches for femoral nerve or obturator nerve repair was performed in all reported patients with a good outcome.

CONCLUSIONS

The transfer of motor nerves for the recovery of PNI is a feasible technique with relatively low risks and great benefits. The correct indication, timing, and surgical technique are essential for optimizing results.

Selective Repair of Motor Branches in the Femoral Nerve by Transferring the Motor Branches of Obturator Nerve: An Anatomical Feasibility Study

BACKGROUND

Anterior branch of the obturator nerve transfer has been proven as an effective method for femoral nerve injuries, but the patient still has difficulty in rising and squatting, up and downstairs. Here, we presented a novel neurotization procedure of selectively repairing 3 motor branches of the femoral nerve by transferring motor branches of the obturator nerve in the thigh level and assessing its anatomical feasibility.

METHODS

Eight adult cadavers (16 thighs) were dissected. The nerve overlap distance between the gracilis branch and the rectus femoris (RF) branch, the adductor longus (AL) branch and the vastus medialis (VM) branch, as well as the adductor magnus (AM) branch and the vastus intermedius (VI) branch were measured. Also, the axon counts of the donor and recipient nerve were evaluated by histological evaluation.

RESULTS

In all specimens, nerve overlap of at least 2.1 cm was observed in all 16 dissected thighs between the donor and recipient nerve branches, and the repair appeared to be without tension. There is no significant difference in the axon counts between gracilis branch (598 ± 83) and the RF branch (709 ± 151). The axon counts of the AL branch (601 ± 93) was about half of axon counts of the VM branch (1423 ± 189), and the axon counts of AM branch (761 ± 110) was also about half of the VI branch (1649 ± 281).

CONCLUSIONS

This novel technique of the combined nerve transfers below the inguinal ligament, specifically the gracilis branch to the RF branch, the AL branch to the VM branch, and the AM branch to the VI branch, is anatomically feasible. It provides a promising alternative in the repair of femoral nerve injuries and an anatomical basis for the clinical application of motor branches of the obturator nerve transfer to repair the motor portion of the injured femoral nerve.

Surgical Interventions for Lumbosacral Plexus Injuries: A Systematic Review

Background:

Nerve reconstruction techniques for lumbosacral plexus (LSP) injuries vary. There are no clear treatment guidelines available, and summative evaluations of the literature discussing these surgeries are lacking. For these reasons, this investigation aimed to systematically review and consolidate all available literature discussing surgical interventions for LSP injuries and cohesively present patient-reported and objective postoperative outcomes.

Methods:

The authors conducted a systematic review using PubMed, Embase, Web of Science, ProQuest Dissertations and Theses Global (via Proquest.com), and ClinicalTrials.gov databases according to the Preferred Reporting Items for Systematic Reviews and Meta-Analyses guidelines. After title and abstract screening, identified articles were read in full and selected for inclusion based on prespecified criteria.

Results:

Our literature search identified 8683 potential citations, and after duplicate removal, abstract screening, and full-text review, 62 studies remained meeting inclusion and exclusion criteria. Outcomes were extracted according to the location of injury and type of surgical repair. Injuries were classified into isolated femoral nerve injuries, isolated obturator nerve injuries, isolated sciatic nerve injuries, and multilevel LSP injuries. Surgical treatment was further classified into exploration with neurolysis, direct repair, nerve grafting, and nerve transfer surgery.

Conclusions:

Although results vary based on the location of the injury and the surgical technique used, nerve grafts and transfers demonstrated reasonable success in improving functional and pain outcomes. Overall, isolated femoral and obturator nerve injuries had the best outcomes reported with surgical treatment. Furthermore, incomplete sciatic nerve and multilevel LSP injuries had more reported surgical options and better outcomes than complete sciatic nerve injuries.

Sciatic-to-Femoral Nerve End-to-End Coaptation for Proximal Lower Extremity Function in Patients With Acute Flaccid Myelitis: Technical Note and Review of the Literature

BACKGROUND

Acute flaccid myelitis (AFM) is an acute-onset anterior horn disease resulting in flaccid paralysis of extremities, trunk, facial, and cervical musculature in children following upper respiratory or gastrointestinal viral illness. Nerve transfer procedures have been shown to restore function.

OBJECTIVE

To present a technical description of sciatic-to-femoral nerve transfers in 4 children with AFM.

METHODS

Retrospective review of relevant cases was performed.

RESULTS

A total of 4 cases are presented of young children with persistent quadriparesis in the setting of AFM, presenting between 4 and 15 mo following initial diagnosis. Electromyography showed denervation of muscles innervated by the femoral nerve, with sparing of the sciatic distribution. The obturator nerve was also denervated in all patients. We therefore elected to pursue sciatic-to-femoral transfers to restore active knee extension. These transfers involved end-to-end coaptation of a sciatic nerve fascicle to the femoral nerve motor branches supplying quadriceps muscles.

CONCLUSION

We present technical descriptions of bilateral sciatic-to-femoral nerve neurotization for the restoration of quadriceps function in 4 patients with AFM. The sciatic nerve fascicles are a reasonable alternative donor nerve for patients with proximal muscle paralysis and limited donor options in the lower extremity.

Adductor magnus muscle transfer to restore knee extension: Anatomical studies and clinical applications

BACKGROUND

Loss of knee extension causes significant impairment. Though nerve-based reconstruction is preferable in cases of femoral nerve palsy or injury, these surgeries are not always appropriate if the pathology involves the quadriceps muscles or presentation too late for muscle reinnervation. Muscle transfers are another option that has been underutilized in the lower extremity. We describe the successful restoration of knee extension by adductor magnus muscle transfer without functional donor morbidity, along with anatomical considerations.

METHODS

Ten fresh frozen cadaveric lower limbs were dissected at the groin and thigh. In addition, three patients presented with femoral nerve palsy for which nerve-based reconstruction was not appropriate because of late presentation. In these patients, adductor magnus muscle transfers were performed, along with sartorius, gracilis, and tensor fasciae latae transfers if available and healthy.

RESULTS

In cadavers, the pedicle for the adductor magnus is at the level of the gracilis and adequate for muscle transfer, with sufficient weavable tendon length. The only major structure at risk is the femoral neurovascular bundle, which is in a reliable anatomic position. Two patients recovered 4/5 active knee extension and ambulation without assistive devices. A third required reoperation for a loosened tendon weave, after which the noted improved stability and strength with ambulation but did not regain strong active knee extension and continued to require a cane.

CONCLUSIONS

We present a novel reconstructive approach for loss of quadriceps function in patients, which yields good clinical outcomes, with anatomic and technical details to demonstrate the utility of this technique. Ongoing evaluation of optimal technique and rehabilitation to maximize functional outcomes is still needed.

Surgical applied anatomy: alive and kicking

BACKGROUND

Contention exists amongst anatomists, clinicians and surgeons about how much anatomical knowledge medical students need, although what is taught should be aligned with current surgical practice. The aim of this study was to explore the scope of recent advances in applied anatomy as highlighted in the ANZ Journal of Surgery in each of the surgical specialties.

METHODS

The 2018 volume of the ANZ Journal of Surgery was narrowed to 254 articles by applying the search term 'anatomy'. The main topic was extracted from each paper. The content of the paper was assessed for 'novel description' or 'novel application' of anatomical knowledge and classified accordingly.

RESULTS

Most papers with an anatomical focus were from general surgery, which focused on surgical techniques, outcomes and management. Vascular surgery had the highest percentage of papers with a novel description and application of anatomy. Although cardiothoracic and paediatric surgery had no papers with a novel description of anatomy, novel applications of anatomy were a focus in each speciality.

CONCLUSION

The trend towards novel applications of anatomical knowledge in all surgical specialties should encourage medical schools to shape their anatomy curricula in tandem with such advances as they evolve. The high proportion of novel applications and descriptions of anatomy in general surgery indicates continued growth as a benchmark of anatomical understanding. Vascular surgery's proportion of novel application and description of anatomy may change the way students will learn vascular anatomy to incorporate endovascular, radiologically based approaches.

Different Surgical Reconstructions for Femoral Nerve Injury: A Clinical Study on 9 Cases

BACKGROUND

Femoral nerve palsy can cause loss in quadriceps function and knee extension disability, which may lead to severe lower extremity impairment. The obturator nerve trunk transfer in the pelvic, the obturator nerve mortal branches transfer out of the pelvic, along with nerve graft, was introduced years ago to restore femoral nerve function. However, the outcomes of these procedures have never been compared. The aims of this study were to give our experiences in surgical reconstruction for femoral nerve injury and to compare the outcomes of different approaches.

METHODS

Nine patients with complete femoral nerve injury have been enrolled in this study between March 2012 and July 2016. All patients were followed up for at least 2 years after surgical intervention for sural nerve graft (n = 3), obturator trunk transfer in the pelvic (n = 2), or obturator nerve mortal branches transfer out of the pelvic (n = 4).

RESULTS

All patients gained satisfactory quadriceps Medical Research Council grade (M3-M4+) after more than 2 years of follow-up. The sural nerve graft led to the earliest recovery on average, followed by obturator nerve mortal branches transfer in the thigh level and then obturator nerve trunk transfer in the pelvic. The functional outcomes, demonstrated by Lower Extremity Functional Scale and Femoral Nerve Motor Function Scale scores, also showed that the sural nerve graft was the best on average, followed by obturator nerve trunk transfer in the pelvic and then obturator nerve mortal branches transfer in the thigh level.

CONCLUSIONS

Our results indicate that all these 3 procedures are safe and reliable ways to reconstruct femoral nerve function and can be applied to patients with different kinds of injuries. The sural nerve graft should be considered in the first place and the obturator nerve transfer at different level (trunk transfer in the pelvic or mortal branches transfer out of the pelvic) can be performed as the alternative.