Abstract
BackgroundRestoration of hand function after total brachial plexus root avulsion (tBPRA) is a difficult problem in surgical management. A new modified approach in repairing tBPRA is to use a subcutaneous tunnel across the anterior surface of the chest and neck, and then transfer the contralateral C7 root (cC7) to the lower trunk. However, the anatomical details of this method have not yet been fully described and assessed. The objective of this study was to quantitatively describe the nerve transfer using a cadaveric surgical simulation.Materials and methodsBrachial plexuses were dissected from 12 adult cadavers, producing 24 sides of brachial plexuses for nerve transfer experiments. We performed simulated cC7 transfers to the lower trunk via a subcutaneous tunnel across the anterior surface of the chest and neck. Measurements of the nerves were made and transfers quantitatively documented.ResultsWith the affected shoulder and arm in a neutral position, cC7 and C8-T1 could be sutured directly together in 75% of the cadavers. A nerve graft length of 4.6 ± 1.18 cm was needed to bridge the gap in the remaining cadavers. For cadavers where distal cC7 was directly connected with the lower trunk, 54.17% could be sutured, and an average nerve graft length of 3.9 cm was needed in the remains.ConclusionsFor surgical management of total tBPRA, transfer of the cC7 nerve to the C8-T1 or lower trunk via a subcutaneous tunnel across the chest and neck will likely be superior to a conventional cC7 root transfer in the clinic. This approach shortens the nerve graft needed and nerve regeneration distance, decreases the number of neurorrhaphy sites, and makes full use of the donor nerves, which may benefit hand flexion restoration.
Highlights
Restoration of hand function after total brachial plexus root avulsion is a difficult problem in surgical management
For surgical management of total total brachial plexus root avulsion (tBPRA), transfer of the contralateral C7 root (cC7) nerve to the C8-T1 or lower trunk via a subcutaneous tunnel across the chest and neck will likely be superior to a conventional cC7 root transfer in the clinic
The distance between the lower trunk and the anterior midline was − 6.22 ± 5.50 mm. cC7 could be directly placed into the C8-T1 in 75% (18/24) of the cadaver sides
Summary
Restoration of hand function after total brachial plexus root avulsion (tBPRA) is a difficult problem in surgical management. A new modified approach in repairing tBPRA is to use a subcutaneous tunnel across the anterior surface of the chest and neck, and transfer the contralateral C7 root (cC7) to the lower trunk. The objective of this study was to quantitatively describe the nerve transfer using a cadaveric surgical simulation. Total brachial plexus root avulsion (tBPRA) is one of the most devastating trauma injuries, causing total paralysis and loss of sensation in the affected limb. Surgical nerve transfer is the primary choice for restoring motor and sensory function. (cC7) root transfer method has been used to surgically repair tBPRA, especially when other donor nerves are in short supply [1]. A modified technique in which the cC7 root was transferred to the lower trunk or C5/6 via a prespinal route
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