Nerve repair by means of tubulization: Literature review and personal clinical experience comparing biological and synthetic conduits for sensory nerve repair

Battiston, Bruno; Geuna, Stefano; Ferrero, M.A. Martín; Tos, Pierluigi

doi:10.1002/micr.20127

Cited by 319 publications

(272 citation statements)

References 108 publications

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“…26,27 Previous clinical experiences showed that successful results could be obtained in short-gap nerve repair with muscle-vein-combined conduits. 4,18 These results were recently confirmed by Marcoccio and Vigasio,19 who demonstrated the effectiveness of this technique in sec-ondary digital nerve reconstruction, highlighting the possibility of using the wound and surrounding tissues as donor sites for nerve repair in emergency surgery.…”

Section: Discussionmentioning

confidence: 59%

“…1,4 Experimen-tal research on rat demonstrated that filling the veins with fresh muscle fibers allow to obtain nerve regeneration that similar to that observed with nerve autografting. 22,23 Muscle fibers avoid conduit's collapse and promote axo-nal regeneration and Schwann cell migration by means of basal lamina scaffolds.…”

Section: Discussionmentioning

confidence: 76%

“…In addition, the technique was applied both in sensory and mixed nerve repair, and the case series is heterogeneous regarding zone of injury and amount of crush, presence of associated vascular injuries, length of the gap, age of the patients, and follow-up interval. However, heterogeneity is common to nerve reconstruction case series, and in comparison to previous reports using the same technique, 4,18 this study has at least eliminated heterogeneity due to variable interval between injury and repair focusing on primary recon-struction only.…”

Section: Discussionmentioning

confidence: 98%

“…4,14 Blood vessels were used as biological conduits for nerve repair starting from the first decade of the 20th century by Foramitti 15 and Wrede 16 who described the use of blood vessels as vehicles for nerve regeneration and reported successful clinical results in the reconstruction of nerve injuries with loss of substance. In 1993, Brunelli et al 17 described a new biological conduit based on the usage of a vein segment filled with fresh skeletal muscle (muscle-vein-combined graft).…”

mentioning

confidence: 99%

“…This technique was then successfully translated to the clinics to treat selected cases of peripheral nerve defect. 4,18,19 However, in previously published case series, most of the patients were treated several months after injury. The aim of this study was to assess the results of nerve reconstruction in a group of patients who underwent, in emergency, a primary repair for crush injuries of sensory and mixed nerves of the upper limb with the musclevein-combined graft.…”

mentioning

confidence: 99%

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Primary repair of crush nerve injuries by means of biological tubulization with muscle‐vein‐combined grafts

Tos¹,

Battiston²,

Ciclamini³

et al. 2012

Microsurgery

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Despite extensive research and surgical innovation, the treatment of peripheral nerve injuries remains a complex issue, particularly in nonsharp lesions. The aim of this study was to assess the clinical outcome in a group of 16 patients who underwent, in emergency, a primary repair for crush injury of sensory and mixed nerves of the upper limb with biological tubulization, namely, the muscle-vein-combined graft. The segments involved were sensory digital nerves in eight cases and mixed nerves in another eight cases (four median nerves and four ulnar nerves). The length of nerve defect ranged from 0.5 to 4 cm (mean 1.9 cm). Fifteen of 16 patients showed some degree of functional recovery. Six patients showed diminished light touch (3.61), six had protective sensation (4.31), and three showed loss of protective sensation (4.56) using Semmes-Weinstein monofilament test. All the patients who underwent digital nerve repair had favorable results graded as S4 in one case, S3þ in six cases, and S3 in one case. With respect to mixed nerve repair, we observed two S4, two S3þ, two S3, one S2, and one S0 sensory recovery. Less favorable results were observed for motor function with three M4, one M3, two M2, and two M0 recoveries. Altogether, the results of this retrospective study demonstrates that tubulization nerve repair in emergency, in case of short nerve gaps, may restore the continuity of the nerve avoiding secondary nerve grafting. This technique preserves donor nerve and, in case of failure, does not preclude a delayed repair with a nerve graft.Despite continuous researches and surgical innovations, the treatment of peripheral nerve injuries remains a com-plex problem. 1,2 Direct nerve repair is often impossible in case of loss of substance, thus requiring a different solu-tion to manage the gap. Nowadays, nerve autograft is still considered the ''gold standard'' for such lesions because it restores the continuity of nerve trunk without tension and offers and ideal support to regenerating axons. 2-7 A nerve autograft is rich of Schwann cells which have a major role in nerve repair due to basal membrane pro-teins (fibronectin and laminin) that promote and address axonal regeneration. [8][9][10][11] However, clinical outcome is often unsatisfactory and thus alternative types of nerve guides are sought. 1,5,12 The timing of intervention and the type of injury are major issues in nerve repair. As general rule, an open nerve injury should be early treated and repaired directly when optimal conditions, such as a) a clean-uncontami-nated wound and b) a sharp cut injury, are present. 12 Pri-mary nerve repair with nerve graft in crush injuries could be a risk because the extent of resection might be diffi-cult to judge in case of nerve laceration and contusion; in addition, sometimes it is better to avoid primary repair because of the conditions of the surrounding tissues. 13 In these circumstances, it may be advisable to identify and suture the nerve ends to avoid retraction, and then look-ing forward to a secondary recons...

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Section: Discussionmentioning

confidence: 59%

Section: Discussionmentioning

confidence: 76%

Section: Discussionmentioning

confidence: 98%

mentioning

confidence: 99%

mentioning

confidence: 99%

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Primary repair of crush nerve injuries by means of biological tubulization with muscle‐vein‐combined grafts

Tos¹,

Battiston²,

Ciclamini³

et al. 2012

Microsurgery

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Tissue‐Engineered Peripheral Nerve

Leach

2006

Wiley Encyclopedia of Biomedical Engineering

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Peripheral nerves can be injured by a variety of mechanisms but can regenerate on their own if the injury is not extensive. Nerve grafts, the current standard of surgical care for repairing large nerve gaps, are successful, but they can be associated with several major drawbacks. To overcome these disadvantages, researchers are designing “off‐the‐shelf” nerve guide implants; thus, a multidisciplinary effort is underway to engineer nerve repair through a deeper understanding of the dynamic cell–cell and cell–environment interactions that occur during regeneration. This entry, which focuses on literature published in the last 5 years, first emphasizes new nerve guide designs that have been demonstrated to improve functional regeneration in vivo . The second section reviews studies that have deepened our understanding of in vitro and in vivo neural regenerative responses via new biomaterials technologies and imaging techniques. These critical advancements in peripheral nerve tissue engineering provide templates for future mechanistic studies and improved strategies to aid functional regeneration in vivo .

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Clinical Uses of Alginate

Nussinovitch

2011

Biodegradable Polymers in Clinical Use and Clinical Development

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Nerve repair by means of tubulization: Literature review and personal clinical experience comparing biological and synthetic conduits for sensory nerve repair

Cited by 319 publications

References 108 publications

Primary repair of crush nerve injuries by means of biological tubulization with muscle‐vein‐combined grafts

Primary repair of crush nerve injuries by means of biological tubulization with muscle‐vein‐combined grafts

Tissue‐Engineered Peripheral Nerve

Clinical Uses of Alginate

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