在临床前模型中，透明质酸-海藻酸盐凝胶包被的猪小肠粘膜下层神经保护可减少神经外胶原沉积

Q3 Medicine

Journal of Hand Surgery Global Online Pub Date : 2025-07-29 DOI:10.1016/j.jhsg.2025.100784

Nesreen Zoghoul Alsmadi PhD , Curt Deister PhD , Peter Evans MD, PhD , Tamer Ghanem MD, PhD , Brandon Smetana MD , Deana Mercer MD

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引用次数: 0

摘要

目的：本研究评估了透明质酸-海藻酸盐凝胶包被小肠粘膜下层（HA-SIS）对粘连小鼠模型非横断神经的保护作用。方法对60只雄性Lewis大鼠进行坐骨神经松解术，并根据分组进行不同的手术治疗。假手术组（n = 20）在神经松解后立即手术闭合。未治疗组（n = 20）用双极凝固器损伤肌床，然后手术关闭。HA-SIS组（n = 20）用双极凝固剂损伤肌床，用HA-SIS包裹神经，手术关闭该部位。每组10只动物分别于6周和26周各时间点终止。通过大体病理和组织学对手术部位进行评估。结果26周时，HA-SIS组腓肠肌湿重明显高于对照组和假手术组。在两个时间点，未治疗组的粘连评分最高。在这两个时间点，未治疗组的神经外胶原沉积明显高于假手术组和HA-SIS组。26周时，未治疗组cd68阳性巨噬细胞明显高于HA-SIS组。神经内胶原细胞比和血管计数各组间无显著差异。结论与未包裹神经相比，HA-SIS神经包裹损伤肌床可减少外神经粘附、神经外胶原沉积和长期炎症（cd68阳性巨噬细胞）。临床相关性本五级研究考察了敌对环境对神经健康的影响，以及神经保护装置对减少其有害影响的影响。

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Hyaluronate-Alginate Gel-Coated Porcine Small Intestine Submucosa for Nerve Protection Minimizes Extraneural Collagen Deposition in a Preclinical Model

Purpose

This study evaluated the use of a hyaluronate-alginate gel-coated small intestine submucosa (HA-SIS) to protect a nontransected nerve in an adhesion rodent model.

Methods

The sciatic nerve of 60 male Lewis rats underwent neurolysis, with subsequent surgical treatments varying according to their assigned groups. The sham group (n = 20) was surgically closed immediately after neurolysis. The muscle bed of the untreated group (n = 20) was traumatized with a bipolar coagulator and then surgically closed. The muscle bed of the HA-SIS group (n = 20) was traumatized with a bipolar coagulator, the nerve was wrapped with HA-SIS, and the site was surgically closed. Ten animals in each group were terminated at each timepoint, 6 and 26 weeks. Surgical sites were assessed by gross pathology and histology.

Results

Gastrocnemius muscle wet weight was significantly higher in the HA-SIS group than in the untreated and sham groups at 26 weeks. At both timepoints, adhesion scores were highest in the untreated group. At both timepoints, extraneural collagen deposition was significantly higher in the untreated group than in the sham and the HA-SIS groups. At 26 weeks, CD68-positive macrophages were significantly higher in the untreated group than in the HA-SIS group. No significant differences were noted across groups for intraneural collagen-to-cell ratio and blood vessel count.

Conclusions

These results demonstrate that nerve wrapping with HA-SIS in an injured muscle bed reduces external nerve adhesions, extraneural collagen deposition, and long-term inflammation (CD68-positive macrophages) compared with the results of unwrapped nerves.

Clinical relevance

This level five study examines the impact of a hostile environment on nerve health, as well as the influence of a nerve protection device on diminishing its detrimental effects.

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