基于等几何分析的组织扩张建模：猪模型中的皮肤生长和组织水平变化。

Modeling Tissue Expansion with Isogeometric Analysis: Skin Growth and Tissue Level Changes in the Porcine Model.

机构信息

From Northwestern University Feinberg School of Medicine, Ann & Robert H. Lurie Children's Hospital of Chicago, Division of Plastic and Reconstructive Surgery, Stanley Manne Children's Research Institute; and the School of Mechanical Engineering, Purdue University.

出版信息

Plast Reconstr Surg. 2020 Oct;146(4):792-798. doi: 10.1097/PRS.0000000000007153.

DOI:10.1097/PRS.0000000000007153

PMID:32970001

Abstract

BACKGROUND

Tissue expansion relies on the ability of skin to grow in response to sustained mechanical strain. This study focuses on correlation of cellular and histologic changes with skin growth and deformation during tissue expansion.

METHODS

Tissue expanders were placed underneath the skin of five Yucatan minipigs and inflated with one fill of 60 cc of saline 1 hour, 24 hours, 3 days, and 7 days before the animals were killed, or two fills of either 30 cc or 60 cc at 10 and 3 days or 14 and 7 days before the animals were killed. Skin biopsy specimens and three-dimensional photographs were used to calculate skin growth and stretch according to the authors' novel finite element analysis model.

RESULTS

The mitotic index of keratinocytes in the basal layer increased 1 hour after stimulus was applied (4 percent) (p = 0.022), peaked at approximately day 3 (26 percent) (p < 0.0001), and tapered by day 7 (12.5 percent) (p = 0.012) after tissue expansion. The authors demonstrated that it is the volume per fill rather than the total volume in the expander that scales the magnitude of response. Lastly, the authors demonstrated that the ratio of deformation attributable to growth versus stretch (Fgrowth/Fstretch) after 60 cc of tissue expansion fill was 1.03 at 1 hour, 0.82 at 1 day, 0.85 at day 3, and 0.95 at 7 days.

CONCLUSIONS

Peak cell proliferation occurred 3 days after tissue expansion fill and is scaled in response to stimulus magnitude. The growth component of deformation equilibrates to the stretch component at day 7, as cell proliferation has started to translate to skin growth.

摘要

背景

组织扩张依赖于皮肤对持续机械应变的生长能力。本研究重点关注细胞和组织学变化与组织扩张过程中皮肤生长和变形的相关性。

方法

在五头尤卡坦迷你猪的皮肤下放置组织扩张器，并在 1 小时、24 小时、3 天和 7 天前，每次填充 60cc 的生理盐水，或者在 10 天和 3 天或 14 天和 7 天前，每次填充 30cc 或 60cc，进行一次或两次填充，然后处死动物。使用皮肤活检标本和三维照片，根据作者的新有限元分析模型计算皮肤生长和拉伸。

结果

刺激后 1 小时，基底层角质形成细胞的有丝分裂指数增加（4%）（p=0.022），在大约第 3 天达到峰值（26%）（p<0.0001），在第 7 天（12.5%）（p=0.012）逐渐减少。作者证明，是每个填充的体积而不是扩张器中的总体积决定了反应的幅度。最后，作者证明，在 60cc 组织扩张填充后，生长对拉伸的变形比（Fgrowth/Fstretch）在 1 小时时为 1.03，1 天时为 0.82，第 3 天时为 0.85，第 7 天时为 0.95。

结论

细胞增殖的峰值出现在组织扩张填充后 3 天，并且与刺激幅度成比例。在第 7 天，生长成分的变形与拉伸成分达到平衡，因为细胞增殖已经开始转化为皮肤生长。

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基于等几何分析的组织扩张建模：猪模型中的皮肤生长和组织水平变化。

Modeling Tissue Expansion with Isogeometric Analysis: Skin Growth and Tissue Level Changes in the Porcine Model.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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