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山羊足部产后骨骼发育及骨骺融合的动态变化

Dynamics of postnatal bone development and epiphyseal synostosis in the caprine autopod.

作者信息

Panebianco Christopher J, Essaidi Maha, Barnes Elijah, Williams Ashley, Vancíková Karin, Labberté Margot C, Brama Pieter, Nowlan Niamh C, Boerckel Joel D

机构信息

Department of Orthopaedic Surgery, University of Pennsylvania, Philadelphia, Pennsylvania, USA.

Center for Engineering Mechanobiology, University of Pennsylvania, Philadelphia, Pennsylvania, USA.

出版信息

Dev Dyn. 2025 May 13. doi: 10.1002/dvdy.70038.

DOI:10.1002/dvdy.70038
PMID:40359336
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12353835/
Abstract

BACKGROUND

Bones develop to structurally balance strength and mobility. Bone developmental dynamics are influenced by whether an animal is ambulatory at birth. Precocial species, which are ambulatory at birth, develop advanced skeletal maturity in utero and experience postnatal development under mechanical loading. Here, we characterized postnatal bone development in the lower forelimbs of precocial goats using microcomputed tomography and histology. Our analysis focused on the two phalanges 1 (P1) bones and the partially fused metacarpal bone of the goat autopod from birth through adulthood.

RESULTS

P1 cortical bone densified rapidly after birth, but cortical thickness increased continually through adulthood. Upon normalization by body mass, the P1 normalized polar moment of inertia was constant over time, suggestive of changes correlating with ambulatory loading. P1 trabecular bone increased in trabecular number and thickness until sexual maturity (12 months), while metacarpal trabeculae grew primarily through trabecular thickening. Unlike prenatal synostosis (i.e., bone fusion) of the metacarpal diaphysis, synostosis of the epiphyses occurred postnatally, prior to growth plate closure, through a unique fibrocartilaginous endochondral ossification.

CONCLUSIONS

These findings implicate ambulatory loading in postnatal bone development of precocial goats and identify a novel postnatal synostosis event in the caprine metacarpal epiphysis.

摘要

背景

骨骼发育以在结构上平衡强度和活动性。骨骼发育动态受动物出生时是否能行走的影响。早成雏物种出生时就能行走,在子宫内骨骼成熟度就较高,并在机械负荷下经历出生后的发育。在此,我们使用微型计算机断层扫描和组织学方法对早成雏山羊前肢下部的出生后骨骼发育进行了表征。我们的分析聚焦于山羊自出生至成年的第1指的两块指骨(P1)以及部分融合的掌骨。

结果

出生后P1皮质骨迅速致密化,但皮质厚度在成年期持续增加。经体重归一化后,P1归一化极惯性矩随时间保持恒定,表明其变化与行走负荷相关。P1小梁骨的小梁数量和厚度在性成熟(12个月)前增加,而掌骨小梁主要通过小梁增厚生长。与掌骨干的产前骨融合(即骨结合)不同,骨骺的骨融合发生在出生后、生长板闭合之前,通过一种独特的纤维软骨内骨化过程实现。

结论

这些发现表明行走负荷对早成雏山羊出生后骨骼发育有影响,并确定了山羊掌骨骨骺中一种新的出生后骨融合事件。