大鼠脊柱中度挫伤会改变受伤部位以下和以上的骨转换,在长期恢复过程中会出现明显的性别差异

IF 2.1 Q3 ENDOCRINOLOGY & METABOLISM Bone Reports Pub Date : 2024-04-10 DOI:10.1016/j.bonr.2024.101761
Corinne E. Metzger , Robert C. Moore , Alexander S. Pirkle , Landon Y. Tak , Josephina Rau , Jessica A. Bryan , Alexander Stefanov , Matthew R. Allen , Michelle A. Hook
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引用次数: 0

摘要

脊髓损伤(SCI)会导致严重的皮下骨质流失和高骨折率。虽然机械负荷的丧失在 SCI 引起的骨质流失中起着重要作用,但动物研究表明,机械负荷本身并不能完全解释 SCI 后的骨质流失。事实上,我们已经证明,在不完全中度挫伤 SCI 的水平以下,尽管恢复了负重和迈步,骨质仍会流失。由于全身因素也会影响 SCI 后的骨质,骨质改变也可能出现在损伤水平以上的骨质部位。为了研究这一点,我们在中度挫伤后的亚慢性(30 天)和慢性(180 天)两个时间点评估了两种不同年龄的雄性和雌性大鼠肱骨上的骨微结构和骨转换情况。在 30 天的时间点上,我们发现年轻和成年的雄性 SCI 大鼠肱骨近端上部(PH)的骨小梁骨量都有所减少,而雌性 SCI 大鼠与年龄匹配的假体没有差异。在 180 天的时间点上,无论年龄或性别,SCI 组与假体组在肱骨近端上部均无统计学差异。在 30 天的时间点上,与年龄匹配的假体组相比,所有 SCI 大鼠肱骨近端的骨更新率都较低,破骨细胞覆盖的骨小梁表面较高,这与胫骨近端皮下的 SCI 诱导的骨更新变化模式基本一致。然而,在 180 天的时间点上,只有雄性 SCI 大鼠肱骨近端上皮层的骨更新率较低,而雌性 SCI 大鼠的骨更新率则高于年龄匹配的同龄大鼠或没有差异。总之,这项临床前研究表明,中度挫伤 SCI 会在损伤后 30 天内导致损伤水平以上的骨转换发生改变;但雄性 SCI 大鼠在长期恢复过程中肱骨上部的骨转换率仍较低。这些数据进一步突显出,骨损伤后的骨流失并不完全是由废用引起的。此外,这些数据还暗示了潜在的系统性因素会对 SCI 后的骨质产生影响,并强调有必要考虑对 SCI 引起的骨质流失进行治疗,以影响局部和系统性因素。
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A moderate spinal contusion injury in rats alters bone turnover both below and above the level of injury with sex-based differences apparent in long-term recovery

Spinal cord injury (SCI) leads to significant sublesional bone loss and high fracture rates. While loss of mechanical loading plays a significant role in SCI-induced bone loss, animal studies have demonstrated mechanical loading alone does not fully account for loss of bone following SCI. Indeed, we have shown that bone loss occurs below the level of an incomplete moderate contusion SCI, despite the resumption of weight-bearing and stepping. As systemic factors could also impact bone after SCI, bone alterations may also be present in bone sites above the level of injury. To examine this, we assessed bone microarchitecture and bone turnover in the supralesional humerus in male and female rats at two different ages following a moderate contusion injury in both sub-chronic (30 days) and chronic (180 days) time points after injury. At the 30-day timepoint, we found that both young and adult male SCI rats had decrements in trabecular bone volume at the supralesional proximal humerus (PH), while female SCI rats were not different from age-matched shams. At the 180-day timepoint, there were no statistical differences between SCI and sham groups, irrespective of age or sex, at the supralesional proximal humerus. At the 30-day timepoint, all SCI rats had lower BFR and higher osteoclast-covered trabecular surfaces in the proximal humerus compared to age-matched sham groups generally matching the pattern of SCI-induced changes in bone turnover seen in the sublesional proximal tibia. However, at the 180-day timepoint, only male SCI rats had lower BFR at the supralesional proximal humerus while female SCI rats had higher or no different BFR than their age-matched counterparts. Overall, this preclinical study demonstrates that a moderate contusion SCI leads to alterations in bone turnover above the level of injury within 30-days of injury; however male SCI rats maintained lower BFR in the supralesional humerus into long-term recovery. These data further highlight that bone loss after SCI is not driven solely by disuse. Additionally, these data allude to potential systemic factors exerting influence on bone following SCI and highlight the need to consider treatments for SCI-induced bone loss that impact both sublesional and systemic factors.

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来源期刊
Bone Reports
Bone Reports Medicine-Orthopedics and Sports Medicine
CiteScore
4.30
自引率
4.00%
发文量
444
审稿时长
57 days
期刊介绍: Bone Reports is an interdisciplinary forum for the rapid publication of Original Research Articles and Case Reports across basic, translational and clinical aspects of bone and mineral metabolism. The journal publishes papers that are scientifically sound, with the peer review process focused principally on verifying sound methodologies, and correct data analysis and interpretation. We welcome studies either replicating or failing to replicate a previous study, and null findings. We fulfil a critical and current need to enhance research by publishing reproducibility studies and null findings.
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