在体评估新型陶瓷结合骨形态发生蛋白 2（AMP2）在羊腰椎体间融合中的应用。

In vivo Assessment of AMP2, a Novel Ceramic-Binding BMP-2, in Ovine Lumbar Interbody Fusion.

机构信息

South Australia Health and Medical Research Institute, Preclinical, Imaging & Research Laboratories (SAHMRI-PIRL), Gilles Plains, SA.

Theradaptive, Inc. Frederick, MD.

出版信息

Spine (Phila Pa 1976). 2024 Oct 1;49(19):1381-1390. doi: 10.1097/BRS.0000000000005091. Epub 2024 Jul 11.

DOI:10.1097/BRS.0000000000005091

Abstract

STUDY DESIGN

Assessment of bone formation in an ovine interbody fusion study.

OBJECTIVE

To compare OsteoAdapt SP, which consists of AMP-2, a modified variant of recombinant human bone morphogenetic protein (rhBMP-2) bound to a tricalcium phosphate-containing carrier, to autologous iliac crest bone graft (ICBG) in a lumbar interbody fusion model.

SUMMARY OF BACKGROUND DATA

Treatment of lumbar disk degeneration often involves spinal fusion to reduce pain and motion at the affected spinal segment by insertion of a cage containing bone graft material. Three graft materials were compared in this study-ICBG and OsteoAdapt SP (low or high dose).

METHODS

The sheep underwent lateral lumbar fusion surgery with PEEK or Titanium interbody cages packed with OsteoAdapt SP (low or high dose) or ICBG. Outcomes were evaluated at 8-, 16- and 26- weeks. Newly formed bone quality, bone mineralization, and fusion were assessed by manual palpation, qualitative and semi-quantitative histopathology, histomorphometry, computed tomography (CT), and micro-CT (mCT) analysis.

RESULTS

OsteoAdapt SP was implanted into 43 animals and ICBG into 21 animals (L3-L4). No group showed evidence of systemic toxicity by multiple assessments. All levels were fused by manual palpation at 26 weeks. Serial CT scans showed increasing fusion scores over time. Both doses of OsteoAdapt SP resulted in robust new bone formation and progression of fusion in the interbody cage. Range of motion tests for treatment groups was lower compared with ICBG at 8- and 16 weeks. Similarly, histology at eight weeks demonstrated more robust new bone formation for both OsteoAdapt SP groups compared to autograft.

CONCLUSION

We have demonstrated the preclinical safety and efficacy of OsteoAdapt SP in a clinically relevant large animal model, supporting faster and more robust new bone formation within the interbody cage, comparable to or better than the gold standard, ICBG, in all measures.

摘要

研究设计

羊椎间融合研究中骨形成的评估。

目的

比较 OsteoAdapt SP，它由 AMP-2 组成，AMP-2 是一种与含有磷酸三钙的载体结合的重组人骨形态发生蛋白（rhBMP-2）的改良变体，与自体髂嵴骨移植物（ICBG）在腰椎椎间融合模型中进行比较。

背景资料概要

治疗腰椎间盘退变通常涉及脊柱融合，通过插入包含骨移植物材料的笼来减少受影响脊柱节段的疼痛和运动。在这项研究中比较了三种移植物材料-ICBG 和 OsteoAdapt SP（低或高剂量）。

方法

羊接受侧腰椎融合手术，使用 PEEK 或钛椎间笼填充 OsteoAdapt SP（低或高剂量）或 ICBG。在 8 周、16 周和 26 周时评估结果。通过手动触诊、定性和半定量组织病理学、组织形态计量学、计算机断层扫描（CT）和微计算机断层扫描（mCT）分析评估新形成的骨质量、骨矿化和融合情况。

结果

OsteoAdapt SP 植入 43 只动物，ICBG 植入 21 只动物（L3-L4）。通过多项评估，没有一组显示出全身毒性的证据。所有水平在 26 周时通过手动触诊均融合。连续 CT 扫描显示融合评分随时间增加。OsteoAdapt SP 的两种剂量均导致椎间笼中强壮的新骨形成和融合的进展。与 ICBG 相比，治疗组的运动范围测试在 8 周和 16 周时较低。同样，在 8 周时的组织学显示，与自体移植物相比，OsteoAdapt SP 的两组均有更强壮的新骨形成。

结论

我们在临床相关的大型动物模型中证明了 OsteoAdapt SP 的临床前安全性和疗效，在所有测量中，与金标准 ICBG 相比，更快、更强壮的新骨形成发生在椎间笼内，并且与 ICBG 相当或更好。

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在体评估新型陶瓷结合骨形态发生蛋白 2（AMP2）在羊腰椎体间融合中的应用。

In vivo Assessment of AMP2, a Novel Ceramic-Binding BMP-2, in Ovine Lumbar Interbody Fusion.

机构信息

出版信息

STUDY DESIGN

OBJECTIVE

SUMMARY OF BACKGROUND DATA

METHODS

RESULTS

CONCLUSION

研究设计

目的

背景资料概要

方法

结果

结论

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