In Vivo Measurements Reveal Increased Nucleus Pulposus Lactate and Oxygen Concentrations in a Goat Model of Intervertebral Disc Degeneration

IF 3.4 3区医学 Q1 ORTHOPEDICS

JOR Spine Pub Date : 2025-05-27 DOI:10.1002/jsp2.70076

Karthikeyan Rajagopal, Thomas P. Schaer, Kyle D. Meadows, Madeline Boyes, Rachel Hilliard, John C. O'Donnell, George R. Dodge, Dmitriy Petrov, Dawn M. Elliott, Robert L. Mauck, Lachlan J. Smith, Neil R. Malhotra

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Abstract

Introduction

Intervertebral disc degeneration is strongly implicated as a cause of low back pain. Although the precise pathophysiological mechanisms remain elusive, perturbations in nutrition that adversely impact the cellular microenvironment of the central nucleus pulposus (NP) may be contributing factors. A comprehensive understanding of this microenvironment, including changes in nutrient availability as a function of degeneration, is critical for the development of effective cell-based treatments. The goal of this study was to adapt brain tissue oxygen probes and microdialysis catheters for in situ determination of relative NP oxygen, glucose, and lactate levels in a preclinical goat model of disc degeneration.

Methods

Following ex vivo technical refinement in bovine caudal discs, baseline metabolite measurements were performed in vivo in the lumbar discs of 3 large frame goats. Degeneration was then induced via injection of chondroitinase ABC (ChABC) into the NP, and measurements were repeated after 12 weeks. Degeneration severity was graded using magnetic resonance imaging (MRI) and histology, and vertebral endplate porosity was assessed using microcomputed tomography.

Results

Oxygen and lactate levels in goat NPs were significantly higher in degenerate compared to healthy discs, while glucose levels were not significantly different. ChABC-injected discs exhibited higher vertebral endplate porosity, worse histological and MRI grades, and a spectrum of cartilage endplate damage compared to healthy discs. There were significant positive correlations between MRI grade and both NP oxygen and lactate levels.

Discussion

We successfully adapted techniques including surgical placement, equilibration time, flow rate, and detection method for in situ measurement of oxygen, glucose, and lactate in a goat model of disc degeneration. Interestingly, while increased lactate with degeneration was expected, increased oxygen levels were unexpected. Our findings may, in part, be explained by associated alterations in disc and endplate structure, and motivate future studies to comprehensively establish the underlying mechanisms in this model.

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在体内测量显示增加髓核乳酸和氧浓度在山羊椎间盘退变模型

椎间盘退变是腰痛的一个重要原因。虽然确切的病理生理机制尚不清楚，但对中央髓核（NP）细胞微环境产生不利影响的营养扰动可能是促成因素。全面了解这种微环境，包括作为退化功能的营养可用性的变化，对于开发有效的细胞治疗至关重要。本研究的目的是采用脑组织氧探针和微透析导管原位测定临床前山羊椎间盘退变模型的相对NP氧、葡萄糖和乳酸水平。方法在牛尾椎间盘的离体技术改进后，对3只大型山羊的腰椎间盘进行了基线代谢物的体内测量。然后通过向NP中注射软骨素酶ABC （ChABC）诱导变性，并在12周后重复测量。使用磁共振成像（MRI）和组织学对退变严重程度进行分级，使用显微计算机断层扫描评估椎体终板孔隙度。结果山羊变性椎间盘内氧和乳酸水平显著高于正常椎间盘，而葡萄糖水平无显著差异。与健康椎间盘相比，注射chabc的椎间盘表现出更高的椎体终板孔隙度，更差的组织学和MRI分级，以及软骨终板损伤谱。MRI分级与NP氧和乳酸水平呈正相关。在山羊椎间盘退变模型中，我们成功地采用了包括手术位置、平衡时间、流速和原位测量氧、葡萄糖和乳酸的检测方法在内的技术。有趣的是，虽然乳酸水平升高与变性是意料之中的，但氧水平升高是意料之外的。我们的发现可以部分解释为椎间盘和终板结构的相关改变，并激励未来的研究全面建立该模型的潜在机制。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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