Baldia Manish, Mani Sunithi, Walter Noel, Kumar Sanjay, Srivastava Alok, Prabhu Krishna
Department of Neurological Sciences, Christian Medical College, Vellore, India.
Department of Radiodiagnosis, Christian Medical College, Vellore, India.
Asian Spine J. 2021 Aug;15(4):415-423. doi: 10.31616/asj.2020.0366. Epub 2020 Dec 28.
Animal case control study.
To create a simple, reproducible disc degeneration model for mouse coccygeal vertebrae.
Back pain due to disc degeneration is probably the most common problem encountered in neurosurgical practice. An easily reproducible animal model for disc degeneration will help in understanding its pathophysiology, and serve as a platform for examining various therapeutic options.
A total of 18 mice were divided into injured (n=12) and non-injured (n=6) groups. The disc height index (DHI%) at coccygeal 4-5 level was measured by computed tomography (CT) scan for all mice. Coccygeal 4-5 discs of the injury group were injured using a 32G needle fixed to a novel tool and confirmed by CT. The non-injury group underwent no procedure. DHI% was measured by CT at 2-, 4-, and 6-week post-injury, and all mice tails were sectioned for histopathology grading of disc degeneration at the respective time intervals.
The injured group showed significant variation in DHI% at 2, 4, and 6 weeks, whereas there was no change in the noninjured group. Histopathologic evaluation with Safranin O stain showed a worsening of the disc degeneration score at 2, 4, and 6 weeks in the injured group, but in the non-injured group there was no change. Percutaneous needle injury technique with our novel tool provided 100% accuracy and uniform degeneration.
A simple, easily reproducible mouse model for disc degeneration was created using a simple, cost-effective, novel tool and technique, its advantage being high precision and user friendly.
动物病例对照研究。
为小鼠尾椎创建一个简单、可重复的椎间盘退变模型。
椎间盘退变引起的背痛可能是神经外科实践中最常见的问题。一个易于复制的椎间盘退变动物模型将有助于理解其病理生理学,并作为检验各种治疗方案的平台。
总共18只小鼠被分为损伤组(n = 12)和非损伤组(n = 6)。通过计算机断层扫描(CT)测量所有小鼠尾椎4 - 5节段的椎间盘高度指数(DHI%)。损伤组的尾椎4 - 5椎间盘使用固定在一种新型工具上的32G针头进行损伤,并通过CT确认。非损伤组未进行任何操作。在损伤后2周、4周和6周通过CT测量DHI%,并在相应时间间隔对所有小鼠尾巴进行切片,用于椎间盘退变的组织病理学分级。
损伤组在2周、4周和6周时DHI%有显著变化,而非损伤组没有变化。用番红O染色进行的组织病理学评估显示,损伤组在2周、4周和6周时椎间盘退变评分恶化,但非损伤组没有变化。使用我们的新型工具进行经皮针刺损伤技术的准确率为100%,退变均匀。
使用一种简单、经济高效的新型工具和技术创建了一个简单、易于复制的小鼠椎间盘退变模型,其优点是精度高且用户友好。
