Frezel Noémie, Kratzer Gilles, Verzar Philipp, Bürki Jérôme, Weber Fabienne A, Zeilhofer Hanns Ulrich
Institute of Pharmacology and Toxicology, University of Zurich, Zurich, Switzerland.
Institute of Biology (IBENS), École Normale Supérieure, CNRS, INSERM, Paris Sciences et Lettres Research University, Paris, France.
Pain Rep. 2019 Apr 25;4(3):e740. doi: 10.1097/PR9.0000000000000740. eCollection 2019 May-Jun.
Genetically modified mice are widely used in studies on human and animal physiology and pharmacology, including pain research. The experimental design usually includes comparisons of genetically modified mice with wild-type littermates, requiring biopsy material for genotyping and methods for unequivocal identification of individual mice. Ethical standards and, in some countries, legislation require that both needs are reached with a single procedure. Clipping of the most distal phalanx of up to two toes per paw (toe clipping) is the favored procedure in most research fields, but it may be problematic in sensory physiology and pain research.
To systematically investigate whether toe-clipping influences later-in-life nociceptive sensitivity or the susceptibility to neuropathic or inflammatory hyperalgesia.
We tested in male mice whether the clipping of 2 toes of a hind paw influences nociceptive sensitivities to noxious heat or cold, or to mechanical stimulation under baseline conditions, after peripheral nerve injury (chronic constriction of the sciatic nerve) or during peripheral inflammation induced by subcutaneous zymosan A injection. We tested not only for the presence of significant differences but also specifically addressed bioequivalence using the 2 one-sided t test procedure. We chose a threshold of 25% variation of the control value for nonequivalence, which is usually taken as a threshold for biological relevance in pain tests.
Using this value, we found that for all conditions (non-neuropathic and non-inflamed, neuropathic and inflamed), nociceptive sensitivities significantly fell within the equivalence bounds of the non-toe-clipped control mice.
These results suggest that toe clipping does not have long-term effects on nociceptive sensitivities and does not alter the susceptibility of male mice to neuropathic or inflammatory hyperalgesia.
转基因小鼠广泛应用于人类和动物生理学及药理学研究,包括疼痛研究。实验设计通常包括将转基因小鼠与野生型同窝小鼠进行比较,这需要活检材料进行基因分型以及明确鉴定个体小鼠的方法。伦理标准以及在一些国家的立法要求通过单一程序满足这两个需求。每只爪子最多剪掉两个脚趾的最末节趾骨(脚趾修剪)是大多数研究领域青睐的方法,但在感觉生理学和疼痛研究中可能存在问题。
系统研究脚趾修剪是否会影响后期的伤害性感受敏感性或对神经性或炎症性痛觉过敏的易感性。
我们在雄性小鼠中测试了后爪两个脚趾的修剪是否会影响在基线条件下、外周神经损伤(坐骨神经慢性压迫)后或皮下注射酵母聚糖A诱导的外周炎症期间对有害热或冷或机械刺激的伤害性感受敏感性。我们不仅测试了是否存在显著差异,还使用双侧单侧t检验程序专门探讨了生物等效性。我们选择了对照值25%的变化阈值作为不等效性的标准,这通常被用作疼痛测试中生物学相关性的阈值。
使用该值,我们发现对于所有条件(非神经性和非炎症性、神经性和炎症性),伤害性感受敏感性显著落在未修剪脚趾的对照小鼠的等效范围内。
这些结果表明,脚趾修剪对伤害性感受敏感性没有长期影响,也不会改变雄性小鼠对神经性或炎症性痛觉过敏的易感性。
