IDDRC Behavioral Core Facility, Neuroscience Department, Albert Einstein College of Medicine, Bronx, NY 10461, USA.
IDD Models Core, Waisman Center, University of Wisconsin Madison, Madison, WI 53705, USA.
Neurobiol Learn Mem. 2019 Nov;165:106780. doi: 10.1016/j.nlm.2018.01.001. Epub 2018 Jan 4.
Behavioral neuroscience research incorporates the identical high level of meticulous methodologies and exacting attention to detail as all other scientific disciplines. To achieve maximal rigor and reproducibility of findings, well-trained investigators employ a variety of established best practices. Here we explicate some of the requirements for rigorous experimental design and accurate data analysis in conducting mouse and rat behavioral tests. Novel object recognition is used as an example of a cognitive assay which has been conducted successfully with a range of methods, all based on common principles of appropriate procedures, controls, and statistics. Directors of Rodent Core facilities within Intellectual and Developmental Disabilities Research Centers contribute key aspects of their own novel object recognition protocols, offering insights into essential similarities and less-critical differences. Literature cited in this review article will lead the interested reader to source papers that provide step-by-step protocols which illustrate optimized methods for many standard rodent behavioral assays. Adhering to best practices in behavioral neuroscience will enhance the value of animal models for the multiple goals of understanding biological mechanisms, evaluating consequences of genetic mutations, and discovering efficacious therapeutics.
行为神经科学研究与其他所有科学学科一样,采用了相同的高度精细的方法和对细节的严格关注。为了实现研究结果的最大严谨性和可重复性,经过良好培训的研究人员采用了各种既定的最佳实践。在这里,我们详细说明了在进行小鼠和大鼠行为测试时严格的实验设计和准确数据分析的一些要求。新颖物体识别被用作认知测定的一个例子,已经成功地使用了一系列方法,所有这些方法都是基于适当程序、对照和统计的共同原则。智力和发育障碍研究中心的啮齿动物核心设施主任提供了他们自己的新颖物体识别方案的关键方面,深入了解了基本的相似之处和不太关键的差异。本文引用的文献将引导有兴趣的读者查阅提供逐步方案的论文,这些论文说明了许多标准的啮齿动物行为测定的优化方法。在行为神经科学中遵循最佳实践将提高动物模型的价值,以实现多个目标,包括了解生物机制、评估基因突变的后果和发现有效的治疗方法。