Validation of a Novel, Flash-Freezing Method: Aluminum Platform

Current Protocols Essential Laboratory Techniques Pub Date : 2020-11-25 DOI:10.1002/cpet.46

Ahmet Imrali, Christine S. Hughes, Abigail S. Coetzee, Francesca R. Delvecchio, Amina Saad, Rhiannon Roberts, Claude Chelala, Jo-Anne ChinAleong, Hemant M. Kocher

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Abstract

Stored biological materials should have minimal pre-analytical variations in order to provide researchers with high-quality samples that will give reliable and reproducible results, yet methods of storage should be easy to implement, with minimal cost and health hazard. Frozen tissue samples are a valuable biological resource. Here we compare different methods, such as liquid nitrogen (LN) or dry ice (DI), to a cheap and safe alternative using an aluminum platform (AP). Murine fresh liver and pancreas tissues were used with varying lengths of warm ischemia time. Quality assessment was based on histological evaluation, DNA and RNA extraction and quantification, and RNA degradation analysis, as well preservation of antigens for immunofluorescence, in a blinded manner. Both in superficial and deep tissue sections, based on histological assessment, AP is superior to DI, or as good as LN techniques in terms of presence of ice crystals, cutting artifacts, and overall quality/structural preservation. DNA and RNA were successfully extracted in reasonable quantities from all freezing techniques, but RNA degradation was seen for pancreas samples across all techniques. Immunofluorescence with cytokeratin8 (CK-8), alpha smooth muscle actin (αSMA), CD3, and B220 shows equally good outcomes for AP and LN, which are better than DI. The aluminum platform is a cheap, yet reliable method to freeze samples, rapidly preserving histological, antigenic, and DNA/RNA quality. Wider testing is required across different sample types. © 2020 The Authors.

Basic Protocol: Flash-freezing fresh tissue with aluminum platform

Alternate Protocol 1: Freezing fresh tissue with liquid nitrogen

Alternate Protocol 2: Freezing fresh tissue with dry ice

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一种新型快速冷冻方法的验证:铝平台

储存的生物材料应尽量减少分析前的变化，以便为研究人员提供高质量的样品，从而提供可靠和可重复的结果，但储存方法应易于实施，成本最低，健康危害最小。冷冻组织样本是一种宝贵的生物资源。在这里，我们比较了不同的方法，如液氮(LN)或干冰(DI)，以及使用铝平台(AP)的廉价和安全的替代方法。小鼠新鲜肝脏和胰腺组织经不同时间的热缺血处理。质量评价是基于组织学评价、DNA和RNA的提取和定量、RNA降解分析以及抗原的免疫荧光保存，采用盲法。在浅层和深层组织切片中，基于组织学评估，AP优于DI，或者在冰晶、切割工件和整体质量/结构保存方面优于LN技术。所有的冷冻技术都成功地提取了数量合理的DNA和RNA，但在所有的冷冻技术中，胰腺样本的RNA降解都是可见的。细胞角化蛋白8 (CK-8)、α -平滑肌肌动蛋白(αSMA)、CD3和B220的免疫荧光检测显示，AP和LN的结果同样好，优于DI。铝制平台是一种廉价而可靠的冷冻样品方法，可快速保存组织学、抗原性和DNA/RNA质量。需要对不同的样品类型进行更广泛的测试。©2020作者。基本方案:用铝平台快速冷冻新鲜组织备用方案1:用液氮冷冻新鲜组织备用方案2:用干冰冷冻新鲜组织

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Current Protocols Essential Laboratory Techniques

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