Department of Electronic Science and Technology, University of Science and Technology of China, Hefei 230027, Anhui, China.
Hefei Blood Center, Hefei 230031, Anhui, China.
J Mater Chem B. 2021 Jan 14;9(2):295-306. doi: 10.1039/d0tb02426k. Epub 2021 Jan 5.
The clinical transfusion of red blood cells (RBCs) has provided the greatest number of cryobiology applications in the case of rare blood groups and antibody problems, as well as civil and military disasters. The main technical difficulty with the current clinical technique is the removal of high concentration glycerol (20% or 40%) after thawing. Reducing the probability of intracellular ice formation (IIF) as well as preventing the solution effect are crucial to ensure RBCs avoid cryoinjury. Here, the non-permeating cryoprotectant trehalose was used to dehydrate RBCs before freezing. Furthermore, with the substitution of the low concentration glycerol (5% or 7.5%) for the intracellular remaining water, the bulk of RBCs were successfully cryopreserved to obtain a nearly 95% high survival rate with rapid cooling via EP tubes. Additionally, the washed RBCs after cryopreservation maintained their morphology, deformability, ATP, and 2-3 DPG levels, and all of them met the clinical standards for transfusion safety. Moreover, the whole addition and washing process was simple and easy to operate and could be completed within 30 min, which is crucial for emergency uses. This method will provide more potential for current clinical RBCs cryopreservation practices.
红细胞(RBC)的临床输血在稀有血型和抗体问题以及民事和军事灾难等情况下提供了最多的低温生物学应用。目前临床技术的主要技术难点是解冻后去除高浓度甘油(20%或 40%)。减少细胞内冰形成(IIF)的概率以及防止溶液效应对于确保 RBC 避免冷冻损伤至关重要。在这里,非渗透的冷冻保护剂海藻糖在冷冻前用于使 RBC 脱水。此外,用低浓度甘油(5%或 7.5%)替代细胞内剩余的水,成功地将大量 RBC 冷冻保存,通过 EP 管快速冷却获得近 95%的高存活率。此外,冷冻保存后的洗涤 RBC 保持其形态、变形性、ATP 和 2-3 DPG 水平,并且它们都符合输血安全的临床标准。此外,整个添加和洗涤过程简单易用,可在 30 分钟内完成,这对于紧急用途至关重要。这种方法将为当前的临床 RBC 冷冻保存实践提供更多潜力。
