应用热传导数学模型冷冻保存虹鳟(Oncorhynchus mykiss)精子:吸管位置和液氮水平如何影响冷冻率和受精率。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-05-27 DOI:10.1016/j.cryobiol.2024.104908
M. Victoria Santos , Sonia A. Crichigno , Víctor E. Cussac , Noemí Zaritzky
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引用次数: 0

摘要

对虹鳟精液在田间条件下的冷冻保存进行了分析。由于氮气蒸汽外部温度的变化,秸秆在液氮液面上的位置是影响冷冻速率和受精率的关键变量。研究目的是:通过实验测量 0.5 毫升塑料吸管在液氮中的冷却速度和受精率,分析冷冻保存方案。5 毫升塑料吸管在氮气蒸汽中不同高度对应不同外部温度的冷却速率和受精率;利用生物系统和塑料吸管的相应热物理性质求解传热偏微分方程,对冷冻过程进行数值模拟;评估和分析吸管冷冻过程中的表面传热系数(h);引入一个新变量--特征冷冻时间(tc),以便对不同方案进行比较;该变量被定义为初始冷冻温度与最终参考温度-40ºC(80%以上的水处于冷冻状态的温度)之间的时间间隔。数学模型预测了秸秆内部的温度分布,结果显示秸秆塑料材料(聚对苯二甲酸乙二醇酯、聚氯乙烯和聚丙烯)对冻结率的影响较小。数值模拟得到的平均 h 值为 25.5 W/m2 K,与自然对流的分析努塞尔特相关性得到的值接近。当外部氮气平均温度为 -129.6 ºC(温度范围:-94 至 -171 ºC),平均 tc 为 56.8 秒(范围在 47 至 72 秒之间)时,施肥试验的效果有所改善。这些结果与液氮水平面以上 2 厘米的高度相对应。与文献报道的数据进行比较,结果令人满意。将数学模型应用于低温生物学领域取得了与低温保存活动相关的结果。
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Applying a heat transfer mathematical model for the cryopreservation of rainbow trout (Oncorhynchus mykiss) sperm: How straw location over liquid nitrogen level affects freezing rate and fertilization yield

Cryopreservation of rainbow trout semen under field conditions was analyzed. Straw location over liquid nitrogen level is a crucial variable that affects freezing rate and fertilization yield due to changes in nitrogen vapor external temperature. The objectives were: to analyze cryopreservation protocols by experimentally measuring the cooling rates and fertilization yield of 0.5 ml plastic straws located in nitrogen vapor at different heights corresponding to different external temperatures; to numerically simulate the freezing process, by solving the heat transfer partial differential equations with the corresponding thermo-physical properties of the biological system and the plastic straw; to evaluate and analyze the surface heat transfer coefficient (h) during the freezing process of the straws; to introduce a new variable, the characteristic freezing time (tc), that enables comparison between protocols; this variable was defined as the elapsed period between the initial freezing temperature and a final reference temperature of −40 °C (temperature in which more than 80 % of the water is in a frozen state). The mathematical model predicted the temperature distribution inside the straw, showing a low effect of straw plastic materials (polyethylene-terephthalate glycol, polyvinyl-chloride, and polypropylene) on freezing rates. The average h value obtained from numerical simulations was 25.5 W/m2 K, close to that obtained from the analytical Nusselt correlation for natural convection. An improvement on fertilization trials was observed when the average external nitrogen temperature was −129.6 °C (temperature range: −94 to −171 °C) with an average tc of 56.8 s (ranging between 47 and 72 s). These results corresponded to a height above the level of liquid nitrogen of 2 cm. Comparison with literature reported data showed satisfactory results. Applying mathematical models in the cryobiology field achieved results that are relevant for cryopreservation activities.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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