Cryopreservation of human semen by inherently-controlled icing probability: Or how the surface profile of superhydrophobic carbon soot coatings and the sperm volume affect the outcome of slow freezing?

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-02-22 DOI:10.1016/j.cryobiol.2024.104863
Karekin D. Esmeryan , Todor A. Chaushev
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Abstract

The restoration of initial functionality of human spermatozoa subjected to cryopreservation is challenging, because the deleterious intracellular icing and the occurrence of osmotic shocks due to prolonged exposure to increased concentrations of intracellular solutes are oppositely dependent on the cooling rate. This longstanding problem could be overcome if using superhydrophobic soot coatings delaying the heat transfer rate, reducing the ice formation probability and triggering balanced and timely dehydration of the cells, but the effect of their surface profile and sperm volume on the success rate of slow freezing is unclear. Here, we show for the first time that the two-factor freezing injury is entirely avoidable by tailoring the solid-to-gas voids (pores) fraction in the soot, leading to increased nucleation free energy barrier, presumable incipiency of ice crystals with controllable shape and size and hence, fully (100 %) recovered post-thaw sperm motility. It is demonstrated that the reason for such a unique scientific result is the selection of soot coatings with appropriate morphochemical features, hypothetically (not directly proven yet) inducing equilibrium among the solution composition and ice crystals formation, retarding the undesirable compression of liquid-filled “slush ice” channels surrounding the cytoplasm and impeding the ice recrystallization. The novel insights introduced in this article open endless horizon for customizing and revolutionizing the technical protocols in cryobiology.

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利用固有的可控结冰概率冷冻保存人类精液:或者说超疏水碳烟涂层的表面轮廓和精子体积如何影响缓慢冷冻的结果?
要恢复冷冻保存的人类精子的初始功能具有挑战性,因为有害的细胞内结冰和因长时间暴露于浓度增加的细胞内溶质而发生的渗透冲击与冷却速度成反比。如果使用超疏水煤烟涂层来延迟传热速率、降低结冰概率并引发细胞均衡及时脱水,就能克服这一长期存在的问题,但其表面轮廓和精子体积对缓慢冷冻成功率的影响尚不清楚。在这里,我们首次证明,通过调整烟灰中固气空隙(孔隙)的比例,完全可以避免双因素冷冻损伤,从而提高成核自由能障,推测冰晶的萌发具有可控的形状和大小,并因此完全(100%)恢复解冻后精子的运动能力。研究表明,之所以能取得如此独特的科学成果,是因为选择了具有适当形态化学特征的煤烟涂层,假设(尚未直接证实)诱导了溶液成分和冰晶形成之间的平衡,延缓了细胞质周围充满液体的 "冰泥 "通道的不良压缩,阻碍了冰的再结晶。本文介绍的新见解为低温生物学技术规程的定制和革新开辟了无尽的前景。
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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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