1.Expert consensus on the vitrification of human oocytes and embryos.
Da LI ; Yingzhuo GAO ; Rong LI
Chinese Medical Journal 2023;136(23):2773-2775
2.Research progress on biocomposites based on bioactive glass.
Yu PENG ; Liang LAN ; Junyu MU ; Sha HOU ; Lijia CHENG
Journal of Biomedical Engineering 2023;40(4):805-811
Bioactive glass (BG) has been widely used in the preparation of artificial bone scaffolds due to its excellent biological properties and non-cytotoxicity, which can promote bone and soft tissue regeneration. However, due to the brittleness, poor mechanical strength, easy agglomeration and uncontrollable structure of glass material, its application in various fields is limited. In this regard, most current researches mainly focus on mixing BG with organic or inorganic materials by freeze-drying method, sol-gel method, etc., to improve its mechanical properties and brittleness, so as to increase its clinical application and expand its application field. This review introduces the combination of BG with natural organic materials, metallic materials and non-metallic materials, and demonstrates the latest technology and future prospects of BG composite materials through the development of scaffolds, injectable fillers, membranes, hydrogels and coatings. The previous studies show that the addition of BG improves the mechanical properties, biological activity and regeneration potential of the composites, and broadens the application of BG in the field of bone tissue engineering. By reviewing the recent BG researches on bone regeneration, the research potential of new materials is demonstrated, in order to provide a reference for future related research.
Bone Regeneration
;
Bone and Bones
;
Freeze Drying
;
Glass
;
Hydrogels
3.Droplet freeze-thawing system based on solid surface vitrification and laser rewarming.
Wenxin ZHU ; Ping'an PAN ; Yonghua HUANG ; Wei CHEN ; Sha HAN ; Zheng LI ; Jinsheng CHENG
Journal of Biomedical Engineering 2023;40(5):973-981
Ultra-rapid cooling and rewarming rate is a critical technical approach to achieve ice-free cells during the freezing and melting process. A set of ultra-rapid solid surface freeze-thaw visualization system was developed based on a sapphire flim, and experiments on droplet freeze-thaw were carried out under different cryoprotectant components, volumes and laser energies. The results showed that the cooling rate of 1 μL mixed cryoprotectant [1.5 mol/L propylene glycol (PG) + 1.5 mol/L ethylene glycol (EG) + 0.5 mol/L trehalose (TRE)] could be 9.2×10 3 °C/min. The volume range of 1-8 μL droplets could be vitrified. After comparing the proportions of multiple cryoprotectants, the combination of equal proportion mixed permeability protectant and trehalose had the best vitrification freezing effect and more uniform crystallization characteristics. During the rewarming operation, the heating curve of glassy droplets containing gold nanoparticles was measured for the first time under the action of 400-1 200 W laser power, and the rewarming rate was up to the order of 10 6 °C/min. According to the droplet images of different power rewarming processes, the laser power range for ice-free rewarming with micron-level resolution was clarified to be 1 400-1 600 W. The work of this paper simultaneously realizes the ultra-high-speed temperature ramp-up, transient visual observation and temperature measurement of droplets, providing technical means for judging the ice free droplets during the freeze-thaw process. It is conducive to promoting the development of ultra-rapid freeze-thaw technology for biological cells and tissues.
Freezing
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Vitrification
;
Cryopreservation/methods*
;
Trehalose
;
Gold
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Rewarming
;
Metal Nanoparticles
;
Cryoprotective Agents
;
Lasers
4.Clinical benefits of a modified Cryopiece system for cryopreservation of rare ejaculated and testicular spermatozoa for ICSI.
Wei CHEN ; Chuan HUANG ; Peng LI ; Feng LIU ; Jian SUN ; Zi-Jue ZHU ; Jing ZHAI ; Yuan XU ; Yan HONG ; Jian-Lin HU ; Yun-Peng PENG ; Zhen-Bo ZHANG ; Yu WU ; Zheng LI
Asian Journal of Andrology 2022;24(5):533-539
Cryopreservation of rare testicular-retrieved spermatozoa for intracytoplasmic sperm injection (ICSI) in patients with severe oligozoospermia and azoospermia remains a major challenge in clinical practice. This study evaluated the Cryopiece system as a potential technique to cryopreserve rare human spermatozoa for ICSI. Small numbers of ejaculated (24 patients) and testicular (13 patients) spermatozoa were cryopreserved using the Cryopiece system. The total number of recovered spermatozoa and motility were assessed after thawing. Thirty-seven couples underwent ICSI using spermatozoa cryopreserved by the Cryopiece system, and ICSI outcomes (rates of fertilization, embryo cleavage, and clinical pregnancy) were evaluated. The average sperm post-thaw retrieval rate was 79.1%, and motility was 29.7%. Ejaculated spermatozoa had a higher post-thaw motility (32.5%) than testicular spermatozoa (21.8%; P = 0.005). ICSI achieved a fertilization rate of 61.9%, embryo cleavage rate of 84.6%, and clinical pregnancy rate of 43.3%. The ICSI outcomes in the ejaculated and testicular frozen-thawed spermatozoa were similar. Assisted oocyte activation (AOA) after ICSI with motile (72.1%) or immotile (71.9%) spermatozoa resulted in a significantly higher fertilization rate than that when using motile spermatozoa without AOA (52.0%; P = 0.005). However, AOA did not enhance the clinical pregnancy rate (55.6% or 40.0% vs 35.3%; P = 0.703). The Cryopiece system is simple and useful for the cryopreservation of small numbers of ejaculated or testicular spermatozoa for ICSI in patients with severe oligozoospermia or nonobstructive azoospermia.
Azoospermia
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Cryopreservation
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Female
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Humans
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Male
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Oligospermia
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Pregnancy
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Pregnancy Rate
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Retrospective Studies
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Semen
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Sperm Injections, Intracytoplasmic
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Sperm Motility
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Spermatozoa
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Testis
5.Update on techniques for cryopreservation of human spermatozoa.
Chuan HUANG ; Yu-Lin TANG ; Jian-Ling HU ; Wen-Jun ZHOU ; Zeng-Hui HUANG ; Xue-Feng LUO ; Zheng LI ; Wen-Bing ZHU
Asian Journal of Andrology 2022;24(6):563-569
In the 1960s, sperm cryopreservation was developed as a method to preserve fertility. Currently, techniques for the cryopreservation of human spermatozoa have been widely used in assisted reproduction. However, although sperm cryobiology has made notable achievements, the optimal method for the recovery of viable spermatozoa after cryopreservation remains elusive. Postthawing sperm quality can be affected by cryoprotectants, ice formation, storage conditions, and osmotic stress during the freezing process. This review discusses recent advances in different cryopreservation techniques, cryoprotectants, and freezing and thawing methods during cryopreservation and new indications for the use of cryopreserved spermatozoa.
Humans
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Male
;
Semen Preservation/methods*
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Sperm Motility
;
Semen
;
Cryopreservation/methods*
;
Spermatozoa
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Cryoprotective Agents/pharmacology*
6.Seminal HPV detection: a pilot study comparing the preservation effectiveness and cost between a methanol-based solution and cryopreservation with liquid nitrogen.
Jynfiaf FRANCIS ; Cecilia KÄRRBERG ; Jonas HERMANSSON ; Magnus LINDH ; Sofia GANIDOU ; Ann THURIN-KJELLBERG ; Kersti LUNDIN ; Randa AKOURI ; Panagiotis TSIARTAS
Asian Journal of Andrology 2022;24(5):560-561
7.Effects of Vitrification with Self-made Carriers and Slow Programmed Freezing on Ovarian Tissue of Sheep.
Yan Ting CUI ; Lu Kai YANG ; Jin LIU ; Yi Long HAN ; Chao CHEN ; Xiao Hui DENG ; Li Gang JIANG
Acta Academiae Medicinae Sinicae 2021;43(2):193-198
Objective To investigate the effects of self-made carriers on the cryopreservation of ovarian tissue of sheep. Methods Thirty-two ovaries were randomly assigned to fresh group,programmed freezing group,self-made carrier I vitrification group,and self-made carrier Ⅱ vitrification group.The morphology,proliferation,apoptosis,and estrogen level of the ovarian tissue in each group were observed. Results After cryopreservation,the morphology normal rate of the primordial follicles in programmed freezing group,self-made carrier I vitrification group,and self-made carrier Ⅱ vitrification group were 74.2%,72.8%,and 72.3%,respectively,lower than that(83.7%)in the fresh group(χ
Animals
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Cryopreservation
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Female
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Freezing
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Ovarian Follicle
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Ovary
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Sheep
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Vitrification
8.Effects of vitrification and cryostorage duration on single-cell RNA-Seq profiling of vitrified-thawed human metaphase II oocytes.
Ying HUO ; Peng YUAN ; Qingyuan QIN ; Zhiqiang YAN ; Liying YAN ; Ping LIU ; Rong LI ; Jie YAN ; Jie QIAO
Frontiers of Medicine 2021;15(1):144-154
Oocyte cryopreservation is widely used for clinical and social reasons. Previous studies have demonstrated that conventional slow-freezing cryopreservation procedures, but not storage time, can alter the gene expression profiles of frozen oocytes. Whether vitrification procedures and the related frozen storage durations have any effects on the transcriptomes of human metaphase II oocytes remain unknown. Four women (30-32 years old) who had undergone IVF treatment were recruited for this study. RNA-Seq profiles of 3 fresh oocytes and 13 surviving vitrified-thawed oocytes (3, 3, 4, and 3 oocytes were cryostored for 1,2, 3, and 12 months) were analyzed at a single-cell resolution. A total of 1987 genes were differentially expressed in the 13 vitrified-thawed oocytes. However, no differentially expressed genes were found between any two groups among the 1-, 2-, 3-, and 12-month storage groups. Further analysis revealed that the aberrant genes in the vitrified oocytes were closely related to oogenesis and development. Our findings indicated that the effects of vitrification on the transcriptomes of mature human oocytes are induced by the procedure itself, suggesting that long-term cryostorage of human oocytes is safe.
Adult
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Cryopreservation
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Female
;
Humans
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Metaphase
;
Oocytes
;
RNA-Seq
;
Vitrification
9.Improving comprehensive retention rate of peppermint oil in freeze-dried preparation based on cyclodextrin inclusion technology.
Xiu-Jia SHI ; Ya-Ru CHENG ; Yi-Ting GONG ; Ming-Shan XU ; Li YANG ; Jun-Dong DAI ; Ling DONG
China Journal of Chinese Materia Medica 2021;46(22):5819-5824
The freeze-drying technique, characterized by low-temperature processing, is especially suitable for sensitive volatile oils with thermal instability. However, there are few studies focusing on the retention of volatile oils in the processing of freeze-dried preparations. This study evaluated the effects of different addition methods(adsorption, emulsification, solid dispersion, and inclusion) on the retention rate of the main components in peppermint oil, aiming to explore the application feasibility of freeze-dried preparations of volatile oils. Firstly, the addition method was determined based on the retention rates of menthol in four freeze-dried preparations. Secondly, an orthogonal test was designed to optimize the preparation process based on the characteristics of the preferred addition method. The results showed that the most suitable preparation form of peppermint oil was inclusion with beta-cyclodextrin(β-CD), and the retention rate of menthol in freeze-drying was 86.36%. According to the two-step preparation process of inclusion and freeze-drying, we introduced the product of inclusion rate and retention rate, i.e., comprehensive retention rate, to determine the optimum processing parameters. The results showed that β-CD/oil ratio of 7∶1, inclusion temperature of 40 ℃, and inclusion time of 2 h were the optimum processing parameters. The product prepared with these parameter had the comprehensive retention rate of 68.41%, retention rate of 92.53%, and inclusion rate of 73.93%. The inclusion compound was white powder with significantly increased solubility. The pre-paration process based on cyclodextrin inclusion in this study is stable and reliable and provides a new idea for ensuring the efficacy and stability of volatile components in freeze-dried preparations.
Cyclodextrins
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Freeze Drying
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Mentha piperita
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Oils, Volatile
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Plant Oils
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Solubility
;
Technology
10.Effects of Peripheral Blood Different Pretreatment Methods and Preservation Time on RNA Quality.
Jia-Yi ZHANG ; Qian-Nan XU ; Xi-Ling LIU ; Cheng-Tao LI
Journal of Forensic Medicine 2021;37(6):825-831
OBJECTIVES:
To evaluate the effects of different pretreatment methods and preservation time on RNA quality of peripheral blood samples, and to optimize the preservation method of peripheral blood samples.
METHODS:
Eight pretreatment methods were used to preprocess the peripheral blood from 3 healthy unrelated individuals and the treated samples were stored at -80 ℃. Total RNA of samples was extracted using Quick-RNATM Miniprep Plus kit. DNA/RNA ShieldTM was added to peripheral blood and total RNA was extracted after preservation at -80 ℃ for 0, 5, 10, 15, 30 and 60 days, respectively. The concentration, purity and integrity of RNA were determined. Statistical analyses were performed by SPSS 22.0 software to compare the differences in RNA yield, purity and integrity among the eight pretreatment methods.
RESULTS:
In terms of purity, leukocyte pretreated with RNAlaterTM and directly cryopreservation peripheral blood showed the worst purity. The other six methods showed better purity. In terms of yield, blood cells with DNA/RNA ShieldTM came out with the highest yield, followed by peripheral blood with DNA/RNA ShieldTM. In terms of integrity, peripheral blood preserved in PAXgene Blood RNA tube method had the best integrity. Except for peripheral blood pretreated with DNA/RNA ShieldTM and blood cells pretreated with DNA/RNA shieldTM, the other five methods had statistical differences when compared to the method by keeping peripheral blood in PAXgene Blood RNA tube. The purity of RNA stored at six-time gradients ranged from 1.815 to 1.952. With the increase of storage time, RNA yield decreased from 4.516 ng to 1.039 ng, and RNA integrity decreased from 8.533 to 7.150.
CONCLUSIONS
According to the results of total RNA's yield, purity and integrity, peripheral blood pretreated with DNA/RNA ShieldTM was the best pretreatment method. After the pretreatment, samples can be preserved for up to 60 days in low temperature.
Blood Specimen Collection/methods*
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Cryopreservation
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DNA/analysis*
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Humans
;
RNA

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