L-Proline as a Cryoprotective Agent for the Preservation of Galea Spixii Skin Fibroblasts.

Somatic cell biobanking is a promising strategy for developing reproductive techniques. Although cryopreservation, a technique used for creating biobanks, has been performed on Galea spixii, structural and physiological damage to its cells highlight the need to optimize the cryoprotective solution being used. Therefore, the osmoprotective activity of 5 mM L-proline was evaluated as an alternative cryoprotectant for G. spixii fibroblast conservation. The concentration was defined based on previous studies conducted on mammalian cells. Cells derived from the skin of six individuals were cultured until the fifth passage were cryopreserved under the following treatments: (i) control (non-cryopreserved); (ii) a solution with 10% dimethyl sulfoxide (Me2SO), 10% fetal bovine serum (FBS), and 0.2 M sucrose; (iii) a solution with 10% Me2SO, 10% FBS, and 5 mM L-proline; and (iv) a solution with 10% Me2SO, 10% FBS, 0.2 M sucrose, and 5 mM L-proline. Tests were conducted to analyze cell morphology, viability, metabolism, proliferation, and apoptosis; reactive oxygen species (ROS) levels; and mitochondrial membrane activity (ΔΨm). A reduction in the number of viable cells (72.3% ± 1.2%) was observed in the sucrose-containing group compared to the control (86.7% ± 2.0%) and L-proline (88.4% ± 1.8% and 87.8% ± 2.1%) groups. After apoptotic analysis, a reduction in the number of viable cells was observed in the group with sucrose alone (74.6% ± 4.1%) compared to the control group (88.2% ± 1.1%). The ROS levels (1.03 ± 0.5 and 1.07 ± 0.5, respectively) and ΔΨm values (0.99 ± 0.42 and 1.22 ± 0.73, respectively) observed in the groups with L-proline were similar to that observed in the control group (1.00 ± 0.5 and 1.00 ± 0.4, respectively). Moreover, no difference was observed between groups for cell morphology, metabolism, or proliferation. Thus, L-proline is a cryoprotectant agent that can be used during G. spixii fibroblast cryopreservation, alone or with sucrose. In addition, we developed an adequate biobank for G. spixii, whereby stored cells could be used for reproductive techniques.

Preventive and therapeutic vascular photobiomodulation decreases the inflammatory markers and enhances the muscle repair process in an animal model.

Photobiomodulation therapy (PBM) has shown positive effects when applied locally to modulate the inflammatory process and facilitate muscle repair. However, the available literature on the mechanisms of action of vascular photobiomodulation (VPBM), a non-invasive method of vascular irradiation, specifically in the context of local muscle repair, is limited. Thus, this study aimed to assess the impact of vascular photobiomodulation (VPBM) using a low-level laser (LLL) on the inflammatory response and the process of skeletal muscle repair whether administered prior to or following cryoinjury-induced acute muscle damage in the tibialis anterior (TA) muscles. Wistar rats (n = 85) were organized into the following experimental groups: (1) Control (n = 5); (2) Non-Injury + VPBM (n = 20); (3) Injured (n = 20); (4) Pre-VPBM + Injury (n = 20); (5) Injury + Post-VPBM (n = 20). VPBM was administered over the vein/artery at the base of the animals' tails (wavelength: 780 nm; power: 40 mW; application area: 0.04 cm2; energy density: 80 J/cm2). Euthanasia of the animals was carried out at 1, 2, 5, and 7 days after inducing the injuries. Tibialis anterior (TA) muscles were collected for both qualitative and quantitative histological analysis using H&E staining and for assessing protein expression of TNF-α, MCP-1, IL-1ß, and IL-6 via ELISA. Blood samples were collected and analyzed using an automatic hematological analyzer and a leukocyte differential counter. Data were subjected to statistical analysis (ANOVA/Tukey). The results revealed that applying VPBM prior to injury led to an increase in circulating neutrophils (granulocytes) after 1 day and a subsequent increase in monocytes after 2 and 5 days, compared to the Non-Injury + VPBM and Injured groups. Notably, an increase in erythrocytes and hemoglobin concentration was observed in the Non-Injury + VPBM group on days 1 and 2 in comparison to the Injured group. In terms of histological aspects, only the Prior VPBM + Injured group exhibited a reduction in the number of inflammatory cells after 1, 5, and 7 days, along with an increase in blood vessels at 5 days. Both the Prior VPBM + Injured and Injured + VPBM after groups displayed a decrease in myonecrosis at 1, 2, and 7 days, an increase in newly-formed and immature fibers after 5 and 7 days, and neovascularization after 1, 2, and 7 days. Regarding protein expression, there was an increase in MCP-1 after 1 and 5 days, TNF-α, IL-6, and IL-1ß after 1, 2, and 5 days in the Injured + VPBM after group when compared to the other experimental groups. The Prior VPBM + Injured group exhibited increased MCP-1 production after 2 days, in comparison to the Non-Injury + VPBM and Control groups. Notably, on day 7, the Injured group continued to show elevated MCP-1 protein expression when compared to the VPBM groups. In conclusion, VPBM effectively modulated hematological parameters, circulating leukocytes, the protein expression of the chemokine MCP-1, and the proinflammatory cytokines TNF-α and IL-1ß, ultimately influencing the inflammatory process. This modulation resulted in a reduction of myonecrosis, restoration of tissue architecture, increased formation of newly and immature muscle fibers, and enhanced neovascularization, with more pronounced effects when VPBM was applied prior to the muscle injury.

Seed morphoanatomy of the genus Passiflora L. (Passifloraceae) by scanning electron microscopy and light microscopy.

Morphoanatomical analysis of seeds contributes to knowledge of the development of seedlings and identification of species, as well as supporting conservation studies. The conservation of the species belonging to the Passiflora genus is crucial due to of the threats to the genetic resources of these species. Thus, the objective of this study was to morphoanatomically characterize Passiflora seeds, verify possible injuries to the tissues after cryopreservation and thus contribute to the conservation strategies of the species of this genus. Initially, seeds of Passiflora coccinea, P. edulis, P. gibertii, P. maliformis, P. morifolia, P. setacea, P. suberosa, and P. tenuifila collected from the Passion Fruit Active Germplasm Bank of the Embrapa Cassava and Fruits research unit (Embrapa Mandioca e Fruticultura) were analyzed. Then, their length, width and thickness, shape of the base and tip, and ornamentations present on the body and edge of the seeds were evaluated. The seeds of the species were placed in cryotubes and immersed in liquid nitrogen to assess possible cryoinjuries. The tegument and tissues of the seeds were examined by scanning electron microscopy. The seeds had varied biometric data, with average values of 4.63 mm for length, 3.28 mm for width, and 1.51 mm for thickness. Six ornamentation types were observed: reticulate for the species P. coccinea; finely reticulate for P. edulis; foveolate reticulate for P. gibertii and P. setacea; alveolate reticulate for P. maliformis and P. tenuifila; coarsely reticulate for P. morifolia; and falsifoveolate reticulate for P. suberosa. Some seeds suffered tegument cracks due to the freezing in liquid nitrogen, but without physiological damages to the embryo and endosperm. The cryopreservation of the seeds in the presence of the tegument significantly reduced the cryoinjuries caused to the embryo. Cryopreservation can be promising for long-term conservation of passion fruit seeds.

Frozen-Thawed Sperm Analysis of Benign Prostatic Hyperplasia Dogs Treated With Finasteride.

Benign Prostatic Hyperplasia (BPH) is a pathological condition that directly interferes with the reproductive potential of senile dogs, by leading to prostate enlargement and sperm injury, which in turn may compromise sperm freezeability. Moreover, albeit finasteride treatment reduces prostatic volume and blood supply and maintains seminal quality and testicular integrity, the effects of sperm samples submitted to cryopreservation after the finasteride treatment are still unknown. Thus, the aim of this study was to evaluate frozen-thawed semen of BPH dogs, as well as dogs subjected to BPH pharmacological treatment with finasteride. For such purpose, 20 dogs were previously selected and assigned to three experimental groups, according to BPH diagnosis and treatment with finasteride: Control (n = 9), BPH Group (n = 5) and BPH-Finasteride Group (n = 6). Semen was subjected to one-step cryopreservation protocol with tris-fructose-citric acid extender with 5% glycerol and thawed at 37°C for 30 sec. Fresh and post-thaw sperm samples were evaluated for macroscopic parameters, sperm concentration, sperm motility kinetics, sperm mitochondrial activity and potential, oxidative stress, plasmatic and acrosome membrane integrity, sperm DNA fragmentation and sperm binding test on perivitelic membrane of chicken egg yolk. Regarding fresh semen, BPH-Finasteride group had the lowest ejaculate visual aspect (opacity), higher frequency of sperm flagellar beating (BCF) and percentage of sperm with medium velocity. Control group had the highest percentage of sperm DNA integrity compared to BPH group. For the frozen-thawed semen, Control group presented the highest percentage of spermatozoa with high mitochondrial activity. However, the BPH-Finasteride group showed higher number of sperm bound to the perivitelline membrane of chicken egg yolk compared to the BPH Group. Conversely, BPH group had higher percentage of DNA damage. In conclusion, the ejaculate of BPH dogs has higher susceptibility to cryoinjury, whereas finasteride-treated dogs have increased spermatozoa functional performance, suggesting a promising use of BPH dogs as semen donors in sperm cryopreservation programs.

Influence of glycerol addition on the quality of cat epididymal sperm during the freeze-thaw process / Influência da adição do glicerol sobre a qualidade dos espermatozoides epididimários de gato durante as etapas da congelação-descongelação

Cryopreservation of epididymal sperm is a useful tool for preserving the genetic potential of valuable animal specimens. The domestic cat is used as a model to study and develop cryogenics for other felines. However, regulation of the entire cryopreservation process is essential for the success of this biotechnology. Thus, our aim was to evaluate the effects of glycerol equilibration time and freezethaw stages on the quality of epididymal sperm obtained from domestic cats. Epididymal sperm were recovered with TRIS and immediately evaluated for total motility (TM), vigor, viability, membrane functionality (HOST), and morphology. Then, TRIS-20% egg yolk was added to the samples, which were equally divided into two 1.5 mL tubes and refrigerated at 4 ºC for 1 hour. Subsequently, glycerol was added at a final concentration of 5%. The samples were incubated with glycerol (equilibration time) for either 5 or 10 minutes (groups G5 and G10, respectively) and then frozen. Thawing occurred at 37 ºC for 30 seconds. The samples were evaluated at all stages. A reduction in TM was observed only after thawing; however, it was higher in G5 (39.00 ± 4.07%) than in G10 (18.50 ± 4.54%). Vigor declined in both groups after thawing; however, they did not differ from each other. Sperm viability was maintained in G5 after glycerolization (53.60 ± 2.59%); in G10, sperm viability decreased in the glycerolized sample (48.80 ± 2.93%) when compared to that in the fresh sample (59.90 ± 1.74%). Post-thaw viability of G5 (33.80 ± 1.89%) was higher than that of G10 (18.80 ± 3.01%). In the HOST, a decrease in viability was only observed after thawing, with no difference between the groups (41.50 ± 2.84% for G5 and 40.20 ± 3.49% for G10). With regard to sperm morphology, normal sperm decreased while sperm with post-thaw secondary defects increased in both groups. In conclusion, a shorter equilibration time for glycerolization preserves epididymal sperm quality better and the freeze-thaw process is the most critical stage of thawing.(AU)

A criopreservação dos espermatozoides epididimários é uma ferramenta útil para preservar o potencial genético de um animal valioso. Além disso, o gato doméstico é modelo eleito para o estudo e desenvolvimento da criogenia para os demais felinos. Contudo, para o sucesso dessa biotécnica é essencial o controle de todo o processo de criopreservação. Assim, objetivou-se avaliar o efeito do tempo de equilíbrio da glicerolização e das etapas da congelação-descongelação sobre a qualidade dos espermatozoides epididimários de gato doméstico. Para tanto, espermatozoides epididimários foram recuperados com TRIS e imediatamente avaliados quanto à motilidade total (MT), vigor, viabilidade, funcionalidade de membrana (HOST) e morfologia. Em seguida, as amostras foram adicionadas de TRIS-gema a 20%, fracionadas igualmente em dois tubos de 1,5 mL, refrigeradas a 4 ºC por 1 hora e, posteriormente, adicionadas de glicerol na concentração final de 5%. As amostras foram incubadas com glicerol (tempo de equilíbrio) por 5 ou 10 minutos (grupos G5 e G10, respectivamente) e depois congeladas. A descongelação ocorreu a 37 ºC por 30 segundos. As amostras foram avaliadas em todas as etapas. Uma redução na MT foi observada apenas na pós-descongelação, no entanto G5 (39,00 ± 4,07%) foi superior ao G10 (18,50 ± 4,54%). O vigor declinou pós-descongelação em ambos os grupos; contudo, não diferiram entre si. A viabilidade espermática foi mantida no G5 pós-glicerolização (53,60 ± 2,59%), diferentemente do observado em G10, em que a amostra glicerolizada (48,80 ± 2,93%) reduziu em relação à fresca (59,90 ± 1,74%). A viabilidade pós-descongelação de G5 (33,80 ± 1,89%) foi superior à de G10 (18,80 ± 3,01%). No HOST, uma redução da viabilidade só foi observada pósdescongelação, não havendo diferença entre os grupos (41,50 ± 2,84% para G5 e 40,20 ± 3,49% para G10). Em relação à morfologia espermática, os espermatozoides normais diminuíram, enquanto os espermatozoides com defeitos secundários pós-descongelação aumentaram em ambos os grupos. Conclui-se que um menor tempo de equilíbrio para a glicerolização preserva melhor a qualidade dos espermatozoides epididimários e a etapa mais crítica do processo de congelação-descongelação é a descongelação.(AU)

Pregnancy and delivery rates after vitrification of in vitro -produced Nelore ( Bos indicus ) embryos under field conditions / Tasas de preñez y nacimientos después de la vitrificación de embriones Nelore (Bos indicus) producidos in vitro bajo condiciones de campo / Taxas de prenhez e nascimentos após vitrificação de embriões Nelore (Bos indicus) produzidos in vitro sob condições de campo

Abstract Background: Cryopreservation preserves cellular viability under low temperatures, resulting in diminished intracellular enzymatic activity and reduced cellular metabolism that ultimately allows preserving genetic material for indefinite periods of time. Embryos submitted to cryopreservation suffer from considerable morphological and functional damage, resulting in reduced survival and development rates. Objective: To evaluate pregnancy and delivery rates of in vitro-produced (IVP) Nellore (Bos indicus) embryos after vitrification under field conditions. Methods: The IVP embryos at blastocyst (Bl) and expanded blastocyst (Bx) were transferred fresh (n= 137) or after vitrification (n= 127). Results: Pregnancy rates at 35 d for fresh embryos were lower in Bl (41.6) than in Bx (60.9) (p<0.05). After vitrification, pregnancy rates were similar at 35 d between Bl (38.0) and Bx (47.6) (p>0.05). Pregnancy loss at 60 d were similar (p>0.05) for both fresh (Bl: 3.1 and Bx: 4.8) and vitrified embryos (Bl: 1.9 and Bx: 4.7). Delivery rates were similar between groups (p>0.05). Conclusion: Both pregnancy and delivery rates of Bos indicus IVP embryos vitrified under field conditions are indistinguishable from fresh embryos.

Resumen Antecedentes: La criopreservación se caracteriza por el mantenimiento de la viabilidad celular a bajas temperaturas, resultando en reducido metabolismo y actividad enzimática intracelular, lo que permite la preservación del material genético por períodos de tiempo indefinidos. Los embriones sometidos a ésta técnica sufren daños morfológicos y funcionales considerables, dando como resultado una sobrevivencia y tasas de desarrollo reducidas. Objetivo: Evaluar la tasa de preñez a partir de embriones Nelore (Bos indicus) producidos in vitro (IVP) después de la vitrificación bajo condiciones de campo. Métodos: Embriones IVP en los estadios de blastocisto (Bl) y blastocisto expandido (Bx) se transfirieron en fresco (n= 137) o después de la vitrificación (n= 127). Resultados: La tasa de preñez a los 35 d fue menor para los embriones transferidos en fresco en fase Bl (41,6) en relación con los Bx (60,9) (p<0,05). Después de la vitrificación, las tasas de preñez a los 35 d fueron similares entre Bl (38,0) y Bx (47,6) (p>0,05). Las pérdidas de preñez a los 60 d fueron similares (p>0,05) tanto para embriones en fresco en Bl (3,1) y Bx (4,8) como para los vitrificados (Bl: 1,9 y Bx: 4,7). Las tasas de nacimiento fueron similares entre los grupos (p>0,05). Conclusión: Las tasas de preñez y nacimiento de embriones IVP vitrificados de Nelore (Bos indicus) bajo condiciones de campo son semejantes a las de embriones en fresco.

Resumo Antecedentes: A criopreservação é caracterizada pela manutenção da viabilidade celular em baixas temperaturas, resultando em atividade enzimática intracelular e metabolismo celular reduzido, que permite a preservação do material genético por períodos indefinidos de tempo. Embriões submetidos à criopreservação sofrem danos morfológicos e funcionais consideráveis, resultando em sobrevivência reduzida e menores taxas de desenvolvimento. Objetivo: Avaliar a taxa de prenhez a partir de embriões Nelore (Bos indicus) produzidos in vitro (IVP) após a vitrificação sob condições de campo. Métodos: Embriões IVP nos estádios de blastocisto (Bl) e blastocisto expandido (Bx) foram transferidos a fresco (n= 137) ou depois da vitrificação (n= 127). Resultados: A taxa de prenhez aos 35 d foi menor para os embriões transferidos a fresco na fase de Bl (41,6), em relação aos Bx (60,9) (p<0,05). Apos a vitrificação, as taxas de prenhez foram semelhantes aos 35 d entre Bl (38,0) e Bx (47,6) (p>0,05). As perdas de prenhez aos 60 d foram semelhantes (p>0,05) tanto para embriões a fresco nos estádios de Bl (3,1) e Bx (4,8), e vitrificados em Bl (1,9) e Bx (4,7). As taxas de nascimentos foram semelhantes entre os grupos (p>0,05). Conclusão: As taxas de prenhez e nascimentos dos embriões IVP vitrificados de Nelore (Bos indicus) sob condições de campo é semelhante àquela dos embriões a fresco.

Recent advances in bovine sperm cryopreservation techniques with a focus on sperm post-thaw quality optimization.

Sperm cryopreservation facilitates the storage and transport of germplasm for its use in artificial insemination (AI) and other advanced reproductive technologies. The cryopreservation process can damage sperm and compromise functionality. Several cryobiological studies have found that the physical and biological factors that affect sperm survival at low temperatures during the cryopreservation process often involve the integrity of sperm membrane. In this review, the behaviour of the sperm membrane against cooling, cold shock, ice crystal formation, oxidative stress, osmotic changes, reorganization of the lipid bilayer and addition of cryoprotective agents (CPA) is discussed. In addition, the phenomenon of reactive oxygen species (ROS) and its relationship with the cryopreservation process is also described. Semen cryopreservation techniques have progressed slowly in past years, and the current performance, measured as post-thawed survival, is not very different compared to past decades. Recent advances in understanding the structure of the cell membrane, its function and metabolism have driven to new conservation systems, including lyophilization and vitrification. However, none of these technologies is commercially available, although its future appears very promising.

Cryopreservation of boar semen in 0. 5 mL straws at low spermatozoa concentration is better than high concentration to maintain sperm viability / A manutenção da viabilidade do sêmen suíno criopreservado em palhetas de 0, 5 mL em baixas concentrações espermáticas é melhor do que em altas concentrações

To date, no studies have been performed evaluating the effect of boar spermatozoa concentration in 0.5mL freezing straws, leading us to examine this question. Each sperm-rich fraction of the ejaculate (n=25) was diluted at five different sperm concentrations (100, 200, 300, 600 and 800 x 106 spermatozoa/mL), packaged in 0.5mL straws, and subsequently frozen. After thawing, the sperm from all of treatment groups were analyzed to determine motility characteristics using a sperm class analyzer (SCA-CASA), and their plasma and acrosomal membrane integrity, mitochondrial membrane potential, sperm membrane lipid peroxidation and fluidity were analyzed by flow cytometry. An increase in spermatozoa concentration above 300x106 spermatozoa/mL in a 0.5mL straw impaired (p<0.05) the total and progressive motility, curvilinear velocity, straight-line velocity, linearity and beat cross frequency. However, the plasma and acrosomal membrane integrity, mitochondrial membrane potential, membrane lipid peroxidation and fluidity were not influenced (p>0.05) by high spermatozoa concentrations at freezing. Therefore, to increase spermatozoa survival and total and progressive motility after thawing, boar spermatozoa should be frozen at concentrations up to 300x106 spermatozoa/mL.(AU)

Até o momento, não foram realizados estudos que avaliassem o efeito da concentração de espermatozoides/mL em palhetas (0,5mL) para a criopreservação, levando-nos a analisar esta questão. Cada fração-rica do ejaculado (n=25) foi diluída em cinco diferentes concentrações de espermatozoides (100, 200, 300, 600 e 800x106 espermatozoides/mL), envasadas em palhetas de 0,5mL e posteriormente congeladas. Após a descongelação, os espermatozoides de todos os tratamentos foram avaliados a fim de determinar as características de motilidade usando um sistema de análise computadorizada dos espermatozoides (SCA-CASA). A integridade das membranas plasmática e acrosomal, o potencial de membrana mitocondrial, a peroxidação lipídica e a fluidez da membrana foram analisadas por citometria de fluxo. O aumento na concentração de espermatozoides acima de 300x106 espermatozoides/mL diminuiu (p<0,05) a motilidade total e progressiva, velocidade curvilínea, velocidade linear, linearidade e frequência de batimento. No entanto, a integridade da membrana plasmática e acrosomal, potencial de membrana mitocondrial, peroxidação lipídica e fluidez de membrana não foram influenciados (p>0,05) por altas concentrações de espermatozoides durante a criopreservação. Portanto, a fim de melhorar a sobrevivência dos espermatozoides suínos e a motilidade total e progressiva após a descongelação, os espermatozoides suínos devem ser congelados a concentrações não superiores a 300x106 espermatozoides/mL.(AU)

Cryopreservation of boar semen in 0. 5 mL straws at low spermatozoa concentration is better than high concentration to maintain sperm viability / A manutenção da viabilidade do sêmen suíno criopreservado em palhetas de 0, 5 mL em baixas concentrações espermáticas é melhor do que em altas concentrações

To date, no studies have been performed evaluating the effect of boar spermatozoa concentration in 0.5mL freezing straws, leading us to examine this question. Each sperm-rich fraction of the ejaculate (n=25) was diluted at five different sperm concentrations (100, 200, 300, 600 and 800 x 106 spermatozoa/mL), packaged in 0.5mL straws, and subsequently frozen. After thawing, the sperm from all of treatment groups were analyzed to determine motility characteristics using a sperm class analyzer (SCA-CASA), and their plasma and acrosomal membrane integrity, mitochondrial membrane potential, sperm membrane lipid peroxidation and fluidity were analyzed by flow cytometry. An increase in spermatozoa concentration above 300x106 spermatozoa/mL in a 0.5mL straw impaired (p<0.05) the total and progressive motility, curvilinear velocity, straight-line velocity, linearity and beat cross frequency. However, the plasma and acrosomal membrane integrity, mitochondrial membrane potential, membrane lipid peroxidation and fluidity were not influenced (p>0.05) by high spermatozoa concentrations at freezing. Therefore, to increase spermatozoa survival and total and progressive motility after thawing, boar spermatozoa should be frozen at concentrations up to 300x106 spermatozoa/mL.(AU)

Até o momento, não foram realizados estudos que avaliassem o efeito da concentração de espermatozoides/mL em palhetas (0,5mL) para a criopreservação, levando-nos a analisar esta questão. Cada fração-rica do ejaculado (n=25) foi diluída em cinco diferentes concentrações de espermatozoides (100, 200, 300, 600 e 800x106 espermatozoides/mL), envasadas em palhetas de 0,5mL e posteriormente congeladas. Após a descongelação, os espermatozoides de todos os tratamentos foram avaliados a fim de determinar as características de motilidade usando um sistema de análise computadorizada dos espermatozoides (SCA-CASA). A integridade das membranas plasmática e acrosomal, o potencial de membrana mitocondrial, a peroxidação lipídica e a fluidez da membrana foram analisadas por citometria de fluxo. O aumento na concentração de espermatozoides acima de 300x106 espermatozoides/mL diminuiu (p<0,05) a motilidade total e progressiva, velocidade curvilínea, velocidade linear, linearidade e frequência de batimento. No entanto, a integridade da membrana plasmática e acrosomal, potencial de membrana mitocondrial, peroxidação lipídica e fluidez de membrana não foram influenciados (p>0,05) por altas concentrações de espermatozoides durante a criopreservação. Portanto, a fim de melhorar a sobrevivência dos espermatozoides suínos e a motilidade total e progressiva após a descongelação, os espermatozoides suínos devem ser congelados a concentrações não superiores a 300x106 espermatozoides/mL.(AU)

Aspectos fundamentais da morfofisiologia e criopreservação espermática em pequenos ruminantes / Fundamental aspects of sperm morphophysiology and cryopreservation in small ruminants

A criopreservação espermática, apesar de oferecer inúmeras vantagens à produção animal, é responsável pelo comprometimento da integridade estrutural e funcional dos espermatozoides, o que é intensificado pelas variações individuais e espécie-específicas, as quais interferem na capacidade dos gametas em suportarem este procedimento. Deste modo, o objetivo desta revisão é descrever a morfofisiologia espermática e os aspectos fundamentais do processo de criopreservação, assim como o comportamento dos espermatozoides criopreservados de caprinos e ovinos.

The sperm cryopreservation, despite offering several advantages to livestock, is responsible for the impairment of structural and functional integrity of sperm, which is intensified by individual and species-specific variations, which interfere on the ability of gametes to support this procedure. Thus, the aim of this review is to describe the sperm morphophysiology and the fundamental aspects of the cryopreservation process, as well as the behavior of goat and ram cryopreserved sperm.

Caracterização dos danos celulares em gametas femininos e embriões após criopreservação / Characterization of cellular damage in female gametes and embryos after cryopreservation

Background: Cryopreservation is a biotech successfully employed in female gametes and embryos. This technique is of great importance for propagation of genetic material from animals with high-value livestock as well as to preserve the fertility of women undergoing cancer treatments. However, low temperatures can result in damage to different cellular compartments and organelles. This damage culminates in reduced viability, since they affect cell metabolism. Review: Cryopreservation consists of maintenance of biological material at low temperatures, in which chemical reactions are ceased, however, allowing the cells to preserve their viability. However, the decrease of temperature and subsequent warming may result in cellular damage. These damages occur in the cell membrane, cytoplasmic organelles and the cell nucleus. It is believed that the first cell structure undergoing cryoinjury is the plasma membrane, responsible for maintaining homeostasis within the cell, and the loss of plasma membrane during the reduction temperature reported the main damage. The membrane damage due to cryopreservation appears to correlate with the reduction of thermal energy at low temperatures, thus limiting the movement of molecules through the phospholipids of lipid bilayer. Cryopreservation also alters the morphology, structure and cellular distribution of lipid droplets, reducing the survival of oocytes and embryos. The physical state changes, besides changing physicochemical properties of intracellular lipid may also result in damage to lipids associated with the cellular cytoskeleton. The interaction between cell lipid phase and components of cytoskeleton is complex and hardening of these lipids can cause deformation and disruption of cytoskeleton with consequent negative effect on cell survival and development. The disruption of cytoskeleton can also be intrinsic to change in dehydration and cellular form that follow the cryopreservation process. Among the cellular organelles, mitochondria are sensitive to cryopreservation procedures, since the formation of intracellular ice crystals considered one of the most relevant cryoinjury, leading to damage to the mitochondrial cristae and matrix. Another important organelle undergoes damage as result of cryopreservation is the endoplasmic reticulum, which change in morphology has been described after vitrification of embryos. It is also known that cryopreservation may result in fragmentation of DNA even in the absence of deformation of the cellular morphology, and that these changes can lead to delay in the development or cell death. In addition to the direct damage to double-stranded DNA, cryopreservation may trigger chromosomal abnormalities, these the aneuploidy is the most frequent and seems to compromise the developmental competence of oocytes in addition to being indicated as the main factor for the low achieve of live births. Conclusion: Cryopreservation is an important alternative for the preservation of gametes and embryos, however, the cells are subjected to unfavorable conditions that can compromise cell recovery after thawing/warming. The main cause of reduction in survival oocytes and embryos after cryopreservation appear to be related to damage in different cellular compartments and structures, which are essential for maintaining cell metabolism. Thus, it is observed the need to achieve cryopreservation protocols capable of maintaining the integrity of different cellular components.

Aspectos fundamentais da morfofisiologia e criopreservação espermática em pequenos ruminantes / Fundamental aspects of sperm morphophysiology and cryopreservation in small ruminants

A criopreservação espermática, apesar de oferecer inúmeras vantagens à produção animal, é responsável pelo comprometimento da integridade estrutural e funcional dos espermatozoides, o que é intensificado pelas variações individuais e espécie-específicas, as quais interferem na capacidade dos gametas em suportarem este procedimento. Deste modo, o objetivo desta revisão é descrever a morfofisiologia espermática e os aspectos fundamentais do processo de criopreservação, assim como o comportamento dos espermatozoides criopreservados de caprinos e ovinos.(AU)

The sperm cryopreservation, despite offering several advantages to livestock, is responsible for the impairment of structural and functional integrity of sperm, which is intensified by individual and species-specific variations, which interfere on the ability of gametes to support this procedure. Thus, the aim of this review is to describe the sperm morphophysiology and the fundamental aspects of the cryopreservation process, as well as the behavior of goat and ram cryopreserved sperm.(AU)

Characterization of cellular damage in female gametes and embryos after cryopreservation / Caracterização dos danos celulares em gametas femininos e embriões após criopreservação

Background: Cryopreservation is a biotech successfully employed in female gametes and embryos. This technique is of great importance for propagation of genetic material from animals with high-value livestock as well as to preserve the fertility of women undergoing cancer treatments. However, low temperatures can result in damage to different cellular compartments and organelles. This damage culminates in reduced viability, since they affect cell metabolism.Review: Cryopreservation consists of maintenance of biological material at low temperatures, in which chemical reactions are ceased, however, allowing the cells to preserve their viability. However, the decrease of temperature and subsequent warming may result in cellular damage. These damages occur in the cell membrane, cytoplasmic organelles and the cell nucleus. It is believed that the fi rst cell structure undergoing cryoinjury is the plasma membrane, responsible for maintaining homeostasis within the cell, and the loss of plasma membrane during the reduction temperature reported the main damage. The membrane damage due to cryopreservation appears to correlate with the reduction of thermal energy at low temperatures, thus limiting the movement of molecules through the phospholipids of lipid bilayer. Cryopreservation also alters the morphology, structure and cellular distribution of lipid droplets, reducing the survival of

Background: Cryopreservation is a biotech successfully employed in female gametes and embryos. This technique is of great importance for propagation of genetic material from animals with high-value livestock as well as to preserve the fertility of women undergoing cancer treatments. However, low temperatures can result in damage to different cellular compartments and organelles. This damage culminates in reduced viability, since they affect cell metabolism.Review: Cryopreservation consists of maintenance of biological material at low temperatures, in which chemical reactions are ceased, however, allowing the cells to preserve their viability. However, the decrease of temperature and subsequent warming may result in cellular damage. These damages occur in the cell membrane, cytoplasmic organelles and the cell nucleus. It is believed that the fi rst cell structure undergoing cryoinjury is the plasma membrane, responsible for maintaining homeostasis within the cell, and the loss of plasma membrane during the reduction temperature reported the main damage. The membrane damage due to cryopreservation appears to correlate with the reduction of thermal energy at low temperatures, thus limiting the movement of molecules through the phospholipids of lipid bilayer. Cryopreservation also alters the morphology, structure and cellular distribution of lipid droplets, reducing the survival of

Characterization of cellular damage in female gametes and embryos after cryopreservation / Caracterização dos danos celulares em gametas femininos e embriões após criopreservação

Background: Cryopreservation is a biotech successfully employed in female gametes and embryos. This technique is of great importance for propagation of genetic material from animals with high-value livestock as well as to preserve the fertility of women undergoing cancer treatments. However, low temperatures can result in damage to different cellular compartments and organelles. This damage culminates in reduced viability, since they affect cell metabolism.Review: Cryopreservation consists of maintenance of biological material at low temperatures, in which chemical reactions are ceased, however, allowing the cells to preserve their viability. However, the decrease of temperature and subsequent warming may result in cellular damage. These damages occur in the cell membrane, cytoplasmic organelles and the cell nucleus. It is believed that the fi rst cell structure undergoing cryoinjury is the plasma membrane, responsible for maintaining homeostasis within the cell, and the loss of plasma membrane during the reduction temperature reported the main damage. The membrane damage due to cryopreservation appears to correlate with the reduction of thermal energy at low temperatures, thus limiting the movement of molecules through the phospholipids of lipid bilayer. Cryopreservation also alters the morphology, structure and cellular distribution of lipid droplets, reducing the survival of

Background: Cryopreservation is a biotech successfully employed in female gametes and embryos. This technique is of great importance for propagation of genetic material from animals with high-value livestock as well as to preserve the fertility of women undergoing cancer treatments. However, low temperatures can result in damage to different cellular compartments and organelles. This damage culminates in reduced viability, since they affect cell metabolism.Review: Cryopreservation consists of maintenance of biological material at low temperatures, in which chemical reactions are ceased, however, allowing the cells to preserve their viability. However, the decrease of temperature and subsequent warming may result in cellular damage. These damages occur in the cell membrane, cytoplasmic organelles and the cell nucleus. It is believed that the fi rst cell structure undergoing cryoinjury is the plasma membrane, responsible for maintaining homeostasis within the cell, and the loss of plasma membrane during the reduction temperature reported the main damage. The membrane damage due to cryopreservation appears to correlate with the reduction of thermal energy at low temperatures, thus limiting the movement of molecules through the phospholipids of lipid bilayer. Cryopreservation also alters the morphology, structure and cellular distribution of lipid droplets, reducing the survival of