915 resultados para Semen fertility
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Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
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In order to modulate uterine inflammatory response and evaluate the effect of corticosteroid therapy on fertility, 90 cycles of 45 mares were used for artificial insemination with frozen semen, using three different protocols: G1 - inseminated with frozen semen (800 x 10(6) viable spermatozoa pre-freezing) + 20 mL of seminal plasma; G2 - inseminated with frozen semen (800 x 10(6) viable spermatozoa pre-freezing) + corticosteroid therapy; G3 - inseminated with frozen semen (800 x 10(6) viable spermatozoa pre-freezing) + 20 mL of seminal plasma + corticosteroid therapy. Corticosteroid therapy consisted on one administration of prednisolone acetate (0.1 mg/Kg - Predef (R)) when mares presented 35mm follicles and uterine edema, concomitantly with the unique dose of hCG (human chorionic gonadotropin), then repeated each 12 hours until ovulation. on first fertility trial, with normal mares, there was no difference between control and treated groups (p>0.05), using seminal plasma associated with corticosteroid therapy (40 vs. 38%, respectively) or corticosteroid therapy alone (40 vs. 45% respectively). The second fertility trial, performed with mares with previous history of post-insemination endometritis, demonstrated a significant increase of pregnancy rate when mares were submitted to corticosteroid therapy (0.0 vs. 64.5%, respectively; p<0.05). Corticosteroid therapy was shown to be safe, with no physical or reproductive alterations on treated mares, demonstrating to be an adequate option to those animals with history of post-breeding or post-insemination endometritis. Further clinical research is necessary to confirm these results and contribute to the establishment of preventive therapy for cases of post-insemination endometritis.
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Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)
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Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
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Avaliou-se a relação entre os testes complementares (teste hiposmótico, teste de termorresistência lento e teste de reação acrossômica) e os testes de avaliações convencionais (aspectos físicos e morfológicos) de sêmen bovino congelado/descongelado e os índices de prenhez. Os valores médios da motilidade espermática progressiva retilínea avaliados pelo teste de termorresistência foram de 53,48 (pós-descongelamento), 43,69 (60 minutos), 35,88 (120 minutos) e 33,04% (180 minutos) e a porcentagem de células reativas ao teste hiposmótico foi de 37,89%. Correlação positiva e de média intensidade foi encontrada para a motilidade espermática progressiva retilínea pós-descongelamento e o teste hiposmótico (0,21). Entretanto, a correlação da motilidade aos 180 minutos com o teste hiposmótico foi alta (0,64). A porcentagem de células que tiveram acrossoma reagido pós-descongelamento foi de 9,85%, apresentando correlações negativas de média e alta intensidade (-0,25 e -0,46, respectivamente) com a motilidade espermática progressiva retilínea pós-descongelamento e após 3 horas de incubação. Não houve correlação dos testes complementares e da motilidade pós-descongelamento com a taxa de gestação. Nenhum parâmetro considerado isoladamente serviu para avaliar a capacidade fertilizante do sêmen congelado/descongelado.
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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)
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Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)
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Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)
Semen parameters, fertility and testosterone levels in male rats exposed prenatally to betamethasone
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Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)
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The aim of the current study was to verify that stallion, spermatoza could be cooled for 24 hours and then frozen. In experiment I, one ejaculate from each of 13 stallions was used. Semen was collected and split into two parts; one part immediately frozen using standard cryo-preservation techniques and the other diluted, stored in an Equitainer for 24 hours, and then frozen. In experiment II, one ejaculate from each of 12 stallions was collected, diluted with Botu-Semen, and split into two parts: one cooled in an Equitainer and the other in Max-Semen Express without prior centrifugation. After 24 hours of cooling, the samples were centrifuged to remove seminal plasma and concentrate the sperm, and resuspended in Botu-Crio (R) extender containing on e of three cryoprotectant treatments (1% glycerol + 4% dimethylformamide, 1% glycerol + 4% dimethylacetamide and 1% glycerol + 4% methylformamide), maintained at 5 degrees C for 20 minutes, then frozen in nitrogen vapour. No difference was observed between the two cooling systems. The association of 1% glycerol and 4% methylformamide provided the best post-thaw progressive motility. For experiment III, two stallions were used for a fertility trial. Forty three inseminations were performed using 22 mares. No differences were seen in semen parameters and pregnancy rates when comparing the two freezing protocols (conventional and cooled/frozen). Pregnancy rates for conventional and cooled/frozen semen were, respectively, 72.7% and 82.3% (stallion A), and 40.0% and 50.0% (stallion B). We concluded that cooling equine-semen for 24 hours before freezing while maintaining sperm viability and fertility is possible.
