In vitro embryo production in small ruminants: what is still missing?

In vitro embryo production (IVEP) is an extremely important tool for genetic improvement in livestock and it is the biotechnology that has grown the most recently. However, multiple ovulation followed by embryo transfer is still considered the leading biotechnology for embryo production in small ruminants. This review aimed to identify what is still missing for more efficient diffusion of IVEP in small ruminants, going through the IVEP steps and highlighting the main factors affecting the outcomes. Oocyte quality is essential for the success of IVEP and an aspect to be considered in small ruminants is their reproductive seasonality and strategies to mitigate the effect of season. The logistics for oocyte collection from live females is more complex than in cattle, and tools to simplify this collection system and/or to promote an alternative way of recovering oocytes may be an important point in this scenario. The heterogeneity of oocytes collected from growing follicles in live females or from ovaries collected from abattoirs remains a challenge, and there is a demand to standardize/homogenize the hormonal stimulatory protocols and IVM protocols for each source of oocytes. The use of sexed semen is technically possible, however the low market demand associated with the high costs of the sexing process prevents the routine use of this technique, but its higher availability is an important aspect aiming for greater dissemination of IVEP. New noninvasive approaches for embryo selection are key factors since the selection for transfer or cryopreservation is another difficulty faced among laboratories. Embryo selection is based on morphological traits, although these are not necessarily reliable in predicting pregnancy. Several issues described in this review must be considered by researchers in other to promote the diffusion of IVEP in small ruminants.

Assisted Reproductive Technology in Neotropical Deer: A Model Approach to Preserving Genetic Diversity.

One of the most significant challenges in deer is the ability to maintain genetic diversity, avoiding inbreeding and sustaining population health and reproduction. Although our general knowledge of reproductive physiology is improving, it appears that the application of assisted reproductive technology (ART) will more efficiently advance wildlife conservation efforts and preserve genetic diversity. The purpose of this review is to present the most important results obtained with the use of ART in Neotropical deer. Thus, the state-of-the-art for estrus synchronization, semen technology, artificial insemination, and in vivo embryo production will be presented. In vitro embryo production (IVP) is also a biotechnology that is taking initial steps in deer. In this aspect, the approach with the proteomics of ovarian follicular fluid is being used as a tool for a better understanding of oocyte maturation. Finally, cell banks and the use of interspecific somatic cell nuclear transfer (iSCNT) as well as the use of stem cells for gametes differentiation are promising techniques.

Factors that affect oocyte vitrification in small ruminants / Fatores que afetam a vitrificação de oócitos em pequenos ruminantes

At the end of its growth, the mammalian oocyte, include in preovulatory follicle, is the largest cell of the organism, with about 120 µmin diameter. The size of oocyte, together with the specific arrangement of its organels and cytoskeleton, makes a real challenge forcryopreservation techniques. For such large cell, methods that do not require equilibrium to cryopreservation, such as vitrification,are more promising. It is important to highlight that the cryopreservation of oocytes is more difficult than zygotes or later stageembryos and this technique is a challenging task because of oocyte sensitive nature to chilling and toxic effects of cryoprotectants.However, the development of a reliable method for oocyte cryopreservation would be an important advance in the field of reproductivebiology for the preservation of genetic resources. The vitrification of mammalian oocytes is influenced by many variables, such asdifferent cryoprotectants, vitrification techniques, presence or absence of cumulus cells, the oocyte structure, metabolism (such aslevel of lipid storage) and meiotic stage. Thus, all these factors should be considered to optimize the techniques and adapt them tooocytes from each species. Therefore, the present review aims to describe the main factors that affect oocyte vitrification in sheepand goats, reporting the main findings in both species, as well as perspectives of future improvements.

No fim do seu crescimento, o oócito mamífero é a maior célula do organismo, com cerca de 120 µm de diâmetro. O tamanhodo oócito em conjunto com a disposição específica das organelas e do citoesqueleto faz com que ele represente um verdadeirodesafio para as técnicas de criopreservação. Para grandes células, métodos que não exigem equilíbrio para criopreservação,como a vitrificação, são mais promissores. É importante ressaltar que a criopreservação de oócitos é mais difícil que de zigotosou embriões em estádios mais tardios e esta técnica representa um desafio devido à natureza sensível do oócito ao resfriamentoe aos efeitos tóxicos de crioprotetores. Entretanto, o desenvolvimento de uma técnica confiável para a criopreservação oocitáriarepresentaria um avanço importante para a preservação de recursos genéticos. A vitrificação de oócitos em mamíferos é influenciadapor muitas variáveis, tais como diferentes crioprotetores, técnicas de vitrificação, presença ou ausência de células do cumulus,estrutura do oócito, metabolismo (como o nível de armazenamento de lipídios) e estágio meiótico. Assim, todos esses fatoresdevem ser considerados quando o objetivo é otimizar as técnicas e adaptá-las para oócitos de cada espécie. Assim, a presenterevisão tem como objetivo descrever os principais fatores que afetam a vitrificação de oócitos em ovinos e caprinos, relatando osprincipais resultados em ambas as espécies, bem como as perspectivas de melhorias futuras.

Laparoscopic ovum pick up (LOPU) in goats: from hormonal treatment to oocyte possible destinations / Colheita de oócitos por laparoscopia em caprinos: do tratamento hormonal aos possíveis destinos dos oócitos

Whether we are collecting oocytes from donors as part of a program of in vitro embryo production (IVP) and/or to promote advances in emerging biotechnologies as cloning and transgenesis, the success rate depends on the development of methodological aspects of recovering oocytes. To succeed, sufficient number of good quality oocytes is the prerequisite for various reproductive techniques and laparoscopic ovum pick up (LOPU) is the recommended technique for obtaining them from live goats. However, the variability of the quantity and quality of the oocytes collected still limits the large-scale use of this technology. Under the current conditions, too large variability is reported with oocyte recovery rates ranging from 40 to 90%, and the number of harvested oocytes per female between 4 and 14, in different laboratories. This variability can depend on either intrinsic characteristic of the donors, suchas breed, age, individual response or on aspects that we might be able to control, such as stimulation treatment, type of needle, aspiration pressure, among others. We believe that new investigations should contribute to significant improvement of LOPU yield. This review aims to report different factors influencing goat donor response for LOPU, presenting main steps for oocytes recovery as well as technical alternatives for improving LOPU efficiency. Furthermore, it is aimed to discuss about the potential use of goatoocytes after their recovery by LOPU and present overall results in goat IVP worldwide.

Independentemente se a coleta de oócitos é parte de um programa de produção in vitro de embriões (PIVE) e/ou promoverá avanços biotecnológicos como clonagem e transgênese, os aspectos metodológicos nas técnicas de recuperação de oócitos são imprescindíveis. Para alcançar sucesso de forma ótima, número suficiente de oócitos de boa qualidade é pré-requisito para diversas técnicas reprodutivas e a colheita de oócitos por laparoscopia (COL) é a técnica recomendada para obtê-los de cabras saudáveis. Entretanto, a variabilidade na quantidade e qualidade de oócitos coletados ainda limita o uso desta tecnologia em grande escala. Sob as condições atuais, uma grande variação é relatada na literatura com taxas de recuperação de oócitos variando de 40 a 90% e o número de estruturas coletadas por fêmea entre 4 e 14 oócitos em diferentes laboratórios. Esta variabilidade pode ocorrer tanto em função de variáveis não controláveis, como raça, idade e características intrínsecas da cabra, como devido a aspectos controláveis, como o tratamento superestimulatório, tipo da agulha, pressão de aspiração, dentre outros. Acredita-se que novas pesquisas devam contribuir significativamente para a melhoria da técnica de COL. Esta revisão objetiva relatar os diferentes fatores que influenciam a resposta de cabras doadoras após COL, apresentando as principais etapas para recuperação oocitária assim como modificações técnicas propostas para melhoria da eficiência da COL. Além disso, discutir sobre potencias aplicações de oócitos caprinos depois de sua recuperação por COL e resultados gerais sobre a técnica no mundo.