Developments of reproductive management and biotechnology in the pig

This review aims to describe changes in production environment, management tools and technology to alleviate problems seen with the present hyperprolific sow model. Successful parturition in the pig includes the possibility to express adequate maternal behaviour, rapid expulsion of piglets, complete expulsion of placenta, elimination of uterine contamination and debris, neonatal activity and colostrum intake. We focus on management of large litters, including maternal behaviour, ease of parturition, colostrum production, piglet quality parameters and intermittent suckling. There are also some interesting developments in technology to assess colostrum and immune state of the piglet. These developments may be utilized to improve the success rate of reproductive management around farrowing, lactation and after weaning. We also discuss new insights in how to examine the health of the mammary gland, uterus and ovaries of hyperprolific sows. Finally, we assess the latest developments on breeding and technology of hyperprolific sows, including artificial insemination (AI), real-time ultrasound of the genital tract and embryo transfer (ET). We conclude that 1) for the sow to produce sufficient colostrum, both the behavioural and physiological needs of the sow need to be met before and after parturition. Furthermore, 2) new ultrasound and biopsy technology can be effectively applied for accurate diagnosis of inflammatory processes of the udder and uterus and timing of AI regarding ovulation to improve insemination efficiency. Finally, 3) developments in cryopreservation of germ cells and embryos appear promising but lack of valid oocyte collection techniques and nonsurgical ET techniques are a bottleneck to commercial ET. These latest developments in management of parturition and reproductive technology are necessary to cope with the increasing challenges associated with very large litter sizes.Peer reviewe

A wearable microwave instrument can detect and monitor traumatic abdominal injuries in a porcine model

Abdominal injury is a frequent cause of death for trauma patients, and early recognition is essential to limit fatalities. There is a need for a wearable sensor system for prehospital settings that can detect and monitor bleeding in the abdomen (hemoperitoneum). This study evaluates the potential for microwave technology to fill that gap. A simple prototype of a wearable microwave sensor was constructed using eight antennas. A realistic porcine model of hemoperitoneum was developed using anesthetized pigs. Ten animals were measured at healthy state and at two sizes of bleeding. Statistical tests and a machine learning method were used to evaluate blood detection sensitivity. All subjects presented similar changes due to accumulation of blood, which dampened the microwave signal (p<0.05). The machine learning analysis yielded an area under the receiver operating characteristic (ROC) curve (AUC) of 0.93, showing 100% sensitivity at 90% specificity. Large inter-individual variability of the healthy state signal complicated differentiation of bleedings from healthy state. A wearable microwave instrument has potential for accurate detection and monitoring of hemoperitoneum, with automated analysis making the instrument easy-to-use. Future hardware development is necessary to suppress measurement system variability and enable detection of smaller bleedings.publishedVersio

Federation of European Laboratory Animal Science Associations recommendations of best practices for the health management of ruminants and pigs used for scientific and educational purposes

Most ruminants and pigs used for scientific and educational aims are bred not for these purposes but in a farm environment. Given the wide range of diseases that these species might have, ensuring that the animals’ health status is appropriate can be complex and challenging. The Federation of European Laboratory Animal Science Associations has previously published recommendations for the health monitoring of experimental colonies of pigs (1998) and, respectively, calves, sheep and goats (2000). Unfortunately, the uptake of those recommendations was poor and insufficiently reported in scientific publications. These new recommendations for best practice focus on the main species of ruminants (cattle, sheep and goats) and pigs. They provide general and specific information helpful for designing a health management programme for the suppliers and for the user establishments, as well as guidance on animal procurement. Critical thinking based on the fields of use of the animals is promoted, aiming to help in taking informed decisions rather than establishing an exhaustive exclusion list for pathogens. Implementing the best health and welfare management practices should be done under the guidance of a competent attending veterinarian, with expertise and sufficient authority to take the appropriate action, doubled by excellent communication skills. It is strongly recommended that the user establishment’s veterinarian works in close collaboration with the supplier’s veterinarian. // Die meisten Wiederkäuer und Schweine, die zu wissenschaftlichen und Ausbildungszwecken dienen, werden nicht eigens dafür, sondern in einem landwirtschaftlichen Umfeld gezüchtet. Angesichts des breiten Spektrums potenzieller Krankheiten bei diesen Tierarten kann die Gewährleistung eines adäquaten Gesundheitszustands der Tiere durchaus komplex und schwierig sein. FELASA hat bereits früher Empfehlungen für die Gesundheitsüberwachung von Versuchskolonien von Schweinen (1998) bzw. Kälbern, Schafen und Ziegen (2000) veröffentlicht. Leider stießen diese Empfehlungen auf mangelndes Echo und wissenschaftliche Publikationen berichteten diesbezüglich nur unzureichend. Die vorliegenden neuen Empfehlungen für beste Praxis konzentrieren sich auf die wichtigsten Arten von Wiederkäuern (Rinder, Schafe und Ziegen) sowie auf Schweine. Sie enthalten allgemeine und spezifische Informationen, die für die Gestaltung eines Gesundheitsmanagementprogramms für die Lieferanten und für die Verwendereinrichtungen nützlich sind, ebenso wie Hinweise zur Tierbeschaffung. Kritisches Denken auf der Grundlage der Anwendungsbereiche der Tiere, das darauf abzielt, fundierte Entscheidungen zu treffen, anstatt eine erschöpfende Ausschlussliste für Krankheitserreger zu erstellen, wird unterstützt. Die Umsetzung der besten Gesundheits- und Tierschutzmanagementpraktiken sollte unter der Anleitung eines kompetenten behandelnden Tierarztes erfolgen, der über Fachwissen und genügend Autorität sowie über ausgezeichnete Kommunikationsfähigkeiten verfügen, um die entsprechenden Maßnahmen zu ergreifen und zu vermitteln. Eine enge Zusammenarbeit zwischen dem Tierarzt der Verwendereinrichtung und dem Tierarzt des Lieferanten wird dringend empfohlen

A wearable microwave detector for diagnosing thoracic injuries-test on a porcine pneumothorax model

In the prehospital setting, a point-of-care diagnostic test is needed to diagnose pneumothorax (PTX) and monitor its progression to prevent unnecessary patient morbidity and mortality. Ultrasonography is more sensitive than supine chest x-ray for diagnosing PTX, but the accuracy depends on the experience of the operator. Therefore, a non-operator dependent instrument would be valuable for detection and continuous monitoring of an evolving PTX

Porcine circovirus type 2 associated reproductive failure in a specific pathogen free (SPF) piglet producing herd in Norway - a case report

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A descriptive report of the selenium distribution in tissues from pigs with mulberry heart disease (MHD)

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Effects of sodium selenite and L-selenomethionine on feed intake, clinically relevant blood parameters and selenium species in plasma, colostrum and milk from high-yielding sows

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Beneficial antioxidant status of piglets from sows fed selenomethionine compared with piglets from sows fed sodium selenite

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