A Protocol for Prolonged Surgical Anaesthesia with Recovery in Fire Salamanders Using Tricaine Mesylate (MS-222): A Case Series.

The objective of this study was to describe prolonged surgical anaesthesia and recovery in fire salamanders (Salamandra salamandra) using tricaine methanesulfonate (MS-222). A total of 14 salamanders were anaesthetised for electromyography wire implantation. Sodium bicarbonate buffered solutions (0.5-4 g l-1) of MS-222 were prepared (adjusted to pH 7.0). Anaesthesia was induced by partial immersion in pre-oxygenated 3 g l-1 solution for 20 min. Buprenorphine (0.5 mg kg-1) was administered subcutaneously. During microsurgery, heart rate (HR), solution pH and temperature were recorded. Reflectance pulse oximeter (SpO2) (Masimo Rad-57) was recorded in two salamanders. Anaesthetic plane and MS-222 pH stability (pH 7.6) were maintained by renewing administration of oxygenated MS-222 solution (0.5-3 g l-1) onto swabs that partially covered the body. Recovery started at the end of surgery (MS-222 0 g l-1). Postoperatively, salamanders were given oral meloxicam (0.2 mg kg-1). Mean time for loss of righting reflex during induction was 13.7 ± 2.2 min. Duration of anaesthesia and time to recovery were 111 ± 24.2 and 31 ± 10.3 min, respectively. Due to complications, two salamanders did not recover. Baseline HR was 67.4 ± 34.5 beats/min, and it decreased significantly until recovery (p ≤ 0.0001). In two salamanders, baseline SpO2 was 85.5% ± 14.5, SpO2 during surgery was 61% ± 6.4, improving to 80.5% ± 2.1 on recovery.In conclusion, prolonged recovery anaesthesia is achievable with MS-222 dilutions in salamander. Reflectance SpO2 could prove valuable during immersion anaesthesia.

Patterns of Limb and Epaxial Muscle Activity During Walking in the Fire Salamander, Salamandra salamandra.

Salamanders and newts (urodeles) are often used as a model system to elucidate the evolution of tetrapod locomotion. Studies range from detailed descriptions of musculoskeletal anatomy and segment kinematics, to bone loading mechanics and inferring central pattern generators. A further area of interest has been in vivo muscle activity patterns, measured through electromyography (EMG). However, most prior EMG work has primarily focused on muscles of the forelimb or hindlimb in specific species or the axial system in others. Here we present data on forelimb, hindlimb, and epaxial muscle activity patterns in one species, Salamandra salamandra, during steady state walking. The data are calibrated to limb stride cycle events (stance phase, swing phase), allowing direct comparisons to homologous muscle activation patterns recorded for other walking tetrapods (e.g., lizards, alligators, turtles, mammals). Results demonstrate that Salamandra has similar walking kinematics and muscle activity patterns to other urodele species, but that interspecies variation does exist. In the forelimb, both the m. dorsalis scapulae and m. latissimus dorsi are active for 80% of the forelimb swing phase, while the m. anconaeus humeralis lateralis is active at the swing-stance phase transition and continues through 86% of the stance phase. In the hindlimb, both the m. puboischiofemoralis internus and m. extensor iliotibialis anterior are active for 30% of the hindlimb swing phase, while the m. caudofemoralis is active 65% through the swing phase and remains active for most of the stance phase. With respect to the axial system, both the anterior and posterior m. dorsalis trunci display two activation bursts, a pattern consistent with stabilization and rotation of the pectoral and pelvic girdles. In support of previous assertions, comparison of Salamandra muscle activity timings to other walking tetrapods revealed broad-scale similarities, potentially indicating conservation of some aspects of neuromuscular function across tetrapods. Our data provide the foundation for building and testing dynamic simulations of fire salamander locomotor biomechanics to better understand musculoskeletal function. They could also be applied to future musculoskeletal simulations of extinct species to explore the evolution of tetrapod locomotion across deep-time.

Padrones de actividad muscular epaxial y apendicular durante la cursorialidad de la salamandra-de-fuego, Salamandra salamandra Las salamandras y los tritones (urodelos) son utilizados con frecuencia como un sistema modelo para dilucidar la evolución de la locomoción en los tetrápodos. Los estudios previos varían de descripciones detalladas de la anatomía musculoesquelética y cinemática de los segmentos del cuerpo, a la mecánica de la capacidad de soporte de carga estructural ósea y la generación de padrones centrales. Otra área de interés ha sido los padrones de actividad muscular in vivo, medidos por electromiografía (EMG). Sin embargo, la mayoría de los trabajos anteriores con EMG se han centrado principalmente en los músculos de los miembros anteriores o posteriores en especies específicas o en el sistema axial de otras. En este trabajo, presentamos datos sobre los padrones de actividad muscular en los músculos de los miembros anteriores, posteriores y de la musculatura epaxial en una especie, Salamandra salamandra, durante la marcha continua. Los datos se calibran para los períodos del ciclo de caminar de los miembros (fase de soporte, fase de movimiento), lo que permite comparaciones directas con padrones de activación muscular homólogos registrados para otros tetrápodos cursoriales (por ejemplo, lagartos, caimanes, tortugas y mamíferos). Los resultados demuestran que Salamandra tiene padrones de cinemática cursorial y actividad muscular similares a otras especies de urodelos, pero con variación interespecífica. En los miembros anteriores, ambos los m. dorsalis scapulae y m. latissimus dorsi están activos en 80% de la fase de movimiento del miembro anterior, mientras que el m. anconaeus humeralis lateralis se activa en la transición de la fase de movimiento-soporte y permanece activo en 86% de la fase de soporte. En los miembros posteriores, ambos m. puboischiofemoralis internus y m. extensor iliotibialis anterior están activos en 30% de la fase de movimiento de los miembros posteriores, mientras que el m. caudofemoralis está activo durante el 65% de la fase de movimiento, permaneciendo activo durante la mayor parte de la fase de soporte. Con respecto al sistema axial, las porciones anterior y posterior del m. dorsalis trunci exhibe dos períodos de activación, un padrón consistente con la estabilización y rotación de la cintura pélvica y pectoral. Como sugirido anteriormente, la comparación de los tiempos de actividad muscular de Salamandra con otros tetrápodos cursoriales reveló similitudes en gran escala, lo que podría indicar la conservación de algunos aspectos de la función neuromuscular entre los tetrápodos. Nuestros datos proporcionan una base para la construcción y prueba de simulaciones dinámicas de la biomecánica locomotora de salamandras-de-fuego para comprender mejor las funciones musculoesqueléticas. Nuestros resultados también se pueden aplicar a futuras simulaciones musculoesqueléticas de especies extintas para explorar la evolución de la locomoción de tetrápodos en el tiempo profundo.

Padrões de atividade muscular epaxial e apendicular durante a cursorialidade da salamandra-de-fogo, Salamandra salamandra Salamandras e tritões (urodelos) são freqüentemente utilizados como um sistema modelo para elucidar a evolução da locomoção em tetrápodes. Estudos anteriores variam de descrições detalhadas da anatomia musculoesquelética e cinemática dos segmentos corporais, a mecânica da capacidade de carga estrutural óssea e geradora de padrões centrais. Uma outra área de interesse tem sido os padrões de atividade muscular in vivo, medidos por eletromiografia (EMG). No entanto, a maioria dos trabalhos anteriores de EMG concentrou-se principalmente nos músculos dos membros anteriores ou posteriores em espécies específicas ou no sistema axial de outras. Nesse trabalho, apresentamos dados sobre os padrões de atividade muscular nos membros anteriores, posteriores e musculatura epaxial em uma espécie, Salamandra salamandra, durante caminhada em modo contínuo. Os dados são calibrados para os períodos do ciclo de caminhada dos membros (fase de apoio, fase de movimento), permitindo comparações diretas com padrões de ativação muscular homólogos registrados para outros tetrápodes cursoriais (por exemplo, lagartos, jacarés, tartarugas e mamíferos). Os resultados demonstram que Salamandra possui padrões de cinemática cursorial e atividade muscular semelhantes à outras espécies de urodelos, mas com variação interespecífica. Nos membros anteriores, ambos os m. dorsalis scapulae e m. latissimus dorsi estão ativos em 80% da fase de movimento do membro anterior, enquanto o m. anconaeus humeralis lateralis é ativado na transição da fase de movimento-apoio e continua ativo em 86% da fase de apoio. Nos membros posteriores, ambos m. puboischiofemoralis internus e m. extensor iliotibialis anterior estão ativos em 30% da fase de movimento dos membros posteriores, enquanto o m. caudofemoralis está ativo por 65% da fase de movimento, permanecendo ativo na maior parte da fase de apoio. No que diz respeito ao sistema axial, as porções anterior e posterior do m. dorsalis trunci exibe dois períodos de ativação, um padrão consistente com a estabilização e rotação da cintura peitoral e pélvica. Como préviamente sugerido, a comparação dos tempos de atividade muscular de Salamandra com outros tetrápodes cursoriais revelou similaridades em larga escala, potencialmente indicando a conservação de alguns aspectos da função neuromuscular entre tetrápodes. Os nossos dados fornecem uma base para a construção e testagem de simulações dinâmicas da biomecânica locomotora de salamandras-de-fogo para se entender melhor as funções músculo-esqueléticas. Nossos resultados também podem ser aplicados a futuras simulações músculo-esqueléticas de espécies extintas para explorar a evolução da locomoção de tetrápodes no tempo profundo.

Blood lactate, pH, base excess and pCO2 as prognostic indicators in caesarean-born kids from goats with pregnancy toxaemia.

The objective of this study was to identify the prognostic value for survival of blood parameters in the immediate post-caesarean surgery period in kids born from pregnancy toxaemia (PT) goats. This study involved 10 PT goats, in which a caesarean surgery was performed. Twenty-five kids were born after caesarean surgery of which 16 survived. A blood sample was collected from the jugular vein of the 10 goats and from the kids immediately after caesarean surgery (within 15 min). There were differences between the kids that survived and the kids that did not survive concerning the blood levels of pH (7.22 vs 7.00), base excess (- 9 vs - 18 mmol/L), pCO2 (46 vs 62 mmHg) and L-lactate (5.6 vs 16 mmol/L). Maternal ketoacidosis due to PT has a negative impact on the survival rate of the offspring. This appears to be associated to a metabolic acidosis of the offspring. However, the only blood parameter in which there was a strong association between the maternal and newborn kids was blood urea nitrogen (r = 0.97).

The influence of speed and size on avian terrestrial locomotor biomechanics: Predicting locomotion in extinct theropod dinosaurs.

How extinct, non-avian theropod dinosaurs moved is a subject of considerable interest and controversy. A better understanding of non-avian theropod locomotion can be achieved by better understanding terrestrial locomotor biomechanics in their modern descendants, birds. Despite much research on the subject, avian terrestrial locomotion remains little explored in regards to how kinematic and kinetic factors vary together with speed and body size. Here, terrestrial locomotion was investigated in twelve species of ground-dwelling bird, spanning a 1,780-fold range in body mass, across almost their entire speed range. Particular attention was devoted to the ground reaction force (GRF), the force that the feet exert upon the ground. Comparable data for the only other extant obligate, striding biped, humans, were also collected and studied. In birds, all kinematic and kinetic parameters examined changed continuously with increasing speed, while in humans all but one of those same parameters changed abruptly at the walk-run transition. This result supports previous studies that show birds to have a highly continuous locomotor repertoire compared to humans, where discrete 'walking' and 'running' gaits are not easily distinguished based on kinematic patterns alone. The influences of speed and body size on kinematic and kinetic factors in birds are developed into a set of predictive relationships that may be applied to extinct, non-avian theropods. The resulting predictive model is able to explain 79-93% of the observed variation in kinematics and 69-83% of the observed variation in GRFs, and also performs well in extrapolation tests. However, this study also found that the location of the whole-body centre of mass may exert an important influence on the nature of the GRF, and hence some caution is warranted, in lieu of further investigation.

Using step width to compare locomotor biomechanics between extinct, non-avian theropod dinosaurs and modern obligate bipeds.

How extinct, non-avian theropod dinosaurs locomoted is a subject of considerable interest, as is the manner in which it evolved on the line leading to birds. Fossil footprints provide the most direct evidence for answering these questions. In this study, step width-the mediolateral (transverse) distance between successive footfalls-was investigated with respect to speed (stride length) in non-avian theropod trackways of Late Triassic age. Comparable kinematic data were also collected for humans and 11 species of ground-dwelling birds. Permutation tests of the slope on a plot of step width against stride length showed that step width decreased continuously with increasing speed in the extinct theropods (p < 0.001), as well as the five tallest bird species studied (p < 0.01). Humans, by contrast, showed an abrupt decrease in step width at the walk-run transition. In the modern bipeds, these patterns reflect the use of either a discontinuous locomotor repertoire, characterized by distinct gaits (humans), or a continuous locomotor repertoire, where walking smoothly transitions into running (birds). The non-avian theropods are consequently inferred to have had a continuous locomotor repertoire, possibly including grounded running. Thus, features that characterize avian terrestrial locomotion had begun to evolve early in theropod history.

Use of ethanol in the treatment of distal tarsal joint osteoarthritis: 24 cases.

UNLABELLED: REASONS FOR PERFORMING THIS STUDY: Intra-articular ethanol has been described to promote distal tarsal joint ankylosis. Its use and results in clinical cases affected by osteoarthritis (OA) have not been reported. OBJECTIVES: To describe and evaluate the results of treatment of distal tarsal joint OA by facilitated ankylosis stimulated by intra-articular ethanol injection. METHODS: Twenty-four horses met the inclusion criteria of tarsometatarsal and centrodistal joint OA diagnosed by a positive response to intra-articular analgesia, radiographic evaluation and recurrence of lameness ≤ 4 months after intra-articular medication with a corticosteroid. Horses were sedated and, following a radiographic contrast study of the tarsometatarsal joint, medication with 2-4 ml of either 100% pure ethanol (G100) or a 70% ethanol (G70) solution was applied. Horses were classified as improved based on a 50% reduction from initial lameness grade combined with an increase in exercise level. RESULTS: Of the 24 horses included in this study, 20 had the treatment performed bilaterally and 4 unilaterally. All horses were available for initial follow-up examination and 21 for a second one 6-9 months after treatment. This represented a total of 44 treated limbs and 35 available for long-term follow-up. Of these, 21/35 (60%) were considered improved, which corresponds to 11/21 horses (52%). Of 21 horses, 4 (19%) deteriorated and 2 of these developed significant complications related to treatment. CONCLUSIONS: Distal tarsal joint ankylosis with ethanol should be considered a safe and economic treatment in cases of distal tarsal joint OA that fail to show long-term improvement with intra-articular corticosteroid treatment. POTENTIAL RELEVANCE: Ethanol should be considered in the treatment of certain cases of distal tarsal joint OA. The importance of performing an adequate radiographic contrast study of the tarsometatarsal joint prior to treatment is highlighted.

Some factors affecting the accuracy and variability of measurements of the height of ponies.

Height is the only factor used to differentiate horses and ponies for competitive purposes; any horse without shoes that is less than 148 cm at the highest point of the withers can be classified as a pony. However, variations in height associated with anatomical and other factors can occur. In this study the accuracy of the most commonly used measuring procedure and seven independent factors that might affect apparent height were evaluated in skeletally mature horses that were less than 155 cm in height. The results indicated that there was an improvement of 57 per cent in the accuracy of measurement when a second spirit level was added to the traditional measuring stick. The spread of values recorded for a series of repeated measurements by one person was +/-1.06 cm, but the spread increased to +/-1.89 cm when three different people made the measurements. Some variation in height occurred when the position of the pony's head was changed, but none occurred after a period of exercise. There was a reduction in height of 0.84 cm when the animals were allowed to adapt to their surroundings, and there was some reduction after they had been tranquillised.