Heart rate responses to different temperatures in juvenile Poppiana dentata ( ) / Respostas de frequência cardíaca do Poppiana dentata jovem a diferentes temperaturas ( )

Abstract Temperature is one of the main factors that influences cardiovascular functioning in ectotherms. Hence this study sought to investigate heart rate responses of a freshwater crab species, Poppiana dentata, to different temperature exposures since the species generally reside in habitats of fluctuating physicochemistry. Heart rates were non-invasively determined in juvenile crabs for three temperature regimes, each over an 8-day session; A: temperature exposures of 26 °C (2 days) to 30 °C (3 days) to 26 °C (3 days), B: 26 °C (2 days) to 32 °C (3 days) to 26 °C (3 days) and C: a control at constant 26 °C. Heart rate variations were significant among the regimes (P < 0.05), with the median heart rate being highest for regime B (74 beats per minute or bpm) during the temperature insult (32 °C), relative to regime A (70 bpm) and the control (64 bpm). Notably, a suppression and inversion of the diurnal cardiac patterns occurred for regimes' A and B crabs respectively, with rates from the highest temperature insult not shifting back to pre-insult levels during recovery (26 °C). It is plausible that P. dentata may have compensatory cardiovascular mechanisms that account for these differential heart rate responses, possibly conveying adaptive strategies in its dynamic habitat conditions.

Resumo A temperatura é um dos principais fatores que influenciam o funcionamento cardiovascular dos animais ectotérmicos. Sendo assim, este estudo buscou investigar as respostas de frequência cardíaca de uma espécie de caranguejo de água doce, o Poppiana dentata, após exposição a temperaturas diferentes, visto que esta espécie geralmente reside em habitats de composição físico-química variável. As frequências cardíacas foram determinadas de maneira não invasiva em caranguejos jovens submetidos a três regimes de temperatura, cada um ao longo de uma sessão de oito dias de duração; A: exposição a 26oC (dois dias) para 30 °C (três dias) para 26 °C (dois dias), B: 26 °C (dois dias) para 32 °C (três dias) para 26 °C (três dias) e C: um controle a temperatura constante de 26 °C. As variações de frequência cardíaca foram significativas entre os regimes (P < 0,05), sendo que a frequência cardíaca mediana foi mais alta para o regime B (74 batimentos por minuto ou bpm) durante o insulto térmico (32 °C), em relação ao regime A (70 bpm) e ao controle (64 bpm). Observou-se particularmente uma supressão e uma inversão dos padrões cardíacos diurnos nos caranguejos dos regimes A e B, respectivamente, sem que as frequências do insulto térmico mais alto voltassem aos níveis anteriores ao insulto térmico durante a recuperação (26 °C). É possível que o P. dentata possua mecanismos cardiovasculares compensatórios responsáveis por essas respostas de frequências cardíacas variadas, o que pode indicar estratégias de adaptação às suas condições de habitat dinâmicas.

Simulation and experiment of temperature uniformity of Erzhi Pills during hot air drying process / 中草药

Objective: To explore the law of temperature change in hot air drying process, and provide a theoretical basis for improving the drying efficiency and uniformity of Erzhi Pills (EP). Methods: Heat and mass transfer models were established to simulate the temperature distribution of the drying process of EP with no hole bottom and screen hole bottom based on COMSOL Multiphysics. The drying process of EP layer at 60, 80 and 100 ℃ was studied. The effective water diffusion coefficient (Deff) of EP layer was calculated by Fick’s second law plate model. A probe temperature sensor was used to monitor the temperature changes of the intermediate surface and interior of EP layer during the drying process to verify the drying model. Results: The surface and internal temperature of EP layer showed a trend of first sharp rise and then slow rise in the drying process of different hot air temperature. The inner temperature range of the drying model with no hole bottom and screen hole bottom was 55.3-56.0 ℃ and 57.5-57.7 ℃ respectively. The uniformity of drying temperature of EP can be improved by using drying plate with screen hole. The Deff range of the two model experiments were 0.76 × 10-7-2.82 × 10-7 m2/s and 1.15 × 10-7-3.94 × 10-7 m2/s, respectively. The experimental results showed that the model could well reflect the temperature variation of EP layer drying process within a certain drying temperature range. Conclusion: The change of drying temperature was directly reflected through the reliable hot air drying model of EP layer. The study provides reference for the optimization of EP drying process.

Heart rate responses to different temperatures in juvenile Poppiana dentata ( )

Abstract Temperature is one of the main factors that influences cardiovascular functioning in ectotherms. Hence this study sought to investigate heart rate responses of a freshwater crab species, Poppiana dentata, to different temperature exposures since the species generally reside in habitats of fluctuating physicochemistry. Heart rates were non-invasively determined in juvenile crabs for three temperature regimes, each over an 8-day session; A: temperature exposures of 26 °C (2 days) to 30 °C (3 days) to 26 °C (3 days), B: 26 °C (2 days) to 32 °C (3 days) to 26 °C (3 days) and C: a control at constant 26 °C. Heart rate variations were significant among the regimes (P 0.05), with the median heart rate being highest for regime B (74 beats per minute or bpm) during the temperature insult (32 °C), relative to regime A (70 bpm) and the control (64 bpm). Notably, a suppression and inversion of the diurnal cardiac patterns occurred for regimes A and B crabs respectively, with rates from the highest temperature insult not shifting back to pre-insult levels during recovery (26 °C). It is plausible that P. dentata may have compensatory cardiovascular mechanisms that account for these differential heart rate responses, possibly conveying adaptive strategies in its dynamic habitat conditions.

Resumo A temperatura é um dos principais fatores que influenciam o funcionamento cardiovascular dos animais ectotérmicos. Sendo assim, este estudo buscou investigar as respostas de frequência cardíaca de uma espécie de caranguejo de água doce, o Poppiana dentata, após exposição a temperaturas diferentes, visto que esta espécie geralmente reside em habitats de composição físico-química variável. As frequências cardíacas foram determinadas de maneira não invasiva em caranguejos jovens submetidos a três regimes de temperatura, cada um ao longo de uma sessão de oito dias de duração; A: exposição a 26oC (dois dias) para 30 °C (três dias) para 26 °C (dois dias), B: 26 °C (dois dias) para 32 °C (três dias) para 26 °C (três dias) e C: um controle a temperatura constante de 26 °C. As variações de frequência cardíaca foram significativas entre os regimes (P 0,05), sendo que a frequência cardíaca mediana foi mais alta para o regime B (74 batimentos por minuto ou bpm) durante o insulto térmico (32 °C), em relação ao regime A (70 bpm) e ao controle (64 bpm). Observou-se particularmente uma supressão e uma inversão dos padrões cardíacos diurnos nos caranguejos dos regimes A e B, respectivamente, sem que as frequências do insulto térmico mais alto voltassem aos níveis anteriores ao insulto térmico durante a recuperação (26 °C). É possível que o P. dentata possua mecanismos cardiovasculares compensatórios responsáveis por essas respostas de frequências cardíacas variadas, o que pode indicar estratégias de adaptação às suas condições de habitat dinâmicas.

Temperature variation in the pulp during Nd-YAG laser irradiation at tooth cervical protion in vitro / 实用口腔医学杂志

Objective:To observe the temperature vaxiation in the pulp chamber during Nd-YAG laser irradiation at tooth cervical portion.Methods:60 extracted permanent teeth were divided into 3 groups (anterior teeth,premolars and molars,n =20).The teeth in each group were further divided into 4 subgroups according to the laser power setting (0.4 W,0.8 W)and interval time(1 0 s,20 s)(n =5).After canal preparation the teeth were fixed and filmed using the parallel projection technique.the thickness of the buccal pulp chamber wall was measured by graphic analyzing software.The buccal cervical portion of the teeth was irradiated through 200 μm optical fiber,Temperature in the pulp was measured by K type thermo-electric couples fixed to the pulp chamber wall.Re-sults:The temperature inside the chamber increased with the higher power setting(P <0.01 ),under the same power setting,longer irradiation duration caused higher temperature rise(P <0.01 ).Greater chamber wall thickness was associated with lower temperature rise.Conclusion:The temperature rise in the pulp chamber during laser irradiation is correlated with laser power setting and the thickness of the irradiated tooth tissue.