Effects of air exposure, time, temperature, and humidity on different serum electrolytes

Background: Pre-analytical, analytical, or post analytical variations can induce, change, or alter the tests results. Laboratory errors lead to unnecessary delays in test report and also increased costs by repeat samples which have become a pain to the patients. Aims and Objectives: The aims of this study were to determine alterations in the concentration of serum sodium (Na+), potassium (K+), and ionized calcium (Ca++) concentration with reference to air exposure, time, temperature, and humidity. Materials and Methods: Fifty samples as case and 50 samples as control were included from a normal healthy population in this study. After getting the samples, first readings were taken for case samples and were uncapped and the remaining samples were set aside capped at 24°C, 20% humidity for half an hour and followed by second reading which was taken. Results: Variation in the mean serum sodium between groups is 0.06 mEq/L (0.04%) and 0.08 mEq/L (0.07%) which is very negligible and insignificant (P > 0.05). The mean level of serum K+ in cases is 4.35 mEq/L and in controls is 4.27 mEq/L. After half an hour, the mean level of serum K+ in cases is 4.51 mEq/L and, in controls, is 4.29 mEq/L. Hence, the variation in results in cases is 0.16 mEq/L (3.68%) and in controls is 0.02 mEq/L (0.47%) which is highly significant (P < 0.05). The mean level of serum Ca++ in cases is 1.15 mmol/L and in controls is 1.17 mmol/L. After half an hour, the mean level of serum Ca++ in cases is 1.09 mmol/L and in controls is 1.16 mmol/L. Hence, the variation in results in cases is 0.06 mmol/L (5.22%) and in controls is 0.01 mmol/L (0.85%) which is highly significant (P < 0.05). Conclusion: Air exposure significantly alters the serum K+ and Ca++ level, but the alteration in serum Na+ level is not significant.

The influence of catch-and-release on mortality of Salminus brasiliensis (Cuvier, 1816) / A influência do pesque e solte na mortalidade de Salminus brasiliensis (Cuvier, 1816)

Abstract Catch-and-release (CR) angling has been used to assist management programs seeking to promote the conservation and recovery of some recreational fish stocks by decreasing mortality from fishing. However, without appropriate fish handling, this activity may cause damage and injuries to individual fish, causing mortality. Therefore, CR should be allowed under some circumstances that ensure higher rates of survival to achieve the goals of the conservation measures. Thus, we experimentally tested the CR effects on dourado (Salminus brasiliensis) by comparing caught-and-released fish (CR fish) with uncaught fish (control fish) in a pond and estimating individual mortality rates related to seven air exposure times (AET: 120 s, 240 s, 360 s, 480 s, 600 s, 720 s and 840 s). We also determined a safe limit for fish handling and investigated the length and weight gain variations. We found that an increase in AET affects fish survival and that the limit of handling time for this species was 546 s; after this threshold, the individual probability of death exceeds 5%. The length and weight gain of CR fish did not differ significantly from the control fish. We believe that CR is efficient for S. brasiliensis because it does not significantly impair their organic growth and causes little or no mortality if handling is performed properly; thus, it could be employed to assist conservation programs.

Resumo O pesque e solte (PS) tem sido utilizado para auxiliar programas de manejo que buscam promover a conservação e recuperação de estoques de peixes esportivos, através da redução da mortalidade pela pesca. Entretanto, sem a manipulação adequada dos peixes, essa atividade pode causar injúrias nos indivíduos, causando mortalidade. Dessa maneira, o PS deve ser permitido sob circunstâncias que possam garantir altas taxas de sobrevivência, de modo que as metas das medidas de conservação sejam atingidas. Assim, testamos experimentalmente os efeitos do PS sobre o dourado (Salminus brasiliensis), através da comparação de peixes capturados e liberados (peixes de PS) com peixes não capturados (peixes de controle) em um tanque de cultivo. Estimamos as taxas de mortalidades individuais relacionadas a sete tempos de exposição ao ar (TEA: 120 s, 240 s, 360 s, 480 s, 600 s, 720 s e 840 s). Determinamos um limite seguro para a manipulação do peixe e investigamos as variações no ganho de comprimento e peso. Foi encontrado que o aumento no TEA afetou a sobrevivência do peixe e que o limite de tempo para a manipulação da espécie foi de 546 s; depois desse limite, a probabilidade individual de morte excede 5%. O ganho de comprimento e peso dos peixes de PS não diferiu significativamente dos peixes de controle. Acreditamos que o PS é eficiente para o S. brasiliensis porque não afeta significativamente seu crescimento orgânico e causa pouca ou nenhuma mortalidade se a manipulação for realizada corretamente. Concluímos que a atividade pode ser empregada para auxiliar programas de conservação.

The influence of catch-and-release on mortality of Salminus brasiliensis (Cuvier, 1816)

Abstract Catch-and-release (CR) angling has been used to assist management programs seeking to promote the conservation and recovery of some recreational fish stocks by decreasing mortality from fishing. However, without appropriate fish handling, this activity may cause damage and injuries to individual fish, causing mortality. Therefore, CR should be allowed under some circumstances that ensure higher rates of survival to achieve the goals of the conservation measures. Thus, we experimentally tested the CR effects on dourado (Salminus brasiliensis) by comparing caught-and-released fish (CR fish) with uncaught fish (control fish) in a pond and estimating individual mortality rates related to seven air exposure times (AET: 120 s, 240 s, 360 s, 480 s, 600 s, 720 s and 840 s). We also determined a safe limit for fish handling and investigated the length and weight gain variations. We found that an increase in AET affects fish survival and that the limit of handling time for this species was 546 s; after this threshold, the individual probability of death exceeds 5%. The length and weight gain of CR fish did not differ significantly from the control fish. We believe that CR is efficient for S. brasiliensis because it does not significantly impair their organic growth and causes little or no mortality if handling is performed properly; thus, it could be employed to assist conservation programs.

Resumo O pesque e solte (PS) tem sido utilizado para auxiliar programas de manejo que buscam promover a conservação e recuperação de estoques de peixes esportivos, através da redução da mortalidade pela pesca. Entretanto, sem a manipulação adequada dos peixes, essa atividade pode causar injúrias nos indivíduos, causando mortalidade. Dessa maneira, o PS deve ser permitido sob circunstâncias que possam garantir altas taxas de sobrevivência, de modo que as metas das medidas de conservação sejam atingidas. Assim, testamos experimentalmente os efeitos do PS sobre o dourado (Salminus brasiliensis), através da comparação de peixes capturados e liberados (peixes de PS) com peixes não capturados (peixes de controle) em um tanque de cultivo. Estimamos as taxas de mortalidades individuais relacionadas a sete tempos de exposição ao ar (TEA: 120 s, 240 s, 360 s, 480 s, 600 s, 720 s e 840 s). Determinamos um limite seguro para a manipulação do peixe e investigamos as variações no ganho de comprimento e peso. Foi encontrado que o aumento no TEA afetou a sobrevivência do peixe e que o limite de tempo para a manipulação da espécie foi de 546 s; depois desse limite, a probabilidade individual de morte excede 5%. O ganho de comprimento e peso dos peixes de PS não diferiu significativamente dos peixes de controle. Acreditamos que o PS é eficiente para o S. brasiliensis porque não afeta significativamente seu crescimento orgânico e causa pouca ou nenhuma mortalidade se a manipulação for realizada corretamente. Concluímos que a atividade pode ser empregada para auxiliar programas de conservação.

Biological indicators of stress in pacu (Piaractus mesopotamicus) after capture / Indicadores biológicos de estresse em pacu (Piaractus mesopotamicus) após captura

The effects of capture (chasing, netting and air exposure) on cortisol, glucose, chloride, sodium, potassium and calcium concentrations, osmolality, hematocrit, hemoglobin concentration, red blood cells count (RBC) and mean corpuscular volume (MCV) were investigated in pacu (Piaractus mesopotamicus). A total of 132 fish (49.7 ± 11.7 g) were subjected to capture and 3 minutes air exposure and capture and 5 minutes air exposure. Nine fish at each treatment were sampled at 5, 15, 30, 60 minutes and 24 hours after the procedure. Nine undisturbed fish were sacrificed before the handling and used as controls. Capture resulted in a rise in blood cortisol and glucose 30 and 5 minutes, respectively, after both air exposures. Both indicators returned to resting levels 24 hours after capture. In both fish groups, plasma chloride decreased 60 minutes after capture, not recovering the resting levels within 24 hours after, and serum sodium rose at 15 and 30 minutes and recovered the resting levels 24 hours later. There were no significant changes neither in potassium, calcium and osmolality nor in hematocrit, hemoglobin, RBC and MCV as a consequence of capture. The sequential stressors imposed to pacu during capture activated the brain-pituitary-interrenal axis (cortisol and glucose responses) but the activation of the brain-sympathetic-chromaffin cell axis was apparently moderate (ionic and hematological responses).

Os efeitos da captura (perseguição, contenção em puçá e exposição aérea) no perfil sanguíneo do cortisol, glicose, cloreto, sódio, potássio, cálcio e na osmolaridade, hematócrito, hemoglobina, número de células vermelhas (CV) e volume corpuscular médio (VCM) foram investigados no pacu (Piaractus mesopotamicus). Um total de 132 peixes (49,7 ± 11,7 g) foi submetido à captura com 3 ou 5 minutos de exposição aérea. Nove peixes de cada tratamento foram amostrados 5, 15, 30, 60 minutos e 24 horas depois e outros nove peixes foram amostrados antes da captura e considerados controle. A captura resultou em aumento do cortisol e glicose no sangue 30 e 5 minutos depois da captura, respectivamente, independente do tempo de exposição aérea. Ambos os indicadores recuperaram os valores controle em 24 horas. Nos dois grupos de peixes, o cloreto plasmático diminuiu 60 minutos após captura e não recuperou os valores controle, enquanto o sódio sérico aumentou entre 15 e 30 minutos recuperando a condição controle em 24 horas. Não houve alteração significativa nos valores de potássio, cálcio, osmolaridade ou no hematócrito, hemoglobina, CV e VCM como consequência da captura. Os estressores sequenciais aplicados no pacu durante a captura ativaram o eixo cérebro-pituitária-interrenal (respostas do cortisol e glicose), mas a ativação do eixo cérebro-sistema simpático-células cromafins foi aparentemente moderada (respostas iônicas e hematológicas).

Physiological responses of pirarucu (Arapaima gigas) to acute handling stress

Pirarucu (Arapaima gigas) is an obligatory air-breathing fish from the Amazon basin. Previous study showed that pirarucu juveniles present a latency period in their response to moderate stress (transportation). Therefore the objective of this study was to verify the effects of a prolonged air exposure stress in lactate, glucose, cortisol, haematocrit, haemoglobin, and liver glycogen in pirarucu. Thirty-six fish were handled by netting and subjected to air exposure for 75-min. Six fish were sampled before handling and at 0, 6, 24, 48, and 96h after handling. Fish cortisol, lactate and haematocrit rose after handling, returning to previous unstressed values on the following sampling (6h after handling). Glucose increased significantly after handling and that was maintained for 24 h. There were no changes in haemoglobin and liver glycogen as a consequence of handling. The results demonstrate a quick response when exposed to an acute stressor and a fast recovery, suggesting that pirarucu does not use their glycogen reserves during an acute stress. The results suggest that pirarucu exhibit physiological stress responses to handling similar in magnitude to those previously documented for many teleostean fishes, including salmonids.

O pirarucu (Arapaima gigas) é um peixe de respiração aérea obrigatória da bacia Amazônica. Estudo prévio demonstrou que juvenis de pirarucu apresentam um período de latência em sua resposta de estresse a um estresse moderado (transporte). Desta forma, o objetivo deste estudo foi verificar os efeitos de uma exposição aérea prolongada no lactato, glicose, cortisol, hematócrito, hemoglobina e glicogênio do fígado em pirarucu. Trinta e seis peixes foram manuseados com um puçá e expostos ao ar por 75-min. Seis peixes foram amostrados antes do manuseio e 0, 6, 24, 48, e 96h após o manuseio. O cortisol, lactato e hematócrito aumentaram após o manuseio, retornando para valores semelhantes ao de antes do manuseio na amostragem seguinte (6 h após o manuseio). A glicose aumentou significativamente após o manuseio e o aumento se manteve até a amostragem de 24h. Não houve mudança significativa na hemoglobina e no glicogênio como conseqüência do manuseio. Os resultados demonstram que o pirarucu apresenta uma rápida resposta e uma rápida recuperação quando exposto a um estressor agudo e sugerem que o pirarucu não usa suas reservas de glicogênio nesta situação. Os resultados indicam que o pirarucu apresenta uma resposta fisiológica de estresse similar em magnitude com muitos outros teleósteos, incluindo os salmonídeos.

Bone Cell Viability after Exposure to Air / 대한정형외과학회잡지

Dryness has harmful effect on the harvested autogenous bone. But there was no report how the bone cells response to the drying condition and recuperate after exposure. Cytotoxic effect of dryness on the osteoblast-like cells were examined from 18- day chick calvaria. The cells were rinsed with lactated Ringer solution or lactated Ringer solution with 10% fetal bovine serum to see whether the added serum could help the cells live longer. Cultured cells were exposed to room air for period of time ranging from 0 minute to 35 minutes and viability was determined using the MTT test. Cultured cell death increased with the increase of exposure time to air between 25 and 30 minutes. No live cells existed after 35 minutes exposure. Lactated Ringers solution containing 10% fetal bovine serum did not prolong the survival time of osteoblast-like cells compared with lactated Ringers solution alone. These results suggest that the drying of bone cells that occurs in the operating room, especially after a prolonged reconstructive procedure, may severely damage the cell viability of exposed bone or grafted bone and thereby compromise the fusion rate.

Changes in the hyaline articular cartilage after air exposure

The changes of hyaline articular cartilage from rabbits after air exposure were evaluated. The knee joints were exposed to air for periods of thirty minutes to two hours. The animals were killed periodically, at three days, one week and three weeks postoperatively. After sacrifice, the cartilage was removed and prepared for study by light microscopy and electron microscopy. Exposure to room air for thirty minutes produced chondrocyte necrosis in the upper third of the cartilage, and exposure for 60 minutes or longer produced chondrocyte necrosis of the entire thickness of articular cartilage at three days after arthrotomy. But, three weeks after arthrotomy, we could not find any chondrocyte necrosis in any rabbits at varying periods of air exposure. There was no significant change in proteoglycan content between the aired and control cartilage. Clinical Relevance: Exposing cartilage to air can cause transient and reversible cartilage damage. If these changes are not reversible, the orthopedic surgeon should consider avoiding the prolonged exposure of articular cartilage to air, since complete matrix disintegration is known to occur months after chondrocyte necrosis.

The Effects of Air Exposure on Articular Cartilage ; Degeneration & Regeneration / 대한정형외과학회잡지

Orthopedic procedures expose articular cartilage to operating room air for varying periods of time as long as two hours. Articular cartilage is dense white, glossy and smooth, and is composed of chondrocytes, collagen, and a hyaline matrix made up of proteoglycan molecules. Articular cartilage is a specialized tissue containing 75 to 85% water. Most of the water is trapped in a gel of matrix collagen and proteoglycan and is freely exchangeable with the synovial fluid and blood. Only about 6% of cartilage water is tightly bound. Theoretically, since cartilage gel is hyperhydrated, the water content is important in maintaining cartilage resiliency and lubrication of the articular surfaee. If a pathologic state is associated with reduction on water content, these properties may be altered, leading to impaired joint function. We reproduced the O.R. situation by exposing one knee of 24 mature New-Zealand white rabbits to smbient air (20–22℃) for 30 minutes to 2 hours, the opposite knee serving as a control. Following exposure, the joints were closed snd the animal resumed cage activity for 1 day prior to sacrifice, at that time cartilage was removed from both exposed and control joints and prepared for gross, light microscopy and electron microscopy. We observed cartilages which were sacrificed at 1 week after operation, 2 weeks after and 4 weeks after for varying periods of exposing time in same method. The results were as follow ; 1. A distinct color change was seen in the exposed cartilage in groups which were sacrificed postoperative at 1 day ; However minimal change was detected in each group sacrificed at 1 week & 2 weeks later, and no change was seen in each group sacrificed postoperative at 4 weeks. 2. Exposure to room air for 30 minutes produced chondrocyte necrosis in the superficial zone of rabbit articular cartilage. Exposure for 1 hour or longer produced chondrocyte necrosis up to radial zone. 3. Chondrocyte necrosis was not seen in each group for varying periods:0f air exposure microscopically, which sacrificed postoperative at 1 week. 4. Proteoglycan content was minimal at 1 week postoperatively in each group ; However proteoglycan content increased progressively with time. 5. Change in cellularity were consistent with cartilage damage. Seemingly, exposing articular cartilage to air for 2 hours caused reversible cartilage damage.