In rainbow trout, warmer temperatures increase metabolic rate, which can be energetically stressful. Diel fluctuations in water temperatures are common in rivers, raising the question of whether fish ...experience metabolic preconditioning with repeated heat stress. In this study, rainbow trout (Oncorhynchus mykiss Walbaum, 1792) were subjected to three temperature treatments consisting of either a constant exposure to 16°C, a single exposure to 24°C, or three cycles between 16° and 24°C. Metabolic responses were investigated, including patterns of regulation of adenosine monophosphate–activated protein kinase and its substrates, key metabolic enzymes, and several relevant metabolites. In liver and, to a lesser extent, in heart, patterns of signal transduction suggest an increasingly anabolic phenotype with successive heat cycles. Inhibition of Raptor in the heart suggests lowered gross protein synthesis after multiple heat cycles. Fish also showed recovery of glycogen stores and lipid synthesis after multiple thermal cycles, while they maintained baseline plasma glucose levels. The animals showed no evidence of hypoxemia, and our results suggest rainbow trout exposed to repeated thermal cycles were not at risk of metabolic substrate depletion. Collectively, our data indicate that, when exposed to fluctuating but noncritical thermal cycles, rainbow trout may adopt a new metabolic phenotype to sequester readily accessible metabolic substrates in the liver in preparation for more severe or sustained thermal exposures.
Celotno besedilo
Dostopno za:
BFBNIB, DOBA, IZUM, KILJ, NMLJ, NUK, PILJ, PNG, SAZU, SIK, UILJ, UKNU, UL, UM, UPUK
Typically, laboratory studies on the physiological effects of temperature are conducted using stable acclimation temperatures. Nonetheless, information extrapolated from these studies may not ...accurately represent wild populations living in thermally variable environments. The aim of this study was to compare the growth rate, metabolism and swimming performance of wild Atlantic salmon exposed to cycling temperatures, 16-21°C, and stable acclimation temperatures, 16, 18.5, 21°C. Growth rate, metabolic rate, swimming performance and anaerobic metabolites did not change among acclimation groups, suggesting that within Atlantic salmon's thermal optimum range, temperature variation has no effect on these physiological properties.
Typically, laboratory studies on the physiological effects of temperature are conducted using stable acclimation temperatures. Nonetheless, information extrapolated from these studies may not ...accurately represent wild populations living in thermally variable environments. The aim of this study was to compare the growth rate, metabolism and swimming performance of wild Atlantic salmon exposed to cycling temperatures, 16–21°C, and stable acclimation temperatures, 16, 18.5, 21°C. Growth rate, metabolic rate, swimming performance and anaerobic metabolites did not change among acclimation groups, suggesting that within Atlantic salmon's thermal optimum range, temperature variation has no effect on these physiological properties.
The ability of cold-adapted species to persist in the face of climate change will depend on the capacity of individuals for thermal acclimation, adaptation, and the degree of physiological variation ...that exists among populations. We tested the acclimation capacity of cardiac HSP70 and HSP90 in four populations of lake trout (Salvelinus namaycush), a cold-adapted salmonid. We acclimated fish to four temperatures (8°C, 11°C, 15°C, and 19°C) and measured cardiac HSP70 and HSP90 levels by western blot prior to and following an acute (1h) heat shock at 23°C. Basal and induced cardiac HSP70 and HSP90 expression was similar among lake trout populations. Induced cardiac HSP70 was significantly lower in heat-shocked lake trout acclimated to 19°C compared to all other temperatures. Acclimation temperature had no significant effect on cardiac HSP90 prior to heat shock (control HSP90) and a significant effect on HSP90 in heat-shocked fish, although most significant treatment comparisons were marginal. However, for warm-acclimated fish (15°C and 19°C), cardiac HSP90 levels were lower in heat-shocked versus control fish. Together, this suggests that the induction temperature of cardiac HSP synthesis may increase with warm acclimation in lake trout. This plasticity in the cardiac HSR could assist lake trout populations in coping with longer periods of thermal stress as predicted by climate change models. The cardiac HSR supports previous research suggesting lake trout thermal physiology may be conserved across a wide geographic range.
Social buffering is a phenomenon where the presence of conspecifics reduces an animal's stress response. Well known in mammals, social buffering was recently described in fishes exhibiting pronounced ...social hierarchies. Lake sturgeon (Acipenser fulvescens) are a gregarious rather than hierarchical fish. Therefore, we tested their capacity for social buffering following exposure to an acute thermal stress. Isolated or grouped (three or six similarly sized conspecifics) age-0 lake sturgeon were exposed to a critical thermal maximum (CTmax) test. We measured the endocrine and cellular response to acute thermal shock by assessing whole body cortisol concentration and mRNA expression of steroidogenic acute regulatory protein (StAR) and heat shock proteins (hsp90a, hsp90b, and hsp70) during recovery from the CTmax test. Isolation or grouping had no effect on CTmax. Whole body cortisol concentrations in isolated fish were approximately three-fold higher than in grouped fish 1 h post-CTmax and two-fold higher than grouped fish 20 h post-CTmax. Similarly, 1 h post-CTmax, mRNA expression of StAR, hsp90a, hsp90b and hsp70 were three to four-fold higher in isolated fish compared to groups of three and six fish. At 20 h post-CTmax, expression of StAR was approximately two-fold higher in isolated fish, but expression of hsp90a, hsp90b, and hsp70 was not significantly different between isolated and grouped fish. While conspecific presence had no effect on CTmax, the significant reduction of endocrine and cellular stress markers post-CTmax in grouped fish strongly suggests that lake sturgeon may use social buffering to combat potential deleterious effects of exposure to heat stress.
Display omitted
•Performance of a critical thermal maximum test on groups of conspecific fish.•Conspecific presence during thermal stress does not affect acute thermal tolerance.•Conspecific presence during thermal stress does reduce the endocrine and cellular stress response.•Evidence for social buffering in lake sturgeon, a gregarious acipenseriform fish.
Prostate stereotactic ablative radiotherapy (SABR) delivers large doses using a fast dose rate. This amplifies the effect geometric uncertainties have on normal tissue dose. The aim of this study was ...to determine whether the treatment dose-volume histogram (DVH) agrees with the planned dose to organs at risk (OAR).
41 low-intermediate risk prostate cancer patients were treated with SABR using a linac based technique. Dose prescribed was 35 Gy in five fractions delivered on alternate days, planned using volumetric modulated arc therapy (VMAT) with 10X flattening filter free (FFF). On treatment, prostate was matched to fiducial markers on cone beam CT (CBCT). OAR were retrospectively delineated on 205 pre-treatment CBCT images. Daily CBCT contours were overlaid on the planning CT for dosimetric analysis. Verification plan used to evaluate the daily DVH for each structure. The daily doses received by OAR were recorded using the D%.
The median rectum and bladder volumes at planning were 67.1 cm
(interquartile range 56.4-78.2) and 164.4 cm
(interquartile range 120.3-213.4) respectively. There was no statistically significant difference in median rectal volume at each of the five treatment scans compared to the planning scan (
= 0.99). This was also the case for median bladder volume (
= 0.79). The median dose received by rectum and bladder at each fraction was higher than planned, at the majority of dose levels. For rectum the increase ranged from 0.78-1.64Gy and for bladder 0.14-1.07Gy. The percentage of patients failing for rectum D35% < 18 Gy (
= 0.016), D10% < 28 Gy (
= 0.004), D5% < 32 Gy (
= 0.0001), D1% < 35 Gy (
= 0.0001) and bladder D1% < 35 Gy (
= 0.001) at treatment were all statistically significant.
In this cohort of prostate SABR patients, we estimate the OAR treatment DVH was higher than planned. This was due to rectal and bladder organ variation.
OAR variation in prostate SABR using a FFF technique, may cause the treatment DVH to be higher than planned.
Abstract
River temperatures often surpass the thermal limits of juvenile Atlantic salmon (Salmo salar). Using thermal monitoring data to replicate a natural heat event, we investigated how cooler ...nighttime temperatures would affect how juvenile salmon cope with several days of heat cycling.
Abstract
The frequency of extreme thermal events in temperate freshwater systems is expected to increase alongside global surface temperature. The Miramichi River, located in eastern Canada, is a prominent Atlantic salmon (Salmo salar) river where water temperatures can exceed the proposed upper thermal limit for the species (~27°C). Current legislation closes the river to recreational angling when water temperatures exceed 20°C for two consecutive nights. We aimed to examine how natural thermal variation, representative of extreme high thermal events, affected the thermal tolerance and physiology of wild, juvenile Atlantic salmon. We acclimated fish to four thermal cycles, characteristic of real-world thermal conditions while varying daily thermal minima (16°C, 18°C, 20°C or 22°C) and diel thermal fluctuation (e.g. Δ5°C–Δ9°C). In each cycling condition, we assessed the role that thermal minima played on the acute thermal tolerance (critical thermal maximum, (CTMax)), physiological (e.g. heat shock protein 70 (HSP70), ubiquitin) and energetic (e.g. hepatic glycogen, blood glucose and lactate) status of juvenile Atlantic salmon throughout repeated thermal cycles. Exposure to 16–21°C significantly increased CTMax (+0.9°C) compared to a stable acclimation temperature (16°C), as did exposure to diel thermal fluctuations of 18–27°C, 20–27°C and 22–27°C, yet repeated exposure provided no further increases in acute thermal tolerance. In comparison to the reference condition (16–21°C), consecutive days of high temperature cycling with different thermal minima resulted in significant increases in HSP70 and ubiquitin, a significant decrease in liver glycogen, and no significant cumulative effect on either blood glucose or lactate. However, comparison between thermally taxed treatments suggested the diel thermal minima had little influence on the physiological or energetic response of juvenile salmon, despite the variable thermal cycling condition. Our results suggest that relatively cooler night temperatures in the summer months may play a limited role in mitigating physiological stress throughout warm diel cycle events.
Acute temperature stress in animals results in increases in heat shock proteins (HSPs) and stress hormones. There is evidence that stress hormones influence the magnitude of the heat shock response; ...however, their role is equivocal. To determine whether and how stress hormones may affect the heat shock response, we capitalized on two lines of rainbow trout specifically bred for their high (HR) and low (LR) cortisol response to stress. We predicted that LR fish, with a low cortisol but high catecholamine response to stress, would induce higher levels of HSPs after acute heat stress than HR trout. We found that HR fish have significantly higher increases in both catecholamines and cortisol compared with LR fish, and LR fish had no appreciable stress hormone response to heat shock. This unexpected finding prevented further interpretation of the hormonal modulation of the heat shock response but provided insight into stress-coping styles and environmental stress. HR fish also had a significantly greater and faster heat shock response and less oxidative protein damage than LR fish. Despite these clear differences in the physiological and cellular responses to heat shock, there were no differences in the thermal tolerance of HR and LR fish. Our results support the hypothesis that responsiveness to environmental change underpins the physiological differences in stress-coping styles. Here, we demonstrate that the heat shock response is a distinguishing feature of the HR and LR lines and suggest that it may have been coselected with the hormonal responses to stress.
Understanding the mechanisms that create phenotypic variation within and among populations is a major goal of physiological ecology. Variation may be a consequence of functional trade-offs (i.e. ...improvement in one trait comes at the expense of another trait) or alternatively may reflect the intrinsic quality of an organism (i.e. some individuals are simply better overall performers than others). There is evidence for both ideas in the literature, suggesting that environmental context may mediate whether variation results from trade-offs or differences in individual quality. We tested this overarching 'context dependence' hypothesis by comparing the aquatic and terrestrial athletic performance of the amphibious fish Kryptolebias marmoratus captured from two contrasting habitats, a large pond and small burrows. Overall, pond fish were superior terrestrial athletes but burrow fish were better burst swimmers, suggestive of a performance trade-off at the population level. Within each population, however, there was no evidence of a performance trade-off. In burrow fish, athletic performance was positively correlated with muscle content and body condition, consistent with the individual quality hypothesis. In pond fish, there was only a relationship between glycolytic white muscle and aquatic burst performance. Notably, pond fish were in better body condition, which may mask relationships between condition and athletic performance. Overall, our data highlight that population-level trends are insufficient evidence for the existence of phenotypic trade-offs in the absence of similar within-population patterns. Furthermore, we only found evidence for the individual quality hypothesis in one population, suggesting that patterns of phenotypic covariance are context dependent.
Artificial intelligence (AI) supported clinical decision support (CDS) technologies can parse vast quantities of patient data into meaningful insights for healthcare providers. Much work is underway ...to determine the technical feasibility and the accuracy of AI-driven insights. Much less is known about what insights are considered useful and actionable by healthcare providers, their trust in the insights, and clinical workflow integration challenges. Our research team used a conceptual prototype based on AI-generated treatment insights for type 2 diabetes medications to elicit feedback from 41 U.S.-based clinicians, including primary care and internal medicine physicians, endocrinologists, nurse practitioners, physician assistants, and pharmacists. We contribute to the human-computer interaction (HCI) community by describing decision optimization and design objective tensions between population-level and personalized insights, and patterns of use and trust of AI systems. We also contribute a set of 6 design principles for AI-supported CDS.
PDF
