Spelling suggestions: "subject:"animal physiology - systems"" "subject:"1animal physiology - systems""
1 |
Morphological changes during normal and perturbed metamorphosis of the ascidian Herdmania curvataGreen, K. Unknown Date (has links)
No description available.
|
2 |
Morphological changes during normal and perturbed metamorphosis of the ascidian Herdmania curvataGreen, K. Unknown Date (has links)
No description available.
|
3 |
Morphological changes during normal and perturbed metamorphosis of the ascidian Herdmania curvataGreen, K. Unknown Date (has links)
No description available.
|
4 |
Use of electronically-controlled floor cooling pads during heat stress in thermoregulatory and reproductive performances in swineLarissa K Shirley (12489244) 04 May 2022 (has links)
<p> Substantial economic losses occur in the swine industry during periods of high ambient temperatures. Heat stress produces physiological changes such as increased body temperature and respiration rate resulting in production losses from decreased reproductive performance, growth rate and feed intake. Heat stress in growing gilts delays puberty and decreases ovarian follicle numbers. In boars heat stress decreases semen quality. Electronically-controlled floor cooling pads were designed and constructed to assist pigs with thermoregulation by removing excess heat from pigs in a production facility. Based on this study, experiments were conducted to further investigate the effects of electronically-controlled cooling pads on physiological and reproductive performances in gilts and boars. A study was conducted on limit-fed gilts at 32°C and 35°C during short-term heat stress. Gilts exposed to short term heat stress at 32°C and 35°C had increased respiration rate, vaginal temperature and skin temperature. Gilts on electronically-controlled cooling pads exposed to short term heat stress at 35°C were able to minimize negative impacts of HS such as reduced respiration rate and vaginal temperature. A study was conducted with 24 boars which were exposed to cyclical heat stress for a duration of 3 days at 32°C and 35°C. Boars exposed to cyclical heat stress for 3 consecutive days at 32°C or 35°C which increased respiration rate and body temperature followed by a decrease in semen quality over several weeks. Boars cooled with electronically-controlled floor cooling pads had reduced physiological effects of heat stress as well as consistent semen quality post HS. The use of electronically controlled floor cooling pads have implications towards minimizing or removing the negative impacts of heat stress in gilts and boars. </p>
|
5 |
Nonlinear Analysis of Heart Rate Variability for Measuring Pain in Dairy Calves and Piglets, Heat Stress in Growing Pigs, and the Growing Pig Sickness Response to a Lipopolysaccharide ChallengeChristopher J. Byrd (5929544) 17 January 2019 (has links)
<p>Heart rate variability (<b>HRV</b>), or the variation in time between adjacent heart beats over time, is a non-invasive proxy measure of autonomic nervous system (<b>ANS</b>) function that has been used regularly in studies focused on evaluating livestock stress and welfare. The autonomic nervous system regulates involuntary physiological processes (<i>e.g.</i> respiration and heart rate) and consists of two main components, the parasympathetic (<b>PNS</b>), and sympathetic (<b>SNS</b>) branches, which act to maintain bodily homeostasis (PNS) or stimulate the “fight-or-flight” response after exposure to a stressor (SNS). Traditional linear HRV measures provide an estimation of overall autonomic activity or changes to the balance between the PNS and SNS branches by evaluating changes to the mean, variance, or frequency spectra of the R-R intervals. </p><p>To interpret HRV data obtained via linear HRV measures, particularly spectral HRV analysis, a linear assumption has to be assumed where SNS and PNS activity act in a purely antagonistic manner. However, this assumption is not always met. In many cases, ANS activity is altered in a nonlinear manner, which is reflected to some degree in the variability of heart rate output. Therefore, HRV measures that evaluate nonlinear changes to organizational or structural aspects of the R-R interval variability may be a useful compliment to traditional linear HRV measures for distinguishing between stressed and non-stressed states. The purpose of this dissertation was to evaluate the use of nonlinear HRV measures for evaluating dairy calf disbudding pain, piglet castration pain, growing pig heat stress, and as potential indicators of the subsequent immune response to a lipopolysaccharide (<b>LPS</b>) challenge in growing pigs.</p><p>Chapter 1 provides a knowledge base for understanding HRV and its use as a measure of autonomic stress in studies with livestock species. A brief explanation of animal welfare science, measures used to evaluate an animal’s welfare, and a demonstration of need for non-invasive physiological measures is provided before discussing the physiological basis of HRV. Relevant linear and nonlinear HRV measures are explained and examples of their use in livestock stress research are provided. Finally, a rationale for the studies conducted in this dissertation is presented.</p><p>Chapter 2 evaluates the use of HRV as an indicator of castration pain in 9-d-old piglets over a 3-d experimental period. Compared to sham castrated piglets, surgically castrated piglets exhibited greater low frequency to high frequency ratios (<b>LF/HF</b>), reduced sample entropy (<b>SampEn</b>), and greater percent determinism (<b>ÞT</b>) during the post-castration period. However, postural behavior was not different between treatments and serum cortisol concentrations only tended to differ between treatments at 1 and 24 h post-castration treatment, with surgically castrated pigs having numerically greater serum cortisol concentrations at both timepoints. These results demonstrate the ability of nonlinear HRV measures (SampEn and ÞT) to complement the physiological interpretation of linear HRV measures (LF/HF) in response to castration. Specifically, pigs who were surgically castrated exhibited more regularity (SampEn) and periodicity (ÞT) in their HRV data, and potentially more sympathetic activity (LF/HF) compared to sham castrated piglets, indicating greater pain-related stress. Additionally, HRV was a more sensitive measure of the stress response to castration than readily identifiable behaviors such as posture and the serum cortisol response.</p><p>Chapter 3 evaluates the use of HRV as an indicator of disbudding pain in dairy heifer calves (4 to 7-wk of age) over a 5-d experimental period. Calves who were given lidocaine and meloxicam prior to disbudding exhibited lower mean R-R interval (<b>RR</b>) values and a greater short-term detrended fluctuation analysis scaling exponent (<b>DFAα<sub>1</sub></b>) than sham disbudded calves. Together, these results indicate that calves who received pain mitigation exhibited greater pain-related stress (RR) and reduced physiological complexity in their heart rate signal (DFAα<sub>1</sub>). Calves who were disbudded without pain mitigation had an intermediate response compared to sham disbudded calves and calves provided lidocaine and meloxicam. However, their numerical values closely followed those of calves provided lidocaine and meloxicam. These results demonstrate the usefulness of nonlinear HRV measures (DFAα<sub>1</sub>) for evaluating nonlinear and correlational aspects of physiological complexity in response to disbudding. Additionally, the HRV results suggest that the provision of meloxicam does not reduce the amount of pain-related stress experienced by calves following disbudding.</p><p>Chapter 4 evaluates the use of HRV as an indicator of heat stress in growing pigs exposed to an acute heat episode. Heat stressed pigs exhibited greater body temperatures and spent less time in an active position compared to thermoneutral control pigs. Additionally, heat stressed pigs displayed an altered nonlinear HRV response to the acute heat phase compared to non-heat stressed control pigs. Specifically, heat stressed pigs exhibited lower SampEn and tended to exhibit greater ÞT, but no alterations to linear measures were observed in response to the acute heat episode. The low frequency to high frequency ratio was higher in heat stressed pigs during the period following the acute heat phase. Therefore, nonlinear HRV measures (particularly SampEn) may be more sensitive to the immediate physiological stress response to increased environmental temperature than traditional linear HRV measures.</p><p>Chapter 5 evaluates the use of baseline HRV as a potential indicator of the subsequent cortisol and pro-inflammatory cytokine response to an LPS challenge in growing pigs. The time for a pig to approach a human (<b>approach time)</b> prior to LPS administration was inversely related to baseline standard deviation of the R-R intervals (<b>SDNN</b>), and directly related to RR and the mean length of diagonal lines in a recurrence plot (<b>Lmean</b>). This result may have implications for the use of HRV as a measure of temperament in livestock species, since pigs with lower baseline SDNN (<i>i.e.</i> greater stress) and greater baseline Lmean (<i>i.e.</i> increased periodicity length in HRV data; greater stress) values took longer to approach a human observer before LPS administration (which occurred 1 d after HRV measurement). Area under the curve values for approach time following LPS administration were inversely related to high frequency spectral power (<b>HF</b>) and directly related to body weight, where pigs with low baseline HF values (<i>i.e. </i>lower parasympathetic activity) and higher body weights were slower to approach a human observer following LPS administration. Additionally, pigs with greater Lmean values had a greater change in body temperature following LPS administration. In conclusion, while baseline HRV measures were not directly representative of the cortisol or cytokine response following an LPS challenge, HF and Lmean may be useful indicators for evaluating certain aspects (sickness behavior and fever) of the innate immune response to an LPS challenge. <b></b></p><p> In conclusion, these studies demonstrate the usefulness of nonlinear HRV measures for evaluating livestock stress. Measures such as sample entropy and those derived from recurrence quantification analysis (ÞT, Lmean) seem to be particularly useful for complementing traditional linear HRV measures and, in some cases, are more sensitive measures of the physiological stress response (see chapter 4). Therefore, their inclusion in future studies on livestock HRV is warranted. However, further work is needed to fully elucidate the physiological significance of nonlinear HRV measures and their response to stress.</p>
|
6 |
Variations in ampullary organ morphology and electroreception due to environmental characteristics in members of Siluriformes and CharcharhinidaeWhitehead, Darryl L. Unknown Date (has links)
No description available.
|
7 |
Steroids and Reproductive Biology in the Blotched Blue-tongued Lizard, Tiliqua nigroluteaEdwards, A January 2000 (has links) (PDF)
This thesis documents the annual profiles of the primary reproductive steroids testosterone (T), 17beta-oestradiol (E2) and progesterone (P4), in the reproductive cycles of male and female blue-tongued lizards, Tiliqua nigrolutea. Data collected from a large captive population over three consecutive reproductive seasons are included. Reproductive cycles are discussed in the context of other viviparous squamate reptiles, while a broader comparative approach is used to consider patterns of steroid biosynthesis and peripheral metabolism. The annual patterns of circulating concentrations of T, E2 and P4 have been characterised for both sexes. In males, peak plasma T (10.9 +/- 3.00 ng ml-1) and E2 (778.0 +/- 120.00 pg ml-1) concentrations occur coincident with late spermatogenesis and observations of mating, respectively. Plasma P4 concentrations remain basal (< 1.2 ng ml-1) throughout the annual reproductive cycle. In females, increasing plasma E2 concentrations (275.2 +/- 33.87 pg ml-1 - 715.1 +/- 106.68 pg ml-1) are associated with vitellogenesis and plasma T peaks (6.3 +/- 0.63 ng ml-1) in the mating and peri-ovulatory period. In pregnant females, plasma P4 concentrations are elevated for the first two thirds of gestation, peaking in the second trimester at 12.7 +/- 1.27 ng ml-1 and falling rapidly prior to parturition. Concurrently, plasma P4 concentrations in non-reproductively active adult females remain basal (1 - 2 ng ml-1) throughout the year. There is good circumstantial evidence for a multiennial reproductive cycle in females. Parturition occurs late in the active season, presumably leaving little time for females to store sufficient fat reserves to become vitellogenic in the following spring: reproductive opportunities are effectively missed in at least one year following a reproductive effort. Observed reproductive behaviours, including agonistic male - male interactions, mating, and parturition, are documented. An investigation of gonadal steroid biosynthetic pathways in this viviparous squamate is presented. This compares variation in the relative contributions of the delta-4 and delta-5 steroidogenic pathways according to sex and reproductive condition. The delta-4 pathway predominates in both sexes, aligning this species phylogenetically with other reptiles. However, there are clear differences between sexes and with changing reproductive condition in the patterns of production of pathway intermediates and end-products. Additionally, detection of a possibly novel polar steroid as a major end-product of steroid biosynthesis in both sexes is reported. Peripheral (extragonadal) metabolism of T and E2 in a number of reproductively relevant steroid target tissues is compared at times of year chosen to represent three clearly distinctive reproductive conditions in each sex. There are differences both between sexes, between tissue types and with changing reproductive condition in the relative proportions of steroid conjugates and non-conjugated derivatives produced. Biosynthetic pathway activity and peripheral steroid metabolism both appear to be plastic in response to changing reproductive condition in Tiliqua nigrolutea. With a comprehensive database of information about the reproductive endocrinology and physiology of Tiliqua nigrolutea, this species is now available as a model to further examine selected aspects of the steroid hormone control of reproductive physiology and behaviour in a cool temperate, viviparous reptile.
|
8 |
PHYSIOLOGICAL AND IMMUNOLOGICAL EFFECTS OF BASIL IN VITRO AND IN VIVOAparna R Biswas (8795681) 05 May 2020 (has links)
<p>In this research we observed the
effects of basil on stress modulation and immune response in vertebrates <i>in vitro</i> and <i>in vivo</i>. </p>
<p>The <i>in vitro</i> study was done on mice spleen cell cultured with Holy
basil and Thai basil to observe their proliferation stimulation to spleen cells
and spleen T cell. The study was done in presence and absence of Concanavalin A
(Con A)- a mitogen known as a T cell proliferation stimulator. A single cell
suspension of mice spleen cells was incubated with four different dilutions of
Holy and Thai basil (1:1, 1:5, 1:25, and 1:125). No significant differences have
been found between control groups (cells without factor) and treatments
suggesting the basils did not show any stimulation to spleen cell or spleen T
cell proliferation. </p>
<p>The <i>in vivo</i> study was conducted with tilapia reared in aquaponics
system to observe the stress modulating property of Holy basil. The
physiological and immunological responses and growth performances of stressed
and basil fed tilapia have been observed. There were four groups of fish-
Control (unstressed) fish fed with commercial feed, Stressed fish fed with
commercial feed, Control (unstressed) fish fed with basil-supplemented
commercial feed, and Stressed fish fed with basil-supplemented commercial feed.
The experiment was six weeks long. The parameters which have been recorded
were- serum cortisol, packed cell volume, plasma protein, hepatosomatic index,
spleen-somatic index, lysozyme activity, macrophage phagocytic capacity,
length, weight, and condition factor. The results did not suggest any effects
of basil on stress response. But the harmful effect of stress on fish growth
and immune response was evident, as the stress groups showed significantly lower
length, weight and condition factor. </p>
<p>The aquaponics system used in this
study was also investigated for its production of the crops. Total fish
production after eight weeks of placing the fingerlings in the aquaponics
system were as follows- Control group: 6.00 g/L, Stressed group: 3.98 g/L. It
suggests that stress can result in far less profit in aquaponics production.</p>
<p>Total plant production after 5
months is 6,521.10 g/sq. m (leaf with stem of marketable size) for Holy basil
and 7219.73 g/sq. m for Thai Basil. This result suggests that basils are a
viable crop in aquaponics and Thai basil would be more productive as the plant
crop than Holy basil when grown on aquaponics.</p>
|
9 |
REPRODUCTIVE COMPETENCE IN FEMALE ICR MICE FOLLOWING HIGH FAT DIET AND CONSTANT LIGHT EXPOSURE.pdfKelsey A Teeple (15355096) 27 April 2023 (has links)
<p> </p>
<p>In modern society, continuous light exposure and obesity are increasingly prevalent, especially in women of childbearing age. Circadian, metabolic, and reproductive systems have a complex, inter-regulated relationship. Thus, the disruption of one system likely impedes another. Excessive adiposity and circadian disruption alter normal behavior and physiology and disrupt the endocrine milieu. The overall goal of the studies described in this thesis was to develop and test a model system that could tease apart the influence of prepregnancy obesity and circadian disruption, as well as study the combined effects on female reproductive competence. </p>
<p>The first study focuses on the prepregnancy period and aims to determine the effect of high fat diet feeding on diurnal eating pattern, body weight over the four-week period, the body composition at the end of the four-week period, hair corticosterone levels, and circadian fecal corticosterone patterns on female ICR mice. Five-week-old female ICR mice were randomly assigned to control (CON; 10% fat) or high fat (HF; 60%) diets and fed for four weeks to achieve adequate adiposity. During this four-week time period, mice had routine light exposure of 12h light and 12h dark. Feed was weighed at 0600 and 1745 Monday-Friday to determine diurnal feed intake. The mice were weighed on a weekly basis. After four weeks on respective diets, mice were anesthetized with isoflurane to measure crown-rump length to calculate BMI and hair was shaved for corticosterone extraction. Once mice recovered from anesthesia, body composition was measured with EchoMRI. After 1 week on diets, HF mice consumed more (P<0.05) during the day than CON mice, which is typically when mice are inactive. After two weeks on diets, HF mice weighed more (P<0.05) than CON, as well as had higher BMI and percent body fat (P<0.05) than CON after four weeks on diets. After four weeks on diets, HF mice had high hair corticosterone (P<0.05). Sampling feces over a 48h period at the end of the four weeks demonstrated that HF mice had elevated basal corticosterone, attenuated circadian rhythms, and a shift in corticosterone amplitude. The prepregnancy period demonstrated that high fat diets alone alter circadian eating pattern and corticosterone rhythms.</p>
<p>The remainder of the study continued the dietary treatments assigned during the prepregnancy period, as well as implemented light conditions to create a 2Χ3 factorial study design. There were three light conditions: 12h light and 12h dark (LD), 24h dim light (L5), or 24h bright light (L100). Mice were moved into experimental light conditions after the observation of a vaginal plug or after 5 days with males. This portion of the study aimed to determine the effect of diet (CON or HF) and light exposure (LD, L5, or L100) on gestation length, number of pups born, milk composition, litter weight on postnatal day 12, as well as dam feed intake, hair corticosterone levels, and plasma prolactin. Continuous light exposure increased gestation length, with L5 (19.1 d ± 0.23) and L100 (18.9 d ± 0.21) having longer gestation lengths (P<0.05) than LD (18.1 d ± 0.25). Diet affected the number of pups born (P<0.05), with HF dams having fewer pups (9.99 ± 0.4) than CON (11.4 ± 0.4). Despite no difference in birth weight of standardized litters (n=8 pus/litter), litters of HF dams weighed more than CON by day 4 postnatal. The greater litter weight of HF dams continued until the end of the study on day 12 of lactation (P<0.05). Light had a tendency to increase litter weight (P=0.07). Diet, light, and stage of reproduction influenced dam feed intake (P<0.05). L100 dams had higher plasma prolactin, as well as final dam and mammary wet weights (P<0.05). Constant light exposure decreased ATP content in the mammary gland (P<0.05) and decreased milk lactose concentration (P<0.05). Pearson’s correlation analysis showed a positive relationship between mammary weight, fat pad weight, BMI, kcal of feed intake, and gestation length (P<0.05). In CON mice, hair corticosterone was negatively correlated with litter weight on lactation day 12. Liver weight was positively correlated with d 12 litter weight in HF mice. Together, these studies demonstrate that feeding high fat diets and continuous light alter maternal behavior and physiology, which may impact offspring health and development, however continuous light may not be the best approach to studying circadian disruption. Elevated maternal plasma prolactin and increased dam weight suggests a long day photoperiod was likely induced, thus potentially mitigating the circadian disruptive effects from constant light. Other model systems should be considered, such as using a chronic jet lag model that changes the light exposure every 3 d. </p>
|
10 |
Evaluation of Prebiotic and Probiotic as Functional Feed Additives on Physiological and Immunological Parameters of Nile Tilapia, Oreochromis niloticusKenneth E Saillant (6611177) 10 June 2019 (has links)
Experiments were conducted to evaluate the ability of prebiotic and probiotic supplementation of commercial fish feed to improve the physiological, immunological, and growth responses of stressed Nile tilapia. To investigate these objectives, tilapia were divided in two major groups: control fish (fed regular commercial feed) and stressed fish (induced by dietary cortisol supplemented to regular commercial feed). Stressed fish were further divided into three sub-groups: stressed fish fed regular feed, stressed fish fed probiotic-supplemented feed, and stressed fish fed a mixture of prebiotic and probiotic supplemented feed. Fish were maintained and tested over an eight-week long experimental period. A variety of physiological, immunological, and growth parameters were measured over the course of the experimental period. These parameters include: serum cortisol, blood glucose, plasma protein, packed cell volume, hepato-somatic index (HSI), spleen-somatic index (SSI), lysozyme activity, feed conversion ratio (FCR), specific growth rate (SGR), protein efficiency ratio (PER), length gain, weight gain, length gain, and condition factor (K). The results of this study does not support the use of these specific prebiotic and probiotic as functional feed additives in Nile tilapia at the levels tested in this study. Further research is needed to determine which probiotic species are best suited for use in Nile tilapia and which prebiotic, when used in combination, will allow these probiotics to have maximum effect.
|
Page generated in 0.0967 seconds