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Query: UMLS:C0015672 (
fatigue
)
51,768
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Thirteen Standardbred horses trained intensively for 34 weeks and detrained for 12 weeks to investigate the effects of training, overtraining and detraining on muscle metabolites, buffering capacity and enzyme activities (CS, HAD and LDH). After a standardised exercise test to
fatigue
at 10 m/s (approximately 100% VO2max), there was significant depletion of [ATP], [PCr] and muscle [glycogen] and accumulation of muscle and plasma [lactate], [
NH3
] and elevated muscle temperature. After training, associated with increased run time to
fatigue
(148%), there was reduced depletion of muscle [glycogen] and increased [
NH3
] and muscle temperature at
fatigue
. Training resulted in increased muscle buffering capacity (19%) and activities of CS (29%) and HAD (32%) and reduced glycogen utilisation (1.32 mmol/s in week 1 to 0.58 mmol/s in week 32). Plasma [lactate] at
fatigue
increased with training as opposed to muscle [lactate] implying enhanced ability to remove lactate from muscle. Overtraining resulted in reduced run time and associated effects in overtrained horses. While muscle [glycogen] prior to exercise was lower in overtrained horses, glycogen utilisation/s was not reduced and it may not, therefore, have caused the reduced run time. Prolonged high intensity training caused primarily aerobic adaptations and poor performance associated with overtraining may not be due to metabolic disturbances.
...
PMID:Effects of prolonged training, overtraining and detraining on skeletal muscle metabolites and enzymes. 1240 97
Using either an ammoniacal route, the reaction between DyCl3, Na0, and HOR in liquid ammonia, or preferentially reacting Dy(N(SiMe3)2)3 with HOR in a solvent, we isolated a family of dysprosium alkoxides as [Dy(mu-ONep)2(ONep)]4 (1), (ONep)2Dy[(mu3-ONep)(mu-ONep)Dy(ONep)(THF)]2(mu-ONep) (2), (ONep)2Dy[(mu3-ONep)(mu-ONep)Dy(ONep)(py)]2(mu-ONep) (3), [Dy3(mu3-OBut)2(mu-OBut3(OBut)4(HOBut)2] (4), [Dy3(mu3-OBut)2(mu-OBut)3(OBut)4(THF)2] (5), [Dy3(mu3-OBut)2(mu-OBut)3(OBut)4(py)2] (6), (DMP)Dy(mu-DMP)4[Dy(DMP)2(
NH3
)]2 (7), [Dy(eta6-DMP)(DMP)2]2 (8), Dy(DMP)3(THF)3 (9), Dy(DMP)3(py)3 (10), Dy(DIP)3(
NH3
)2 (11), [Dy(eta6-DIP)(DIP)2]2 (12), Dy(DIP)3(THF)2 (13), Dy(DIP)3(py)3 (14), Dy(DBP)3(
NH3
) (15), Dy(DBP)3 (16), Dy(DBP)3(THF) (17), Dy(DBP)3(py)2 (18), [Dy(mu-TPS)(TPS2]2 (19), Dy(TPS)3(THF)3 (20), and Dy(TPS)3(py)3 (21), where ONep = OCH2CMe3, OBut) = OCMe3, DMP = OC6H3(Me)(2)-2,6, DIP = OC6H3(CHMe2)(2)-2,6, DBP = OC6H3(CMe3)(2)-2,6, TPS = OSi(C6H5)3, tol = toluene, THF = tetrahydrofuran, and py = pyridine. We were not able to obtain X-ray quality crystals of compounds 2, 8, and 9. The structures observed and data collected for the Dy compounds are consistent with those reported for its other congeners. A number of these precursors were used as Dy dopants in Pb(Zr0.3Ti0.7)O3 (PZT 30/70) thin films, with compound 12 yielding the highest-quality films. The resulting Pb0.94Dy0.04(Zr0.3Ti0.7)O3 [PDyZT (4/30/70)] had similar properties to PZT (30/70), but showed substantial resistance to polarization reversal
fatigue
.
...
PMID:Synthesis and characterization of a family of structurally characterized dysprosium alkoxides for improved fatigue-resistance characteristics of PDyZT thin films. 1573 2
This study investigated the influence of environmental heat stress on ammonia (
NH3
) accumulation in relation to nucleotide metabolism and
fatigue
during intermittent exercise. Eight males performed 40 min of intermittent exercise (15 s at 306+/-22 W alternating with 15 s of unloaded cycling) followed by five 15 s all-out sprints. Control trials were conducted in a 20 degrees C environment while heat stress trials were performed at an ambient temperature of 40 degrees C. Muscle biopsies and venous blood samples were obtained at rest, after 40 min of exercise and following the maximal sprints. Following exercise with heat stress, the core and muscle temperatures peaked at 39.5+/-0.2 and 40.2+/-0.2 degrees C to be approximately 1 degrees C higher (P<0.05) than the corresponding control values. Mean power output during the five maximal sprints was reduced from 618+/-12 W in control to 558+/-14 W during the heat stress trial (P<0.05). During the hot trial, plasma
NH3
increased from 31+/-2 microM at rest to 93+/-6 at 40 min and 151+/-15 microM after the maximal sprints to be 34% higher than control (P<0.05). In contrast, plasma K+ and muscle H+ accumulation were lower (P<0.05) following the maximal sprints with heat stress compared to control, while muscle glycogen, CP, ATP and IMP levels were similar across trials. In conclusion, altered levels of "classical peripheral fatiguing agents" does apparently not explain the reduced capacity for performing repeated sprints following intermittent exercise in the heat, whereas the augmented systemic
NH3
response may be a factor influencing
fatigue
during exercise with superimposed heat stress.
...
PMID:Environmental heat stress, hyperammonemia and nucleotide metabolism during intermittent exercise. 1648 4
Apart from few studies, the majority of the research conducted on the effects of heat stress on energy metabolism during exercise has only been done so in the past two decades. Whilst increasing exercise duration under conditions of heat stress favours the oxidation of carbohydrate (CHO) and appears to increase the rate of muscle glycogenolysis, total CHO oxidation is often less and levels of muscle glycogen remain much higher at the point of
fatigue
when compared with the same exercise without heat stress. Furthermore, supplementing CHO during exercise in the heat appears to exert an ergogenic effect that is not related to 'peripheral' but rather 'central' factors. However, there may be a role for the excess ammonia (
NH3
) produced in the exercising muscle during heat stress, as cerebral uptake and subsequent metabolism of
NH3
may have detrimental effects on cerebral function. Recent exciting results point toward an increased cerebral CHO uptake relative to that of O2, termed the cerebral metabolic ratio (CMR) during exercise with heat stress, although a causative link between this and reduced exercise performance has yet to be identified. Therefore, it appears that despite a shift towards greater CHO utilisation in both skeletal muscular and cerebral metabolism, these responses have ultimately not proved limiting to exercise with heat stress.
...
PMID:Exercise heat stress and metabolism. 1920 3
Adverse health effects of exposure to high levels of air pollutants from biodegradable wastes have been well-studied. However, few investigations have examined the potential effects of chronic exposure to low-to-moderate levels on non-specific health symptoms among residents. Besides, most studies have relied on distances to waste sites to assign exposure status, and have not investigated whether the exposure-symptoms associations are direct or mediated by odor annoyance. In this study, individual-level exposures to a proxy indicator of biodegradable waste pollution (ammonia,
NH3
) in non-urban residences (n=454) during 2005-2010 were characterized by data from emission-dispersion validated models. Logistic regression and mediating analyses were used to examine associations between exposures and questionnaire-based data on annoyance and non-specific symptoms, after adjusting by person-specific covariates. Strong dose-response associations were found between exposures and annoyance, and between annoyance and symptoms. Associations between exposures and symptoms (nausea, headache, dizziness, difficulty concentrating and unnatural
fatigue
) were indirect (annoyance-mediated). This study indicates that environmental exposures play an important role in the genesis of non-specific symptoms among residents exposed to low-to-moderate air pollution from biodegradable wastes, although the effects seem to be indirect, relayed through stress-related mechanisms.
...
PMID:Air pollution from biodegradable wastes and non-specific health symptoms among residents: direct or annoyance-mediated associations? 2519 39
An ultrathin conductive adhesion promoter using positively charged reduced graphene oxide (rGO-
NH3
(+)) has been demonstrated for preparing highly stable silver nanowire transparent conductive electrodes (AgNW TCEs). The adhesion promoter rGO-
NH3
(+), spray coated between the substrate and AgNWs, significantly enhances the chemical and mechanical stabilities of the AgNW TCEs. Besides, the ultrathin thickness of the rGO-
NH3
(+) ensures excellent optical transparency and mechanical flexibility for TCEs. The AgNW films prepared using the adhesion promoter are extremely stable under harsh conditions, including ultrasonication in a variety of solvents, 3M Scotch tape detachment test, mechanical bending up to 0.3% strain, or
fatigue
over 1000 cycles. The greatly enhanced adhesion force is attributed to the ionic interactions between the positively charged protonated amine groups in rGO-
NH3
(+) and the negatively charged hydroxo- and oxo-groups on the AgNWs. The positively charged GO-
NH3
(+) and commercial polycationic polymer (poly allylamine hydrochloride) are also prepared as adhesion promoters for comparison with rGO-
NH3
(+). Notably, the closely packed hexagonal atomic structure of rGO offers better barrier properties to water permeation and demonstrates promising utility in durable waterproof electronics. This work offers a simple method to prepare high-quality TCEs and is believed to have great potential application in flexible waterproof electronics.
...
PMID:Positively-charged reduced graphene oxide as an adhesion promoter for preparing a highly-stable silver nanowire film. 2580 39
Molecular bistable dielectric switches represent a class of highly desirable intelligent materials due to their sensitive switchable responses, simple and environmentally friendly processing, light weights, and mechanical flexibility. However, most of these switches can only work at a very low temperature, extremely limiting their potential applications. Herein, three layered organic-inorganic hybrid perovskite-type compounds of the general formula A2BX4, [
NH3
(CH2)2Cl]2[CdCl3Br] (1), [
NH3
(CH2)2Cl]2[CdCl4] (2) and [
NH3
(CH2)2Cl]2[CdBr4] (3), which display sensitive dielectric switching reversibility and remarkable switching anti-
fatigue
, have been successfully designed. Differential scanning calorimetry and dielectric measurements for 1 confirm its reversible phase transition at around 166 K. Through anion modulation, the phase transition temperatures of 2 and 3 can be greatly improved up to 237 K and 254 K, respectively. Structural analysis discloses that the phase transition temperature's shifts may result from the differences among the inorganic frameworks. Moreover, due to the significant order-disorder transitions of ammonium cations, the permittivities of 1, 2 and 3 change abruptly at around the phase transition points, making them excellent stimuli-responsive electrical switches. Such an anion-modulated method will open up new possibilities of highly efficiently tuning the phase transition temperature of molecular bistable dielectric switches.
...
PMID:Tunable dielectric transitions in layered organic-inorganic hybrid perovskite-type compounds: [NH
3
(CH
2
)
2
Cl]
2
[CdCl
4-4x
Br
4x
] (x = 0, 1/4, 1). 2973 54
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