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Significant Diurnal Variation (significant + diurnal_variation)
Selected AbstractsA longitudinal study of diurnal variation in baseline fetal heart rate in one dichorionic-diamniotic twin pregnancyPSYCHIATRY AND CLINICAL NEUROSCIENCES, Issue 3 2001Masami Muro MD Abstract A longitudinal study to analyse the diurnal variations in baseline fetal heart rate (FHR) and sustained fetal tachycardia (SFT) in twin pregnancy was performed on one dichorionic twin. Twenty-four hour FHR recordings on twins were made at 32, 34 and 36 weeks of gestation simultaneously. Significant diurnal variations were found in both twins in all gestational weeks. The diurnal variations in baseline FHR of twins were highly correlated with no phase-lag. No coincidence was recognized in the appearance of SFT between twins. These results suggest the maternal influence equally affects FHR in each fetus of dichorionic twin since 32 weeks of gestation, while the appearance of SFT might be independent from maternal influence. [source] Diurnal and seasonal variation in methane emissions in a northern Canadian peatland measured by eddy covarianceGLOBAL CHANGE BIOLOGY, Issue 9 2010KEVIN D. LONG Abstract Eddy covariance measurements of methane (CH4) net flux were made in a boreal fen, typical of the most abundant peatlands in western Canada during May,September 2007. The objectives of this study were to determine: (i) the magnitude of diurnal and seasonal variation in CH4 net flux, (ii) the relationship between the temporally varying flux rates and associated changes in controlling biotic and abiotic factors, and (iii) the contribution of CH4 emission to the ecosystem growing season carbon budget. There was significant diurnal variation in CH4 emission during the peak of the growing season that was strongly correlated with associated changes in solar radiation, latent heat flux, air temperature and ecosystem conductance to water vapor. During days 181,215, nighttime average CH4 efflux was only 47% of the average midday values. The peak value for daily average CH4 emission rate was approximately 80 nmol m,2 s,1 (4.6 mg CH4 m,2 h,1), and seasonal variation in CH4 flux was strongly correlated with changes in soil temperature. Integrated over the entire measurement period [days 144,269 (late May,late September)], the total CH4 emission was 3.2 g CH4 m,2, which was quite low relative to other wetland ecosystems and to the simultaneous high rate of ecosystem net CO2 sequestration that was measured (18.1 mol CO2 m,2 or 217 g C m,2). We estimate that the negative radiative forcing (cooling) associated with net carbon storage over the life of the peatland (approximately 2200 years) was at least twice the value of positive radiative forcing (warming) caused by net CH4 emission over the last 50 years. [source] Effects of Time of Collection and Sample Processing on von Willebrand Factor Concentration in Retired Racing GreyhoundsJOURNAL OF VETERINARY INTERNAL MEDICINE, Issue 6 2008L.M. Marín Background: Concentrations of von Willebrand factor (vWF) are less than 30% in approximately 10% of Greyhounds. Hypothesis: That sample collection, processing, and storage can affect the concentration of vWF in plasma of Greyhounds. Animals: Nineteen healthy former racing Greyhounds. Methods: Prospective study: Blood samples were obtained from the jugular vein of dogs at 4 times during the day. Samples were divided and processed in each of 3 ways. The 1st tube was centrifuged immediately, the 2nd tube was kept in a household refrigerator, and the 3rd tube was kept at room temperature for 3 hours before centrifugation and processing. Results: There were no significant differences in the vWF concentration between different sample storage and processing (P=5.31). There was no statistically significant diurnal variation in vWF concentration in the samples evaluated (P=.37). Conclusions and Clinical Importance: Time of sample collection and short-term storage temperature do not influence the vWF concentration in retired racing Greyhounds. [source] Circadian variation in salivary testosterone across age classes in Ache Amerindian males of ParaguayAMERICAN JOURNAL OF HUMAN BIOLOGY, Issue 2 2010Richard G. Bribiescas Testosterone levels exhibit a circadian rhythm in healthy men, with morning levels tending to be higher compared to evening titers. However, circadian rhythms wane with age. Although this has been described in males living within industrialized settings, age-related changes have not received similar attention in populations outside these contexts. Because many nonindustrialized populations, such as Ache Amerindians of Paraguay, exhibit testosterone levels that are lower than what is commonly reported in the clinical literature and lack age-associated variation in testosterone, it was hypothesized that Ache men would not show age-related variation in testosterone circadian rhythms. Diurnal rhythmicity in testosterone within and between Ache men in association with age (n = 52; age range, 18,64) was therefore examined. A significant negative association was evident between the ratio of morning and evening salivary testosterone and age (r = ,0.28, P = 0.04). Men in their third decade of life exhibited significant diurnal variation (P = 0.0003), whereas older and younger age classes did not. Men between the ages of 30 and 39 also exhibited a higher AM:PM testosterone ratio compared to 40,49 and 50< year old men (P = 0.002, 0.006). Overall, declines in testosterone with aging may not be universal among human males, however, within-individual analyses of diurnal variation capture age-related contrasts in daily testosterone fluctuations. Circadian rhythmicity differs with age among the Ache and may be a common aspect of reproductive senescence among men regardless of ecological context. Am. J. Hum. Biol., 2010. © 2009 Wiley-Liss, Inc. [source] 2356: Diurnal variation of ocular pulse amplitude in primary open angle glaucoma patientsACTA OPHTHALMOLOGICA, Issue 2010LA PINTO Purpose (1) to determine the diurnal behaviour of the ocular pulse amplitude (OPA) in primary open angle glaucoma (POAG) patients. (2) To identify any variables modulating OPA. Methods In this prospective study we included 22 POAG patients under topical intraocular pressure (IOP)-lowering treatment, who underwent contour dynamic tonometry measurements every three hours from 9am to 6pm for IOP and OPA readings. Heart rate (HR) and blood pressure (BP) were simultaneously recorded during the ocular measurements. Only the eye with greater glaucomatous damage was selected per patient. Results Both IOP and OPA did not change during the day (OPA: 3.0±1.3, 3.2±1.4, 2.9±1.5, 3.0±1.3; IOP: 19.3±2.9, 20.0±3.0, 19.1±3.0, 19.8±2.6; multiple comparisons p=0.21, p=0.27 respectively). Systolic, diastolic and did not present significant diurnal variation (p<0.05 all measurements). OPA was significantly correlated at all time-measurements with arterial pulse pressure, but not by IOP, median ocular pulse pressure(MOPP) nor median arterial pressure (p<0.05). Univariate analysis revealed HR to negatively correlate OPA at the 15h and 18h measurements (r= -0,42, p=0.049; r= -0,53, p=0.01; respectively). Multiple linear regression analysis identified blood pressure amplitude as an independent factor contributing to OPA (p<0.05 at all measurements). These observations were more pronounced in patients with high blood pressures. Conclusion OPA readings seem to be influenced by blood pressure amplitude in POAG patients. High blood pressure amplitude values may overcome the eye self-regulation mechanisms, resulting in the OPA becoming dependent on the blood pressure amplitude rather than of the IOP. [source] Circadian variations of prostaglandin E2 and F2 , release in the golden hamster retinaJOURNAL OF NEUROCHEMISTRY, Issue 4 2010Nuria De Zavalía J. Neurochem. (2009) 112, 972,979. Abstract Circadian variations of prostaglandin E2 and F2, release were examined in the golden hamster retina. Both parameters showed significant diurnal variations with maximal values at midnight. When hamsters were placed under constant darkness for 48 h, the differences in prostaglandin release between subjective mid-day and subjective midnight persisted. Western blot analysis showed that cyclooxygenase (COX)-1 levels were significantly higher at midnight than at mid-day, and at subjective midnight than at subjective mid-day, whereas no changes in COX-2 levels were observed among these time points. Immunohistochemical studies indicated the presence of COX-1 and COX-2 in the inner (but not outer) retina. Circadian variations of retinal prostaglandin release were also assessed in suprachiasmatic nuclei (SCN)-lesioned animals. Significant differences in retinal prostaglandin release between subjective mid-day and subjective midnight were observed in SCN-lesioned animals. These results indicate that hamster retinal prostaglandin release is regulated by a retinal circadian clock independent from the SCN. Thus, the present results suggest that the prostaglandin/COX-1 system could be a retinal clock output or part of the retinal clock mechanism. [source] Diurnal variations in the waking EEG: comparisons with sleep latencies and subjective alertnessJOURNAL OF SLEEP RESEARCH, Issue 3 2000Lafrance Daytime measures of sleep latency and subjective alertness do not correlate with one another, suggesting that they assess different aspects of alertness. In addition, their typical diurnal variations show very different time courses. Quantitative analysis of the waking electroencephalogram (EEG) has been proposed as an objective measure of alertness, but it is not clear how it compares with other measures. In this study, the waking EEG was measured in the daytime to determine the presence of diurnal variations in the activity of standard frequency bands and to compare these variations with the temporal patterns typical of sleep propensity and subjective alertness. Alertness was evaluated in four men and 12 women, aged 19,33 y. Assessments were conducted every 2 h, from 10.00 to 24.00, in the following order: a visual analogue scale of alertness, a waking EEG recording and a sleep latency test. The waking EEG was recorded with eyes open. For each recording session, 32,60 s of artefact-free signals were selected from the C3/A2 derivation, then subjected to amplitude spectral analysis. Four EEG frequency bands showed significant diurnal variations: delta, theta, sigma and beta1. None of these variations showed a significant correlation with the temporal patterns of sleep latencies or subjective alertness. At the individual level, however, theta band activity increased when subjective alertness decreased, suggesting that the theta band can be used to monitor variations in alertness in a given individual, even at the moderate levels of sleepiness experienced during the daytime. [source] | |||||||||||||