THE EFFECT OF COLLEGIATE HEAD COACH’S GENDER ON FEMALE ATHLETE OUTCOMES

Previous research into the effect of collegiate head coach’s gender focused on measuring the coach’s ability to enhance athletic performance, this study extends that research by examining the coach’s educational and mentoring impact on athletes. We examined whether head coaching gender was associated with higher salaries, SWLS Satisfaction With Life Scores, UWES-9 Work Engagement Scores, JSS-18 Job Satisfaction Scores, and included an open-ended question exploring the impact of the head coach on the respondent’s career. Respondents scored highly in all measures, but these results were not associated with the coach’s gender. Analysis of the open-ended question for level of impact revealed that male and female coaches were equally likely to positively impact athlete’s careers, while male head coaches were significantly more likely to have a moderate positive impact. Analysis of the type of impact revealed that athletes with female head coaches were significantly more likely to report increased self-efficacy.Master of Art

Orientation of vernal pool amphibians in an industrial forest landscape

Understanding the movement patterns of vernal pool amphibians is a critical aspect of effective conservation and land management. I used clearcutting to manipulate buffer widths at 11 vernal pools within an industrial forest landscape located in Maine. Forested buffers were either 30m or 100m wide, surrounded by 100m wide clearcut. Each pool was encircled with a drift fence and pitfall traps. I captured wood frogs (Lithobates sylvaticus ) and spotted salamanders (Ambystoma maculatum) as they entered and exited pools and documented orientation across three years. Orientation at all pools for both species was non-uniform, differed among pools, between species, and was inconsistent among years. My results suggest that amphibian movement patterns are spatially and temporally complex, and that identifying \u27corridors\u27 of amphibian movement for protection is an ineffective approach to managing upland habitats surrounding these pools. A better understanding of how amphibians move through and use upland habitat along and a broader habitat management approach are necessary to the conservation of these species

Neurogenin3 restricts serotonergic neuron differentiation to the hindbrain

The development of the nervous system is critically dependent on the production of functionally diverse neuronal cell types at their correct locations. In the embryonic neural tube, dorsoventral signaling has emerged as a fundamental mechanism for generating neuronal diversity. In contrast, far less is known about how different neuronal cell types are organized along the rostrocaudal axis. In the developing mouse and chick neural tube, hindbrain serotonergic neurons and spinal glutamatergic V3 interneurons are produced from ventral p3 progenitors, which possess a common transcriptional identity but are confined to distinct anterior-posterior territories. In this study, we show that the expression of the transcription factor Neurogenin3 (Neurog3) in the spinal cord controls the correct specification of p3-derived neurons. Gain- and loss-of-function manipulations in the chick and mouse embryo show that Neurog3 switches ventral progenitors from a serotonergic to V3 differentiation program by repressing Ascl1 in spinal p3 progenitors through a mechanism dependent on Hes proteins. In this way, Neurog3 establishes the posterior boundary of the serotonergic system by actively suppressing serotonergic specification in the spinal cord. These results explain how equivalent p3 progenitors within the hindbrain and the spinal cord produce functionally distinct neuron cell types.Fil: Carcagno, Abel Luis. Consejo Nacional de Investigaciones Científicas y Técnicas. Oficina de Coordinación Administrativa Parque Centenario. Instituto de Investigaciones Bioquímicas de Buenos Aires. Fundación Instituto Leloir. Instituto de Investigaciones Bioquímicas de Buenos Aires; ArgentinaFil: Di Bella, Daniela Jesica. Consejo Nacional de Investigaciones Científicas y Técnicas. Oficina de Coordinación Administrativa Parque Centenario. Instituto de Investigaciones Bioquímicas de Buenos Aires. Fundación Instituto Leloir. Instituto de Investigaciones Bioquímicas de Buenos Aires; ArgentinaFil: Goulding, Martyn. Salk Institute for Biological Studies; Estados UnidosFil: Guillemot, Francois. MRC National Institute for Medical Research; Reino UnidoFil: Lanuza, Guillermo Marcos. Consejo Nacional de Investigaciones Científicas y Técnicas. Oficina de Coordinación Administrativa Parque Centenario. Instituto de Investigaciones Bioquímicas de Buenos Aires. Fundación Instituto Leloir. Instituto de Investigaciones Bioquímicas de Buenos Aires; Argentin

Effects of High-Intensity Airborne Ultrasound Exposure on Behavioural and Electrophysiological Measures of Auditory Function

Regulations on safe ultrasound exposure limits are based on a very limited number of studies, which have only considered audiometric threshold shifts as indicators of hearing deficits. The purpose of the current study was to assess the effects of exposure to high-intensity ultrasound on a range of measures of hearing function, which included audiometric thresholds, as well as subclinical measures of hearing deficits: speech-in-noise understanding, supra-threshold auditory brainstem response wave I amplitude and latency, and frequency following response levels to amplitude modulated (AM) tones. Changes in these measures were assessed before and after exposure of the left ear to high-intensity ultrasound in a group of nine young listeners. These changes were compared to those observed in a control group of nine young listeners. Exposure consisted in the presentation of a 40-kHz AM tone at levels of 105, 110, 115, and 120 dB SPL for 10 minutes at each level, plus an exposure to a 40-kHz unmodulated tone during an ultrasound detection task, for a total duration of 50 seconds. None of the measures of hearing function was found to change significantly more for the left compared to the right ear, for participants of the exposure group compared to control participants. Electroencephalographic recordings obtained during exposure to the AM tone did not show significant phase-locked activity at the modulation frequency or at low-frequency subharmonics of the ultrasound tone. One out of nine participants was able to perform the ultrasound detection task above chance level, although due to limitations of the experimental setup the mechanism by which she could detect the presentation of the tone remains unclear

Effects of Age on Electrophysiological Measures of Cochlear Synaptopathy in Humans

Age-related cochlear synaptopathy (CS) has been shown to occur in rodents with minimal noise exposure, and has been hypothesized to play a crucial role in age-related hearing declines in humans. Because CS affects mainly low-spontaneous rate auditory nerve fibers, differential electrophysiological measures such as the ratio of the amplitude of wave I of the auditory brainstem response (ABR) at high to low click levels (WIH/WIL), and the difference between frequency following response (FFR) levels to shallow and deep amplitude modulated tones (FFRS-FFRD), have been proposed as CS markers. However, age-related audiometric threshold shifts, particularly prominent at high frequencies, may confound the interpretation of these measures in cross-sectional studies of age-related CS. To address this issue, we measured WIH/WIL and FFRS-FFRD using highpass masking (HP) noise to eliminate the contribution of high-frequency cochlear regions to the responses in a cross-sectional sample of 102 subjects (34 young, 34 middle-aged, 34 older). WIH/WIL in the presence of the HP noise did not decrease as a function of age. However, in the absence of HP noise, WIH/WIL showed credible age-related decreases even after partialing out the effects of audiometric threshold shifts. No credible age-related decreases of FFRS-FFRD were found. Overall, the results do not provide evidence of age-related CS in the low-frequency region where the responses were restricted by the HP noise, but are consistent with the presence of age-related CS in higher frequency regions

Effects of age on psychophysical measures of auditory temporal processing and speech reception at low and high levels

Age-related cochlear synaptopathy (CS) has been shown to occur in rodents with minimal noise exposure, and has been hypothesized to play a crucial role in age-related hearing declines in humans. It is not known to what extent age-related CS occurs in humans, and how it affects the coding of supra-threshold sounds and speech in noise. Because in rodents CS affects mainly low- and medium-spontaneous rate (L/M-SR) auditory-nerve fibers with rate-level functions covering medium-high levels, it should lead to greater deficits in the processing of sounds at high than at low stimulus levels. In this cross-sectional study the performance of 102 listeners across the age range (34 young, 34 middle-aged, 34 older) was assessed in a set of psychophysical temporal processing and speech reception in noise tests at both low, and high stimulus levels. Mixed-effect multiple regression models were used to estimate the effects of age while partialing out effects of audiometric thresholds, lifetime noise exposure, cognitive abilities (assessed with additional tests), and musical experience. Age was independently associated with performance deficits on several tests. However, only for one out of 13 tests were age effects credibly larger at the high compared to the low stimulus level. Overall these results do not provide much evidence that age-related CS, to the extent to which it may occur in humans according to the rodent model of greater L/M-SR synaptic loss, has substantial effects on psychophysical measures of auditory temporal processing or on speech reception in noise

Relations between speech-reception, psychophysical temporal processing, and subcortical electrophysiological measures of auditory function in humans

There is a large amount of variability in performance in masked-speech reception tasks, as well as in psychophysical auditory temporal processing tasks, between listeners with normal or relatively normal low-frequency hearing. In this study we used a cross-sectional dataset collected on 102 listeners (34 young, 34 middle-aged, 34 older) to assess whether variance in these tasks could be explained by variance in subcortical electrophysiological measures of auditory function (auditory brainstem responses and frequency following responses), and whether variance in speech-reception performance could be explained by variance in auditory temporal processing tasks. The potential confounding effect of high-frequency sensitivity was strictly controlled for by using highpass masking noise. Because each high-level construct (masked-speech reception, auditory temporal processing, and subcortical electrophysiological function) was indexed by several variables, we used principal component analyses to reduce the dimensionality of the dataset. Multiple-regression models were then used to assess the associations between the extracted principal components while controlling for a range of possible confounders including age and audiometric thresholds. We found that masked-speech reception was credibly associated with psychophysical auditory temporal processing abilities. No credible associations were found between masked-speech reception and electrophysiological measures of subcortical auditory function, or between psychophysical measures of auditory temporal processing and electrophysiological measures of subcortical auditory function. These results suggest that either the electrophysiological measures of subcortical auditory function used were not sufficiently sensitive to the subcortical neural processes limiting performance in the speech-reception and psychophysical auditory temporal-processing tasks, or that variance in these tasks is largely unrelated to variance in subcortical neural processes in listeners with near-normal hearing

Inteligencia emocional y factores generadores de estrés durante las prácticas pre profesionales en los estudiantes de Enfermería del tercer a quinto año, de una Universidad Privada, Perú 2020

El objetivo de la investigación fue; determinar si existe relación significativa entre inteligencia emocional y factores generadores del estrés durante las prácticas pre profesionales en los estudiantes de Enfermería del tercer a quinto año de una universidad privada, Perú 2020. Metodológicamente fue: diseño no-experimental, de enfoque cuantitativo, correlacional y de corte transversal. Seguidamente el muestreo fue no probabilístico, por conveniencia, considerándose a 56 estudiantes de enfermería. Las herramientas de recolección de datos fueron el (cuestionario Kezkak), y para la otra variable se utilizó (escala de Inteligencia Emocional TMMS-24), los que tienen confiabilidad de “Alfa de Cronbach” 0,89. Resultados: se destacó que en la inteligencia emocional fue mayor la comprensión emocional en un 52%, continuamente el 43% de los estudiantes presenta una percepción de las emociones y en la regulación de emociones le corresponde un 5%; adicionalmente, de acuerdo a los factores generadores del estrés se encontró que el 50% evidencian bastantes factores generadores de estrés. Como conclusión se determinó que entre inteligencia emocional y factores generadores del estrés durante las prácticas pre profesionales en los estudiantes de Enfermería del tercer a quinto año no existe correlación, ya que se visualiza un grado de significancia superior al ,05 (p=,155) por lo que se entiende que existe una relación estadísticamente no significativa.JULIACAEscuela Profesional de EnfermeríaSalud públic