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1	The Influence of Sex on the Osmoreceptor Modulation of Heat Loss Responses Barrera Ramirez, Juliana A 20 December 2013 (has links) Females exhibit lower sudomotor response than males, which has been attributed to physiological differences between sexes. It is well accepted that non-thermal factors (i.e. baroreceptors and osmoreceptors) can influence thermoeffector responses. Even though there are sex-related differences in baroreceptor modulation of thermoeffector responses, it remains unknown if differences in osmoreceptor modulation could explain the lower sudomotor response in females. Therefore, we examined if there are sex-related differences in osmoreceptor modulation of sweating and cutaneous vascular conductance (CVC). A group of nine males and nine females were passively heated while in an isosmotic and hyperosmotic state. The onset and thermosensitivity of sweating and CVC were calculated and compared between groups and conditions. We show that the delay in onset of sweating and CVC is similar between sexes. However, thermosensitivity of sweating was lower in females than males. We conclude that hyperosmolality does not modulate the decreased sudomotor activity in females. osmolality sweating passive heating sex-related differences
2	The Influence of Sex on the Osmoreceptor Modulation of Heat Loss Responses Barrera Ramirez, Juliana A January 2014 (has links) Females exhibit lower sudomotor response than males, which has been attributed to physiological differences between sexes. It is well accepted that non-thermal factors (i.e. baroreceptors and osmoreceptors) can influence thermoeffector responses. Even though there are sex-related differences in baroreceptor modulation of thermoeffector responses, it remains unknown if differences in osmoreceptor modulation could explain the lower sudomotor response in females. Therefore, we examined if there are sex-related differences in osmoreceptor modulation of sweating and cutaneous vascular conductance (CVC). A group of nine males and nine females were passively heated while in an isosmotic and hyperosmotic state. The onset and thermosensitivity of sweating and CVC were calculated and compared between groups and conditions. We show that the delay in onset of sweating and CVC is similar between sexes. However, thermosensitivity of sweating was lower in females than males. We conclude that hyperosmolality does not modulate the decreased sudomotor activity in females. osmolality sweating passive heating sex-related differences
3	Time Course Changes in Muscle Temperature and Performance Following Active Warm Up in Cool Environments Kidston, Megan 29 August 2013 (has links) The effect of active warm up (WU) and passive heating (HP) following WU on muscle temperature (Tm) and performance in cool (10°C) environments was studied. Eight male recreational athletes (29±5 y) with a minimum relative mean VO2peak score of 50mL∙kg-1∙min-1 (58.0±6.3 mL∙kg-1∙min-1) completed two 60-minute sessions in an environmental chamber (9.77˚C, 71%RH). Following 15 minutes of standardized WU on a cycle ergometer, heat was applied to the legs during 30 minutes of inactivity using heated pants in HP but not in control (CON). Core (Tc), skin (Tsk) and muscle temperature, heart rate (HR), and thermal comfort (TC) and sensation (TS) were monitored at 5-min intervals throughout test sessions. Muscle performance was assessed by countermovement (VJ) height measured pre- and post-WU and at 10-, 20-, and 30-minutes following WU, as well as by anaerobic power, capacity, and fatigue measures calculated from a 45-second Wingate anaerobic test (WAnT) completed at the end of the 30-minute inactivity phase. WU resulted in similar and significant increases in Tm and VJ from baseline to post-WU (p<0.05). Tsk showed a difference between HP and CON prior to, during, and at the end of WU (p<0.05). Compared to end-WU, Tm was lower in HP and CON at 20-, 25- and 30-minutes of inactivity; however, Tm remained higher in HP at all timepoints following WU compared to CON. This maintenance in Tm during HP was associated with a higher peak power output calculated from WAnT (p<0.05). No differences were seen in VJ performance, TC, or TS following WU (p<0.05). HP can be used to attenuate thigh Tm and peak power performance decline following active WU in cool (~10˚C) environments. / Graduate / 0566 / mkidston@uvic.ca Muscle Temperature Warm Up Performance Passive Heating Clothing Cool Environment
4	Living with nature the Farnsworth House and the environmental successes and failures of Modernist architecture Williams, James J., M.B.A. January 2015 (has links) No description available. Architectural Engineering Environmental Comforts Mechanical Systems Passive Heating Cooling
5	Climate as a Design Factor Bergström, Hanna January 2022 (has links) No description available. thermal delight comfort daylighting passive heating passive cooling climate environmental sustainable timber hälsingland home Architecture Arkitektur
6	Smarter Single Family Pasquale, Michael A. 11 October 2013 (has links) No description available. Architecture Design Build Adaptive Reuse Single Family Home Renovation Passive Heating and Cooling
7	The Effect Of Sun Spaces On Temperature Patterns Within Buildings: Two Case Studies On The Metu Campus Kirmizi, Hacer 01 October 2010 (has links) (PDF) The aim of this study was to investigate the passive and active parameters affecting energy efficiency of two office buildings with sun spaces, namely the MATPUM Building and the Solar Building on the Middle East Technical University (METU) Campus, Ankara and the effect of sun spaces on temperature patterns within mentioned buildings. Both buildings were oriented in the same direction, namely south. However, the location and the type of the sunspaces differed from each other. The sun space in the MATPUM Building is an atrium which has southerly glazed fa&ccedil / ade. On the other hand, the sun space in the Solar Building is an enclosed conservatory which has southerly glazed fa&ccedil / ades and roof. The effect of sun spaces on temperature patterns within case study buildings was determined by collecting internal temperature and humidity data from different locations within the buildings and external temperature and humidity data on certain days of the week from May to August and October and November. Data loggers were used to collect these data. The collected data was then compared for the two buildings and also for the different months. In conclusion, more heat gain resulting in temperature increase inside the buildings was obtained in conservatories when compared to the atria which have glazed fa&ccedil / ade instead of glazed roof. This was also proved by the analysis of variance method which was used for the comparison of temperature data of two buildings NA Architecture 1-9428
8	Organizmo aklimacijos hipertermijai poveikis raumenų darbingumui / The impact of the organism acclimation to hyperthermia on the muscular activity Eimantas, Mantas 18 June 2008 (has links) Išstudijavus mokslinius literatūros šaltinius, pastebėta, kad kūno temperatūros, o tuo pačiu ir raumens vidinės temperatūros padidėjimas sukelia daug fiziologinių reakcijų žmogaus organizme, tačiau vis dar mažai darbų, nagrinėjančių aklimacijos (aklimacija �� tai dirbtinėse sąlygose (laboratorijoje) sukelta ilgalaikė aklimatizacija) hipertermijai, sukeltos dirbtiniu būdu, poveikį žmogaus fiziologinių rodiklių kaitai, raumens išvystomai maksimaliai valingai jėgai. Nepavyko rasti duomenų kaip maksimalios valingos jėgos metu keičiasi raumenų elektrinis aktyvumas, priklausantis nuo aklimacijos hipertermijai. Pagrindinis šio darbo tikslas buvo nustatyti ir įvertinti dirbtinės aklimacijos hipertermijai poveikį ��mogaus organizmui. Uždaviniai: Nustatyti ir įvertinti žmogaus fiziologinių rodiklių (rektalinę, odos bei kūno temperatūras, fiziologinį stresą, netenkamą kūno svorį, širdies susitraukimų dažnį ir šiluminį stresą) kaitą aklimacijos hipertermijai laikotarpyje: prieš pasyvų šildymą, šildymo metu ir po šildymo; nustatyti aklimacijos hipertermijai poveikį raumenų atsparumui nuovargiui; nustatyti aklimacijos hipertermijai poveikį raumenų centriniam aktyvacijos koeficientui; nustatyti ir įvertinti aklimacijos hipertermijai poveikį šlaunies raumens elektriniam aktyvumui. Šio tyrimo metu iš viso buvo atliekami aštuoni tyrimai — vienas kontrolinis ir septyni hipertermiją sukeliantys eksperimentiniai. Eksperimentiniai nuo kontrolinio skyrėsi pasyviu kojų pašildymu (tiriamieji... [toliau žr. visą tekstą] / Firstly, it is important to emphasize that the research of different scientific articles and other sources of information has proved that the increment of temperature in the man’s body as well as the inner muscle causes many physiologic reflexes in human’s organism. However not many research projects analyzing the impact of the acclimation (In vitro(in laboratory) related long term acclimatization) to hyperthermic environment, created in imitative way, neither on the fluctuation of man’s vital functions nor on the maximum voluntary muscle strength, could be found. Secondly, it should be noted, that none of the above mentioned sources provided the information on the change of muscle electric activity at the moment of its maximum voluntary strength. Therefore, the main purpose of this research was to establish and measure the influence of the imitative acclimation of hyperthermia on the man’s body. The main tasks of the project were to observe and evaluate the change of man’s physiological functions (rectal, skin and body temperature, physiologic stress, weight loss, heart rate and thermic stress) during the acclimation to hyperthermia process: before passive heating, during the heating time and after it; to establish the impact of acclimation to hyperthermia on the maximum voluntary force as well as on the maximum activation rate; to establish and measure the impact of the acclimation to hyperthermia on the muscle electrical activity. In order to achieve the desired... [to full text] Biology Hipertermija Aklimacija Pasyvus šildymas Izometriniai pratimai Raumenų elektrinis aktyvumas Hyperthermia Acclimation Passive heating Isometric exercises Electric activity of muscles
9	Kontroliuojamo kartotinio pasyvaus šildymo poveikis aklimacijos požymių kaitai ir neuroraumeninei funkcijai / Controllable repeated passive heating effect to acclimation symptoms and neuromuscular function Paulauskas, Henrikas 20 June 2012 (has links) Žmogaus adaptacija prie karščio yra visapusiškai nagrinėjama ir plati problema (Hori, 1978). Literatūroje gausu tyrimų, nagrinėjančių hipertermijos poveikį neuroraumeninei funkcijai po fizinių pratimų karštyje (Nybo & Nielsen, 2001) ar pasyvaus šildymo (Thomas et al., 2006; Todd et al., 2005). M. M. Thomas et al. (2006) nustatė, kad pasyvaus šildymo metu, padidinus vidinę kūno temperatūrą iki 39,5 oC, sumažėja maksimali izometrinė pėdos lenkiamųjų raumenų jėga ir tai įtakoja raumenų aktyvacijos iš CNS sumažėjimas. Anksčiau atlikti tyrimai patvirtina, kad aukšta organizmo vidinė temperatūra paveikia CNS ir jos galimybę aktyvuoti dirbančius raumenis (Nybo & Nielsen, 2001; Todd et al., 2005). Organizmui aklimuojantis prie karščio, sumažėja TREKT, ŠSD, FSI ir padidėja prakaitavimas, kas lemia mažesnį fiziologinį-terminį stresą hipertermijos sąlygomis (Brazaitis ir kt., 2009; Brazaitis ir Skurvydas, 2010), tačiau sunku rasti tyrimų, nagrinėjančių kaip tai paveikia neuroraumeninę funkciją. M. Brazaitis ir A. Skurvydas (2010) nustatė, kad po 7 pasyvaus šildymo procedūrų (~44 oC vandenyje po 45 minutes), kurios buvo vykdomos kas antrą dieną 2 savaičių laikotarpyje, organizmas aklimavosi prie karščio, bet tai nepaveikė centrinio ir periferinio nuovargio MVJ-2min izometrinio krūvio metu hipertermijos sąlygomis. Mūsų atliktame tyrime buvo naudota unikali pasyvaus šildymo metodika (siekiama TREKT padidinti iki 39,5 0C, maksimalus šildymo procedūros laikas 120 min., šildymo procedūros... [toliau žr. visą tekstą] / Human adaptation to heat is comprehensive of a broad problem (Hori, 1978). The literature is rich in research of analyzing the influence of hyperthermia on neuromuscular function, after exercising in the heat (Nybo & Nielsen, 2001) or passive heating (Thomas et al., 2006; Todd et al., 2005). M. M. Thomas et al. (2006) ascertained that the increase to 39,5 oC of core temperature in passive heating, reduces maximal isometric force of plantar flexors and this is influence of the reduction on voluntary muscle activation from CNS. Earlier studies show, that high core temperature affects CNS and its ability to activate working muscles (Nybo & Nielsen, 2001; Todd et al., 2005). Heat acclimation occurs with reduced rectal temperature, heart rate, physiological strain index and increased sweat rate, which causes reduction in physiological-thermal stress in the hyperthermia (Brazaitis ir kt., 2009; Brazaitis ir Skurvydas, 2010), but it is difficult to find studies how this affects the neuromuscular function. M. Brazaitis & A. Skurvydas (2010) found out that after 7 passive heating procedures (in ~44 oC water, 45 minutes each), which was carried out every second day for two weeks, heat acclimation occurred, but did not change the central and peripheral fatigue during a 2-min MVC in hyperthermia. In our study, we used the unique passive heating technique (we tried to elevate rectal temperature to 39,5 0C, maximal passive heating time was 120 min., 16 days of passive heating procedure... [to full text] Biology Hipertermija Aklimacija Pasyvus šildymas Neuroraumeninė funkcija Izometriniai pratimai Hyperthermia Acclimation Passive heating Neuromuscular function Isometric exercise
10	ENERGY PERFORMANCE DESIGN ARCHITECTURE: A FACTORY IN CLEVELAND, OHIO BENTON, W. RICHARD 14 July 2005 (has links) No description available. Architecture sustainability energy performance passive conditioning passive heating passive cooling natural lighting daylighting passive ventilation renewable energy technology sustainbale technology

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