LSDA Cardiac Rhythm Data Portfolio - NASALSDA心律数据组合-美国宇航局.docx

nasa cardiac rhythm data portfoliosfinal: july 20, 2012human research program (hrp) information:information on hrp risk of cardiac rhythm disturbances: /risks/?i=79evidence report: /evidence/reports/cardiac%20rhythm.pdfcardiac medical portfolio (lifetime surveillance of astronaut health)these documents outline the medical requirements for cardiovascular-related data collection on the issmp crewmembers: 24-hour ambulatory ecg monitoring cycle ergometer test/ aerobic functional capacity exercise treadmill test heart rate monitoring resting ecg operational tilt testo flight analog: neuroendocrine and cardiovascular response to tilt (mr001g) all other medical testslongitudinal study of astronaut health newsletter articles: traditional cardiovascular risk factors as predictors of cardiovascular events in the u.s. astronaut corps risk of atrial arrythmias in the astronaut corpscardiac rhythm research portfolio: life sciences data archive (lsda)current flight researchprogramexperiment idprincipal investigatorexperiment titlefunded byflight-issmpbp_reghughsona simple in-flight method to test the risk of fainting on return to earth after long-duration space flightcsaflight-issmp99-e377bungo, levinecardiac atrophy and diastolic dysfunction during and after long-duration spaceflight: functional consequences for orthostatic intolerance, exercise capacity, and risk of cardiac arrhythmias nasaflight-issmpcciss e117hughson cardiovascular and cerebrovascular control on return from international space station csanasaflight-issmpvascularhughsoncardiovascular health consequences of long-duration space flight nasaflight-issmp99_081_mapnorsklong term microgravity: a model for investigating mechanisms of heart diseaseesaflight-issmpbiorhythmsmukaithe effect of long-term microgravity exposure on cardiac autonomic function by analyzing 24-hours electrocardiogram nasdaflight-issmpbiological_rhythms48mukaithe effect of long-term microgravity exposure on cardiac autonomic function by analyzing 48-hours electrocardiogram nasdaflight-issmpvessel_imagingarbeillevascular echocardiographyesa+all iss research projectshistorical flight research programprogramexperiment idprincipal investigatorexperiment titlefunded byshuttledso 482charlesevaluation of cardiac rhythm disturbances during extravehicular activitynasashuttledso 466charlespre- and postflight cardiac assessmentnasashuttledso 496meckindividual susceptibility to postflight orthostatic hypotensionnasashuttledso 631meckintegrated measurement of cardiovascular effects of space flightnasashuttlesmo 008meckmonitoring of heart rate and blood pressure during entry, landing, and egress: an index of countermeasure efficacy nasaall shuttle cardiovascular experimentsexperimenttitle178022influence of weightlessness upon human autonomic cardiovascular control178066inflight study of cardiovascular deconditioning178140lower body negative pressure - countermeasure against postflight orthostatic intolerance178198pulmonary function during weightlessness178294cardiovascular adaptation to zero gravity2.1.1fluid and electrolyte homeostasis284030pulmonary function in weight lessness284080cardiovascular regulation at microgravity3.1.1studies of orthostatic intolerance with the use of lbnp3.1.2studies of mechanisms underlying orthostatic intolerance using ambulatory monitoring, baroreflex testing, and the valsalva maneuver3.2.1aerobic capacity using graded bicycle ergometry3.3.1physiological responses during descent on the space shuttle9301049autonomic neuroplasticity in weightlessness9301081artificial neural networks and cardiovascular regulation9301095autonomic neurophysiology in microgravity9301198sleep and respiration in microgravity9301294integration of neural cardiovascular control in space9303011choroid plexus, brain and heart natriuretic peptide development in space9401686calcium metabolism and vascular function in rats after spaceflight9802386arterial remodeling and functional adaptations induced by microgravitydso 402cardiovascular deconditioning countermeasure assessmentdso 407photographic documentation of body fluid shiftdso 412treadmill operationdso 414ophthalmoscopydso 415tissue pressure tonometrydso 441blood pressure monitoring during reentrydso 445thoracic impedance measurementsdso 446leg plethysmographydso 456medical tests and measurements for the sts-51d payload specialistdso 461leg plethysmographydso 462noninvasive estimation of central venous pressure during space flightdso 463in-flight holter monitoringdso 465pre- and postflight echocardiographydso 466pre- and postflight cardiac assessmentdso 467influence of weightlessness on baroreflex functiondso 470the relationship of space adaptation syndrome to middle cerebral artery blood velocity measured in flight by dopplerdso 472intraocular pressuredso 474retinal photographydso 476inflight aerobic exercisedso 478in-flight lbnp: countermeasure to reduce post-space flight orthostatic intolerancedso 479hyperosmotic fluid countermeasuredso 482evaluation of cardiac rhythm disturbances during extravehicular activitydso 496individual susceptibility to postflight orthostatic hypotensiondso 503smidodrine as a countermeasure against postflight orthostatic hypotensiondso 601changes in baroreceptor reflex function after space flightdso 602blood pressure variability during space flightdso 603orthostatic function during entry, landing, and egressdso 603borthostatic function during entry, landing and egressdso 607cardiovascular responses to lower body negative pressure following space flightdso 613changes in endocrine regulation of orthostatic tolerance following space flightdso 618effects of intense exercise during space flight on aerobic capacity and orthostatic functiondso 621in-flight use of florinef to improve orthostatic intolerance postflightdso 621ain-flight use of florinef to improve orthostatic intolerance postflight (3 doses)dso 621b actin-flight use of florinef to improve orthostatic intolerance postflight (1 dose)dso 621b conin-flight use of florinef to improve orthostatic intolerance postflight (1 dose)dso 623in-flight lbnp test of countermeasures and end-of-mission countermeasure trialdso 624pre- and postflight measurement of cardiorespiratory responses to submaximal exercisedso 625measurement of blood volumes before and after space flightdso 626 cardiovascular and cerebrovascular responses to standing before and after space flightdso 630in-flight holter monitoringdso 631integrated measurement of cardiovascular effects of space flightdto 651cycle ergometer hardware evaluationdto 658evaluation of the ergometer vibration isolation systemdto 670passive cycle isolation system (pcis)sl3 1.1animal studies on spacelab-3sl3 bsp2microgravity changes in heart structure and cyclic-amp metabolismsl3 bsp3atriopeptin in atria and plasma of rats orbited aboard nasa spacelab-3 for seven dayssl3 projsl-3 project datasls1 bsp1histologic examination of lung tissuesls2 cnes3molecular pharmacology of alpha-1 adrenoreceptors and calcium channels in rat vascular myocytessls2 cnes5anp, pro-anp and mrna distribution in rat heart during a space flightsls2 cnes6central (brainstem) and peripheral (heart and kidney) sympathetic activity during a space flightsmo 006test of midodrine as a c