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Physiological Effects of Spaceflight/Unloading and the Mitigating Effects of Flywheel-Based Resistive Exercise

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Alkner BA, Tesch PA (2004a) Efficacy of a gravity-independent resistance exercise device as a countermeasure to muscle atrophy during 29-day bed rest. Acta Physiologica Scandinavica181: 345–357AlknerBATeschPA2004aEfficacy of a gravity-independent resistance exercise device as a countermeasure to muscle atrophy during 29-day bed restActa Physiologica Scandinavica18134535710.1111/j.1365-201X.2004.01293.x15196095Search in Google Scholar

Alkner BA, Tesch PA (2004b) Knee extensor and plantar flexor muscle size and function following 90 days of bed rest with or without resistance exercise. European Journal of Applied Physiology93: 294–305AlknerBATeschPA2004bKnee extensor and plantar flexor muscle size and function following 90 days of bed rest with or without resistance exerciseEuropean Journal of Applied Physiology9329430510.1007/s00421-004-1172-815338217Search in Google Scholar

Baldwin KM, White TP, Arnaud SB, Edgerton VR, Kraemer WJ, Kram R, Raab-Cullen D, Snow CM (1996) Musculoskeletal adaptations to weightlessness and development of effective countermeasures. Medicine and Science in Sports and Exercise28: 1247–1253BaldwinKMWhiteTPArnaudSBEdgertonVRKraemerWJKramRRaab-CullenDSnowCM1996Musculoskeletal adaptations to weightlessness and development of effective countermeasuresMedicine and Science in Sports and Exercise281247125310.1097/00005768-199610000-000078897381Search in Google Scholar

Bamman MM, Hunter GR, Stevens BR, Guilliams ME, Greenisen MC (1998) Imapct of resistance exercise during bed rest on skeletal muscle sarcopenia and myosin isoform distribution. Journal of Applied Physiology84: 157–163BammanMMHunterGRStevensBRGuilliamsMEGreenisenMC1998Imapct of resistance exercise during bed rest on skeletal muscle sarcopenia and myosin isoform distributionJournal of Applied Physiology8415716310.1152/jappl.1998.84.1.1579451630Search in Google Scholar

Belavý DL, Miolovic T, Armbrecht G, Richardson CA, Rittweger J, Felsenberg D (2009) Differential atrophy of the lower limb musculature during prolonged bed rest. European Journal of Applied Physiology107: 489–499BelavýDLMiolovicTArmbrechtGRichardsonCARittwegerJFelsenbergD2009Differential atrophy of the lower limb musculature during prolonged bed restEuropean Journal of Applied Physiology10748949910.1007/s00421-009-1136-019680682Search in Google Scholar

Bentley JR, Leach MA, McCleary F, Smith C, Norcross J, Hagan RD, Dao A, Zamaitis J, Landeck M, Groat M, Carrejo D, Cooper J, Weisskopf G, Mangieri M (2006) Advanced Resistive Exercise Device (ARED) Man-In-The-Loop Test (MILT). NASA/TP-2206-213717BentleyJRLeachMAMcClearyFSmithCNorcrossJHaganRDDaoAZamaitisJLandeckMGroatMCarrejoDCooperJWeisskopfGMangieriM2006Advanced Resistive Exercise Device (ARED) Man-In-The-Loop Test (MILT)NASA/TP-2206-213717Search in Google Scholar

Berg HE, Dudley GA, Haggmark T, Ohlsen H, Tesch PA (1991) Effects of lower limb unloading on skeletal muscle mass and function in humans. Journal of Applied Physiology70: 1882–1885BergHEDudleyGAHaggmarkTOhlsenHTeschPA1991Effects of lower limb unloading on skeletal muscle mass and function in humansJournal of Applied Physiology701882188510.1152/jappl.1991.70.4.18822055867Search in Google Scholar

Berg HE, Eiken O, Miklavcic L, Mekjavic IB (2007) Hip, thigh, and calf muscle atrophy and bone loss after 5-week bed rest inactivity. European Journal of Applied Physiology99: 283–289BergHEEikenOMiklavcicLMekjavicIB2007Hip, thigh, and calf muscle atrophy and bone loss after 5-week bed rest inactivityEuropean Journal of Applied Physiology9928328910.1007/s00421-006-0346-y17186305Search in Google Scholar

Berg HE, Tesch PA (1994) A gravity-independent ergometer to be used for resistance training in space. Aviation Space and Environmental Medicine65: 752–756BergHETeschPA1994A gravity-independent ergometer to be used for resistance training in spaceAviation Space and Environmental Medicine65752756Search in Google Scholar

Blanc S, Normand S, Ritz P, Pachiaudi C, Vico L, Gharib C, Gauquelin-Koch G (1998) Energy and water metabolism, body composition, and hormonal changes induced by 42 days of enforced inactivity and simulated weightlessness. Journal of Clinical Endocrinology and Metabolism83: 4289–4297BlancSNormandSRitzPPachiaudiCVicoLGharibCGauquelin-KochG1998Energy and water metabolism, body composition, and hormonal changes induced by 42 days of enforced inactivity and simulated weightlessnessJournal of Clinical Endocrinology and Metabolism834289429710.1210/jc.83.12.4289Search in Google Scholar

Carpenter RD, LeBlanc AD, Evans H, Sibonga JD, Lang TF (2010) Long-term changes in the density and structure of the human hip and spine after long-duration spaceflight. Acta Astronautica67: 71–81CarpenterRDLeBlancADEvansHSibongaJDLangTF2010Long-term changes in the density and structure of the human hip and spine after long-duration spaceflightActa Astronautica67718110.1016/j.actaastro.2010.01.022Search in Google Scholar

Caruso JF, Coday MA, Monda JK, Ramey ES, Hastings LP, Vingren JL, Potter WT, Kraemer WJ, Wickel EE (2010) Blood lactate and hormonal responses to prototype flywheel ergometer workouts. Journal of Strength and Conditioning Research24: 749–756CarusoJFCodayMAMondaJKRameyESHastingsLPVingrenJLPotterWTKraemerWJWickelEE2010Blood lactate and hormonal responses to prototype flywheel ergometer workoutsJournal of Strength and Conditioning Research2474975610.1519/JSC.0b013e3181c6cfb320145569Search in Google Scholar

Caruso JF, Hamill JL, Hernandez DA, Yamauchi M (2005a) A comparison of isoload and isoinertial leg press training on bone and muscle outcomes. Journal of Strength and Conditioning Research19: 592–598CarusoJFHamillJLHernandezDAYamauchiM2005aA comparison of isoload and isoinertial leg press training on bone and muscle outcomesJournal of Strength and Conditioning Research1959259810.1519/R-15724.1Search in Google Scholar

Caruso JF, Hamill JL, Yamauchi M, Cook TD, Mercado DR, Gibb G, Higginson B, Elias J, Hernandez DA (2004a) Can albuterol help resistance exercise attenuate unloading-induced bone losses? Journal of Strength and Conditioning Research18: 753–759CarusoJFHamillJLYamauchiMCookTDMercadoDRGibbGHigginsonBEliasJHernandezDA2004aCan albuterol help resistance exercise attenuate unloading-induced bone losses?Journal of Strength and Conditioning Research1875375910.1519/00124278-200411000-00012Search in Google Scholar

Caruso JF, Hamill JL, Yamauchi M, Mercado DR, Cook TD, Keller CP, Montgomery AG, Elias J (2004b) Albuterol helps resistance exercise attenuate knee extensor unloading-induced strength losses. Aviation, Space and Environmental Medicine75: 505–511CarusoJFHamillJLYamauchiMMercadoDRCookTDKellerCPMontgomeryAGEliasJ2004bAlbuterol helps resistance exercise attenuate knee extensor unloading-induced strength lossesAviation, Space and Environmental Medicine75505511Search in Google Scholar

Caruso JF, Hamill JL, Yamauchi M, Mercado DR, Cook TD, Higginson B, O'Meara S, Elias J, Siconolfi SF (2005b) Albuterol augments resistance exercise to attenuate ankle extensor strength loss. Journal of Applied Physiology98: 1705–1711CarusoJFHamillJLYamauchiMMercadoDRCookTDHigginsonBO'MearaSEliasJSiconolfiSF2005bAlbuterol augments resistance exercise to attenuate ankle extensor strength lossJournal of Applied Physiology981705171110.1152/japplphysiol.01015.2004Search in Google Scholar

Caruso JF, Hernandez DA, Saito K, Cho M, Nelson NM (2003) Inclusion of eccentric actions on metabolic cost resulting from work done on an inertial resistance ergometer. Journal of Strength and Conditioning Research17: 549–555CarusoJFHernandezDASaitoKChoMNelsonNM2003Inclusion of eccentric actions on metabolic cost resulting from work done on an inertial resistance ergometerJournal of Strength and Conditioning Research1754955510.1519/00124278-200308000-00021Search in Google Scholar

Caruso JF, Hernandez DA (2002) The metabolic cost of a multi-set leg press protocol performed on a flywheel ergometer. Journal of Strength and Conditioning Research16: 567–572CarusoJFHernandezDA2002The metabolic cost of a multi-set leg press protocol performed on a flywheel ergometerJournal of Strength and Conditioning Research1656757210.1519/00124278-200211000-00013Search in Google Scholar

Cavanaugh PR, Licata AA, Rice AJ (2005) Exercise and pharmacological countermeasures for bone loss during long-duration space flight. Gravitational and Space Biology18: 39–58CavanaughPRLicataAARiceAJ2005Exercise and pharmacological countermeasures for bone loss during long-duration space flightGravitational and Space Biology183958Search in Google Scholar

Collet P, Uebelhart D, Vico L, Moro L, Hartmann D, Roth M, Alexandre C (1997) Effects of 1- and 6-month spaceflight on bone mass and biochemistry in two humans. Bone20: 547–551ColletPUebelhartDVicoLMoroLHartmannDRothMAlexandreC1997Effects of 1- and 6-month spaceflight on bone mass and biochemistry in two humansBone2054755110.1016/S8756-3282(97)00052-5Search in Google Scholar

Convertino VA (1990) Physiological adaptations to weightlessness: effects on exercise and work performance. Exercise and Sport Science Reviews18: 119–166ConvertinoVA1990Physiological adaptations to weightlessness: effects on exercise and work performanceExercise and Sport Science Reviews1811916610.1249/00003677-199001000-00007Search in Google Scholar

Convertino VA, Doerr DF, Mathes KL, Stein SL, Buchanan P (1989) Changes in volume, muscle compartment, and compliance of the lower extremities in man following 30 days of exposure to simulated microgravity. Aviation Space and Environmental Medicine60: 653–658ConvertinoVADoerrDFMathesKLSteinSLBuchananP1989Changes in volume, muscle compartment, and compliance of the lower extremities in man following 30 days of exposure to simulated microgravityAviation Space and Environmental Medicine60653658Search in Google Scholar

Crandall CG, Shibaski M, Wilson TE, Levine BD (2003) Prolonged head-down tilt exposure reduces maximal cutaneous vasodilator and sweating capacity in humans. Journal of Applied Physiology94: 2330–2336CrandallCGShibaskiMWilsonTELevineBD2003Prolonged head-down tilt exposure reduces maximal cutaneous vasodilator and sweating capacity in humansJournal of Applied Physiology942330233610.1152/japplphysiol.00790.200212598483Search in Google Scholar

Cree MG, Paddon-Jones D, Newcomer BR, Ronsen O, Aarsland A, Wolfe RR, Ferrando AA (2010) Twenty-eight-day bed rest with hypercortisolemia induces peripheral insulin resistance and increases intramuscular triglycerides. Metabolism: Clinical and Experimental59: 703–710CreeMGPaddon-JonesDNewcomerBRRonsenOAarslandAWolfeRRFerrandoAA2010Twenty-eight-day bed rest with hypercortisolemia induces peripheral insulin resistance and increases intramuscular triglyceridesMetabolism: Clinical and Experimental5970371010.1016/j.metabol.2009.09.014285678519919871Search in Google Scholar

Crucian BE, Cubbage ML, Sams CF (2000) Altered cytokine production by specific human peripheral blood cell subsets immediately following space flight. Journal of Interferon and Cytokine Research20: 547–556CrucianBECubbageMLSamsCF2000Altered cytokine production by specific human peripheral blood cell subsets immediately following space flightJournal of Interferon and Cytokine Research2054755610.1089/1079990005004474110888111Search in Google Scholar

Delp MD (2007) Arterial adaptations in microgravity contribute to orthostatic tolerance. Journal of Applied Physiology102: 853–858DelpMD2007Arterial adaptations in microgravity contribute to orthostatic toleranceJournal of Applied Physiology10285385810.1152/japplphysiol.01347.200617170201Search in Google Scholar

Dériaz O, Najafi B, Ballabeni P, Crettenand A, Gobelet C, Aminian K, Rizzoli R, Gremion (2010) Proximal tibia volumetric bone mineral density is correlated to the magnitude of local acceleration in male long-distance runners. Journal of Applied Physiology108: 852–857DériazONajafiBBallabeniPCrettenandAGobeletCAminianKRizzoliRGremion2010Proximal tibia volumetric bone mineral density is correlated to the magnitude of local acceleration in male long-distance runnersJournal of Applied Physiology10885285710.1152/japplphysiol.00865.2009291380020133440Search in Google Scholar

Dudley GA, Tesch PA, Miller BJ, Buchanan P (1991) Importance of eccentric actions in performance adaptations to resistance training. Aviation Space and Environmental Medicine62: 543–550DudleyGATeschPAMillerBJBuchananP1991Importance of eccentric actions in performance adaptations to resistance trainingAviation Space and Environmental Medicine62543550Search in Google Scholar

Edgerton VR, Zhou M-Y, Ohira Y, Klitgaard H, Jiang B, Bell G, Harris B, Saltin B, Gollnick PD, Roy RR, Day MK, Greenisen M (1995) Human fiber size and enzymatic properties after 5 and 11 days of space flight. Journal of Applied Physiology78: 1733–1739EdgertonVRZhouM-YOhiraYKlitgaardHJiangBBellGHarrisBSaltinBGollnickPDRoyRRDayMKGreenisenM1995Human fiber size and enzymatic properties after 5 and 11 days of space flightJournal of Applied Physiology781733173910.1152/jappl.1995.78.5.1733Search in Google Scholar

Ferrando AA, Stuart CA, Brunder DG, Hillman GR (1995) Magnetic resonance imaging quantitation of changes in muscle volume during seven days of strict bed rest. Aviation Space and Environmental Medicine66: 976–981FerrandoAAStuartCABrunderDGHillmanGR1995Magnetic resonance imaging quantitation of changes in muscle volume during seven days of strict bed restAviation Space and Environmental Medicine66976981Search in Google Scholar

Ferretti G, Capelli C (2009) Maximal O2 consumption: Effects of gravity withdrawal and resumption. Respiratory Physiology and Neurobiology, 169: S50–S54FerrettiGCapelliC2009Maximal O2 consumption: Effects of gravity withdrawal and resumptionRespiratory Physiology and Neurobiology169S50S5410.1016/j.resp.2009.03.012Search in Google Scholar

Fitts RH, Riley DR, Widrick JJ (2000) Physiology of a microgravity environment invited review: microgravity and skeletal muscle. Journal of Applied Physiology89: 823–839FittsRHRileyDRWidrickJJ2000Physiology of a microgravity environment invited review: microgravity and skeletal muscleJournal of Applied Physiology8982383910.1152/jappl.2000.89.2.823Search in Google Scholar

Fortney SM, Mikhaylov V, Lee SM, Kobzev Y, Gonzalez RR, Greenleaf JE (1998) Body temperature and thermoregulation during submaximal exercise after 115-day spaceflight. Aviation Space and Environmental Medicine69: 137–141FortneySMMikhaylovVLeeSMKobzevYGonzalezRRGreenleafJE1998Body temperature and thermoregulation during submaximal exercise after 115-day spaceflightAviation Space and Environmental Medicine69137141Search in Google Scholar

Friman G, Hamrin E (1976) Changes of reactive hyperaemia after clinical bed rest for seven days. Upsala Journal of Medical Sciences81: 79–83FrimanGHamrinE1976Changes of reactive hyperaemia after clinical bed rest for seven daysUpsala Journal of Medical Sciences81798310.3109/03009737609179026Search in Google Scholar

Gopalakrishnan R, Genc KO, Rice AJ, Lee SM, Evans HJ, Maender CC, Ilaslan H, Cavanagh PR (2010) Muscle volume, strength, endurance, and exercise loads during 6-month missions in space. Aviation, Space and Environmental Medicine 81: 91–102GopalakrishnanRGencKORiceAJLeeSMEvansHJMaenderCCIlaslanHCavanaghPR2010Muscle volume, strength, endurance, and exercise loads during 6-month missions in spaceAviation, Space and Environmental Medicine819110210.3357/ASEM.2583.2010Search in Google Scholar

Hargens AR, Richardson S (2009) Cardiovascular adaptations, fluid shifts, and countermeasures related to space flight. Respiratory Physiology and Neurobiology, 169: S30–S33HargensARRichardsonS2009Cardiovascular adaptations, fluid shifts, and countermeasures related to space flightRespiratory Physiology and Neurobiology169S30S3310.1016/j.resp.2009.07.005Search in Google Scholar

Hawkey A (2005) Physiological and biomechanical considerations for a human Mars mission. Journal of the British Interplanetary Society58: 117–130HawkeyA2005Physiological and biomechanical considerations for a human Mars missionJournal of the British Interplanetary Society58117130Search in Google Scholar

Hayes JC, Roper ML, Mazzocca AD, McBrine JJ, Barrows LH, Harris BA, Siconolfi SF (1992) Eccentric and concentric muscle performance following seven days of simulated weightlessness. NASA Tech Paper 3182HayesJCRoperMLMazzoccaADMcBrineJJBarrowsLHHarrisBASiconolfiSF1992Eccentric and concentric muscle performance following seven days of simulated weightlessnessNASA Tech Paper3182Search in Google Scholar

Heikkinen R, Vihriälä E, Vainionpää A, Korpelainen R, and Jämsä T (2007) Acceleration slope of exercise-induced impacts is a determinant of changes in bone density. Journal of Biomechanics40: 2967–2974HeikkinenRVihriäläEVainionpääAKorpelainenRJämsäT2007Acceleration slope of exercise-induced impacts is a determinant of changes in bone densityJournal of Biomechanics402967297410.1016/j.jbiomech.2007.02.003Search in Google Scholar

Hikida RS, Gollnick PD, Dudley GA, Convertino VA, Buchanan P (1989) Structural and metabolic characteristics of human skeletal muscle following 30 days of simulated microgravity. Aviatiation Space and Environmental Medicine60: 664–670HikidaRSGollnickPDDudleyGAConvertinoVABuchananP1989Structural and metabolic characteristics of human skeletal muscle following 30 days of simulated microgravityAviatiation Space and Environmental Medicine60664670Search in Google Scholar

Holick MF (1998) Perspective on the impact of weightlessness on calcium and bone metabolism. Bone22: 105S–111SHolickMF1998Perspective on the impact of weightlessness on calcium and bone metabolismBone22105S111S10.1016/S8756-3282(98)00014-3Search in Google Scholar

International Countermeasures Working Group, Trieste, Italy (2010) http://www.nasa.gov/centers/johnson/pdf/505724main_International_Exercise_Countermeasures_Hardware_Catalog.pdfInternational Countermeasures Working Group, Trieste, Italy2010http://www.nasa.gov/centers/johnson/pdf/505724main_International_Exercise_Countermeasures_Hardware_Catalog.pdfSearch in Google Scholar

Iwate S (2005) Effectiveness of centrifuge-induced artificial gravity with ergometric exercise as a countermeasure during simulated microgravity exposure in humans. Acta Astronautica57: 75–80IwateS2005Effectiveness of centrifuge-induced artificial gravity with ergometric exercise as a countermeasure during simulated microgravity exposure in humansActa Astronautica57758010.1016/j.actaastro.2005.03.01316010754Search in Google Scholar

Lang T, LeBlanc AD, Evans H, Lu Y, Genant H, Yu A (2004) Cortical and trabecular bone mineral loss from the spine and hip in long-duration space flight. Journal of Bone and Mineral Research19: 1006–1012LangTLeBlancADEvansHLuYGenantHYuA2004Cortical and trabecular bone mineral loss from the spine and hip in long-duration space flightJournal of Bone and Mineral Research191006101210.1359/JBMR.04030715125798Search in Google Scholar

LeBlanc AD, Schenider VS, Evans H, Pientok C, Rowe R, Spector E (1992) Regional changes in muscle mass following 17 weeks of bed rest. Journal of Applied Physiology73: 2172–2178LeBlancADScheniderVSEvansHPientokCRoweRSpectorE1992Regional changes in muscle mass following 17 weeks of bed restJournal of Applied Physiology732172217810.1152/jappl.1992.73.5.2172Search in Google Scholar

Matsumoto A, Storch KJ, Stolfi A, Mohler SR, Frey MA, Stein TP (2011) Weight loss in humans in space. Aviation, Space, and Environmental Medicine82: 615–621MatsumotoAStorchKJStolfiAMohlerSRFreyMASteinTP2011Weight loss in humans in spaceAviation, Space, and Environmental Medicine8261562110.3357/ASEM.2792.2011Search in Google Scholar

Matsuo T, Ohkawara K, Seino S, Shimojo N, Yamada S, Ohshima H, Tanaka K, Mukai C (2012) An exercise protocol designed to control energy expenditure for long-term space missions. Aviation Space and Environmental Medicine83: 783–789MatsuoTOhkawaraKSeinoSShimojoNYamadaSOhshimaHTanakaKMukaiC2012An exercise protocol designed to control energy expenditure for long-term space missionsAviation Space and Environmental Medicine8378378910.3357/ASEM.3298.2012Search in Google Scholar

Moore AD, Lee SMC, Stenger MB, Platts SH (2010) Cardiovascular exercise in the U.S. space program: Past, present and future. Acta Astronautica66: 974–988MooreADLeeSMCStengerMBPlattsSH2010Cardiovascular exercise in the U.S. space program: Past, present and futureActa Astronautica6697498810.1016/j.actaastro.2009.10.009Search in Google Scholar

Morgan JLL, Zwart SR, Heer MA, Ploutz-Snyder L, Ericson K, Smith SM (2012) Bone metabolism and nutritional status during 30-day head-down-tilt bed rest. Journal of Applied Physiology113: 1519–1529MorganJLLZwartSRHeerMAPloutz-SnyderLEricsonKSmithSM2012Bone metabolism and nutritional status during 30-day head-down-tilt bed restJournal of Applied Physiology1131519152910.1152/japplphysiol.01064.2012Search in Google Scholar

Nicogossian AE, Huntoon CL, Pool SL (1994) Space physiology and medicine, Philadelphia: Lea and FeibergerNicogossianAEHuntoonCLPoolSL1994Space physiology and medicinePhiladelphiaLea and FeibergerSearch in Google Scholar

Oganov VS, Cann C, Rakmanov AS, Ternovoy SK (1990) Computer tomography measurements of vertebral bones and muscles following extended manned space flight missions. Kosmicheskaya Biologiya i Aviakosmicheskaya Meditsina24: 20–21OganovVSCannCRakmanovASTernovoySK1990Computer tomography measurements of vertebral bones and muscles following extended manned space flight missionsKosmicheskaya Biologiya i Aviakosmicheskaya Meditsina242021Search in Google Scholar

Ogawa Y, Iwasaki K, Aoki K, Saitoh T, Kato J, Ogawa S (2009) Dynamic cerebral autoregulation after mild dehydration to simulate microgravity effects. Aviation Space and Environmental Medicine80: 443–447OgawaYIwasakiKAokiKSaitohTKatoJOgawaS2009Dynamic cerebral autoregulation after mild dehydration to simulate microgravity effectsAviation Space and Environmental Medicine8044344710.3357/ASEM.2449.2009Search in Google Scholar

Parmar PJ, Perry RA, Martin JL, Vickers SD, Baptista RA, Edwards R, McArtor JD, Mitchell LN, Caruso JF (2015). Net energy costs from resistive exercise done on flywheel-based hardware. Isokinetics and Exercise Science23: 221–227ParmarPJPerryRAMartinJLVickersSDBaptistaRAEdwardsRMcArtorJDMitchellLNCarusoJF2015Net energy costs from resistive exercise done on flywheel-based hardwareIsokinetics and Exercise Science2322122710.3233/IES-150597Search in Google Scholar

Riley DA (1999) Is skeletal muscle ready for long-term spaceflight and return to gravity? Advances in Space Biology and Medicine 7: 31–48RileyDA1999Is skeletal muscle ready for long-term spaceflight and return to gravity?Advances in Space Biology and Medicine7314810.1016/S1569-2574(08)60006-4Search in Google Scholar

Riley DA, Bain JL, Thompson JL, Fitts RH, Widrick JJ, Trappe SW, Trappe TA, Costill DA (2002) Thin filament diversity and physiological properties of fast and slow fiber types in astronaut leg muscles. Journal of Applied Physiology92: 817–825RileyDABainJLThompsonJLFittsRHWidrickJJTrappeSWTrappeTACostillDA2002Thin filament diversity and physiological properties of fast and slow fiber types in astronaut leg musclesJournal of Applied Physiology9281782510.1152/japplphysiol.00717.200111796697Search in Google Scholar

Rittweger J, Frost HM, Schiessl H, Ohshima H, Alkner BA, Tesch PA, Feisenberg D (2005) Muscle atrophy and bone loss after 90 days’ bed rest and the effect of flywheel resistive exercise and pamidronate: results from the LTBR study. Bone36: 1019–1029RittwegerJFrostHMSchiesslHOhshimaHAlknerBATeschPAFeisenbergD2005Muscle atrophy and bone loss after 90 days’ bed rest and the effect of flywheel resistive exercise and pamidronate: results from the LTBR studyBone361019102910.1016/j.bone.2004.11.01415811637Search in Google Scholar

Rittweger J, Winwood K, Seynnes O, de Boer M, Wilks D, Lea R, Rennie M, Narici M (2006) Bone loss from the human distal tibia epiphysis during 24 days on unilateral lower limb suspension. Journal of Physiology577: 331–337RittwegerJWinwoodKSeynnesOde BoerMWilksDLeaRRennieMNariciM2006Bone loss from the human distal tibia epiphysis during 24 days on unilateral lower limb suspensionJournal of Physiology57733133710.1113/jphysiol.2006.115782200069617023509Search in Google Scholar

Ronca AE, Baker ES, Bavendam TG, Beck KD, Miller VM, Tash JS, Jenkinds M (2014) Effects of sex and gender on adaptations to space: reproductive health. Journal of Women's Health23: 967–974RoncaAEBakerESBavendamTGBeckKDMillerVMTashJSJenkindsM2014Effects of sex and gender on adaptations to space: reproductive healthJournal of Women's Health2396797410.1089/jwh.2014.4915423559125401943Search in Google Scholar

Schneider SM, Amonette WE, Blazine K, Bentley J, Lee SMC, Loehr JA, Moore AD, Rapley M, Mulder ER, Smith SM (2003) Training with the International Space Station interim resistive exercise device. Medicine and Science in Sports and Exercise35: 1935–1945SchneiderSMAmonetteWEBlazineKBentleyJLeeSMCLoehrJAMooreADRapleyMMulderERSmithSM2003Training with the International Space Station interim resistive exercise deviceMedicine and Science in Sports and Exercise351935194510.1249/01.MSS.0000093611.88198.0814600562Search in Google Scholar

Schulze K, Gallagher P, Trappe S (2002) Resistance training preserves skeletal muscle function during unloading in humans. Medicine and Science in Sports and Exercise 34: 303–313SchulzeKGallagherPTrappeS2002Resistance training preserves skeletal muscle function during unloading in humansMedicine and Science in Sports and Exercise3430331310.1097/00005768-200202000-0001911828241Search in Google Scholar

Shackelford LC, LeBlanc AD, Driscoll TB, Evans HJ, Rianon NJ, Smith SM, Spector E, Feeback DL, Lai D (2005) Resistance exercise as a countermeasure to disuse-induced bone loss. Journal of Applied Physiology97: 119–129ShackelfordLCLeBlancADDriscollTBEvansHJRianonNJSmithSMSpectorEFeebackDLLaiD2005Resistance exercise as a countermeasure to disuse-induced bone lossJournal of Applied Physiology9711912910.1152/japplphysiol.00741.200315220316Search in Google Scholar

Shenkman BS, Nemirovskaya TL (2008) Calcium-dependent signaling mechanisms and soleus fiber remodeling under gravitational unloading. Journal of Muscle Research and Cell Motility29: 221–230ShenkmanBSNemirovskayaTL2008Calcium-dependent signaling mechanisms and soleus fiber remodeling under gravitational unloadingJournal of Muscle Research and Cell Motility2922123010.1007/s10974-008-9164-719130271Search in Google Scholar

Sibonga JD, Cavanagh PR, Lang TF, LeBlanc AD, Schneider VS, Shackelford LC, Smith SM, Vico L (2007) Adaptation of the skeletal system during long-duration space flight. Clinical Reviews of Mineral Metabolism5: 249–261SibongaJDCavanaghPRLangTFLeBlancADSchneiderVSShackelfordLCSmithSMVicoL2007Adaptation of the skeletal system during long-duration space flightClinical Reviews of Mineral Metabolism524926110.1007/s12018-008-9012-8Search in Google Scholar

Smith SM, Davis-Street JE, Rice BL, Nillen JL, Gillman PL, Block G (2001) Nutritional status assessment in semiclosed environments: Ground-based and space flight studies in humans. Journal of Nutrition131: 2053–2061SmithSMDavis-StreetJERiceBLNillenJLGillmanPLBlockG2001Nutritional status assessment in semiclosed environments: Ground-based and space flight studies in humansJournal of Nutrition1312053206110.1093/jn/131.7.205311435529Search in Google Scholar

Smith SM, Heer MA, Shackelford LC, Sibonga JD, Ploutz-Snyder L, Zwart SR (2012a) Benefits for bone from resistive exercise and nutrition in long-duration spaceflight: evidence from biochemistry and densitometry. Journal of Bone and Mineral Research27: 1896–1906SmithSMHeerMAShackelfordLCSibongaJDPloutz-SnyderLZwartSR2012aBenefits for bone from resistive exercise and nutrition in long-duration spaceflight: evidence from biochemistry and densitometryJournal of Bone and Mineral Research271896190610.1002/jbmr.164722549960Search in Google Scholar

Smith SM, Heer MA, Wang Z, Huntoon CL, Zwart SR (2012b) Long-duration space flight and bed rest effects on testosterone and other steroids. The Journal of Clinical Endocrinology and Metabolism, 97: 270–278SmithSMHeerMAWangZHuntoonCLZwartSR2012bLong-duration space flight and bed rest effects on testosterone and other steroidsThe Journal of Clinical Endocrinology and Metabolism9727027810.1210/jc.2011-2233325193022049169Search in Google Scholar

Smith SM, McCoy T, Gazda D, Morgan JLL, Heer M, Zwart SR (2012c) Space flight calcium: implications for astronaut health, spacecraft operations, and Earth. Nutrients, 4: 2047–2068SmithSMMcCoyTGazdaDMorganJLLHeerMZwartSR2012cSpace flight calcium: implications for astronaut health, spacecraft operations, and EarthNutrients42047206810.3390/nu4122047Search in Google Scholar

Smith SM, Rice BL, Dlouhy H, Zwart SR (2013) Assessment of Nutritional Intake During Space Flight and Space Flight Analogs. Procedia Food Science2: 27–34SmithSMRiceBLDlouhyHZwartSR2013Assessment of Nutritional Intake During Space Flight and Space Flight AnalogsProcedia Food Science2273410.1016/j.profoo.2013.04.006Search in Google Scholar

Smith SM, Zwart SR (2008) Chapter 3: Nutritional Biochemistry of Spaceflight. In Gregory S. Makowski (Ed.), Advances in Clinical Chemistry46: 87–130SmithSMZwartSR2008Chapter 3: Nutritional Biochemistry of SpaceflightInMakowskiGregory S.(Ed.),Advances in Clinical Chemistry468713010.1016/S0065-2423(08)00403-4Search in Google Scholar

Smith SM, Zwart SR, Block G, Rice BL, Davis-Street JE (2005) Nutritional status assessment of International Space Station crewmembers. Journal of Nutrtion135: 437–443SmithSMZwartSRBlockGRiceBLDavis-StreetJE2005Nutritional status assessment of International Space Station crewmembersJournal of Nutrtion13543744310.1093/jn/135.3.437Search in Google Scholar

Stauber WT (1989) A unique problem of muscle adaptation from Weightlessness: The deceleration deficiency. NASA Johnson Space Center, Workshop on Exercise Prescrition for Long-Duration Space Flight; p 57–59, (SEE N91-10574 01-52)StauberWT1989A unique problem of muscle adaptation from Weightlessness: The deceleration deficiencyNASA Johnson Space Center, Workshop on Exercise Prescrition for Long-Duration Space Flight5759(SEE N91-10574 01-52)Search in Google Scholar

Stein TP (2000) The relationship between dietary intake, exercise, energy balance and the space craft environment. Pflugers Archives441: R21–R31SteinTP2000The relationship between dietary intake, exercise, energy balance and the space craft environmentPflugers Archives441R21R3110.1007/s004240000352Search in Google Scholar

Stein TP, Leskiw MJ (2000) Oxidant damage during and after spaceflight. American Journal of Physiology Endocrinology and Metabolism278: E375–E382SteinTPLeskiwMJ2000Oxidant damage during and after spaceflightAmerican Journal of Physiology Endocrinology and Metabolism278E375E38210.1152/ajpendo.2000.278.3.E375Search in Google Scholar

Stein TP (2002) Space flight and oxidative stress. Nutrition18: 867–871SteinTP2002Space flight and oxidative stressNutrition1886787110.1016/S0899-9007(02)00938-3Search in Google Scholar

Stein TP, Leskiw MJ, Schulter MD, Hoyt RW, Lane HW, Gretebeck RE, Le Blanc AD (1999) Energy expenditure and balance during spaceflight on the space shuttle. American Journal of Physiology276: R1739–R1748SteinTPLeskiwMJSchulterMDHoytRWLaneHWGretebeckRELe BlancAD1999Energy expenditure and balance during spaceflight on the space shuttleAmerican Journal of Physiology276R1739R174810.1152/ajpregu.1999.276.6.R1739Search in Google Scholar

Stowe RP, Mehta SK, Ferrando AA, Feeback DL, Pierson DL (2001) Immune responses and latent herpesvirus reactivation in spaceflight. Aviation Space and Environmental Medicine72: 884–891StoweRPMehtaSKFerrandoAAFeebackDLPiersonDL2001Immune responses and latent herpesvirus reactivation in spaceflightAviation Space and Environmental Medicine72884891Search in Google Scholar

Stowe RP, Sams CF, Pierson DL (2003) Effects of mission duration on neuroimmunbe responses in astronauts. Aviation Space and Environmental Medicine74: 1281–1284StoweRPSamsCFPiersonDL2003Effects of mission duration on neuroimmunbe responses in astronautsAviation Space and Environmental Medicine7412811284Search in Google Scholar

Streeper T, Cavanagh PR, Hanson AM, Carpenter RD, Saeed I, Kornak J, Lang T (2011) Development of an integrated countermeasure device for use in long-duration spaceflight. Acta Astronautica, 68: 2029–2037StreeperTCavanaghPRHansonAMCarpenterRDSaeedIKornakJLangT2011Development of an integrated countermeasure device for use in long-duration spaceflightActa Astronautica682029203710.1016/j.actaastro.2010.11.002Search in Google Scholar

Strollo F (1999) Hormonal changes in humans during spaceflight. Advances in Space Biology and Medicine.7: 99–129StrolloF1999Hormonal changes in humans during spaceflightAdvances in Space Biology and Medicine79912910.1016/S1569-2574(08)60008-8Search in Google Scholar

Tesch PA, Trieschmann JT, Ekberg A (2004) Hypertrophy of chronically unloaded muscle subjected to resistance exercise. Journal of Applied Physiology96: 1451–1458TeschPATrieschmannJTEkbergA2004Hypertrophy of chronically unloaded muscle subjected to resistance exerciseJournal of Applied Physiology961451145810.1152/japplphysiol.01051.200314660503Search in Google Scholar

Trappe S, Costill D, Gallagher P, Creer A, Peters JR, Evans H, Riley DA, Fitts RH (2009) Exercise in Space: human skeletal muscle after 6 months aboard the International Space Station, Journal of Applied Physiology106: 1159–1168TrappeSCostillDGallagherPCreerAPetersJREvansHRileyDAFittsRH2009Exercise in Space: human skeletal muscle after 6 months aboard the International Space StationJournal of Applied Physiology1061159116810.1152/japplphysiol.91578.200819150852Search in Google Scholar

Whittle MW (1979) Caloric and exercise requirements of space flight: Biostereometric results from Skylab. Aviation Space and Environmental Medicine50: 163–167WhittleMW1979Caloric and exercise requirements of space flight: Biostereometric results from SkylabAviation Space and Environmental Medicine50163167Search in Google Scholar

Wickman L, Nota B, Keates S (2011) Lunar life support system study: metabolic energy and water considerations. July 16th, 2011 from http://www.apu.edu/cris/pdfs/cris_lunar_life.pdfWickmanLNotaBKeatesS2011Lunar life support system study: metabolic energy and water considerationsJuly 16th, 2011 from http://www.apu.edu/cris/pdfs/cris_lunar_life.pdfSearch in Google Scholar

Yang CB, Wang YC, Gao Y, Geng J, Wu YH, Zhang Y, Sun XQ (2011) Artificial gravity with ergometric exercise preserves the cardiac, but not cerebrovascular, functions during 4 days of head-down bed rest. Cytokine56: 648–655YangCBWangYCGaoYGengJWuYHZhangYSunXQ2011Artificial gravity with ergometric exercise preserves the cardiac, but not cerebrovascular, functions during 4 days of head-down bed restCytokine5664865510.1016/j.cyto.2011.09.00421962931Search in Google Scholar

Zwart SR, Gibson CR, Mader TH, Ericson K, Ploutz-Snyder L, Heer MA, Smith SM (2012) Vision changes after spaceflight are related to alterations in folate- and vitamin B-12-dependent one-carbon metabolism. The Journal of Nutrition142: 427–431ZwartSRGibsonCRMaderTHEricsonKPloutz-SnyderLHeerMASmithSM2012Vision changes after spaceflight are related to alterations in folate- and vitamin B-12-dependent one-carbon metabolismThe Journal of Nutrition14242743110.4016/38821.01Search in Google Scholar

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