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'{| class=wikitable style="text-align:center; font-size:11px; float:right; clear:right; margin:2px" |- bgcolor= style="font-size: smaller;" | colspan="3" style="text-align:center;"|'''Orbital human spaceflight''' |- ! Name !! Debut !! Launches <!-- manned launches to orbit--> |- | [[Vostok programme|Vostok]] || 1960 || 6 |- | [[Project Mercury|Mercury]] || 1962 || 4 <!-- excludes 2 suborbital --> |- | [[Voskhod programme|Voskhod]] || 1964 || 2 |- | [[Project Gemini|Gemini]] || 1965 || 10 |- | [[Soyuz programme|Soyuz]] || 1967 || 110 |- | [[Apollo program|Apollo]]/[[Skylab]] || 1968 || 15 |- | [[Space Shuttle|Shuttle]] || 1981 || 135 <!-- includes Challenger --> |- | [[Shenzhou program|Shenzhou]] || 2003 || 3 |- | colspan="3" style="text-align:center;"| |- bgcolor= style="font-size: smaller;" | colspan="3" style="text-align:center;"|'''Suborbital human spaceflight''' |- ! Name !! Debut !! Flights |- | [[Project Mercury|Mercury]] || 1961 || 2 |- | [[X-15#Highest flights|X-15]] || 1962 || 13 or 2 <!-- 50 miles up --> |- | ([[Soyuz 18a]], [[Soyuz T-10-1]]) || 1975, 1983 || 2 |- | [[SpaceShipOne]] || 2004 || 3 |- |} '''Human spaceflight''' (or manned spaceflight or crewed spaceflight) is [[spaceflight|space travel]] with [[Astronaut|humans]] on the [[spacecraft]]. When a spacecraft is manned, it can be piloted directly, as opposed to machine or robotic [[space probe]]s controlled remotely by humans or through automatic methods onboard the spacecraft. The first human spaceflight was launched on [[Cosmonautics Day|April 12, 1961]] by [[Soviet]] cosmonaut [[Yuri Gagarin]]. Currently, only [[Russia]] and [[China]] maintain human spaceflight capability independent of international cooperation. As of 2011, human spaceflights are being actively launched by the [[Soyuz programme]] conducted by the [[Russian Federal Space Agency]] and the [[Shenzhou program]] conducted by the [[China National Space Administration]]. This does not account for private non-government activities. The US lost human spaceflight launch capability upon retirement of the [[Space Shuttle]] on July 21, 2011. Under the Bush administration, the [[Constellation program]] included plans for canceling the Shuttle and replacing it with the capability for spaceflight beyond low Earth orbit. In the [[2011 United States federal budget]], the Obama administration proposed canceling Constellation in part due to Constellation being over budget and behind schedule while not innovating and investing in critical new technologies.<ref>[http://blogs.orlandosentinel.com/news_space_thewritestuff/2008/11/congressional-w.html Congressional watchdog finds NASA’s new rocket is in trouble]. Orlando Sentinel blog summary of official reports. 3 November 2008</ref> Under the new plan, NASA would rely on transportation services provided by the private sector, such as [[Space X]]'s [[Falcon 9]]. The period between the retirement of the Shuttle and the initial operational capability of new systems (either Constellation or the new commercial proposals), similar to the gap between the cancellation of [[Apollo program|Apollo]] and the [[STS-1|first Space Shuttle flight]], is often referred to as the human spaceflight gap. In recent years there has been a gradual movement towards more commercial forms of spaceflight. A number of non-governmental [[startup companies]] have sprung up in recent years, hoping to create a [[space tourism]] industry. For a list of such companies, and the spacecraft they are currently building, see [[List of private spaceflight companies]]. NASA has also tried to stimulate [[private spaceflight]] through programs such as [[Commercial Crew Development]] (CCDev) and [[Commercial Orbital Transportation Services]] (COTS). With its 2011 budget proposals released in early February 2010,<ref>{{cite web|url=http://www.nasa.gov/news/budget/index.html|title=FY 2011 Budget}}</ref> the Obama administration is moving towards a model where commercial companies would supply NASA with transportation services of both crew and cargo to low Earth orbit. The vehicles used for these services would then serve both NASA and potential commercial customers. NASA intends to spend $6 billion in the coming years to develop commercial crew vehicles, using a model similar to that used under COTS.<ref>{{cite web|url=http://www.nasa.gov/pdf/428356main_Exploration.pdf|title=Mission Directorate: Exploration Systems|format=PDF}}</ref> [[File:Cupola_above_the_darkened_Earth.jpg|thumb|right|The Earth at night and a person inside the ISS Cupola]] ==History== {{Main|History of spaceflight}} ===First human spaceflights=== [[File:Convert ru kosmos080.jpg|left|thumb|[[Yuri Gagarin]], the first person in space]] The first human spaceflight took place on April 12, 1961, when [[cosmonaut]] [[Yuri Gagarin]] made one orbit around the Earth aboard the [[Vostok 1]] spacecraft, launched by the [[Soviet space program]] and designed by the rocket scientist [[Sergey Korolyov]]. [[Valentina Tereshkova]] became the first woman in space on board [[Vostok 6]] on June 16, 1963. Both spacecraft were launched by [[Vostok 3KA]] launch vehicles. [[Alexei Leonov]] made the first [[spacewalk]] when he left the [[Voskhod 2]] on March 8, 1965. [[Svetlana Savitskaya]] became the first woman to do so on July 25, 1984. [[File:Aldrin Apollo 11 original.jpg|thumb|[[Buzz Aldrin]] on the surface of the [[Moon]] during [[Apollo 11]]]] The [[United States]] became the second nation to achieve manned spaceflight, with the suborbital flight of [[astronaut]] [[Alan Shepard]] aboard ''[[Freedom 7]]'', carried out as part of [[Project Mercury]]. The spacecraft was launched on May 5, 1961 on a [[Mercury-Redstone Launch Vehicle|Redstone rocket]]. The first U.S. orbital flight was that of [[John Glenn]] aboard ''[[Friendship 7]]'', which was launched February 20, 1962 on an [[SM-65D Atlas|Atlas]] rocket. Since 1981 the U.S. has conducted all its human spaceflight missions with reusable [[Space Shuttle]]s. [[Sally Ride]] became the first American woman in space in 1983. [[Eileen Collins]] was the first female Shuttle pilot, and with Shuttle mission [[STS-93]] in July 1999 she became the first woman to command a U.S. spacecraft. [[File:Long March 2F Carrier Rocket - Shenzhou 5.JPG|left|thumb|Launch of Shenzhou 5 in 2003]] The [[People's Republic of China]] became the third nation to achieve human spaceflight when [[Yang Liwei]] launched into space on a Chinese-made vehicle, the [[Shenzhou 5]], on October 15, 2003. The flight made China the third nation to have launched its own manned spacecraft using its own launcher. Previous European ([[Hermes (shuttle)|Hermes]]) and Japanese ([[HOPE-X]]) domestic manned programs were abandoned after years of development, as was the first Chinese attempt, the [[Shuguang spacecraft]]. The farthest destination for a human spaceflight mission has been the [[Moon]]. The only manned missions to the Moon have been those conducted by [[NASA]] as part of the [[Apollo program]]. The first such mission, [[Apollo 8]], orbited the Moon but did not land. The first Moon landing mission was [[Apollo 11]], during which—on July 20, 1969—[[Neil Armstrong]] and [[Buzz Aldrin]] became the first people to set foot on the Moon. Six missions landed in total, numbered Apollo 11–[[Apollo 17|17]], excluding [[Apollo 13]]. Altogether twelve men walked on the Moon, the only humans to have been on an extraterrestrial body. The Soviet Union discontinued its program for lunar orbiting and landing of human spaceflight missions on June 24, 1974 when [[Valentin Glushko]] became General Designer of [[NPO Energiya]].<ref> {{cite book|title = Challenge To Apollo The Soviet Union and The Space Race, 1945–1974|last = Siddiqi|first = Asif|page = 832|publisher = NASA|url = http://ntrs.nasa.gov/search.jsp?Ntk=all&Ntx=mode%20matchall&Ntt=SP-2000-4408}}</ref> [[File:Earth & Mir (STS-71).jpg|thumb|right|''Mir'' orbiting the Earth, a space station where many human spaceflight records were broken]] The longest single human spaceflight is that of [[Valeriy Polyakov]], who left earth on January 8, 1994, and did not return until March 22, 1995 (a total of 437 days 17 hr. 58 min. 16 sec. aboard). [[Sergei Krikalyov]] has spent the most time of anyone in space, 803 days, 9 hours, and 39 seconds altogether. The longest period of continuous human presence in space is over 10 years, 10 months on the [[International Space Station]]. The previous record for [[MIR]] was 3,644 days, eight days short of 10 years, spanning the launch of [[Soyuz TM-8]] on September 5, 1989 to the landing of [[Soyuz TM-29]] on August 28, 1999. For many years beginning in 1961, only two countries, the USSR (later [[Russia]]) and United States, had their own astronauts. Citizens of other nations flew in space, beginning with the flight of [[Vladimir Remek]], a [[Czech Republic|Czech]], on a Soviet spacecraft on March 2, 1978. {{As of|2010}}, citizens from 38 nations (including [[space tourism|space tourists]]) have flown in space aboard Soviet, American, Russian, and Chinese spacecraft. ==Space programs== [[File:Human spaceflight.svg|thumb|360px|right|Countries which have human spaceflight agendas.]] As of 2011, human spaceflight missions have been conducted by the former [[Soviet Union]]/([[Russian Federation]]), the [[United States]], the [[People's Republic of China]] and by the [[private spaceflight]] company [[Scaled Composites]].<!-- chronological order --> Several other countries and space agencies have announced and begun human spaceflight programs by their own technology, including [[India]] ([[ISRO]]), [[Ecuador]] ([[Ecuadorian Civilian Space Agency|EXA]]), [[Japan]] ([[JAXA]]), [[Iran]] ([[Iranian Space Agency|ISA]]) and [[Malaysia]] ([[Malaysian National Space Agency|MNSA]]). Currently the following [[spacecraft]] and [[spaceport]]s are used for launching human spaceflights: *[[Soyuz spacecraft|Soyuz]] with [[Soyuz (rocket family)|Soyuz rocket]]—[[Baikonur Cosmodrome]] *[[International Space Station]] (ISS)—Assembled in orbit; crews transported by previous spacecraft<!--The launch history of ISS components -- which on Shuttle; which on Proton -- should be adequately covered in the ISS articles. --> *[[Shenzhou spacecraft]] with [[Long March rocket]]—[[Jiuquan Satellite Launch Center]] [[File:STS-115 ISS after undocking.jpg|thumb|right|International Space Station under construction]] Historically, the following spacecraft and [[spaceport]]s have also been used for human spaceflight launches: *[[Vostok spacecraft|Vostok]]—Baikonur Cosmodrome *[[Project Mercury|Mercury]]—[[Cape Canaveral Air Force Station]] *[[Voskhod spacecraft|Voskhod]]—Baikonur Cosmodrome *[[X-15]]—[[Edwards Air Force Base]],<ref> {{cite web|url = http://www.nasa.gov/centers/dryden/news/FactSheets/FS-052-DFRC.html|title = X-15 Hypersonic Research Program|publisher = NASA}}</ref> (two internationally recognized suborbital flights in program) *[[Project Gemini|Gemini]]—Cape Canaveral Air Force Station *[[Apollo spacecraft|Apollo]]—Kennedy Space Center (Apollo 7 at Cape Canaveral Air Force Station) *[[Salyut]] space station—Baikonur Cosmodrome *[[Almaz]] space station—Baikonur Cosmodrome (Almaz was a series of military space stations under cover of the civilian name Salyut) *[[Skylab]] space station—Kennedy Space Center *[[Mir]] space station—Baikonur Cosmodrome *[[SpaceShipOne]] with [[Scaled Composites White Knight|White Knight]]—[[Mojave Spaceport]] *[[Space Shuttle]]—[[Kennedy Space Center]] Numerous private companies attempted human spaceflight programs in an effort to win the $10 million [[Ansari X Prize]]. The first private human spaceflight took place on June 21, 2004, when [[SpaceShipOne]] conducted a suborbital flight. SpaceShipOne captured the prize on October 4, 2004, when it accomplished two consecutive flights within one week. [[SpaceShipTwo]], launching from the carrier aircraft [[Scaled Composites WhiteKnightTwo|White Knight Two]], is planned to conduct regular suborbital space tourism. Most of the time, the only humans in space are those aboard the ISS, whose crew of six spends up to six months at a time in [[low Earth orbit]]. [[NASA]] and [[ESA]] now use the term "human spaceflight" to refer to their programs of launching people into space. Traditionally, these endeavors have been referred to as "manned space missions." {{Human Spaceflight Timeline}} ==National spacefaring attempts== {{Notice|This section list all nations which have the technologies to travel into space. This should not to be confused with [[List of space travelers by nationality|nations with citizens who have traveled into space]] including space tourists, flown or intended to fly by foreign country's or non-domestic private space systems – these are not counted as national spacefaring attempts in this list}} <!-- : Successfully executed manned programs are in '''bold'''. : [[Sub-orbital spaceflight|Suborbital]] spaceflights are in ''italics''. --> {| class="wikitable"| border=2 cellpadding="4" cellspacing="0" style="margin: 1em 1em 1em 0; border: 1px #aaa solid; border-collapse: collapse; font-size: 90%;" |- style="background:#f9f9b0;" ! Nation/Organization ! Space agency ! Term(s) for space human ! First launched astronaut ! Date ! Spacecraft ! Launcher ! Type |- | {{Flag|Union of Soviet Socialist Republics}}</br>(1922–1991) | [[Soviet space program]]<br />([[OKB-1|OKB-1 Design Bureau]])''' | космонавт&nbsp;{{ru icon}}<br />''kosmonavt''</br>cosmonaut | [[Yuri Gagarin]] | April 12, 1961 | [[Vostok spacecraft]] | [[Vostok rocket|Vostok]] | Orbital |- | {{Flag|United States of America}} | [[NASA|National Aeronautics and Space Administration (NASA)]] | astronaut</br>spaceflight participant | [[Alan Shepard]] (suborbital) | May 5, 1961 | [[Mercury spacecraft#Spacecraft|Mercury spacecraft]] | [[Mercury-Redstone Launch Vehicle|Redstone]] | Suborbital |- | {{Flag|United States of America}} | [[NASA|National Aeronautics and Space Administration (NASA)]] | astronaut</br>spaceflight participant | [[John Glenn]] (orbital) | February 20, 1962 - July 21, 2011 | [[Mercury spacecraft#Spacecraft|Mercury spacecraft]] | [[Atlas LV-3B]] | Orbital |- | {{Flag|People's Republic of China}} | [[Chinese space program|Space program of the People's Republic of China]] | 宇航员 {{zh icon}}<br />''yǔhángyuán''<br />航天员 {{zh icon}}<br />''hángtiānyuán''</br>taikonaut | ... | 1973 (abandoned) | [[Shuguang spacecraft|Shuguang 1]] | [[Long March 2A]] |- | {{Flag|People's Republic of China}} | [[Chinese space program|Space program of the People's Republic of China]] | 宇航员 {{zh icon}}<br />''yǔhángyuán''<br />航天员 {{zh icon}}<br />''hángtiānyuán'' | ... | 1981 (abandoned) | [[Fanhui Shi Weixing|Piloted FSW]] | [[Long March 2]] |- | {{Flag|European Union}} | [[CNES]] / [[European Space Agency|European Space Agency (ESA)]] | ''spationaute'' {{Fr icon}}<br />astronaut | ... | 1992 (abandoned) | [[Hermes (shuttle)|Hermes]] | [[Ariane V]] |- | {{Flagicon|Iraq|1991}} [[Ba'athist Iraq]]<br>(1968-2003)<ref>According to a press-release of Iraqi News Agency of December 5, 1989 about the first (and last) test of the [[Tammouz rocket|Tammouz]] space launcher, [[Iraq]] intended to develop manned space facilities by the end of the century. These plans were put to an end by the [[Gulf War]] of 1991 and the economic hard times that followed.</ref> | ... | رجل فضاء {{ar icon}}<br />''rajul faḍāʼ''<br />رائد فضاء {{ar icon}}<br />''rāʼib faḍāʼ''<br />ملاح فضائي {{ar icon}}<br />''mallāḥ faḍāʼiy'' | ... | 2001 (abandoned) | ... | [[Tammouz rocket|Tammouz 2 or 3]] |- | {{Flagicon|Japan}} [[State of Japan]] | [[National Space Development Agency of Japan|National Space Development Agency of Japan (NASDA)]] | 宇宙飛行士 {{ja icon}}<br />''uchūhikōshi'' | ... | 2003 (abandoned) | [[HOPE-X]] | [[H-II]] |- | {{Flag|People's Republic of China}} | [[China National Space Administration|China National Space Administration (CNSA)]] | 太空人 {{zh icon}}<br />tàikōng rén<br />宇航员 {{zh icon}}<br />yǔhángyuán<br />航天员 {{zh icon}}<br />hángtiānyuán | [[Yang Liwei]] | October 15, 2003 | [[Shenzhou (spacecraft)|Shenzhou spacecraft]] | [[Long March 2F]] | Orbital |- | {{Flagicon|India}} [[Republic of India]] | [[Indian Space Research Organisation|Indian Space Research Organisation (ISRO)]] | vyomanaut<br /> gaganaut<br />''aakashagaami''<br />आकाशगामि: &nbsp;{{Sa icon}}<br />''brahmāndagaami''<br /> ब्रह्मान्डगामि: &nbsp;{{Sa icon}}<br />''antarikshyaatri''<br />अन्तरिक्षयात्रि:&nbsp;{{Sa icon}} | ... | 2016 (approved)<ref name=ISRO>{{cite news|last =Beary |first =Habib |coauthors = |title =India announces first manned space mission |work =|page =1|publisher =BBC|date =2010-01-27|url =http://news.bbc.co.uk/2/hi/south_asia/8483787.stm| accessdate =}}</ref> | [[ISRO Orbital Vehicle|Orbital Vehicle (OV)]] | [[Geosynchronous Satellite Launch Vehicle|GSLV Mk II]] |- | {{Flagicon|Iran}} [[Islamic Republic of Iran]] | [[Iranian Space Agency|Iranian Space Agency (ISA)]] | کیهان نورد {{Fa icon}}<br /> ''kayhan navard'' <ref>[http://www.noojum.com/dictionary/156-k/535---cosmonaut-.html كيهان نورد (cosmonaut)]. Noojum.com. Retrieved on 2011-08-07.</ref> | ... | 2017 (planned)<ref>[http://www.presstv.ir/detail.aspx?id=137553&sectionid=3510212 PressTV: 'Iran to put astronaut in space in 2017']. Presstv.ir. Retrieved on 2011-08-07.</ref><ref>{{cite news| url=http://www.bbc.co.uk/news/world-middle-east-10747390 | work=BBC News | title=Iran aims to send man into space by 2019 | date=July 23, 2010}}</ref> | [[Iranian Space Agency#Manned space program|ISA manned spacecraft]] | ... |- | {{Flag|European Union}} | [[European Space Agency|European Space Agency (ESA)]] | astronaut | ... | 2020 (approved conceptually but full development not begun)<ref>{{cite news| url=http://news.bbc.co.uk/2/hi/science/nature/8139347.stm|work=BBC News|title=Europe targets manned spaceship|date=July 7, 2009|accessdate=March 27, 2010|first=Jonathan|last=Amos}}</ref><ref>[http://www.flightglobal.com/articles/2008/05/22/223941/apollo-like-capsule-chosen-for-crew-space-transportation.html Apollo-like capsule chosen for Crew Space Transportation System], 22 May 2008</ref><ref>[http://esamultimedia.esa.int/docs/ATV/infokit/english/Complete_Infokit_ATVreentry.pdf "Jules Verne" Automated Transfer Vehicle (ATV) Re-entry]. Information Kit (PDF) . Updated September 2008. European Space Agency. Retrieved on 2011-08-07.</ref><ref>{{cite news| url=http://news.bbc.co.uk/1/hi/sci/tech/7749761.stm|work=BBC News|title=Europe's 10bn-euro space vision|date=November 26, 2008|accessdate=March 27, 2010|first=Jonathan|last=Amos}}</ref> | [[Automated Transfer Vehicle|ARV phase-2]] | [[Ariane V]] |- | {{Flagicon|Japan}} [[State of Japan]] | [[Japan Aerospace Exploration Agency|Japan Aerospace Exploration Agency (JAXA)]] | 宇宙飛行士 {{ja icon}}<br />''uchūhikōshi'' | ... | 2025 (planned){{Citation needed|date=July 2010}} | [[H-II Transfer Vehicle|HTV-based spacecraft]] | [[H-IIB]] |- |} <!-- Please, DO NOT INCLUDE Equador. Its manned space program http://exa.ec/ESAA-PECE_files/frame.htm with first suborbital mission ESAA-01 is not based on indigenous technology. It will be one of the first payed client's missions aboard on foreign airplane-launched spacecraft [[Space Adventures Explorer|M55X+Explorer system]] that now is under development by Russian NPOM-Almaz company (former Myasishchev Bureau) according to order of British-US commercial space touristic company [[Space Adventures]]. --> ==Safety concerns== {{Expand section|date=April 2007}} {{See also| Space habitat|Effect of spaceflight on the human body}} Planners of human spaceflight missions face a number of safety concerns. ===Life support=== {{Main| Life support system}} The immediate needs for breathable air and drinkable water are addressed by the [[life support system]] of the spacecraft. {{See also|Astronautical hygiene}} ===Medical issues=== {{See also|Space medicine}} ====Effects of microgravity==== {{See also|Weightlessness}} [[File:Astronaut-EVA.jpg|thumb|right|Bruce McCandless floating free in orbit with a [[space suit]] and [[Manned Maneuvering Unit]].]] Medical data from astronauts in low earth orbits for long periods, dating back to the 1970s, show several adverse effects of a microgravity environment: loss of [[bone]] density, decreased muscle strength and endurance, postural instability, and reductions in aerobic capacity. Over time these [[deconditioning]] effects can impair astronauts’ performance or increase their risk of injury.<ref> {{cite web|url = http://exploration.grc.nasa.gov/Exploration/Advanced/Human/Exercise/|title = Exploration Systems Human Research Program – Exercise Countermeasures|publisher = NASA}}</ref> In a weightless environment, astronauts put almost no weight on the back [[muscle]]s or leg muscles used for standing up. Those muscles then start to weaken and eventually get smaller. If there is an emergency at landing, the loss of muscles, and consequently the loss of strength can be a serious problem. Sometimes, astronauts can lose up to 25% of their muscle mass on long term flights. When they get back to ground, they will be considerably weakened and will be out of action for a while.{{Citation needed|date=July 2010}} Astronauts experiencing weightlessness will often lose their orientation, get [[motion sickness]], and lose their sense of direction as their bodies try to get used to a weightless environment. When they get back to Earth, or any other mass with gravity, they have to readjust to the gravity and may have problems standing up, focusing their gaze, walking and turning. Importantly, those body motor disturbances after changing from different gravities only get worse the longer the exposure to little gravity.{{Citation needed|date=July 2010}} These changes will affect operational activities including approach and landing, docking, remote manipulation, and emergencies that may happen while landing. This can be a major roadblock to mission success.{{Citation needed|date=July 2010}} In addition, after long [[space flight]] missions, male astronauts may experience severe [[visual system|eyesight]] problems.<ref name="Mader-2011">{{cite journal|author=Mader, T. H. et al. |title=Optic Disc Edema, Globe Flattening, Choroidal Folds, and Hyperopic Shifts Observed in Astronauts after Long-duration Space Flight|url=http://www.ophsource.org/periodicals/ophtha/article/S0161-6420(11)00564-1/abstractOph |year=2011 |journal=[[Ophthalmology (journal)]] |volume=118 |issue=10|pages=2058–2069 |doi=10.1016/j.ophtha.2011.06.021 }}</ref><ref name="Puiu-20111109">{{cite web |last=Puiu |first=Tibi |title=Astronauts’ vision severely affected during long space missions|url=http://www.zmescience.com/medicine/astronaut-eyesight-damage-weightlessness-3214143/|date=November 9, 2011 |publisher=zmescience.com |accessdate=February 9, 2012 }}</ref><ref name="CNN-20120109">[http://www.cnn.com/video/#/video/us/2012/02/09/pkg-zarrella-astronaut-vision.cnnCNN News (CNN-TV, 02/09/2012) - Video (02:14) - Male Astronauts Return With Eye Problems]</ref><ref name="Space-20120313">{{cite web |author=Space Staff |title=Spaceflight Bad for Astronauts' Vision, Study Suggests |url=http://www.space.com/14876-astronaut-spaceflight-vision-problems.html |date=13 March 2012 |publisher=[[Space.com]] |accessdate=14 March 2012 }}</ref><ref name="Radiology-20120313">{{cite journal |author=Kramer, Larry A. et al. |title=Orbital and Intracranial Effects of Microgravity: Findings at 3-T MR Imaging |url=http://radiology.rsna.org/content/early/2012/03/07/radiol.12111986.abstract?sid=8682af1e-b07f-4ad9-8453-ee319bad639e |journal=[[Radiology (journal)]] |doi=10.1148/radiol.12111986 |date=13 March 2012 |accessdate=14 March 2012 }}</ref> Such eyesight problems may be a major concern for future deep space flight missions, including a [[manned mission]] to the planet [[Mars]].<ref name="Mader-2011" /><ref name="Puiu-20111109" /><ref name="CNN-20120109" /><ref name="Space-20120313" /> ====Radiation==== Without proper shielding the crews of missions beyond low Earth orbit (LEO) might be at risk from high-energy protons emitted by [[solar flare]]s. [[Lawrence Townsend]] of the University of Tennessee and others have studied [[Solar storm of 1859|the most powerful solar flare ever recorded]]. That flare was seen by the British astronomer [[Richard Carrington]] in September 1859. Radiation doses astronauts would receive from a Carrington-type flare could cause acute radiation sickness and possibly even death.<ref>{{cite web |url=http://www.newscientist.com/article/dn7142 |title= Superflares could kill unprotected astronauts|work=New Scientist |date=21 March 2005 |author=Stephen Battersby}}</ref> Another type of radiation, [[galactic cosmic ray]]s, present further challenges to human spaceflight beyond LEO.<ref>{{cite book|isbn=0-309-10264-2|url=http://www.nap.edu/catalog.php?record_id=11760 |title=Space Radiation Hazards and the Vision for Space Exploration |publisher=NAP |year=2006}}</ref> =====Radiation damage to the immune system===== {{See also|Health threat from cosmic rays}} There is also some scientific concern that extended space flight might slow down the body’s ability to protect itself against diseases.<ref>{{cite journal|doi=10.1189/jlb.0309167 |title=Could spaceflight-associated immune system weakening preclude the expansion of human presence beyond Earth's orbit|year=2009|last1=Gueguinou|first1=N.|last2=Huin-Schohn|first2=C.|last3=Bascove|first3=M.|last4=Bueb|first4=J.-L.|last5=Tschirhart|first5=E.|last6=Legrand-Frossi|first6=C.|last7=Frippiat|first7=J.-P.|journal=Journal of Leukocyte Biology|volume=86|issue=5|pages=1027–1038|pmid=19690292}}</ref> Some of the problems are a weakened [[immune system]] and the activation of dormant [[virus]]es in the body. [[Radiation]] can cause both short and long term consequences to the bone marrow stem cells which create the blood and immune systems. Because the interior of a spacecraft is so small, a weakened immune system and more active viruses in the body can lead to a fast spread of infection.{{Citation needed|date=July 2010}} ====Isolation==== During long missions, astronauts are [[Isolation (psychology)|isolated]] and confined into small spaces. [[depression (mood)|Depression]], [[cabin fever]] and other psychological problems may impact the crew's safety and mission success.{{Citation needed|date=March 2009}} Astronauts may not be able to quickly return to Earth or receive medical supplies, equipment or personnel if a medical emergency occurs. The astronauts may have to rely for long periods on their limited existing resources and medical advice from the ground. ===Launch safety=== {{See also| Space launch| Pad abort test}} ===Reentry safety=== {{See also| Atmospheric reentry}} ===Reliability=== {{See also| Reliability engineering}} ===Fatality risk=== {{See also|Space accidents and incidents#Spaceflight fatalities}} {{As of|2010}}, 18 crew members have died during actual spaceflight missions (see table). Over 100 others have died in accidents during activity directly related to spaceflight missions or testing. {| class="wikitable" |- !Year !#of Deaths !Mission !Known or likely cause |- | 1967 |style="text-align: center;"| 1 | [[Soyuz 1]] | [[Physical trauma|Trauma]] from crash landing |- | 1971 |style="text-align: center;"| 3 | [[Soyuz 11]] | [[Asphyxia]] |- | 1986 |style="text-align: center;"| 7 | [[Space Shuttle Challenger disaster|Space Shuttle Challenger]] | Inconclusive - [[asphyxia]] from cabin breach or [[Physical trauma|trauma]] from ground impact are most probable causes<ref>{{cite web |url= http://history.nasa.gov/kerwin.html |title= Report from Joseph P. Kerwin, biomedical specialist from the Johnson Space Center in Houston, Texas, relating to the deaths of the astronauts in the Challenger accident |accessdate=8 February 2012}}</ref> |- | 2003 |style="text-align: center;"| 7 | [[Space Shuttle Columbia disaster|Space Shuttle Columbia]] | [[Asphyxia]] from cabin breach, [[Physical trauma|trauma]] from object impact, or [[burn]]s from re-entry heat{{Citation needed|date=February 2010}}<!-- need a citation for this claim; other sources have indicated some (all?) deaths may have been caused from excessive g-forces or heat from rapid deceleration once the integrity of the cabin was breached, ostensibly, prior to the time asphyxiation could have occurred. --> |} ==See also== {{Spaceflight sidebar}} {{Portal box|Spaceflight}} *[[List of spaceflight records]] *[[Mars to Stay]] *[[Monkeys in space]] *[[Space medicine]] ==References== {{Refimprove|date=October 2007}} {{Reflist|2}} ==External links== *[http://spaceflight.nasa.gov/ NASA Human Space Flight] *[http://www.nasa.gov/constellation Official Constellation NASA Web Site] *[http://www.nasa.gov/orion Official Orion NASA Web Site] *[http://www.nasa.gov/ares Official Ares NASA Web Site] *[http://solarsystem.nasa.gov/missions/profile.cfm?MCode=Human_Spaceflight Human Spaceflight Profile] by [http://solarsystem.nasa.gov NASA's Solar System Exploration] *[http://www.nasaconstellation.com Transitioning to the NASA Constellation Program] *[http://www.spaceflighthistory.com U.S. Spaceflight History] {{Public sector space agencies}} {{Spaceflight}} {{Space exploration lists and timelines}} {{DEFAULTSORT:Human Spaceflight}} [[Category:Human spaceflight| ]] [[Category:Space policy]] [[Category:Life in space]] <!--Other languages--> [[ca:Vol espacial tripulat]] [[da:Bemandet rummission]] [[de:Bemannte Raumfahrt]] [[es:Vuelo espacial tripulado]] [[fr:Vol spatial habité]] [[id:Misi antariksa berawak]] [[he:אדם בחלל]] [[hu:Űrrepülés]] [[mk:Човечки вселенски летови]] [[nl:Bemande ruimtevaart]] [[ja:有人宇宙飛行]] [[pl:Załogowy lot kosmiczny]] [[pt:Voo espacial tripulado]] [[ru:Пилотируемый космический полёт]] [[fi:Miehitetyt avaruuslennot]] [[ta:மனித விண்வெளிப்பறப்பு]] [[th:การบินอวกาศ]] [[tr:İnsanlı uzay uçuş programı]] [[yo:Ìfòlókè òfurufú ènìyàn]] [[zh:载人航天]]'