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Wikipedia

Motion sickness

January 01, 1970

For other uses, see Motion Sickness (disambiguation).

Motion sickness occurs due to a difference between actual and expected motion.[1][2][4] Symptoms commonly include nausea, vomiting, cold sweat, headache, dizziness, tiredness, loss of appetite, and increased salivation.[1][5] Complications may rarely include dehydration, electrolyte problems, or a lower esophageal tear.[2]

Motion sickness
Other namesKinetosis, travel sickness, seasickness, airsickness, carsickness, simulation sickness, space motion sickness, space adaptation syndrome
A drawing of people with seasickness from 1841
SpecialtyNeurology
SymptomsNausea, vomiting, cold sweat, increased salivation[1][2]
ComplicationsDehydration, electrolyte problems, lower esophageal tear[2]
CausesReal or perceived motion[1][2]
Risk factorsPregnancy, migraines, Ménière's disease[2]
Diagnostic methodBased on symptoms[2]
Differential diagnosisBenign paroxysmal positional vertigo, vestibular migraine, stroke[2]
PreventionAvoidance of triggers[2]
TreatmentBehavioral measures, medications[3]
MedicationScopolamine, dimenhydrinate, dexamphetamine[3]
PrognosisGenerally resolve within a day[2]
FrequencyNearly all people with sufficient motion; roughly one-third highly susceptible[3]

The cause of motion sickness is either real or perceived motion.[2] This may include car travel, air travel, sea travel, space travel, or reality simulation.[2] Risk factors include pregnancy, migraines, and Ménière's disease.[2] The diagnosis is based on symptoms.[2]

Treatment may include behavioral measures or medications.[3] Behavioral measures include keeping the head still and focusing on the horizon.[6][7] Three types of medications are useful: antimuscarinics such as scopolamine, H1 antihistamines such as dimenhydrinate, and amphetamines such as dexamphetamine.[3] Side effects, however, may limit the use of medications.[3] A number of medications used for nausea such as ondansetron are not effective for motion sickness.[3]

Nearly all people are affected with sufficient motion[2] and most people will experience motion sickness at least once in their lifetime.[8] Susceptibility, however, is variable, with about one-third of the population being highly susceptible while most other people are affected under extreme conditions.[2] Women are more easily affected than men.[9] Motion sickness has been described since at least the time of Homer (c. eighth century BC).[10]

Signs and symptoms edit

Symptoms commonly include nausea, vomiting, cold sweat, headache, dizziness, tiredness, loss of appetite, and increased salivation.[2][5] Occasionally, tiredness can last for hours to days after an episode of motion sickness, known as "sopite syndrome".[2] Rarely severe symptoms such as the inability to walk, ongoing vomiting, or social isolation may occur while rare complications may include dehydration, electrolyte problems, or a lower esophageal tear from severe vomiting.[2]

Cause edit

Motion sickness can be divided into three categories:[citation needed]

  1. Motion sickness caused by motion that is felt but not seen i.e. terrestrial motion sickness;
  2. Motion sickness caused by motion that is seen but not felt i.e. space motion sickness;
  3. Motion sickness caused when both systems detect motion but they do not correspond i.e. either terrestrial or space motion sickness.

Motion felt but not seen edit

In these cases, motion is sensed by the vestibular system and hence the motion is felt, but no motion or little motion is detected by the visual system, as in terrestrial motion sickness.[citation needed]

Carsickness edit

A specific form of terrestrial motion sickness, being carsick is quite common and evidenced by disorientation while reading a map, a book, or a small screen during travel. Carsickness results from the sensory conflict arising in the brain from differing sensory inputs. Motion sickness is caused by a conflict between signals arriving in the brain from the inner ear, which forms the base of the vestibular system, the sensory apparatus that deals with movement and balance, and which detects motion mechanically. If someone is looking at a stationary object within a vehicle, such as a magazine, their eyes will inform their brain that what they are viewing is not moving. Their inner ears, however, will contradict this by sensing the motion of the vehicle.[11]

Varying theories exist as to cause. The sensory conflict theory notes that the eyes view motion while riding in the moving vehicle while other body sensors sense stillness, creating conflict between the eyes and inner ear. Another suggests the eyes mostly see the interior of the car which is motionless while the vestibular system of the inner ear senses motion as the vehicle goes around corners or over hills and even small bumps. Therefore, the effect is worse when looking down but may be lessened by looking outside of the vehicle.

In the early 20th century, Austro-Hungarian scientist Róbert Bárány observed the back and forth movement of the eyes of railroad passengers as they looked out the side windows at the scenery whipping by. He called this "railway nystagmus", also known as "optokinetic nystagmus". His findings were published in the journal Laeger, 83:1516, Nov.17, 1921.

Airsickness edit

Main article: Airsickness

Air sickness is a kind of terrestrial motion sickness induced by certain sensations of air travel.[12] It is a specific form of motion sickness and is considered a normal response in healthy individuals. It is essentially the same as carsickness but occurs in an airplane. An airplane may bank and tilt sharply, and unless passengers are sitting by a window, they are likely to see only the stationary interior of the plane due to the small window sizes and during flights at night. Another factor is that while in flight, the view out of windows may be blocked by clouds, preventing passengers from seeing the moving ground or passing clouds.[citation needed]

Seasickness edit

Seasickness is a form of terrestrial motion sickness characterized by a feeling of nausea and, in extreme cases, vertigo experienced after spending time on a boat.[12] It is essentially the same as carsickness, though the motion of a watercraft tends to be more regular. It is typically brought on by the rocking motion of the craft[13][14] or movement while the craft is immersed in water.[15] As with airsickness, it can be difficult to visually detect motion even if one looks outside the boat since water does not offer fixed points with which to visually judge motion. Poor visibility conditions, such as fog, may worsen seasickness. The greatest contributor to seasickness is the tendency for people being affected by the rolling or surging motions of the craft to seek refuge below decks, where they are unable to relate themselves to the boat's surroundings and consequent motion. Some people with carsickness are resistant to seasickness and vice versa.[citation needed] Adjusting to the craft's motion at sea is called "gaining one's sea legs"; it can take a significant portion of the time spent at sea after disembarking to regain a sense of stability "post-sea legs".

Centrifuge motion sickness edit

Rotating devices such as centrifuges used in astronaut training and amusement park rides such as the Rotor, Mission: Space and the Gravitron can cause motion sickness in many people. While the interior of the centrifuge does not appear to move, one will experience a sense of motion.[dubious discuss] In addition, centrifugal force can cause the vestibular system to give one the sense that downward is in the direction away from the center of the centrifuge rather than the true downward direction.[16]

Dizziness due to spinning edit

When one spins and stops suddenly, fluid in the inner ear continues to rotate causing a sense of continued spinning while one's visual system no longer detects motion.[citation needed]

Virtual reality edit

Main article: Virtual reality sickness

Usually, VR programs would detect the motion of the user's head and adjust the rotation of vision to avoid dizziness. However, some cases such as system lagging or software crashing could cause lags in the screen updates. In such cases, even some small head motions could trigger the motion sickness by the defense mechanism mentioned below: the inner ear transmits to the brain that it senses motion, but the eyes tell the brain that everything is still.

Motion seen but not felt edit

In these cases, motion is detected by the visual system and hence the motion is seen, but no motion or little motion is sensed by the vestibular system. Motion sickness arising from such situations has been referred to as "visually induced motion sickness" (VIMS).[17]

Space motion sickness edit

Main article: Space adaptation syndrome

Zero gravity interferes with the vestibular system's gravity-dependent operations, so that the two systems, vestibular and visual, no longer provide a unified and coherent sensory representation. This causes unpleasant disorientation sensations often quite distinct from terrestrial motion sickness, but with similar symptoms. The symptoms may be more intense because a condition caused by prolonged weightlessness is usually quite unfamiliar.[citation needed]

Space motion sickness was effectively unknown during the earliest spaceflights because the very cramped conditions of the spacecraft allowed for only minimal bodily motion, especially head motion. Space motion sickness seems to be aggravated by being able to freely move around, and so is more common in larger spacecraft.[12] Around 60% of Space Shuttle astronauts experienced it on their first flight; the first case of space motion sickness is now thought to be the Soviet cosmonaut Gherman Titov, in August 1961 onboard Vostok 2, who reported dizziness, nausea, and vomiting. The first severe cases were in early Apollo flights; Frank Borman on Apollo 8 and Rusty Schweickart on Apollo 9. Both experienced identifiable and quite unpleasant symptoms—in the latter case causing the mission plan to be modified.[citation needed]

Screen images edit

This type of terrestrial motion sickness is particularly prevalent when susceptible people are watching films presented on very large screens such as IMAX, but may also occur in regular format theaters or even when watching TV or playing games. For the sake of novelty, IMAX and other panoramic type theaters often show dramatic motions such as flying over a landscape or riding a roller coaster.

In regular-format theaters, an example of a movie that caused motion sickness in many people is The Blair Witch Project. Theaters warned patrons of its possible nauseating effects, cautioning pregnant women in particular. Blair Witch was filmed with a handheld camcorder, which was subjected to considerably more motion than the average movie camera,[18] and lacks the stabilization mechanisms of steadicams.

Home movies, often filmed with a cell phone camera, also tend to cause motion sickness in those who view them. The person holding the cell phone or other camera usually is unaware of this as the recording is being made since the sense of motion seems to match the motion seen through the camera's viewfinder. Those who view the film afterward only see the movement, which may be considerable, without any sense of motion. Using the zoom function seems to contribute to motion sickness as well since zooming is not a normal function of the eye. The use of a tripod or a camera or cell phone with image stabilization while filming can reduce this effect.[citation needed]

Virtual reality edit

See also: Virtual reality sickness

Motion sickness due to virtual reality is very similar to simulation sickness and motion sickness due to films.[19] In virtual reality the effect is made more acute as all external reference points are blocked from vision, the simulated images are three-dimensional and in some cases stereo sound that may also give a sense of motion. The NADS-1, a simulator located at the National Advanced Driving Simulator, is capable of accurately stimulating the vestibular system with a 360-degree horizontal field of view and 13 degrees of freedom motion base.[20] Studies have shown that exposure to rotational motions in a virtual environment can cause significant increases in nausea and other symptoms of motion sickness.[21]

In a study conducted by the U.S. Army Research Institute for the Behavioral and Social Sciences in a report published May 1995 titled "Technical Report 1027 – Simulator Sickness in Virtual Environments", out of 742 pilot exposures from 11 military flight simulators, "approximately half of the pilots (334) reported post-effects of some kind: 250 (34%) reported that symptoms dissipated in less than one hour, 44 (6%) reported that symptoms lasted longer than four hours, and 28 (4%) reported that symptoms lasted longer than six hours. There were also four (1%) reported cases of spontaneously occurring flashbacks."[22]

Motion that is seen and felt edit

When moving within a rotating reference frame such as in a centrifuge or environment where gravity is simulated with centrifugal force, the coriolis effect causes a sense of motion in the vestibular system that does not match the motion that is seen.[citation needed]

Pathophysiology edit

There are various hypotheses that attempt to explain the cause of the condition.

Sensory conflict theory edit

Contemporary sensory conflict theory, referring to "a discontinuity between either visual, proprioceptive, and somatosensory input, or semicircular canal and otolith input", is probably the most thoroughly studied.[23] According to this theory, when the brain presents the mind with two incongruous states of motion, the result is often nausea and other symptoms of disorientation known as motion sickness.[why?] Such conditions happen when the vestibular system and the visual system do not present a synchronized and unified representation of one's body and surroundings.[24]

According to sensory conflict theory, the cause of terrestrial motion sickness is the opposite of the cause of space motion sickness. The former occurs when one perceives visually that one's surroundings are relatively immobile while the vestibular system reports that one's body is in motion relative to its surroundings.[12] The latter can occur when the visual system perceives that one's surroundings are in motion while the vestibular system reports relative bodily immobility (as in zero gravity.)[citation needed]

Neural mismatch edit

A variation of the sensory conflict theory is known as neural mismatch, implying a mismatch occurring between ongoing sensory experience and long-term memory rather than between components of the vestibular and visual systems. This theory emphasizes "the limbic system in the integration of sensory information and long-term memory, in the expression of the symptoms of motion sickness, and the impact of anti-motion-sickness drugs and stress hormones on limbic system function. The limbic system may be the neural mismatch center of the brain."[25]

Defense against poisoning edit

It has also been proposed that motion sickness could function as a defense mechanism against neurotoxins.[26] The area postrema in the brain is responsible for inducing vomiting when poisons are detected, and for resolving conflicts between vision and balance. When feeling motion but not seeing it (for example, in the cabin of a ship with no portholes), the inner ear transmits to the brain that it senses motion, but the eyes tell the brain that everything is still. As a result of the incongruity, the brain concludes that the individual is hallucinating and further concludes that the hallucination is due to poison ingestion. The brain responds by inducing vomiting, to clear the supposed toxin. Treisman's indirect argument has recently been questioned via an alternative direct evolutionary hypothesis, as well as modified and extended via a direct poison hypothesis.[27] The direct evolutionary hypothesis essentially argues that there are plausible means by which ancient real or apparent motion could have contributed directly to the evolution of aversive reactions, without the need for the co-opting of a poison response as posited by Treisman. Nevertheless, the direct poison hypothesis argues that there still are plausible ways in which the body's poison response system may have played a role in shaping the evolution of some of the signature symptoms that characterize motion sickness.[citation needed]

Nystagmus hypothesis edit

Yet another theory, known as the nystagmus hypothesis,[28] has been proposed based on stimulation of the vagus nerve resulting from the stretching or traction of extra-ocular muscles co-occurring with eye movements caused by vestibular stimulation. There are three critical aspects to the theory: first is the close linkage between activity in the vestibular system, i.e., semicircular canals and otolith organs, and a change in tonus among various of each eye's six extra-ocular muscles. Thus, with the exception of voluntary eye movements, the vestibular and oculomotor systems are thoroughly linked. Second is the operation of Sherrington's Law[29] describing reciprocal inhibition between agonist-antagonist muscle pairs, and by implication the stretching of extraocular muscle that must occur whenever Sherrington's Law is made to fail, thereby causing an unrelaxed (contracted) muscle to be stretched. Finally, there is the critical presence of afferent output to the Vagus nerves as a direct result of eye muscle stretch or traction.[30] Thus, tenth nerve stimulation resulting from eye muscle stretch is proposed as the cause of motion sickness. The theory explains why labyrinthine-defective individuals are immune to motion sickness;[31][32] why symptoms emerge when undergoing various body-head accelerations; why combinations of voluntary and reflexive eye movements may challenge the proper operation of Sherrington's Law, and why many drugs that suppress eye movements also serve to suppress motion sickness symptoms.[33]

A recent theory [34] argues that the main reason motion sickness occurs is due to an imbalance in vestibular outputs favoring the semicircular canals (nauseogenic) vs. otolith organs (anti-nauseogenic). This theory attempts to integrate previous theories of motion sickness. For example, there are many sensory conflicts that are associated with motion sickness and many that are not, but those in which canal stimulation occurs in the absence of normal otolith function (e.g., in free fall) are the most provocative. The vestibular imbalance theory is also tied to the different roles of the otoliths and canals in autonomic arousal (otolith output more sympathetic).[citation needed]

Diagnosis edit

The diagnosis is based on symptoms.[2] Other conditions that may present similarly include vestibular disorders such as benign paroxysmal positional vertigo and vestibular migraine and stroke.[2]

Treatment edit

Treatment may include behavioral measures or medications.[3]

Behavioral measures edit

Behavioral measures to decrease motion sickness include holding the head still and lying on the back.[3] Focusing on the horizon may also be useful.[2] Listening to music, mindful breathing, being the driver, and not reading while moving are other techniques.[2]

Habituation is the most effective technique but requires significant time.[2] It is often used by the military for pilots.[2] These techniques must be carried out at least every week to retain effectiveness.[2]

A head-worn, computer device with a transparent display can be used to mitigate the effects of motion sickness (and spatial disorientation) if visual indicators of the wearer's head position are shown.[35] Such a device functions by providing the wearer with digital reference lines in their field of vision that indicate the horizon's position relative to the user's head. This is accomplished by combining readings from accelerometers and gyroscopes mounted in the device. This technology has been implemented in both standalone devices[36] and Google Glass.[37][38] One promising looking treatment is to wear LCD shutter glasses that create a stroboscopic vision of 4 Hz with a dwell of 10 milliseconds.[39]

Medication edit

Three types of medications are sometimes prescribed to improve symptoms of motion sickness: antimuscarinics such as scopolamine, H1 antihistamines such as dimenhydrinate, and amphetamines such as dexamphetamine.[3] Benefits are greater if used before the onset of symptoms or shortly after symptoms begin.[2] Side effects, however, may limit the use of medications.[3] A number of medications used for nausea such as ondansetron and metoclopramide are not effective in motion sickness.[3][2]

Scopolamine (antimuscarinic) edit

Scopolamine is the most effective medication.[2] Evidence is best for when it is used preventatively.[40] It is available as a skin patch.[2] Side effects may include blurry vision.[2]

Antihistamines edit

Antihistamine medications are sometimes given to prevent or treat motion sickness. This class of medication is often effective at reducing the risk of getting motion sickness while in motion, however, the effectiveness of antihistamines at treating or stopping motion sickness once a person is already experiencing it has not been well studied.[41] Effective first generation antihistamines include doxylamine, diphenhydramine, promethazine, meclizine, cyclizine, and cinnarizine.[2] In pregnancy meclizine, dimenhydrinate and doxylamine are generally felt to be safe.[2] Side effects include sleepiness.[2][41] Second generation antihistamines have not been found to be useful.[2]

Amphetamines edit

Dextroamphetamine may be used together with an antihistamine or an antimuscarinic.[2] Concerns include their addictive potential.[2]

Those involved in high-risk activities, such as SCUBA diving, should evaluate the risks versus the benefits of medications.[42][43][44][45][46] Promethazine combined with ephedrine to counteract the sedation is known as "the Coast Guard cocktail".[47]

Alternative medicine edit

Alternative treatments include acupuncture and ginger, although their effectiveness against motion sickness is variable.[3][48][49][50] Providing smells does not appear to have a significant effect on the rate of motion sickness.[3]

Epidemiology edit

Roughly one-third of people are highly susceptible to motion sickness, and most of the rest get motion sick under extreme conditions. Around 80% of the general population is susceptible to cases of medium to high motion sickness. The rates of space motion sickness have been estimated at between forty and eighty percent of those who enter weightless orbit. Several factors influence susceptibility to motion sickness, including sleep deprivation and the cubic footage allocated to each space traveler. Studies indicate that women are more likely to be affected than men,[2] and that the risk decreases with advancing age. There is some evidence that people with Asian ancestry may develop motion sickness more frequently than people of European ancestry, and there are situational and behavioral factors, such as whether a passenger has a view of the road ahead, and diet and eating behaviors.[51]

See also edit

  • Mal de debarquement - disembarkment syndrome, usually follows a cruise or other motion experience

References edit

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  45. ^ Williams TH, Wilkinson AR, Davis FM, Frampton CM (March 1988). . Undersea Biomedical Research. 15 (2): 89–98. PMID 3363755. Archived from the original on August 20, 2008. Retrieved 2008-05-09.{{cite journal}}: CS1 maint: unfit URL (link)
  46. ^ Arieli R, Shupak A, Shachal B, Shenedrey A, Ertracht O, Rashkovan G (1999). . Undersea and Hyperbaric Medicine. 26 (2): 105–09. PMID 10372430. Archived from the original on October 7, 2008. Retrieved 2008-05-09.{{cite journal}}: CS1 maint: unfit URL (link)
  47. ^ East Carolina University Department of Diving & Water Safety. (PDF). Archived from the original (PDF) on 2017-08-29. Retrieved 2017-02-07.
  48. ^ Stern, RM; Jokerst, MD; Muth, ER; Hollis, C (Jul–Aug 2001). "Acupressure relieves the symptoms of motion sickness and reduces abnormal gastric activity". Alternative Therapies in Health and Medicine. 7 (4): 91–94. PMID 11452572.
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  50. ^ Han-Chung, Lien; Wei Ming, Sun; Yen-Hsueh, Chen; Hyerang, Kim; William, Hasler; Chung, Owyang (11 March 2003). "Effects of ginger on motion sickness and gastric slow-wave dysrhythmias induced by circular vection". American Journal of Physiology. Gastrointestinal and Liver Physiology. 284 (3): 481–489. doi:10.1152/ajpgi.00164.2002. PMID 12576305.
  51. ^ Hromatka BS, Tung JY, Kiefer AK, Do CB, Hinds DA, Eriksson N (May 2015). "Genetic variants associated with motion sickness point to roles for inner ear development, neurological processes and glucose homeostasis". Hum. Mol. Genet. 24 (9): 2700–08. doi:10.1093/hmg/ddv028. PMC 4383869. PMID 25628336.

External links edit

 
Look up motion sickness in Wiktionary, the free dictionary.
 
Wikimedia Commons has media related to Motion sickness.
  • Davis, Christopher J.; Lake-Bakaar, Gerry V.; Grahame-Smith, David G. (2012). Nausea and Vomiting: Mechanisms and Treatment. Springer Science & Business Media. p. 123. ISBN 978-3-642-70479-6.
  • Motion Sickness from MedlinePlus

January 01, 1970
motion, sickness, other, uses, motion, sickness, disambiguation, occurs, difference, between, actual, expected, motion, symptoms, commonly, include, nausea, vomiting, cold, sweat, headache, dizziness, tiredness, loss, appetite, increased, salivation, complicat. For other uses see Motion Sickness disambiguation Motion sickness occurs due to a difference between actual and expected motion 1 2 4 Symptoms commonly include nausea vomiting cold sweat headache dizziness tiredness loss of appetite and increased salivation 1 5 Complications may rarely include dehydration electrolyte problems or a lower esophageal tear 2 Motion sicknessOther namesKinetosis travel sickness seasickness airsickness carsickness simulation sickness space motion sickness space adaptation syndromeA drawing of people with seasickness from 1841SpecialtyNeurologySymptomsNausea vomiting cold sweat increased salivation 1 2 ComplicationsDehydration electrolyte problems lower esophageal tear 2 CausesReal or perceived motion 1 2 Risk factorsPregnancy migraines Meniere s disease 2 Diagnostic methodBased on symptoms 2 Differential diagnosisBenign paroxysmal positional vertigo vestibular migraine stroke 2 PreventionAvoidance of triggers 2 TreatmentBehavioral measures medications 3 MedicationScopolamine dimenhydrinate dexamphetamine 3 PrognosisGenerally resolve within a day 2 FrequencyNearly all people with sufficient motion roughly one third highly susceptible 3 The cause of motion sickness is either real or perceived motion 2 This may include car travel air travel sea travel space travel or reality simulation 2 Risk factors include pregnancy migraines and Meniere s disease 2 The diagnosis is based on symptoms 2 Treatment may include behavioral measures or medications 3 Behavioral measures include keeping the head still and focusing on the horizon 6 7 Three types of medications are useful antimuscarinics such as scopolamine H1 antihistamines such as dimenhydrinate and amphetamines such as dexamphetamine 3 Side effects however may limit the use of medications 3 A number of medications used for nausea such as ondansetron are not effective for motion sickness 3 Nearly all people are affected with sufficient motion 2 and most people will experience motion sickness at least once in their lifetime 8 Susceptibility however is variable with about one third of the population being highly susceptible while most other people are affected under extreme conditions 2 Women are more easily affected than men 9 Motion sickness has been described since at least the time of Homer c eighth century BC 10 Contents 1 Signs and symptoms 2 Cause 2 1 Motion felt but not seen 2 1 1 Carsickness 2 1 2 Airsickness 2 1 3 Seasickness 2 1 4 Centrifuge motion sickness 2 1 5 Dizziness due to spinning 2 1 6 Virtual reality 2 2 Motion seen but not felt 2 2 1 Space motion sickness 2 2 2 Screen images 2 2 3 Virtual reality 2 3 Motion that is seen and felt 3 Pathophysiology 3 1 Sensory conflict theory 3 2 Neural mismatch 3 3 Defense against poisoning 3 4 Nystagmus hypothesis 4 Diagnosis 5 Treatment 5 1 Behavioral measures 5 2 Medication 5 2 1 Scopolamine antimuscarinic 5 2 2 Antihistamines 5 2 3 Amphetamines 5 3 Alternative medicine 6 Epidemiology 7 See also 8 References 9 External linksSigns and symptoms editSymptoms commonly include nausea vomiting cold sweat headache dizziness tiredness loss of appetite and increased salivation 2 5 Occasionally tiredness can last for hours to days after an episode of motion sickness known as sopite syndrome 2 Rarely severe symptoms such as the inability to walk ongoing vomiting or social isolation may occur while rare complications may include dehydration electrolyte problems or a lower esophageal tear from severe vomiting 2 Cause editMotion sickness can be divided into three categories citation needed Motion sickness caused by motion that is felt but not seen i e terrestrial motion sickness Motion sickness caused by motion that is seen but not felt i e space motion sickness Motion sickness caused when both systems detect motion but they do not correspond i e either terrestrial or space motion sickness Motion felt but not seen edit In these cases motion is sensed by the vestibular system and hence the motion is felt but no motion or little motion is detected by the visual system as in terrestrial motion sickness citation needed Carsickness edit This section needs additional citations for verification Please help improve this article by adding citations to reliable sources in this section Unsourced material may be challenged and removed Find sources Motion sickness news newspapers books scholar JSTOR February 2018 Learn how and when to remove this template message A specific form of terrestrial motion sickness being carsick is quite common and evidenced by disorientation while reading a map a book or a small screen during travel Carsickness results from the sensory conflict arising in the brain from differing sensory inputs Motion sickness is caused by a conflict between signals arriving in the brain from the inner ear which forms the base of the vestibular system the sensory apparatus that deals with movement and balance and which detects motion mechanically If someone is looking at a stationary object within a vehicle such as a magazine their eyes will inform their brain that what they are viewing is not moving Their inner ears however will contradict this by sensing the motion of the vehicle 11 Varying theories exist as to cause The sensory conflict theory notes that the eyes view motion while riding in the moving vehicle while other body sensors sense stillness creating conflict between the eyes and inner ear Another suggests the eyes mostly see the interior of the car which is motionless while the vestibular system of the inner ear senses motion as the vehicle goes around corners or over hills and even small bumps Therefore the effect is worse when looking down but may be lessened by looking outside of the vehicle In the early 20th century Austro Hungarian scientist Robert Barany observed the back and forth movement of the eyes of railroad passengers as they looked out the side windows at the scenery whipping by He called this railway nystagmus also known as optokinetic nystagmus His findings were published in the journal Laeger 83 1516 Nov 17 1921 Airsickness edit Main article Airsickness Air sickness is a kind of terrestrial motion sickness induced by certain sensations of air travel 12 It is a specific form of motion sickness and is considered a normal response in healthy individuals It is essentially the same as carsickness but occurs in an airplane An airplane may bank and tilt sharply and unless passengers are sitting by a window they are likely to see only the stationary interior of the plane due to the small window sizes and during flights at night Another factor is that while in flight the view out of windows may be blocked by clouds preventing passengers from seeing the moving ground or passing clouds citation needed Seasickness edit Seasickness is a form of terrestrial motion sickness characterized by a feeling of nausea and in extreme cases vertigo experienced after spending time on a boat 12 It is essentially the same as carsickness though the motion of a watercraft tends to be more regular It is typically brought on by the rocking motion of the craft 13 14 or movement while the craft is immersed in water 15 As with airsickness it can be difficult to visually detect motion even if one looks outside the boat since water does not offer fixed points with which to visually judge motion Poor visibility conditions such as fog may worsen seasickness The greatest contributor to seasickness is the tendency for people being affected by the rolling or surging motions of the craft to seek refuge below decks where they are unable to relate themselves to the boat s surroundings and consequent motion Some people with carsickness are resistant to seasickness and vice versa citation needed Adjusting to the craft s motion at sea is called gaining one s sea legs it can take a significant portion of the time spent at sea after disembarking to regain a sense of stability post sea legs Centrifuge motion sickness edit Rotating devices such as centrifuges used in astronaut training and amusement park rides such as the Rotor Mission Space and the Gravitron can cause motion sickness in many people While the interior of the centrifuge does not appear to move one will experience a sense of motion dubious discuss In addition centrifugal force can cause the vestibular system to give one the sense that downward is in the direction away from the center of the centrifuge rather than the true downward direction 16 Dizziness due to spinning edit When one spins and stops suddenly fluid in the inner ear continues to rotate causing a sense of continued spinning while one s visual system no longer detects motion citation needed Virtual reality edit Main article Virtual reality sickness Usually VR programs would detect the motion of the user s head and adjust the rotation of vision to avoid dizziness However some cases such as system lagging or software crashing could cause lags in the screen updates In such cases even some small head motions could trigger the motion sickness by the defense mechanism mentioned below the inner ear transmits to the brain that it senses motion but the eyes tell the brain that everything is still Motion seen but not felt edit In these cases motion is detected by the visual system and hence the motion is seen but no motion or little motion is sensed by the vestibular system Motion sickness arising from such situations has been referred to as visually induced motion sickness VIMS 17 Space motion sickness edit Main article Space adaptation syndrome Zero gravity interferes with the vestibular system s gravity dependent operations so that the two systems vestibular and visual no longer provide a unified and coherent sensory representation This causes unpleasant disorientation sensations often quite distinct from terrestrial motion sickness but with similar symptoms The symptoms may be more intense because a condition caused by prolonged weightlessness is usually quite unfamiliar citation needed Space motion sickness was effectively unknown during the earliest spaceflights because the very cramped conditions of the spacecraft allowed for only minimal bodily motion especially head motion Space motion sickness seems to be aggravated by being able to freely move around and so is more common in larger spacecraft 12 Around 60 of Space Shuttle astronauts experienced it on their first flight the first case of space motion sickness is now thought to be the Soviet cosmonaut Gherman Titov in August 1961 onboard Vostok 2 who reported dizziness nausea and vomiting The first severe cases were in early Apollo flights Frank Borman on Apollo 8 and Rusty Schweickart on Apollo 9 Both experienced identifiable and quite unpleasant symptoms in the latter case causing the mission plan to be modified citation needed Screen images edit This type of terrestrial motion sickness is particularly prevalent when susceptible people are watching films presented on very large screens such as IMAX but may also occur in regular format theaters or even when watching TV or playing games For the sake of novelty IMAX and other panoramic type theaters often show dramatic motions such as flying over a landscape or riding a roller coaster In regular format theaters an example of a movie that caused motion sickness in many people is The Blair Witch Project Theaters warned patrons of its possible nauseating effects cautioning pregnant women in particular Blair Witch was filmed with a handheld camcorder which was subjected to considerably more motion than the average movie camera 18 and lacks the stabilization mechanisms of steadicams Home movies often filmed with a cell phone camera also tend to cause motion sickness in those who view them The person holding the cell phone or other camera usually is unaware of this as the recording is being made since the sense of motion seems to match the motion seen through the camera s viewfinder Those who view the film afterward only see the movement which may be considerable without any sense of motion Using the zoom function seems to contribute to motion sickness as well since zooming is not a normal function of the eye The use of a tripod or a camera or cell phone with image stabilization while filming can reduce this effect citation needed Virtual reality edit See also Virtual reality sickness Motion sickness due to virtual reality is very similar to simulation sickness and motion sickness due to films 19 In virtual reality the effect is made more acute as all external reference points are blocked from vision the simulated images are three dimensional and in some cases stereo sound that may also give a sense of motion The NADS 1 a simulator located at the National Advanced Driving Simulator is capable of accurately stimulating the vestibular system with a 360 degree horizontal field of view and 13 degrees of freedom motion base 20 Studies have shown that exposure to rotational motions in a virtual environment can cause significant increases in nausea and other symptoms of motion sickness 21 In a study conducted by the U S Army Research Institute for the Behavioral and Social Sciences in a report published May 1995 titled Technical Report 1027 Simulator Sickness in Virtual Environments out of 742 pilot exposures from 11 military flight simulators approximately half of the pilots 334 reported post effects of some kind 250 34 reported that symptoms dissipated in less than one hour 44 6 reported that symptoms lasted longer than four hours and 28 4 reported that symptoms lasted longer than six hours There were also four 1 reported cases of spontaneously occurring flashbacks 22 Motion that is seen and felt edit When moving within a rotating reference frame such as in a centrifuge or environment where gravity is simulated with centrifugal force the coriolis effect causes a sense of motion in the vestibular system that does not match the motion that is seen citation needed Pathophysiology editThere are various hypotheses that attempt to explain the cause of the condition Sensory conflict theory edit Contemporary sensory conflict theory referring to a discontinuity between either visual proprioceptive and somatosensory input or semicircular canal and otolith input is probably the most thoroughly studied 23 According to this theory when the brain presents the mind with two incongruous states of motion the result is often nausea and other symptoms of disorientation known as motion sickness why Such conditions happen when the vestibular system and the visual system do not present a synchronized and unified representation of one s body and surroundings 24 According to sensory conflict theory the cause of terrestrial motion sickness is the opposite of the cause of space motion sickness The former occurs when one perceives visually that one s surroundings are relatively immobile while the vestibular system reports that one s body is in motion relative to its surroundings 12 The latter can occur when the visual system perceives that one s surroundings are in motion while the vestibular system reports relative bodily immobility as in zero gravity citation needed Neural mismatch edit A variation of the sensory conflict theory is known as neural mismatch implying a mismatch occurring between ongoing sensory experience and long term memory rather than between components of the vestibular and visual systems This theory emphasizes the limbic system in the integration of sensory information and long term memory in the expression of the symptoms of motion sickness and the impact of anti motion sickness drugs and stress hormones on limbic system function The limbic system may be the neural mismatch center of the brain 25 Defense against poisoning edit It has also been proposed that motion sickness could function as a defense mechanism against neurotoxins 26 The area postrema in the brain is responsible for inducing vomiting when poisons are detected and for resolving conflicts between vision and balance When feeling motion but not seeing it for example in the cabin of a ship with no portholes the inner ear transmits to the brain that it senses motion but the eyes tell the brain that everything is still As a result of the incongruity the brain concludes that the individual is hallucinating and further concludes that the hallucination is due to poison ingestion The brain responds by inducing vomiting to clear the supposed toxin Treisman s indirect argument has recently been questioned via an alternative direct evolutionary hypothesis as well as modified and extended via a direct poison hypothesis 27 The direct evolutionary hypothesis essentially argues that there are plausible means by which ancient real or apparent motion could have contributed directly to the evolution of aversive reactions without the need for the co opting of a poison response as posited by Treisman Nevertheless the direct poison hypothesis argues that there still are plausible ways in which the body s poison response system may have played a role in shaping the evolution of some of the signature symptoms that characterize motion sickness citation needed Nystagmus hypothesis edit Yet another theory known as the nystagmus hypothesis 28 has been proposed based on stimulation of the vagus nerve resulting from the stretching or traction of extra ocular muscles co occurring with eye movements caused by vestibular stimulation There are three critical aspects to the theory first is the close linkage between activity in the vestibular system i e semicircular canals and otolith organs and a change in tonus among various of each eye s six extra ocular muscles Thus with the exception of voluntary eye movements the vestibular and oculomotor systems are thoroughly linked Second is the operation of Sherrington s Law 29 describing reciprocal inhibition between agonist antagonist muscle pairs and by implication the stretching of extraocular muscle that must occur whenever Sherrington s Law is made to fail thereby causing an unrelaxed contracted muscle to be stretched Finally there is the critical presence of afferent output to the Vagus nerves as a direct result of eye muscle stretch or traction 30 Thus tenth nerve stimulation resulting from eye muscle stretch is proposed as the cause of motion sickness The theory explains why labyrinthine defective individuals are immune to motion sickness 31 32 why symptoms emerge when undergoing various body head accelerations why combinations of voluntary and reflexive eye movements may challenge the proper operation of Sherrington s Law and why many drugs that suppress eye movements also serve to suppress motion sickness symptoms 33 A recent theory 34 argues that the main reason motion sickness occurs is due to an imbalance in vestibular outputs favoring the semicircular canals nauseogenic vs otolith organs anti nauseogenic This theory attempts to integrate previous theories of motion sickness For example there are many sensory conflicts that are associated with motion sickness and many that are not but those in which canal stimulation occurs in the absence of normal otolith function e g in free fall are the most provocative The vestibular imbalance theory is also tied to the different roles of the otoliths and canals in autonomic arousal otolith output more sympathetic citation needed Diagnosis editThe diagnosis is based on symptoms 2 Other conditions that may present similarly include vestibular disorders such as benign paroxysmal positional vertigo and vestibular migraine and stroke 2 Treatment editTreatment may include behavioral measures or medications 3 Behavioral measures edit Behavioral measures to decrease motion sickness include holding the head still and lying on the back 3 Focusing on the horizon may also be useful 2 Listening to music mindful breathing being the driver and not reading while moving are other techniques 2 Habituation is the most effective technique but requires significant time 2 It is often used by the military for pilots 2 These techniques must be carried out at least every week to retain effectiveness 2 A head worn computer device with a transparent display can be used to mitigate the effects of motion sickness and spatial disorientation if visual indicators of the wearer s head position are shown 35 Such a device functions by providing the wearer with digital reference lines in their field of vision that indicate the horizon s position relative to the user s head This is accomplished by combining readings from accelerometers and gyroscopes mounted in the device This technology has been implemented in both standalone devices 36 and Google Glass 37 38 One promising looking treatment is to wear LCD shutter glasses that create a stroboscopic vision of 4 Hz with a dwell of 10 milliseconds 39 Medication edit Three types of medications are sometimes prescribed to improve symptoms of motion sickness antimuscarinics such as scopolamine H1 antihistamines such as dimenhydrinate and amphetamines such as dexamphetamine 3 Benefits are greater if used before the onset of symptoms or shortly after symptoms begin 2 Side effects however may limit the use of medications 3 A number of medications used for nausea such as ondansetron and metoclopramide are not effective in motion sickness 3 2 Scopolamine antimuscarinic edit Scopolamine is the most effective medication 2 Evidence is best for when it is used preventatively 40 It is available as a skin patch 2 Side effects may include blurry vision 2 Antihistamines edit Antihistamine medications are sometimes given to prevent or treat motion sickness This class of medication is often effective at reducing the risk of getting motion sickness while in motion however the effectiveness of antihistamines at treating or stopping motion sickness once a person is already experiencing it has not been well studied 41 Effective first generation antihistamines include doxylamine diphenhydramine promethazine meclizine cyclizine and cinnarizine 2 In pregnancy meclizine dimenhydrinate and doxylamine are generally felt to be safe 2 Side effects include sleepiness 2 41 Second generation antihistamines have not been found to be useful 2 Amphetamines edit Dextroamphetamine may be used together with an antihistamine or an antimuscarinic 2 Concerns include their addictive potential 2 Those involved in high risk activities such as SCUBA diving should evaluate the risks versus the benefits of medications 42 43 44 45 46 Promethazine combined with ephedrine to counteract the sedation is known as the Coast Guard cocktail 47 Alternative medicine edit Alternative treatments include acupuncture and ginger although their effectiveness against motion sickness is variable 3 48 49 50 Providing smells does not appear to have a significant effect on the rate of motion sickness 3 Epidemiology editRoughly one third of people are highly susceptible to motion sickness and most of the rest get motion sick under extreme conditions Around 80 of the general population is susceptible to cases of medium to high motion sickness The rates of space motion sickness have been estimated at between forty and eighty percent of those who enter weightless orbit Several factors influence susceptibility to motion sickness including sleep deprivation and the cubic footage allocated to each space traveler Studies indicate that women are more likely to be affected than men 2 and that the risk decreases with advancing age There is some evidence that people with Asian ancestry may develop motion sickness more frequently than people of European ancestry and there are situational and behavioral factors such as whether a passenger has a view of the road ahead and diet and eating behaviors 51 See also editMal de debarquement disembarkment syndrome usually follows a cruise or other motion experienceReferences edit a b c d Keshavarz Behrang Hecht Heiko Lawson Ben 2014 Visually induced motion sickness Characteristics causes and countermeasures In Hale K S Stanney K M eds Handbook of Virtual Environments Design Implementation and Applications Second Edition Human Factors and Ergonomics Taylor amp Francis pp 648 697 ISBN 978 1 4665 1184 2 Retrieved 2021 11 13 a b c d e f g h i j k l m n o p q r s t u v w x y z aa ab ac ad ae af ag ah ai aj ak al Takov V Tadi P January 2019 Motion Sickness in StatPearls PMID 30969528 a b c d e f g h i j k l m n Golding J F 2016 Motion sickness Neuro Otology Handbook of Clinical Neurology Vol 137 pp 371 390 doi 10 1016 B978 0 444 63437 5 00027 3 ISBN 9780444634375 ISSN 0072 9752 PMID 27638085 Reason J T Brand J J 1975 Motion Sickness Academic Press ISBN 978 0 12 584050 7 Retrieved 2021 11 13 a b Hromatka Bethann S Tung Joyce Y Kiefer Amy K Do Chuong B Hinds David A Eriksson Nicholas 1 May 2015 Genetic variants associated with motion sickness point to roles for inner ear development neurological processes and glucose homeostasis Human Molecular Genetics 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Money KE June 1991 Visually induced sickness in normal and bilaterally labyrinthine defective subjects Aviat Space Environ Med 62 6 527 31 PMID 1859339 Ebenholtz S M Oculomotor Systems and Perception Cambridge University Press 2005 148 53 Previc F H 2018 An intravestibular theory of motion sickness Aerospace Medicine and Human Performance 89 2 130 40 doi 10 3357 AMHP 4946 2018 ISSN 2375 6314 PMID 29463358 Krueger WW January 2011 Controlling motion sickness and spatial disorientation and enhancing vestibular rehabilitation with a user worn see through display Laryngoscope 121 Suppl 2 2 S17 35 doi 10 1002 lary 21373 PMC 4769875 PMID 21181963 Air Force to examine AdviTech s motion sickness product for combat pilots San Antonio Business Journal Nov 10 2010 Retrieved 15 July 2014 BCMC LLC Retrieved 15 July 2014 Google Glass Treating Motion Sickness YouTube Archived from the original on 2021 11 13 Retrieved 15 July 2014 Reschke MF Somers JT Ford G January 2006 Stroboscopic vision as a treatment for motion sickness strobe lighting vs shutter glasses Aviation Space and Environmental Medicine 77 1 2 7 PMID 16422446 Spinks A Wasiak J 2011 Scopolamine hyoscine for preventing and treating motion sickness The Cochrane Database of Systematic Reviews 2007 6 1 21 doi 10 1002 14651858 CD002851 pub4 hdl 10072 19480 PMC 7138049 PMID 21678338 a b Karrim Nadine Byrne Ryan Magula Nombulelo Saman Yougan 2022 10 17 Antihistamines for motion sickness The Cochrane Database of Systematic Reviews 2022 10 CD012715 doi 10 1002 14651858 CD012715 pub2 ISSN 1469 493X PMC 9575651 PMID 36250781 Schwartz Henry JC Curley Michael D 1986 Transdermal Scopolamine in the Hyperbaric Environment United States Navy Experimental Diving Unit Technical Report Archived from the original on October 7 2008 Retrieved 2008 05 09 a href Template Cite journal html title Template Cite journal cite journal a CS1 maint unfit URL link Lawson B D McGee H A Castaneda M A Golding J F Kass S J McGrath C M 2009 Evaluation of Several Common Antimotion Sickness Medications and Recommendations Concerning Their Potential Usefulness During Special Operations No NAMRL 09 15 Report Pensacola Florida Naval aerospace medical research laboratory Archived from the original on 2016 04 27 Retrieved 2017 02 07 Bitterman N Eilender E Melamed Y May 1991 Hyperbaric oxygen and scopolamine Undersea Biomedical Research 18 3 167 74 PMID 1853467 Archived from the original on 2008 08 20 Retrieved 2008 05 09 a href Template Cite journal html title Template Cite journal cite journal a CS1 maint unfit URL link Williams TH Wilkinson AR Davis FM Frampton CM March 1988 Effects of transcutaneous scopolamine and depth on diver performance Undersea Biomedical Research 15 2 89 98 PMID 3363755 Archived from the original on August 20 2008 Retrieved 2008 05 09 a href Template Cite journal html title Template Cite journal cite journal a CS1 maint unfit URL link Arieli R Shupak A Shachal B Shenedrey A Ertracht O Rashkovan G 1999 Effect of the anti motion sickness medication cinnarizine on central nervous system oxygen toxicity Undersea and Hyperbaric Medicine 26 2 105 09 PMID 10372430 Archived from the original on October 7 2008 Retrieved 2008 05 09 a href Template Cite journal html title Template Cite journal cite journal a CS1 maint unfit URL link East Carolina University Department of Diving amp Water Safety Seasickness Information and Treatment PDF Archived from the original PDF on 2017 08 29 Retrieved 2017 02 07 Stern RM Jokerst MD Muth ER Hollis C Jul Aug 2001 Acupressure relieves the symptoms of motion sickness and reduces abnormal gastric activity Alternative Therapies in Health and Medicine 7 4 91 94 PMID 11452572 Brainard A Gresham C 2014 Prevention and treatment of motion sickness Am Fam Physician 90 1 41 46 PMID 25077501 Han Chung Lien Wei Ming Sun Yen Hsueh Chen Hyerang Kim William Hasler Chung Owyang 11 March 2003 Effects of ginger on motion sickness and gastric slow wave dysrhythmias induced by circular vection American Journal of Physiology Gastrointestinal and Liver Physiology 284 3 481 489 doi 10 1152 ajpgi 00164 2002 PMID 12576305 Hromatka BS Tung JY Kiefer AK Do CB Hinds DA Eriksson N May 2015 Genetic variants associated with motion sickness point to roles for inner ear development neurological processes and glucose homeostasis Hum Mol Genet 24 9 2700 08 doi 10 1093 hmg ddv028 PMC 4383869 PMID 25628336 External links edit nbsp Look up motion sickness in Wiktionary the free dictionary nbsp Wikimedia Commons has media related to Motion sickness Davis Christopher J Lake Bakaar Gerry V Grahame Smith David G 2012 Nausea and Vomiting Mechanisms and Treatment Springer Science amp Business Media p 123 ISBN 978 3 642 70479 6 Motion Sickness from MedlinePlus Retrieved from https en wikipedia org w index php title Motion sickness amp oldid 1220919153, wikipedia, wiki, book, books, library,

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