Motion sickness decreases low back function and changes gene expression in military aircrew


    • Bader C.E.
    • Giordano N.A.
    • McDonald C.C.
    • Meghani S.H.
    • Polomano R.C.

    Musculoskeletal pain and headache in the active duty military population: an integrative review.

    Worldviews Evid.-Based Nurs. 2018; 15: 264-271

    • Basta D.
    • Todt I.
    • Scherer H.
    • Clarke A.
    • Ernst A.

    Postural control in otolith disorders.

    Hum. Mov. Sci. 2005; 24: 268-279

    • Bhattacharya A.
    • Watts N.B.
    • Dwivedi A.
    • Shukla R.
    • Mani A.
    • Diab D.

    Combined measures of dynamic bone quality and postural balance–a fracture risk assessment approach in osteoporosis.

    J. Clin. Densitom. 2016; 19: 154-164

    • Carpenter M.
    • Allum J.
    • Honegger F.

    Vestibular influences on human postural control in combinations of pitch and roll planes reveal differences in spatiotemporal processing.

    Exp. Brain Res. 2001; 140: 95-111

    • Catanzariti J.-F.
    • Guyot M.-A.
    • Massot C.
    • Khenioui H.
    • Agnani O.
    • Donzé C.

    Evaluation of motion sickness susceptibility by motion sickness susceptibility questionnaire in adolescents with idiopathic scoliosis: a case–control study.

    Eur. Spine J. 2016; 25: 438-443

    • Chang C.H.
    • Chen F.C.
    • Kung W.C.
    • Stoffregen T.A.

    Effects of physical driving experience on body movement and motion sickness during virtual driving.

    Aerosp. Med. Hum. Perform. 2017; 88: 985-992

    • Chiou S.
    • Bhattacharya A.
    • Lai C.-F.
    • Succop P.A.

    Effects of environmental and task risk factors on workers’ perceived sense of postural sway and instability.

    Occup. Ergon. 1998; 1: 81-93

    • Cohen S.P.
    • Nguyen C.
    • Kapoor S.G.
    • Anderson-Barnes V.C.
    • Foster L.
    • Shields C.
    • McLean B.
    • Wichman T.
    • Plunkett A.

    Back pain during war: an analysis of factors affecting outcome.

    Arch. Intern. Med. 2009; 169: 1916-1923

    • Curry C.
    • Peterson N.
    • Li R.
    • Stoffregen T.
    • Null N.E.

    Postural activity during use of a head-mounted display: sex differences in the “driver–passenger” effect.

    J. Name Front. Virt. Real. J. 2020; 1 ()

    • Dai M.
    • Sofroniou S.
    • Kunin M.
    • Raphan T.
    • Cohen B.

    Motion sickness induced by off-vertical axis rotation (OVAR).

    Exp. Brain Res. 2010; 204: 207-222

  • Motion Sickness: A Motion Adaptation Syndrome.

    Springer,
    2019

    • Dong X.
    • Yoshida K.
    • Stoffregen T.A.

    Control of a virtual vehicle influences postural activity and motion sickness.

    J. Exp. Psychol. Appl. 2011; 17: 128-138

    • Dufour J.S.
    • Marras W.S.
    • Knapik G.G.

    An EMG-assisted model calibration technique that does not require MVCs.

    J. Electromyogr. Kinesiol. 2013; 23: 608-613

    • Ferguson S.A.
    • Gallagher S.
    • Marras W.S.

    Validity and reliability of sincerity test for dynamic trunk motions.

    Disabil. Rehabil. 2003; 25: 236-241

    • Ferguson S.A.
    • Marras W.S.
    • Burr D.L.
    • Woods S.
    • Mendel E.
    • Gupta P.

    Quantification of a meaningful change in low back functional impairment.

    Spine (Phila Pa 1976). 2009; 34: 2060-2065

  • The influence of trunk muscle coactivity on dynamic spinal loads.

    Spine (Phila Pa 1976). 1995; 20: 913-919

    • Harrison M.F.
    • Coffey B.
    • Albert W.J.
    • Fischer S.L.

    Night vision goggle-induced neck pain in military helicopter aircrew: a literature review.

    Aerospace Med. Hum. Perform. 2015; 86: 46-55

    • Hartvigsen J.
    • Hancock M.J.
    • Kongsted A.
    • Louw Q.
    • Ferreira M.L.
    • Genevay S.
    • Hoy D.
    • Karppinen J.
    • Pransky G.
    • Sieper J.
    • Smeets R.J.
    • Underwood M.
    • Buchbinder R.
    • Hartvigsen J.
    • Cherkin D.
    • Foster N.E.
    • Maher C.G.
    • Underwood M.
    • van Tulder M.
    • Anema J.R.
    • Chou R.
    • Cohen S.P.
    • Menezes Costa L.
    • Croft P.
    • Ferreira M.
    • Ferreira P.H.
    • Fritz J.M.
    • Genevay S.
    • Gross D.P.
    • Hancock M.J.
    • Hoy D.
    • Karppinen J.
    • Koes B.W.
    • Kongsted A.
    • Louw Q.
    • Öberg B.
    • Peul W.C.
    • Pransky G.
    • Schoene M.
    • Sieper J.
    • Smeets R.J.
    • Turner J.A.
    • Woolf A.

    What low back pain is and why we need to pay attention.

    Lancet. 2018; 391: 2356-2367

  • Assumptions underlying motor control for neurologic rehabilitation, contemporary management of motor control problems.

    in: Proceedings of the II STEP Conference. Foundation for Physical Therapy Alexandria,
    VA1991: 11-28

    • Hromatka B.S.
    • Tung J.Y.
    • Kiefer A.K.
    • Do C.B.
    • Hinds D.A.
    • Eriksson N.

    Genetic variants associated with motion sickness point to roles for inner ear development, neurological processes and glucose homeostasis.

    Hum. Mol. Genet. 2015; 24: 2700-2708

    • Hutchins Jr., C.W.
    • Kennedy R.S.

    Clinical problems in aviation medicine. Relationship between past history of motion sickness and attrition from flight training.

    Aerospace Med. 1965; 36: 984-987

    • Hwang J.
    • Knapik G.G.
    • Dufour J.S.
    • Aurand A.
    • Best T.M.
    • Khan S.N.
    • Mendel E.
    • Marras W.S.

    A biologically-assisted curved muscle model of the lumbar spine: model structure.

    Clin. Biomech. (Brist. Avon). 2016; 37: 53-59

    • Hwang J.
    • Knapik G.G.
    • Dufour J.S.
    • Best T.M.
    • Khan S.N.
    • Mendel E.
    • Marras W.S.

    A biologically-assisted curved muscle model of the lumbar spine: model validation.

    Clin. Biomech. (Brist. Avon). 2016; 37: 153-159

    • Kim J.
    • Eom G.M.
    • Kim C.
    • Kim D.-H.
    • Lee J.-H.
    • Park B.
    • Hong J.

    Sex differences in the postural sway characteristics of young and elderly subjects during quiet natural standing.

    Geriatr Gerontol Int. 2010; 10: 191-198

    • Kim S.H.
    • Lee S.Y.
    • Kim J.S.
    • Koo J.W.

    Parameters of off-vertical Axis rotation in unilateral and bilateral Vestibulopathy and their correlation with vestibular evoked myogenic potentials.

    J. Clin. Med. 2021; 10

    • Koslucher F.
    • Haaland E.
    • Malsch A.
    • Webeler J.
    • Stoffregen T.A.

    Sex differences in the incidence of motion sickness induced by linear visual oscillation.

    Aerosp. Med. Hum. Perform. 2015; 86: 787-793

    • Koslucher F.
    • Haaland E.
    • Stoffregen T.A.

    Sex differences in visual performance and postural sway precede sex differences in visually induced motion sickness.

    Exp. Brain Res. 2016; 234: 313-322

    • Lawson B.D.
    • McGee H.A.
    • Castenda M.A.
    • Golding J.F.
    • Kass S.J.
    • McGrath C.M.

    Evaluation of Several Common Antimotion Sickness Medications and Recommendations Concerning their Potential Usefulness during Special Operations.

    Naval Aerospace Medical Research Lab,
    Pensacola, FL2009

  • The complex spine: the multidimensional system of causal pathways for low-back disorders.

    Hum. Factors. 2012; 54: 881-889

  • Flexibility and velocity of the normal and impaired lumbar spine.

    Arch. Phys. Med. Rehabil. 1986; 67: 213-217

    • Marras W.S.
    • Parnianpour M.
    • Kim J.

    A normal database of dynamic trunk motion characteristics during repetitive trunk flexion and extension as a function of task asymmetry, age and gender.

    IEEE Trans. Rehab. Eng. 1994; 2: 137-146

    • Marras W.S.
    • Parnianpour M.
    • Ferguson S.A.
    • Kim J.Y.
    • Crowell R.R.
    • Bose S.
    • Simon S.R.

    The classification of anatomic- and symptom-based low back disorders using motion measure models.

    Spine (Phila Pa 1976). 1995; 20: 2531-2546

    • Marras W.S.
    • Ferguson S.A.
    • Gupta P.
    • Bose S.
    • Parnianpour M.
    • Kim J.Y.
    • Crowell R.R.

    The quantification of low back disorder using motion measures.

    Methodol. Validat. Spine (Phila Pa 1976). 1999; 24: 2091-2100

    • Marras W.S.
    • Lewis K.E.
    • Ferguson S.A.
    • Parnianpour M.

    Impairment magnification during dynamic trunk motions.

    Spine (Phila Pa 1976). 2000; 25: 587-595

    • Marras W.S.
    • Davis K.G.
    • Ferguson S.A.
    • Lucas B.R.
    • Gupta P.

    Spine loading characteristics of patients with low back pain compared with asymptomatic individuals.

    Spine (Phila Pa 1976). 2001; 26: 2566-2574

    • Marras W.S.
    • Ferguson S.A.
    • Burr D.
    • Davis K.G.
    • Gupta P.

    Functional impairment as a predictor of spine loading.

    Spine (Phila Pa 1976). 2005; 30: 729-737

    • Merhi O.
    • Faugloire E.
    • Flanagan M.
    • Stoffregen T.

    Motion sickness, console video games, and head-mounted displays.

    Hum. Factors. 2007; 49: 920-934

    • Mihara M.
    • Miyai I.
    • Hatakenaka M.
    • Kubota K.
    • Sakoda S.

    Role of the prefrontal cortex in human balance control.

    NeuroImage. 2008; 43: 329-336

  • A stochastic model of trunk muscle coactivation during trunk bending.

    Spine (Phila Pa 1976). 1993; 18: 1396-1409

    • Montero-Odasso M.
    • Muir S.W.
    • Speechley M.

    Dual-task complexity affects gait in people with mild cognitive impairment: the interplay between gait variability, dual tasking, and risk of falls.

    Arch. Phys. Med. Rehabil. 2012; 93: 293-299

    • Munafo J.
    • Diedrick M.
    • Stoffregen T.A.

    The virtual reality head-mounted display oculus rift induces motion sickness and is sexist in its effects.

    Exp. Brain Res. 2017; 235: 889-901

    • Nishiike S.
    • Okazaki S.
    • Watanabe H.
    • Akizuki H.
    • Imai T.
    • Uno A.
    • Kitahara T.
    • Horii A.
    • Takeda N.
    • Inohara H.

    The effect of visual-vestibulosomatosensory conflict induced by virtual reality on postural stability in humans.

    J. Med. Investig. 2013; 60: 236-239

  • Musculoskeletal Disorders and the Workplace: Low Back and Upper Extremities, Washington, DC.

    2001

    • Orsello C.A.
    • Phillips A.S.
    • Rice G.M.

    Height and in-flight low Back pain association among military helicopter pilots.

    Aviat. Space Environ. Med. 2013; 84: 32-37

  • Evaluation of miRNA expression profiles in schizophrenia using principal-component analysis-based unsupervised feature extraction method.

    J. Comput. Biol. 2019;

  • Motion Sickness.

    Academic Press,
    Oxford, England1975

    • Revilla F.
    • Larsh T.
    • Mani A.
    • Duker A.
    • Cox C.
    • Succop P.
    • Gartner M.
    • Jarrin Tejada C.
    • Bhattacharya A.

    Effect of dopaminergic medication on postural sway in advanced Parkinson’s Disease.

    Front. Neurol. 2013; : 4

  • An ecological theory of motion sickness and postural instability.

    Ecol. Psychol. 1991; 3: 195-240

    • Simmons R.
    • Phillips J.
    • Lojewski R.
    • Lawson B.

    A Comparison of Intranasal and Oral Scopolamine for Motion Sickness Prevention in Military Personnel.

    Naval Aerospace Medical Research Lab,
    Pensacola, FL2008

    • Stoffregen T.A.
    • Hettinger L.J.
    • Haas M.W.
    • Roe M.M.
    • Smart L.J.

    Postural instability and motion sickness in a fixed-based flight simulator.

    Hum. Factors. 2000; 42: 458-469

    • Stoffregen T.A.
    • Faugloire E.
    • Yoshida K.
    • Flanagan M.B.
    • Merhi O.

    Motion sickness and postural sway in console video games.

    Hum. Factors. 2008; 50: 322-331

    • Stoffregen T.A.
    • Chen F.-C.
    • Varlet M.
    • Alcantara C.
    • Bardy B.G.

    Getting your sea legs.

    PLoS One. 2013; 8e66949

    • Stoffregen T.A.
    • Chen Y.C.
    • Koslucher F.C.

    Motion control, motion sickness, and the postural dynamics of mobile devices.

    Exp. Brain Res. 2014; 232: 1389-1397

    • Stoffregen T.A.
    • Chang C.-H.
    • Chen F.-C.
    • Zeng W.-J.

    Effects of decades of physical driving on body movement and motion sickness during virtual driving.

    PLoS One. 2017; 12e0187120

    • Warwick-Evans L.A.
    • Symons N.
    • Fitch T.
    • Burrows L.

    Evaluating sensory conflict and postural instability. Theories of motion sickness.

    Brain Res. Bull. 1998; 47: 465-469

    • Weech S.
    • Varghese J.P.
    • Barnett-Cowan M.

    Estimating the sensorimotor components of cybersickness.

    J. Neurophysiol. 2018; 120: 2201-2217

  • Working in a moving environment.

    Ergonomics. 1998; 41: 1845-1858

    • Yasuda T.
    • Nakagawa T.
    • Inoue H.
    • Iwamoto M.
    • Inokuchi A.

    The role of the labyrinth, proprioception and plantar mechanosensors in the maintenance of an upright posture.

    Eur. Arch. Otorhinolaryngol. 1999; 256: S27-S32

    • Zampieri C.
    • Salarian A.
    • Carlson-Kuhta P.
    • Aminian K.
    • Nutt J.G.
    • Horak F.B.

    The instrumented timed up and go test: potential outcome measure for disease modifying therapies in Parkinson’s disease.

    J. Neurol. Neurosurg. Psychiatry. 2010; 81: 171

    • Zampieri C.
    • Salarian A.
    • Carlson-Kuhta P.
    • Nutt J.G.
    • Horak F.B.

    Assessing mobility at home in people with early Parkinson’s disease using an instrumented timed up and go test.

    Parkinsonism Relat. Disord. 2011; 17: 277-280



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