Stance Postural Strategies in Patients with Chronic Inflammatory Demyelinating Polyradiculoneuropathy

Introduction Polyneuropathy leads to postural instability and an increased risk of falling. We investigated how impaired motor impairment and proprioceptive input due to neuropathy influences postural strategies. Methods Platformless bisegmental posturography data were recorded in healthy subjects and patients with chronic inflammatory demyelinating polyradiculoneuropathy (CIDP). Each subject stood on the floor, wore a head and a hip electromagnetic tracker. Sway amplitude and velocity were recorded and the mean direction difference (MDD) in the velocity vector between trackers was calculated as a flexibility index. Results Head and hip postural sway increased more in patients with CIDP than in healthy controls. MDD values reflecting hip strategies also increased more in patients than in controls. In the eyes closed condition MDD values in healthy subjects decreased but in patients remained unchanged. Discussion Sensori-motor impairment changes the balance between postural strategies that patients adopt to maintain upright quiet stance. Motor impairment leads to hip postural strategy overweight (eyes open), and prevents strategy re-balancing when the sensory context predominantly relies on proprioceptive input (eyes closed).

[1]  H. Sekihara,et al.  Postural sway and diabetic peripheral neuropathy. , 2001, Diabetes research and clinical practice.

[2]  U Oppenheim,et al.  Postural characteristics of diabetic neuropathy. , 1999, Diabetes care.

[3]  F Prince,et al.  Evaluation of postural stability in elderly with diabetic neuropathy. , 2000, Diabetes care.

[4]  F. Horak Postural orientation and equilibrium: what do we need to know about neural control of balance to prevent falls? , 2006, Age and ageing.

[5]  F E Zajac,et al.  Human standing posture: multi-joint movement strategies based on biomechanical constraints. , 1993, Progress in brain research.

[6]  L. Magder,et al.  Derivation and validation of diagnostic criteria for chronic inflammatory demyelinating polyneuropathy , 2009, Journal of the Neurological Sciences.

[7]  Ian David Loram,et al.  Human balancing of an inverted pendulum: position control by small, ballistic‐like, throw and catch movements , 2002, The Journal of physiology.

[8]  P. Dyck,et al.  Human diabetic endoneurial sorbitol, fructose, and myo‐inositol related to sural nerve morphometry , 1980, Annals of neurology.

[9]  J. Ashton-Miller,et al.  Frontal plane ankle proprioceptive thresholds and unipedal balance , 2009, Muscle & nerve.

[10]  M Hulliger,et al.  A comparative analysis of the encapsulated end‐organs of mammalian skeletal muscles and of their sensory nerve endings , 2009, Journal of anatomy.

[11]  F. Horak,et al.  Postural strategies associated with somatosensory and vestibular loss , 1990, Experimental Brain Research.

[12]  J. Jakobsen,et al.  A comparative study of isokinetic dynamometry and manual muscle testing of ankle dorsal and plantar flexors and knee extensors and flexors. , 1997, European neurology.

[13]  M. Woollacott,et al.  Visual, vestibular and somatosensory contributions to balance control in the older adult. , 1989, Journal of gerontology.

[14]  K. Hayes,et al.  Plantarflexor muscle function in young and elderly women , 2004, European Journal of Applied Physiology and Occupational Physiology.

[15]  N. Accornero,et al.  Postural responses to low‐intensity, short‐duration, galvanic vestibular stimulation as a possible differential diagnostic procedure , 2011, Acta neurologica Scandinavica.

[16]  Regulation of feed-forward and feedback strategies at the human ankle during balance control , 2009, 2009 Annual International Conference of the IEEE Engineering in Medicine and Biology Society.

[17]  Tim Kiemel,et al.  A unified view of quiet and perturbed stance: simultaneous co-existing excitable modes , 2005, Neuroscience Letters.

[18]  N Accornero,et al.  Clinical multisegmental posturography: age-related changes in stance control. , 1997, Electroencephalography and clinical neurophysiology.

[19]  F E Zajac,et al.  Ankle and hip postural strategies defined by joint torques. , 1999, Gait & posture.

[20]  J. Derr,et al.  Postural Instability in Patients with Diabetic Sensory Neuropathy , 1994, Diabetes Care.

[21]  M. Hulliger,et al.  Proprioceptive control of posture: a review of new concepts. , 1998, Gait & posture.

[22]  F. Honegger,et al.  Triggering of balance corrections and compensatory strategies in a patient with total leg proprioceptive loss , 2001, Experimental Brain Research.

[23]  K. Turcot,et al.  Postural strategies in diabetes patients with peripheral neuropathy determined using cross-correlation functions. , 2012, Diabetes technology & therapeutics.

[24]  G. Parry,et al.  Chronic inflammatory demyelinating polyneuropathy disease activity status: recommendations for clinical research standards and use in clinical practice , 2010, Journal of the peripheral nervous system : JPNS.

[25]  C. MacGilchrist,et al.  Lower‐limb risk factors for falls in people with diabetes mellitus , 2010, Diabetic medicine : a journal of the British Diabetic Association.

[26]  Annie A Butler,et al.  Muscle weakness impairs the proprioceptive control of human standing , 2008, Brain Research.

[27]  Baziel G M van Engelen,et al.  Postural instability in Charcot-Marie-Tooth type 1A patients is strongly associated with reduced somatosensation. , 2010, Gait & posture.

[28]  T. Mergner,et al.  Human perception of horizontal trunk and head rotation in space during vestibular and neck stimulation , 2004, Experimental Brain Research.

[29]  Ian David Loram,et al.  The consequences of short-range stiffness and fluctuating muscle activity for proprioception of postural joint rotations: the relevance to human standing. , 2009, Journal of neurophysiology.

[30]  Research criteria for diagnosis of chronic inflammatory demyelinating polyneuropathy (CIDP) , 1991, Neurology.

[31]  J. Ashton-Miller,et al.  Frontal plane hip and ankle sensorimotor function, not age, predicts unipedal stance time , 2012, Muscle & nerve.

[32]  M J Bendall,et al.  Muscle strength and anthropometric indices in elderly men and women. , 1985, Age and ageing.

[33]  B. Day,et al.  Effect of vision and stance width on human body motion when standing: implications for afferent control of lateral sway. , 1993, The Journal of physiology.

[34]  F. Horak,et al.  Components of postural dyscontrol in the elderly: A review , 1989, Neurobiology of Aging.

[35]  Marco Schieppati,et al.  Balance control in Sensory Neuron Disease , 2007, Clinical Neurophysiology.

[36]  H. Andersen,et al.  Disordered Mobility of Large Joints in Association with Neuropathy in Patients with Long‐standing Insulin‐dependent Diabetes Mellitus , 1997, Diabetic medicine : a journal of the British Diabetic Association.

[37]  R. Peterka Sensorimotor integration in human postural control. , 2002, Journal of neurophysiology.

[38]  A. Pedotti,et al.  Postural synergies in axial movements: short and long-term adaptation , 2004, Experimental Brain Research.

[39]  L. Uccioli,et al.  Body Sway in Diabetic Neuropathy , 1995, Diabetes Care.

[40]  K. Gorson An update on the management of chronic inflammatory demyelinating polyneuropathy , 2012, Therapeutic advances in neurological disorders.

[41]  H. Forssberg,et al.  Postural adjustments in sitting humans following external perturbations: muscle activity and kinematics , 2004, Experimental Brain Research.

[42]  J. Allum,et al.  Identifying deficits in balance control following vestibular or proprioceptive loss using posturographic analysis of stance tasks , 2008, Clinical Neurophysiology.

[43]  R. Tusa,et al.  Vestibular dysfunction in chronic inflammatory demyelinating Polyneuropathy , 1996, Annals of neurology.

[44]  Henrik Gollee,et al.  Human control of an inverted pendulum: Is continuous control necessary? Is intermittent control effective? Is intermittent control physiological? , 2011, The Journal of physiology.

[45]  Hélène Corriveau,et al.  Postural control mechanisms during quiet standing in patients with diabetic sensory neuropathy. , 2004, Diabetes care.

[46]  J. Ashton-Miller,et al.  Mild diabetic neuropathy affects ankle motor function. , 2001, Clinical biomechanics.

[47]  T. Ledin,et al.  Dynamic posturography in assessment of polyneuropathic disease. , 1990, Journal of vestibular research : equilibrium & orientation.

[48]  J. Ashton-Miller,et al.  Falls and Gait Characteristics Among Older Persons with Peripheral Neuropathy , 2007, American journal of physical medicine & rehabilitation.

[49]  L. Ting,et al.  Muscle synergies characterizing human postural responses. , 2007, Journal of neurophysiology.

[50]  F. Horak,et al.  Central programming of postural movements: adaptation to altered support-surface configurations. , 1986, Journal of neurophysiology.