Presbypropria: the effects of physiological ageing on proprioceptive control

Abe O, Aoki S, Hayashi N, Yamada H, Kunimatsu A, Mori H, Yoshikawa T, Okubo T, Ohtomo K (2002) Normal aging in the central nervous system: quantitative MR diffusion-tensor analysis. Neurobiol Aging 23:433–441

Adamo DE, Martin BJ, Brown SH (2007) Age-related differences in upper limb proprioceptive acuity. Percept Mot Skills 104:1297–1309

Adamo DE, Alexander NB, Brown SH (2009) The influence of age and physical activity on upper limb proprioceptive ability. J Aging Phys Act 17:272–293

Aydoğ ST, Korkusuz P, Doral MN, Tetik O, Demirel HA (2006) Decrease in the numbers of mechanoreceptors in rabbit ACL: the effects of ageing. Knee Surg Sports Traumatol Arthrosc 14:325–329

Barrack R, Skinner H, Cook S, Haddad RJ (1983) Effect of articular disease and total knee arthroplasty on knee joint-position sense. J Neurophysiol 50:684–687

Barrett DS, Cobb AG, Bentley G (1991) Joint proprioception in normal, osteoarthritic and replaced knees. J Bone Joint Surg Br 73:53–56

Batavia M, Gianutsos JG, Ling W, Nelson AJ (1999) The effects of circumferential wrist pressure on reproduction accuracy of wrist placement in healthy young and elderly adults. J Gerontol A Biol Sci Med Sci 54:M177–M183

Berlucchi G, Aglioti SM (2010) The body in the brain revisited. Exp Brain Res 200:25–35

Bernauer EM, Walby WF, Ertl AC, Dempster PT, Bond M, Greenleaf JE (1994) Knee-joint proprioception during 30-day 6 degrees head-down bed rest with isotonic and isokinetic exercise training. Aviat Space Environ Med 65:1110–1115

Bolton CF, Winkelmann RK, Dyck PJ (1966) A quantitative study of Meissner’s corpuscles in man. Neurology 16:1–9

Braun J (1998) Divided attention: narrowing the gap between brain and behaviour. In: Parasuraman R (ed) The attentive brain. MIT Press, Cambridge, pp 327–351

Brown LE, Rosenbaum DA, Sainburg RL (2003a) Limb position drift: implications for control of posture and movement. J Neurophysiol 90:3105–3118

Brown LE, Rosenbaum DA, Sainburg RL (2003b) Movement speed effects on limb position drift. Exp Brain Res 153:266–274

Bullock-Saxton JE, Wong WJ, Hogan N (2001) The influence of age on weight-bearing joint reposition sense of the knee. Exp Brain Res 136:400–406

Burke D, Gandevia SC, Macefield G (1988) Responses to passive movement of receptors in joint, skin and muscle of the human hand. J Physiol 402:347–361

Cauna N, Mannan G (1958) The structure of human digital pacinian corpuscles (corpuscula lamellosa) and its functional significance. J Anat 92:1–20

Collins DF, Refshauge KM, Todd G, Gandevia SC (2005) Cutaneous receptors contribute to kinesthesia at the index finger, elbow, and knee. J Neurophysiol 94:1699–1706

Corso JF (1971) Sensory processes and age effects in normal adults. J Gerontol 26:90–105

Craik FI, McDowd JM (1987) Age differences in recall and recognition. J Exp Psychol Learn Mem Cogn 13:474–479

Crapse TB, Sommer MA (2008) Corollary discharge across the animal kingdom. Nat Rev Neurosci 9:587–600

Cruz-Sánchez FF, Moral A, Tolosa E, de Belleroche J, Rossi ML (1998) Evaluation of neuronal loss, astrocytosis and abnormalities of cytoskeletal components of large motor neurons in the human anterior horn in aging. J Neural Transm 105:689–701

Deshpande N, Connelly DM, Culham EG, Costigan PA (2003) Reliability and validity of ankle proprioceptive measures. Arch Phys Med Rehabil 84:P883–P889

Desmurget M, Vindras P, Gréa H, Viviani P, Grafton ST (2000) Proprioception does not quickly drift during visual occlusion. Exp Brain Res 134:363–377

Dick MB, Kean ML, Sands D (1988) The preselection effect on the recall facilitation of motor movements in Alzheimer-type dementia. J Gerontol 43:P127–P135

Edin BB (1992) Quantitative analysis of static strain sensitivity in human mechanoreceptors from hairy skin. J Neurophysiol 67:1105–1113

Ferrell WR, Gandevia SC, McCloskey DI (1987) The role of joint receptors in human kinaesthesia when intramuscular receptors cannot contribute. J Physiol 386:63–71

Folstein MF, Folstein SE, McHugh PR (1975) Mini-mental state. A practical method for grading the cognitive state of patients for the clinician. J Psychiatr Res 12:189–198

Forestier N, Teasdale N, Nougier V (2002) Alteration of the position sense at the ankle induced by muscular fatigue in humans. Med Sci Sports Exerc 34:117–122

Gallese V, Fadiga L, Fogassi L, Rizzolatti G (1996) Action recognition in the premotor cortex. Brain 119:593–609

Gandevia SC, McCloskey DI (1976) Joint sense, muscle sense, and their combination as position sense, measured at the distal interphalangeal joint of the middle finger. J Physiol 260:387–407

Gandevia SC, Refshauge KM, Collins DF (2002) Proprioception: peripheral inputs and perceptual interactions. Adv Exp Med Biol 508:61–68

Gandevia SC, Smith JL, Crawford M, Proske U, Taylor JL (2006) Motor commands contribute to human position sense. J Physiol 571:703–710

Gates GA, Mills JH (2005) Presbycusis. Lancet 366:1111–1120

Gescheider GA (1997) Psychophysics: the fundamentals. Lawrence Erlbaum Associates, Mahwah

Gilsing MG, Van den Bosch CG, Lee SG, Ashton-Miller JA, Alexander NB, Schultz AB, Ericson WA (1995) Association of age with the threshold for detecting ankle inversion and eversion in upright stance. Age Ageing 24:58–66

Giorgio A, Santelli L, Tomassini V, Bosnell R, Smith S, De Stefano N, Johansen-Berg H (2010) Age-related changes in grey and white matter structure throughout adulthood. Neuroimage 51:943–951

Glasser A, Campbell MC (1998) Presbyopia and the optical changes in the human crystalline lens with age. Vision Res 38:209–229

Goble DJ (2010) Proprioceptive acuity assessment via joint position matching: from basic science to general practice. Phys Ther 90:1176–1184

Goble DJ, Brown SH (2007) Task-dependent asymmetries in the utilization of proprioceptive feedback for goal-directed movement. Exp Brain Res 180:693–704

Goble DJ, Lewis CA, Hurvitz EA, Brown SH (2005) Development of upper limb proprioceptive accuracy in children and adolescents. Hum Mov Sci 24:155–170

Goble DJ, Hurvitz EA, Brown SH (2009) Deficits in the ability to use proprioceptive feedback in children with hemiplegic cerebral palsy. Int J Rehabil Res 32:267–269

Goble DJ, Noble BC, Brown SH (2010) Where was my arm again? Memory-based matching of proprioceptive targets is enhanced by increased target presentation time. Neurosci Lett 481:54–58

Goble DJ, Coxon JP, Van Impe A, Geurts M, Van Hecke W, Sunaert S, Wenderoth N, Swinnen SP (2011) The neural basis of central proprioceptive processing in older versus younger adults: an important sensory role for right putamen. Hum Brain Mapp. doi: 10.1002/hbm.21257

Goodwin GM, McCloskey DI, Matthews PB (1972) Proprioceptive illusions induced by muscle vibration: contribution by muscle spindles to perception? Science 175:1382–1384

Grady CL, Craik FI (2000) Changes in memory processing with age. Curr Opin Neurobiol 10:224–231

Grigg P, Finerman GA, Riley LH (1973) Joint-position sense after total hip replacement. J Bone Joint Surg Am 55:1016–1025

Head H, Holmes G (1911) Sensory disturbances from cerebral lesion. Brain 34:102–254

Henry FM (1975) Absolute error vs “E” in target accuracy. J Mot Behav 7:227–228

Heuninckx S, Wenderoth N, Debaere F, Peeters R, Swinnen SP (2005) Neural basis of aging: the penetration of cognition into action control. J Neurosci 25:6787–6796

Heuninckx S, Wenderoth N, Swinnen SP (2008) Systems neuroplasticity in the aging brain: recruiting additional neural resources for successful motor performance in elderly persons. J Neurosci 28:91–99

Hillis JM, Watt SJ, Landy MS, Banks MS (2004) Slant from texture and disparity cues: optimal cue combination. J Vis 4:967–992

Hopper KD, Patel S, Cann TS, Wilcox T, Schaeffer JM (1994) The relationship of age, gender, handedness, and sidedness to the size of the corpus callosum. Acad Radiol 1:243–248

Houk JC, Singer JJ, Henneman E (1971) Adequate stimulus for tendon organs with observations on mechanics of ankle joint. J Neurophysiol 34:1051–1065

Hurley M, Rees J, Newham D (1998) Quadriceps function, proprioceptive acuity and functional performance in healthy young, middle-aged and elderly subjects. Age Ageing 27:55–62

Hutchinson S, Kobayashi M, Horkan CM, Pascual-Leone A, Alexander MP, Schlaug G (2002) Age-related differences in movement representation. Neuroimage 17:1720–1728

Johnson JA, Zatorre RJ (2006) Neural substrates for dividing and focusing attention between simultaneous auditory and visual events. Neuroimage 31:1673–1681

Jordan T (1978) Age differences in visual and kinesthetic short-term memory. Percept Mot Skills 46:667–674

Kaplan F, Nixon J, Reitz M, Rindfleish L, Tucker J (1985) Age-related changes in proprioception and sensation of joint position. Acta Orthop Scand 56:72–74

Kararizou E, Manta P, Kalfakis N, Vassilopoulos D (2005) Morphometric study of the human muscle spindle. Anal Quant Cytol Histol 27:1–4

Kingdom FAA, Prins N (2010) Psychophysics: a practical introduction. Academic Press, London

Knill DC, Pouget A (2004) The Bayesian brain: the role of uncertainty in neural coding and computation. Trends Neurosci 27:712–719

Kokmen E, Bossemeyer RW Jr, Williams WJ (1978) Quantitative evaluation of joint motion sensation in an aging population. J Gerontol 33:62–67

Leonard G, Milner B (1995) Recall of self-generated arm movements by patients with unilateral cortical excisions. Neuropsychologia 33:611–622

Levin HS, Benton AL (1973) Age effects in proprioceptive feedback performance. Geront Clin 15:161–169

Li SC, Dinse HR (2002) Aging of the brain, sensorimotor, and cognitive processes. Neurosci Biobehav Rev 26:729–732

Li KZ, Lindenberger U (2002) Relations between aging sensory/sensorimotor and cognitive functions. Neurosci Biobehav Rev 26:777–783

Liu JX, Eriksson PO, Thornell LE, Pedrosa-Domellof F (2005) Fiber content and myosin heavy chain composition of muscle spindles in aged human biceps brachii. J Histochem Cytochem 53:445–454

Loose R, Kaufmann C, Auer DP, Lange KW (2003) Human prefrontal and sensory cortical activity during divided attention tasks. Hum Brain Mapp 18:249–259

Lowrey CR, Strzalkowski ND, Bent LR (2010) Skin sensory information from the dorsum of the foot and ankle is necessary for kinesthesia at the ankle joint. Neurosci Lett 485:6–10

Luce RD (1959) Individual choice behaviour: a theoretical analysis. Wiley, New York

Madhavan S, Shields RK (2005) Influence of age on dynamic position sense: evidence using a sequential movement task. Exp Brain Res 164:18–28

Maravita A, Spence C, Driver J (2003) Multisensory integration and the body schema: close to hand and within reach. Curr Biol 13:R531–R539

Marks R (1996) Further evidence of impaired position sense in knee osteoarthritis. Physiother Res Int 1:127–136

Marks R, Quinney HA, Wessel J (1993) Proprioceptive sensibility in women with normal and osteoarthritic knee joints. Clin Rheumatol 12:170–175

Mattay VS, Fera F, Tessitore A, Hariri AR, Das S, Callicott JH, Weinberger DR (2002) Neurophysiological correlates of age-related changes in human motor function. Neurology 58:630–635

Matthews PB (1982) Where does Sherrington's "muscular sense" originate? Muscles, joints, corollary discharges? Annu Rev Neurosci 5:189–218

Meeuwsen HJ, Sawicki TM, Stelmach GE (1993) Improved foot position sense as a result of repetitions in older adults. J Gerontol 48:P137–P141

Miwa T, Miwa Y, Kanda K (1995) Dynamic and static sensitivities of muscle spindle primary endings in aged rats to ramp stretch. Neurosci Lett 201:179–182

Morasso PG, Baratto L, Capra R, Spada G (1999) Internal models in the control of posture. Neural Netw 12:1173–1180

Morisawa Y (1998) Morphological study of mechanoreceptors on the coracoacromial ligament. J Orthop Sci 3:102–110

Mugge W, Schuurmans J, Schouten AC, van der Helm FC (2009) Sensory weighting of force and position feedback in human motor control tasks. J Neurosci 29:5476–5482

Naccarato M, Calautti C, Jones PS, Day DJ, Carpenter TA, Baron JC (2006) Does healthy aging affect the hemispheric activation balance during paced index-to-thumb opposition task? An fMRI study. Neuroimage 32:1250–1256

Naito E, Roland PE, Grefkes C, Choi HJ, Eickhoff S, Geyer S, Zilles K, Ehrsson HH (2005) Dominance of the right hemisphere and role of area 2 in human kinesthesia. J Neurophysiol 93:1020–1034

Pai YC, Rymer WZ, Chang RW, Sharma L (1997) Effect of age and osteoarthritis on knee proprioception. Arthritis Rheum 40:2260–2265

Pashler HE (1998) The psychology of attention. MIT Press, Cambridge

Personnier P, Paizis C, Ballay Y, Papaxanthis C (2008) Mentally represented motor actions in normal aging II. The influence of the gravito-inertial context on the duration of overt and covert arm movements. Behav Brain Res 186:273–283

Peters M (1988) Footedness: asymmetries in foot preference and skill and neuropsychological assessment of foot movement. Psychol Bull 103:179–192

Peters A (2002) The effects of normal aging on myelin and nerve fibers: a review. J Neurocytol 31:581–593

Petrella R, Lattanzio P, Nelson M (1997) Effect of age and activity on knee joint proprioception. Am J Phys Med Rehabil 76:235–241

Pickard CM, Sullivan PE, Allison GT, Singer KP (2003) Is there a difference in hip joint position sense between young and older groups? J Gerontol A Biol Sci Med Sci 58:631–635

Proske U, Gandevia SC (2009) The kinaesthetic senses. J Physiol 587:4139–4146

Redfern MS, Jennings JR, Martin C, Furman JM (2001) Attention influences sensory integration for postural control in older adults. Gait Posture 14:211–216

Rémy F, Wenderoth N, Lipkens K, Swinnen SP (2010) Dual-task interference during initial learning of a new motor task results from competition for the same brain areas. Neuropsychologia 48:2517–2527

Reuter-Lorenz PA, Lustig C (2005) Brain aging: reorganizing discoveries about the aging mind. Curr Opin Neurobiol 15:245–251

Reuter-Lorenz PA, Stanczak L (2000) Differential effects of aging on the functions of the corpus callosum. Dev Neuropsychol 18:113–137

Robbins S, Waked E, McClaran J (1995) Proprioception and stability: foot position awareness as a function of age and footwear. Age Ageing 24:67–72

Rosant C, Nagel MD, Pérot C (2007) Aging affects passive stiffness and spindle function of the rat soleus muscle. Exp Gerontol 42:301–308

Rosenhall U (1973) Degenerative patterns in the aging human vestibular neuro-epithelia. Acta Otolaryngol 76:208–220

Salo PT, Tatton WG (1993) Age-related loss of knee joint afferents in mice. J Neurosci Res 35:664–677

Schmidt RA, Lee TD (2005) Motor control and learning: A behavioral emphasis. Human Kinetics, Champaign

Schutz RW, Roy EA (1973) Absolute error: the devil in disguise. J Mot Behav 5:141–153

Sherrington CS (1900) The muscular sense. In: Schäfer EA (ed) Textbook of physiology. Pentland, Edinburgh/London, pp 1002–1025

Skinner HB, Barrack RL, Cook SD (1984) Age-related decline in proprioception. Clin Orthop Relat Res 184:208–211

Smith JL, Crawford M, Proske U, Taylor JL, Gandevia SC (2009) Signals of motor command bias joint position sense in the presence of feedback from proprioceptors. J Appl Physiol 106:950–958

Speers RA, Kuo AD, Horak FB (2002) Contributions of altered sensation and feedback responses to changes in coordination of postural control due to aging. Gait Posture 16:20–30

Sperry RW (1950) Neural basis of the spontaneous optokinetic response produced by visual inversion. J Comp Physiol Psychol 43:482–489

Stelmach GE, Sirica A (1986) Aging and proprioception. Age 9:99–103

Stelmach GE, Kelso JA, Wallace SA (1975) Preselection in short-term motor memory. J Exp Psychol Hum Learn 1:745–755

Stephen JM, Knoefel JE, Adair J, Hart B, Aine CJ (2010) Aging-related changes in auditory and visual integration measured with MEG. Neurosci Lett 484:76–80

Stroop JR (1935) Studies of interference in serial verbal reactions. J Exp Psychol 18:643–662

Suprak DN (2011) Shoulder joint position sense is not enhanced at end range in an unconstrained task. Hum Mov Sci 30:424–435

Swash M, Fox KP (1972) The effect of age on human skeletal muscle: studies of the morphology and innervation of muscle spindles. J Neurol Sci 16:417–432

Teasdale N, Stelmach GE, Breunig A (1991) Postural sway characteristics of the elderly under normal and altered visual and support surface conditions. J Gerontol 46:B238–B244

Thelen DG, Brockmiller C, Ashton-Miller JA, Schultz AB, Alexander NB (1998) Thresholds for sensing foot dorsi- and plantarflexion during upright stance: effects of age and velocity. J Gerontol A Biol Sci Med Sci 53:M33–M38

Toole T, Pyne A, McTarsney PA (1984) Age differences in memory for movement. Exp Aging Res 10:205–210

Tsang W, Hui-Chan C (2004) Effects of exercise on joint sense and balance in elderly men: Tai Chi versus golf. Med Sci Sports Exerc 36:658–667

Umiltà MA, Kohler E, Gallese V, Fogassi L, Fadiga L, Keysers C, Rizzolatti G (2001) I know what are you doing: a neurophysiological study. Neuron 31:155–165

van Beers RJ, Baraduc P, Wolpert DM (2002a) Role of uncertainty in sensorimotor control. Philos Trans R Soc Lond B Biol Sci 357:1137–1145

van Beers RJ, Wolpert DM, Haggard P (2002b) When feeling is more important than seeing in sensorimotor adaptation. Curr Biol 12:834–837

Verschueren SM, Brumagne S, Swinnen SP, Cordo PJ (2002) The effect of aging on dynamic position sense at the ankle. Behav Brain Res 136:593–603

von Holst E (1954) Relations between the central nervous system and the peripheral organs. Br J Anim Behav 2:89–94

Vuillerme N, Boisgontier M, Chenu O, Demongeot J, Payan Y (2007) Tongue-placed tactile biofeedback suppresses the deleterious effects of muscle fatigue on joint position sense at the ankle. Exp Brain Res 183:235–240

Walsh LD, Gandevia SC, Taylor JL (2010) Illusory movements of a phantom hand grade with the duration and magnitude of motor commands. J Physiol 588:1269–1280

Westlake K, Wu Y, Culham E (2007) Sensory-specific balance training in older adults: effect on position, movement, and velocity sense at the ankle. Phys Ther 87:560–568

Woollacott M, Shumway-Cook A (2002) Attention and the control of posture and gait: a review of an emerging area of research. Gait Posture 16:1–14

You S (2005) Joint position sense in elderly fallers: a preliminary investigation of the validity and reliability of the SENSERite measure. Arch Phys Med Rehabil 86:346–352