Quantitative Bewegungsanalyse der Rumpfmotorik von Parkinsonpatienten mittels dreidimensionaler Kinematik und Oberflächenelektromyografie

T. Wolfsegger; I. Rotaru; A. M. Schneider; K. Kaspareth; F. T. Aichner

doi:10.1055/s-0030-1265955

Aktuelle Neurologie 2010; 37(9): 461-466
DOI: 10.1055/s-0030-1265955

Originalarbeit

Quantitative Bewegungsanalyse der Rumpfmotorik von Parkinsonpatienten mittels dreidimensionaler Kinematik und Oberflächenelektromyografie

Motion Analysis by Three-Dimensional Trunk Kinematics and Surface Electromyography in Parkinson's DiseaseT. Wolfsegger¹ , I. Rotaru¹ , A. M. Schneider¹ , K. Kaspareth² , F. T. Aichner¹

¹Landes-Nervenklinik Wagner-Jauregg, Universitätslehrkrankenhaus, Abteilung für Neurologie, Linz, Austria
²Universität Salzburg, Institut für Sport- und Bewegungswissenschaft, Salzburg, Austria

Abstract

Zusammenfassung

Hintergrund Im Krankheitsverlauf der Parkinsonerkrankung (PD) werden axiale Defizite als Ausdruck einer reduzierten Rumpfmotorik prominent. Obwohl die Rumpfmotorikstörung progressiv verläuft und die tägliche Aktivität der Patienten beeinträchtigt wird, ist die quantitative Beurteilung noch nicht standardisiert und üblich. Methode Wir verglichen die Rumpfmotorik im 3-dimensionalen Raum mit synchroner Oberflächenelektromyografie (oEMG) von 19 PD-Patienten vom akinetisch-rigiden Subtyp (Hoehn & Yahr: 2–3, UPDRS motor score: 25,5 ± 10,7 in „on” Phase) mit einer altersgemachten Kontrollgruppe. Ergebnisse Die Rumpfbeweglichkeit (Range of Motion) war in frontaler, sagittaler und transversaler Ebene in der PD-Gruppe signifikant reduziert (Mittelwerte für alle Bewegungsrichtungen p < 0,001) mit jeweils signifikant erhöhter Bewegungsvariabilität (p < 0,001) bei reduzierter muskulärer Aktivität (oEMG). Die kinematischen Daten korrelierten nicht mit der täglichen L-Dopa-Dosis in mg. Schlussfolgerung Die 3-dimensionale Rumpfkinematik und die analoge Oberflächenelektromyografie ermöglichen den Klinikern und Therapeuten eine quantitative und objektive Beurteilung der Rumpfmotorik bei PD-Patienten. Der fehlende Einfluss von L-Dopa auf die Rumpfkinematik zeigt die unabhängige Kontrolle des axialen Tonus gegenüber des Extremitätentonus.

Abstract

Background In Parkinson's disease (PD) an axial deficit is common and expressed as trunk rigidity. Objective quantification of trunk rigidity is not part of routine clinical care of PD patients, although the subjective rating of rigidity may substantially differ between examiners. Method We compared the trunk performance of 19 akinetic-rigid PD patients (Hoehn & Yahr scale: 2–3, UPDRS motor score: 25.5 ± 10.7 during best „on”) and matched healthy control subjects (C) with 3D kinematics and surface electromyography (sEMG). Results In PD we found significantly reduced trunk amplitudes in sagittal, frontal and transversal planes (p < 0.001) with also significantly higher movement variability in all directions (p < 0.001). PD patients had reduced muscle activity (sEMG amplitude) in the erector trunci muscle and abdominal external oblique muscles on both sides. None of the biomechanical data correlated with the daily levodopa medication. Conclusion The 3D trunk kinematic and sEMG may represent a useful and easy handling tool for clinicians and therapists to quantify and objectively evaluate trunk function in PD patients. The absence of a levodopa effect on axial trunk performance suggests that neural circuits distinct from those controlling tone in the extremities may control axial tone.

Schlüsselwörter

Parkinsonerkrankung - Rumpfmotorik - 3D-Kinematik - Oberflächenelektromyografie

Keywords

Parkinson's disease - trunk movements - 3D kinematics - surface electromyography

Full Text

References

Literatur

1 Steiger M J, Thompson P D, Marsden C D. Disordered axial movement in Parkinson's disease. J Neurol Neurosurg Psychiatry. 1996; 61 645-648
2 Stack E, Jupp K, Ashburn A. Developing methods to evaluate how people with Parkinson's disease turn 180 degrees: an activity frequently associated with falls. Disabil Rehabil. 2004; 26 478-484
3 Verheyden G, Willems A M, Ooms L. et al . Validity of the trunk impairment scale as a measure of trunk performance in people with Parkinson's disease. Arch Phys Med Rehabil. 2007; 88 1304-1308
4 Nikfekr E, Kerr K, Attfield S. et al . Trunk movement in Parkinson's disease during rising from seated position. Mov Disord. 2002; 17 274-282
5 Fahn S, Elton R L. Members of the UPDRS development committee, 1987. Unified Parkinson's disease Rating Scale. In: Fahn S, Marsden CD, Calne DB, Goldstein M, eds Recent Developments in Parkinson's Disease. Vol 2. Florham Park NJ; Macmillan Health Care 1987: 153-163, 293–304
6 Teräväinen H, Tsumi J KC, Mak E. et al . Optimal indices for testing parkinsonian rigidity. Can J Neurol Sci. 1989; 16 180-183
7 Bridgewater K J, Sharpe M H. Trunk muscle performance in early Parkinson's disease. Phys Ther. 1998; 78 566-576
8 Huxham F, Baker R, Morris M E. et al . Head and trunk rotation during walking turns in Parkinson's disease. Mov Disord. 2008; 23 1391-1397
9 Vaugoyeau M, Viallet F, Aurenty R. et al . Axial Rotation in Parkinson's disease. J Neurol Neurosurg Psychiatry. 2006; 77 815-821
10 Wright W G, Gurfinkel V S, Nutt J. et al . Axial hypertonicity in Parkinson's disease: direct measurements of trunk and hip torque. Exp Neurol. 2007; 208 38-46
11 Mak M KY, Wong E CY, Hui-Chan C W. et al . Quantitative measurement of trunk rigidity in parkinsonian patients. J Neurol. 2007; 254 202-209
12 Hughes A J, Daniel S E, Kilford L. et al . Accuracy of clinical diagnosis of idiopathic Parkinson's disease: a clinico-pathological study of 100 cases. J Neurol Neurosurg Psychiatry. 1992; 55 181-184
13 Allen N E, Canning C G, Sherrington C. et al . Bradykinesia, muscle weakness and reduced muscle power in Parkinson's disease. Mov Disord. 2009; 24 1344-1351
14 Berardelli A, Rothwell J C, Thompson P D. et al . Pathophysiology of bradykinesia in Parkinson's disease. Brain. 2001; 124 2131-2146
15 Gabell A, Nayak U S. The effect of age on variability in gait. J Gerontol. 1984; 39 662-666
16 Tatton W G, Lee R G. Evidence for abnormal long-loop reflexes in rigid Parkinsonian patients. Brain Res. 1975; 100 671-676
17 Dietz V, Quintern J, Berger W. Electrophysiological studies of gait in spasticity and rigidity. Evidence that altered mechanical properties of muscle contributes to hypertonia. Brain. 1981; 104 431-449
18 Marsden C D. The mysterious motor function of the basal ganglia: the Robert Wartenberg Lecture. Neurology. 1982; 32 514-539
19 Hausdorff J M, Cudkowicz M E, Firtion R. et al . Gait variability and basal ganglia disorders: stride-to-stride variations of gait cycle timing in Parkinson's disease and Huntington's disease. Mov Disord. 1998; 13 428-437
20 Nieuwboer A, Dom R, De Weerdt W. et al . Electromyographic profiles of gait prior to onset of freezing episodes in patients with Parkinson's disease. Brain. 2004; 127 1650-1660
21 Pääsuke M, Ereline J, Gapeyeva H. et al . Leg-extension strength and chair-rise performance in elderly women with Parkinson's disease. J Aging Phys Act. 2004; 12 511-524
22 Umapathi T, Chaudhry V, Cornblath D. et al . Head drop and camptocormia. J Neurol Neurosurg Psychiatry. 2002; 73 1-7
23 Margraf N G, Wrede A, Rohr A. et al . Camptocormia in idiopathic Parkinson's disease: a focal myopathy of the paravertebral muscles. Mov Disord. 2010; 5 542-551
24 Spuler S, Krug H, Klein C. et al . Myopathy causing camptocormia in idiopathic Parkinson's disease: a multidisciplinary approach. Mov Disord. 2010; 25 552-559
25 Bloem B R, Grimbergen Y A, van Dijk J G. et al . The „posture second” strategy: a review of wrong priorities in Parkinson's disease. J Neurol Sci. 2006; 248 196-204
26 Joya J E, Kee A J, Nair-Shalliker V. et al . Muscle weakness in a mouse model of nemaline myopathy can be reversed with exercise and reveals a novel myofiber repair mechanism. Hum Mol Genet. 2004; 13 2633-2645
27 Bejjani B P, Gervais D, Arnulf I. et al . Axial parkinsonian symptoms can be improved: the role of levodopa and bilateral subthalamic stimulation. J Neurol Neurosurg Psychiatry. 2000; 68 595-600
28 Adkin A L, Frank J S, Jog M S. Fear of falling and postural control in Parkinson's disease. Mov Disord. 2003; 18 496-502
29 Meara R J, Cody F W. Relationship between electromyographic activity and clinically assessed rigidity studied at the wrist joint in Parkinson's disease. Brain. 1992; 115 1167-1180

Mag. rer. nat. Thomas Wolfsegger

Landes-Nervenklinik Wagner-Jauregg, Universitätslehrkrankenhaus

Wagner-Jauregg-Weg 15

4020 Linz, Austria

Email: thomas.wolfsegger@gespag.at