Subscribe to RSS
DOI: 10.1055/s-0035-1564335
Ist das Messen von Widerständen während passiver Bewegung ein zuverlässiges Assessment-Tool?
Systematischer ReviewIs the Measurement of Resistance during Passive Movements a Reliable Assessment Tool?Systematic ReviewPublication History
30 June 2014
01 September 2014
Publication Date:
16 September 2015 (online)
Zusammenfassung
Passive manuelle Bewegungen von Gelenk- und Neuralstrukturen werden häufig mit einem ersten (R 1 = erster fühlbarer Widerstand innerhalb einer passiven Bewegung) und zweiten Widerstand (R2 = fühlbarer Widerstand am Bewegungsende) gemessen.
Die vorliegende Arbeit gibt einen Überblick über die Zuverlässigkeit der Messung von R1 und R2. In den Datenbanken PubMed (Medline), The Cochrane Database, CINAHL und Web of Science wurde in einer systematischen Literaturrecherche nach Diagnostikstudien zu R1 und R2 gesucht und die eingeschlossenen Studien mit dem Quality Appraisal of Reliability Studies Tool (QAREL) bewertet.
Die Ergebnisse zeigten widersprüchliche Reliabilität bei neurodynamischen Tests. Passive Außenrotationen bei Schulterpathologien erzielten eine gute, passive akzessorische intervertebrale Bewegungen (PAIVM) eher eine geringere Reliabilität.
R2 scheint eine höhere Reliabilität als R1 aufzuweisen, und die Intrarater-Reliabilität bei neurodynamischen Tests besser zu sein als die Interrater-Reliabilität. Für die geringe Reliabilität werden verschiedene Ursachen diskutiert. Trotz der methodischen Mängel in einigen Studien scheinen Tests mit größerem Hebel eine höhere Reliabilität zu erreichen als PAIVM.
Abstract
Passive manual movements of articular and neural structures are often assessed using a first (R1 = first perceptible resistance during a passive movement) and second resistance (R2 = perceptible end of range resistance).
This article reviews the reliability of the measurement of R1 and R2. A systematic literature research in the databases PubMed (medline), The Cochrane Database, CINAHL and Web of Science searched for diagnostic studies on R1 and R2. The included studies were evaluated using the Quality Appraisal of Reliability Studies Tool (QAREL).
The results showed inconclusive reliability of neurodynamic tests. Passive external rotation in shoulder pathologies produced good, passive accessory intervertebral movements (PAIVM) rather low reliability.
R2 seems to have a higher reliability than R1, and the intrarater reliability in neurodynamic tests seems to be better than the interrater reliability. Different sources of the poor reliability are discussed. In spite of the methodological deficits in some studies the tests with a larger lever seem to attain better reliability than PAIVM.
-
Literatur
- 1 Abbott JH, McCane B, Herbison P et al. Lumbar segmental instability: a criterion-related validity study of manual therapy assessment. BMC Musculoskeletal Disorders 2005; 6: 56
- 2 Abbott JH, Flynn TW, Fritz JM et al. Manual physical assessment of spinal segmental motion: Intent and validity. Manual Therapy 2009; 14: 36-44
- 3 Anson E, Cook C, Camacho C et al. The Use of an Educational Model in the Improvement of Student Reliability in Finding R1. Journal of Manipulative and Phyisological Therapeutics 2003; 11: 204-212
- 4 Arab AM, Abdollahi I, Joghataei MT et al. Inter- and intra-examiner reliability of single and composites of selected motion palpation and pain provocation tests for sacroiliac joint. Manual Therapy 2009; 14: 213-221
- 5 Bähr M, Frotscher M. Neurologisch-topische Diagnostik: Anatomie – Funktion – Klinik. Stuttgart: Thieme; 2009
- 6 Bartko JJ, Carpenter WT. On the methods and theory of reliability. Journal of Nervous & Mental Disease 1976; 163: 307-317
- 7 Butler DS. Mobilisation des Nervensystems. Berlin: Springer; 2004
- 8 Chesworth BM, MacDermid JC, Roth JH et al. Movement diagram and “end-feel” reliability when measuring passive lateral rotation of the shoulder in patients with shoulder pathology. Physical Therapy 1998; 78: 593-601
- 9 Chiradejnant A, Maher CG, Latimer J. Objective manual assessment of lumbar posteroanterior stiffness is now possible. Journal of Manipulative and Physiological Therapeutics 2003; 26: 34-39
- 10 Cohen LA, Cohen ML. Arthrokinetic Reflex of the Knee. Am J Physiol – Legacy Content 1956; 184: 433-437
- 11 Cook C, Turney L, Ramirez L et al. Predictive Factors in Poor Interrater Reliability Among Physical Therapists. Journal of Manual & Manipulative Therapy 2002; 10: 200-205
- 12 Cook CE. Effectiveness of visual perceptual learning on inter-therapist reliability of lumbar spine mobilization. The Internet Journal of Allied Health Sciences and Practice 2003; 1: 1-9
- 13 Coppieters M, Stappaerts K, Janssens K et al. Reliability of detecting “onset of pain” and “submaximal pain” during neural provocation testing of the upper quadrant. Physiotherapy Research International 2002; 7: 146-156
- 14 De Hertogh WJ, Vaes PH, Vijverman V et al. The clinical examination of neck pain patients: the validity of a group of tests. Manual Therapy 2007; 12: 50-55
- 15 Edwards I, Jones M, Carr J et al. Research Report Clinical Reasoning Strategies in Physical Therapy. Physical Therapy 2004; 84: 312-330
- 16 Ferreira ML, Herbert RD. What does “clinically important” really mean?. The Australian Journal of Physiotherapy 2008; 54: 229-230
- 17 Haas M. Statistical methodology for reliability studies. Journal of Manipulative Physiological Therapeutics 1991; 14: 119-132
- 18 Hall T, Hepburn M, Elvey RL. The Effect of Lumbosacral Posture on a Modification of the Straight Leg Raise Test. Physiotherapy 1993; 79: 566-570
- 19 Hengeveld E, Banks K. Maitlands Manipulation der peripheren Gelenke. München: Urban & Fischer Elsevier; 2007
- 20 Hines T, Noakes R, Otago DP. The Upper Limb Tension Test: Inter-tester Reliability for Assessing the Onset of Passive Resistance R 1. Journal of Manual and Manipulativ Therapy 1993; 1: 95-98
- 21 Ho CyC, Sole G, Munn J. The effectiveness of manual therapy in the management of musculoskeletal disorders of the shoulder: a systematic review. Manual Therapy 2009; 14: 463-474
- 22 Huijbregts PA. Spinal motion palpation: A review of reliability studies. Journal of Manipulative Physiological Therapeutics 2002; 10: 24-39
- 23 Jaberzadeh S, Scutter S, Nazeran H. Mechanosensitivity of the median nerve and mechanically produced motor responses during Upper Limb Neurodynamic Test 1. Physiotherapy 2005; 91: 94-100
- 24 Jull G, Treleaven J, Versace G. Manual examination: is pain provocation a major cue for spinal dysfunction?. The Australian Journal of Physiotherapy 1994; 40: 159-165
- 25 Kulig K, Landel R, Powers CM. Assessment of lumbar spine kinematics using dynamic MRI: a proposed mechanism of sagittal plane motion induced by manual posterior-to-anterior mobilization. The Journal of Orthopaedic and Sports Physical Therapy 2004; 34: 57-64
- 26 Laube W. Sensomotorisches System: Physiologisches Detailwissen für Physiotherapeuten. Stuttgart: Thieme; 2009
- 27 Lee M, Svensson NL. Measurement of stiffness during simulated spinal physiotherapy. Clinical Physics and Physological Measurements 1990; 11: 201-207
- 28 Lee R, Evans J. Load-displacement-time characteristics of the spine under posteroanterior mobilisation. Australian Journal of Physiotherapy 1992; 38: 115-123
- 29 Lucas NP, Macaskill P, Irwig L et al. The development of a quality appraisal tool for studies of diagnostic reliability (QAREL). Journal of Clinical Epidemiology 2010; 63: 854-861
- 30 Lucas N, Macaskill P, Irwig L et al. The reliability of a quality appraisal tool for studies of diagnostic reliability (QAREL). BMC Medical Research Methodology 2013; 13: 111
- 31 MacDermid JC, Chesworth BM, Patterson S et al. Validity of pain and motion indicators recorded on a movement diagram of shoulder lateral rotation. The Australian Journal of Physiotherapy 1999; 45: 269-277
- 32 Maher C, Adams R. Reliability of pain and stiffness assessments in clinical manual lumbar spine examination. Physical Therapy 1994; 74: 801-809 discussion: 809–811
- 33 Maher C. Perception of Stiffness in manipulative physiotherapy. Physiotherapy Theory and Practice 1995; 11: 35-44
- 34 Maher C, Adams R. A psychophysical evaluation of manual stiffness discrimination. Australian Journal of Physiotherapy 1995; 41: 161-167
- 35 Maitland GD. Manipulation der Wirbelsäule. München: Urban & Fischer Elsevier; 2008
- 36 Matyas TA, Bach TM. The Reliability of Selected Techniques in Clinical Arthrometrics. Australian Journal of Physiotherapy 1985; 31: 175-199
- 37 Medin DL. The psychology of learning and motivation. San Diego: Academic Press; 1998
- 38 Moher D, Liberati A, Tetzlaff J et al. PRISMA Group. Preferred reporting items for systematic reviews and meta-analyses: the PRISMA statement. Ann Intern Med 2009; 151: 264-269
- 39 Mootz RD. Intra- and interobserver reliability of passive motion palpation of the lumbar spine. Journal of Manipulative and Physiological Therapeutics 1989; 12: 440-445
- 40 Nee RJ, Butler D. Management of peripheral neuropathic pain: Integrating neurobiology, neurodynamics, and clinical evidence. Physical Therapy in Sport 2006; 7: 36-49
- 41 Pälmke M, Piekartz H. Analyse passiver Bewegungen durch Physiotherapieschüler. Manuelle Therapie 2008; 12: 193-200
- 42 Panzer DM. The reliability of lumbar motion palpation. Journal of Manipulative and Physiological Therapeutics 1992; 15: 518-524
- 43 Petersen SM, Covill LG. Reliability of the radial and ulnar nerve biased upper extremity neural tissue provocation tests. Physiotherapy Theory and Practice 2010; 26: 476-482
- 44 Petty NJ, Maher C, Latimer J et al. Manual examination of accessory movements – seeking R1. Manual Therapy 2002; 7: 39-43
- 45 Von Piekartz HJM. Forschung zum Konzept. In: Bucher-Dollenz G, Wiesner R, (Hrsg). Therapiekonzepte in der Physiotherapie. Stuttgart: Thieme; 2008
- 46 Reisch R, Williams K, Nee RJ. ULNT2 – Median Nerve Bias: Examiner Reliability and Sensory Responses in Asymptomatic Subjects. Journal of Manual and Manipulative Therapy 2005; 13: 44-56
- 47 Schmid AB, Brunner F, Luomajoki H. Reliability of clinical tests to evaluate nerve function and mechanosensitivity of the upper limb peripheral nervous system. BMC Musculoskeletal Disorders 2009; 10: 11
- 48 Shacklock M. Clinical neurodynamics: A New System of Neuromusculoskeletal Treatment. Philadelphia: Saunders Elsevier; 2005
- 49 Shea BJ, Grimshaw JM, Wells GA et al. Development of AMSTAR: a measurement tool to assess the methodological quality of systematic reviews. BMC Medical Research Methodology 2007; 7: 10
- 50 Snodgrass SJ, Rivett DA, Robertson VJ. Manual forces applied during posterior-to-anterior spinal mobilization: a review of the evidence. Journal of Manipulative and Physiological Therapeutics 2006; 29: 316-329
- 51 Streiner GR, Norman DL. Biostatistics: The Bare Essentials. Journal of the American Medical Association 2009; 303: 2260-2264
- 52 Van Trijffel E, Anderegg Q, Bossuyt PM et al. Inter-examiner reliability of passive assessment of intervertebral motion in the cervical and lumbar spine: a systematic review. Manual Therapy 2005; 10: 256-269
- 53 Tuttle N, Barrett R, Laakso L. Postero-anterior movements of the cervical spine: repeatability of force displacement curves. Manual Therapy 2008; 13: 341-348
- 54 Vanti C, Conteddu L, Guccione A et al. The Upper Limb Neurodynamic Test 1: intra- and intertester reliability and the effect of several repetitions on pain and resistance. Journal of Manipulative and Physiological Therapeutics 2010; 33: 292-299