Tonustest der tiefen subokzipitalen Muskeln
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  • 作者:Dr. U. Moser
  • 关键词:Muscle tonus ; Cranium ; Musculoskeletal system ; Osteopathic manipulation ; Soft tissue therapy
  • 刊名:Manuelle Medizin
  • 出版年:2016
  • 出版时间:April 2016
  • 年:2016
  • 卷:54
  • 期:2
  • 页码:109-114
  • 全文大小:860 KB
  • 参考文献:1.Adkins DL, Boychuk J, Remple MS et al (2006) Motor training induces experience-specific patterns of plasticity across motor cortex and spinal cord. J Appl Physiol 101:1776–1782CrossRef PubMed
    2.Arbuckle BE (1994) The selected writings of Beryl E. Arbuckle, DO, FACOP. American Academy of Osteopathy, Indianapolis
    3.Bullitt E (1994) Immediate-early genes and chronic pain. APS J 3(1):53–53CrossRef
    4.Denslow JS, Korr IM, Krems AD (1947) Quantitive studies of chronic facilitation in the human motoneuron pool. Am J Physiol 150(2):229–238PubMed
    5.Eccles JC, Eccles RM, Lundberg M (1957) The convergence of monosynaptic excitatory afferents on to many different species of alpha motoneurones. J Physiol 137:22–50CrossRef PubMed PubMedCentral
    6.Ernst E (2012) Craniosacral therapy: a systematic review of the clinical evidence. Focus Altern Complement Ther 17(4):197–201CrossRef
    7.Green C, Martin CW, Bassett K et al (1999) A systematic review of craniosacral therapy: biological plausibility, assessment reliability and clinical effectiveness. Complement Ther Med 7(4):201–207CrossRef PubMed
    8.Hamdy S, Rothwell JC, Aziz Q et al (1998) Long-term reorganization of human motor cortex driven by short-term sensory stimulation. Nat Neurosci 1:64–68CrossRef PubMed
    9.Hartman SE, Norton JM (2002) Interexaminer reliability and cranial osteopathy. Sci Rev Altern Med 6(1):23–34
    10.Hasenkamp W, Barsalou LW (2012) Effects of meditation experience on functional connectivity of distributed brain networks. Front Hum Neurosci 6:1–14CrossRef
    11.Henry DE, Chiodo AE, Yang W (2011) Central nervous system reorganization in a variety of chronic pain states: a review. PM R 3:1116–1125CrossRef PubMed
    12.Hubka MJ, Phelan SP (1994) Interexaminer reliability of palpation for cervical spine tenderness. J Manipulative Physiol Ther 17(9):591–595PubMed
    13.Jäkel A, von Hauenschild P (2011) Therapeutic effects of cranial osteopathic manipulative medicine: a systematic review. J Am Osteopath Assoc 111(12):685–693PubMed
    14.Korr IM (1947) The neural basis of the osteopathic lesion. J Am Osteopath Assoc 47(4):191–198PubMed
    15.von Lanz T, Wachsmuth W (1982) Praktische Anatomie. Ein Lehr- und Hilfsbuch der anatomischen Grundlagen ärztlichen Handelns. Erster Band. Erster Teil: Kopf. Teil A: Übergeordnete Systeme. Springer, Berlin
    16.Liu XG, Morton CR, Azkue JJ et al (1998) Long-term depression of C‑fibre-evoked spinal field potentials by stimulation of primary afferent Aβ-fibres in the adult rat. Eur J Neurosci 10:3069–3075CrossRef PubMed
    17.Magoun HI (1951) Osteopathy in the cranial field. 1st ed. Journal Printing Company, Kirksville
    18.McPartland JM, Mein EA (1997) Entrainment and the cranial rhythmic impulse. Altern Ther Health Med 3(1):40–45PubMed
    19.McPartland JM et al (2005) The biodynamic model of osteopathy in the cranial field. Explore (NY) 1(1):21–32CrossRef
    20.Melzack R (2005) Evolution of the neuromatrix theory of pain. The Prithvi Raj Lecture, presented at the third World Congress of World Institute of Pain, Barcelona 2004. Pain Pract 5(2):85–94CrossRef PubMed
    21.Melzack R, Wall (1965) Pain mechanisms: a new theory. Science 150:971–979CrossRef PubMed
    22.Munglani R, Hunt S (1995) Molecular biology of pain. Br J Anaesth 75:186–192CrossRef PubMed
    23.Nilsson N (1995) Measuring cervical muscle tenderness: a study of reliability. J Manipulative Physiol Ther 18(2):88–90PubMed
    24.Pelletier R, Higgins J, Bourbonnais D et al (2015) Is neuroplasticity in the central nervous system the missing link to our understanding of chronic musculoskeletal disorders? BMC Musculoskelet Disord 16:25–38CrossRef PubMed PubMedCentral
    25.Pelz H (2015) Inhärente Rhythmen – komplexe psychophysische Synergismen durch Synchronisation. Osteopath Med 16(3):18–24CrossRef
    26.Popper K (2005) Logik der Forschung. Mohr/Siebeck, Tübingen
    27.Porreca F, Ossipov MH, Gebhart GF (2002) Chronic pain and medullary descending facilitation. Trends Neurosci 25:319–325CrossRef PubMed
    28.Sandkühler J (2000) Learning and memory in pain pathways. Pain 88:113–118CrossRef PubMed
    29.Sandkühler J (2001) Schmerzgedächtnis. Dtsch Arztebl 98(42):A2725
    30.Schneider GM et al (2013) Intrarater and Interrater reliability of select clinical tests in patients referred for diagnostic facet joint blocks in the cervical spine. Arch Phys Med Rehabil 94(8):1628–1634CrossRef PubMed
    31.Schwartz JM (1999) A role for volition and attention in the generation of new brain circuitry. Toward a neurobiology of mental force. J Conscious Stud 6:8–9
    32.Sheng M, Greenberg ME (1990) The regulation and function of c‑fos and other immediate early genes in the nervous system. Neuron 4(4):477–485CrossRef PubMed
    33.Simonetti M, Hagenston AM, Vardeh D et al (2013) Nuclear calcium signaling in spinal neurons drives a genomic program required for persistent inflammatory pain. Neuron 77:43–57CrossRef PubMed PubMedCentral
    34.Sutherland WG (1939) The cranial bowl. Free Press Company, USA
    35.Todd AJ, Carroll MT, Robinson A et al (2015) Adverse events due to chiropractic and other manual therapies for infants and children: A review of the literature. J Manipulative Physiol Ther 38(9):699–712CrossRef PubMed
    36.Tyc F, Boyadjian A, Devanne H (2005) Motor cortex plasticity induced by extensive training revealed by transcranial magnetic stimulation in human. Eur J Neurosci 21:259–266CrossRef PubMed
    37.Upledger JE, Vredevoogd JO (1983) Craniosacral therapy. Eastland, Chicago
  • 作者单位:Dr. U. Moser (1)

    1. Marktplatz 2, 63920, Großheubach, Deutschland
  • 刊物类别:Medicine
  • 刊物主题:Medicine & Public Health
    Chiropractic Medicine
    Orthopedics
    Conservative Orthopedics
    Rehabilitation
    Sports Medicine
  • 出版者:Springer Berlin / Heidelberg
  • ISSN:1433-0466
文摘
Background According to Sutherland’s original model of cranial osteopathy, intrinsic rhythmic movements of the human brain cause rhythmic fluctuations of cerebrospinal fluid and specific rhythmic changes in dural membranes, cranial bones and the sacrum (i.e. primary respiratory mechanism, PRM). The model is based on the assumption that these rhythmic fluctuations are palpable and can be modified to improve the patient’s health; however, the studies published to date do not suggest the existence of a PRM. A convincing interexaminer reliability has not yet been shown, and there is no scientifically convincing evidence for a clinical effect going beyond a placebo effect.
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