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DOI: 10.1055/s-0029-1242523
Das vegetative Nervensystem und Sport
The Vegetative Nervous System and SportsPublication History
Publication Date:
22 October 2009 (online)
Zusammenfassung
Das vegetative Nervensystem spielt als eines der zentralen Regulationssysteme sowohl im Rahmen einer sportlichen Belastung als auch in den Wirkungsweisen von osteopathischen Behandlungen eine zentrale Rolle. Verschiedene osteopathische Techniken bewirken dabei eine Stimulation des Parasympathikus bzw. Sympathikus. Die regulierende Wirkung von osteopathischen Behandlungen auf das vegetative Nervensystem erklärt so eine Vielzahl der positiven Behandlungserfolge in der osteopathischen Betreuung von Sportlern.
Summary
The vegetative nervous system plays a very important role as one of the central control systems when a sporting strain is present as well as in the mechanisms of osteopathic treatments. Different osteopathic techniques effect a stimulation of the parasympathetic nervous system or the sympathetic nervous system, respectively. The regulating effect of osteopathic treatments on the vegetative nervous system explains a vast number of treatments with a positive success in the osteopathic care of athletes.
Résumé
Le système nerveux végétatif et le sport
Le système nerveux végétatif joue un rôle central que ce soit dans le cadre d'efforts sportifs comme dans les modes d'action de traitements ostéopathiques. Certaines techniques ostéopathiques provoquent une stimulation du parasympathique ou du sympathique. L'effet régulateur de traitements ostéopathiques sur le système nerveux explique ainsi une multitude de bilans positifs obtenus lors d'un suivi ostéopathique des sportifs.
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Literatur
- 1 Arroyo-Morales M, Olea N, Martinez M et al. Effects of myofascial release after high–intensity
exercise: a randomized clinical trial. J Manipulative Physiol Ther 2008; 31: 217-223
MissingFormLabel
- 2 Brennan PC, Kokjohn K, Kaltinger CJ et al. Enhanced phagocytic cell respiratory burst
induced by spinal manipulation: potential role of substance P. J Manipulative Physiol
Ther 1991; 14: 399-408
MissingFormLabel
- 3 Buchheit M, Millet GP, Parisy A et al. Supramaximal training and postexercise parasympathetic
reactivation in adolescents. Med Sci Sports Exerc 2008; 40: 362-371
MissingFormLabel
- 4 Budgell B, Hirano F.. Innocuous mechanical stimulation of the neck and alterations
in heart–rate variability in healthy young adults. Auton Neurosci 2001; 91: 96-99
MissingFormLabel
- 5 Budgell B, Polus B.. The effects of thoracic manipulation on heart rate variability:
a controlled crossover trial. J Manipulative Physiol Ther 2006; 29: 603-610
MissingFormLabel
- 6 Chiu TW, Wright A.. To compare the effects of different rates of application of a
cervical mobilisation technique on sympathetic outflow to the upper limb in normal
subjects. Man Ther 1996; 1: 198-203
MissingFormLabel
- 7 Cottingham JT, Porges SW, Lyon T.. Effects of soft tissue mobilization (Rolfing pelvic
lift) on parasympathetic tone in two age groups. Phys Ther 1988; 68: 352-356
MissingFormLabel
- 8 Delaney JP, Leong KS, Watkins A et al. The short–term effects of myofascial trigger
point massage therapy on cardiac autonomic tone in healthy subjects. J Adv Nurs 2002;
37: 364-371
MissingFormLabel
- 9 Heffernan KS, Fahs CA, Shinsako KK et al. Heart rate recovery and heart rate complexity
following resistance exercise training and detraining in young men. Am J Physiol Heart
Circ Physiol 2007; 293: 3180-3186
MissingFormLabel
- 10 Henley CE, Ivins D, Mills M et al. Osteopathic manipulative treatment and its relationship
to autonomic nervous system activity as demonstrated by heart rate variability: a
repeated measures study. Osteopath Med Prim Care 2008; 2: 7-7
MissingFormLabel
- 11 Knutson GA.. Significant changes in systolic blood pressure post vectored upper cervical
adjustment vs resting control groups: a possible effect of the cervicosympathetic
and/or pressor reflex. J Manipulative Physiol Ther 2001; 24: 101-109
MissingFormLabel
- 12 Petersen VN, Vicenzino B, Wright A.. The effects of a cercvical mobilisation technique
on sympathetic outflow to the upper limb in normal subjects. Physiother Theor Pract
1993; 9: 149-156
MissingFormLabel
- 13 Seiler S, Haugen O, Kuffel E.. Autonomic recovery after exercise in trained athletes:
intensity and duration effects. Med Sci Sports Exerc 2007; 39: 1366-1373
MissingFormLabel
- 14 Selye H.. The Evolution of the Stress Concept. Am Sci 1973; 61: 692-699
MissingFormLabel
- 15 Sterling M, Jull G, Wright A.. Cervical mobilisation: concurrent effects on pain,
sympathetic nervous system activity and motor activity. Man Ther 2001; 6: 72-81
MissingFormLabel
- 16 Teodorczyk-Injeyan JA, Injeyan HS, Ruegg R.. Spinal manipulative therapy reduces
inflammatory cytokines but not substance P production in normal subjects. J Manipulative
Physiol Ther 2006; 29: 14-21
MissingFormLabel
- 17 Tulppo MP, Makikallio TH, Seppanen T, Laukkanen RT, Huikuri HV.. Vagal modulation
of heart rate during exercise: effects of age and physical fitness. Am J Physiol 1998;
274: 424-429
MissingFormLabel
- 18 Urhausen A, Kindermann W.. Diagnosis of overtraining: what tools do we have?. Sports
Med 2002; 32: 95-102
MissingFormLabel
- 19 den Berg FH. Van. Angewandte Physiologie 2. Organsysteme verstehen und beeinflussen.
Stuttgart: Thieme; 2000
MissingFormLabel
- 20 Zhang J, Dean D, Nosco D et al. Effect of chiropractic care on heart rate variability
and pain in a multisite clinical study. J Manipulative Physiol Ther 2006; 29: 267-274
MissingFormLabel