Zusammenfassung
Narben, Verklebungen und Adhäsionen sind Begriffe, die häufig in einem ähnlichen Kontext verwendet werden. Besonders für die manuelle Therapie ist es jedoch von großer Bedeutung, diese Strukturen zu unterscheiden und zu erkennen, warum sich peritoneale Adhäsionen, fasziale Verklebungen und Narben überhaupt so massiv auf den Körper auswirken. Gerade peritoneale Adhäsionen bleiben oft unentdeckt. Was das für die Therapie bedeutet, und inwieweit es möglich ist, diese Strukturen auch nach jahrelangem Bestehen noch zu verändern, wird in diesem Kapitel behandelt. Ein kurzer Abriss über Anatomie, Physiologie, Pathophysiologie und Gleiteigenschaften des Gewebes soll die Voraussetzung dafür schaffen, den Fokus bei der Behandlung mit dem Liedler-Konzept im besten Verständnis adäquat setzen zu können.
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Abu-Hijleh M, Dharap AS, Harris PF (2014) Fascia superficialis. In: von Schleip R, Findley TW, Chaltow L, Huijing PA (Hrsg) Lehrbuch Faszien, 1. Aufl. Elsevier GmbH, München, S 15–18
Arung W, Meurisse M, Detry O (2011) Pathophysiology and prevention of postoperative peritoneal adhesions. World J Gastroenterol 17(41):4545–4553
Asmussen PD, Söllner B (2010) Die Prinzipien der Wundheilung, Bd. Sonderausgabe. Kammerlander, Embrach
Atance J, Yost MJ, Carver W (2004) Influence of the extracellular matrix on the regulationof cardiac fibroblast behavior by mechanical stretch. J Cell Physiol 200:377–386
van Baal JOAM, Van de Vijver KK, Niewland R, Van Noorden CJF et al (2016) The histophysiology and pathophysiology of the peritoneum. Tissue Cell 49:95–105
Balestrini JL, Biliar KL (2006) Equibiaxial cyclic stretch stimulates fibroblasts to rapidly remodel fibrin. J Biomech 39:2983–2990
Betrán AP, Merialdi M, Lauer JA et al (2007) Rates of caesarean section: analysis of global, regional and national estimates. Paediatr Perinat Epidemiol 21(2):98–113
Bordoni B, Zanier E (2014) Clinical and symptomatological reflections: the fascial system. J Multidiscip Healthc 7:401–411
Bouffard NA, Cutroneo K, Badger GJ et al (2008) Tissue stretch decreases soluble TGF-β1 and Type-1 procollagen in mouse subcutaneous connective tissue: evidence from ex vivo and in vivo models. J Cell Physiol 214(2):389–395
Breul R (2014) Die tiefen Faszien im Hals- und vorderen Rumpfbereich. In: von Schleip R, Findley TW, Chaltow L, Huijing PA (Hrsg) Lehrbuch Faszien, 1. Aufl. Urban & Fischer, München, S 33–38
ten Broek RPG, Issa Y, van Santbrink EJP et al (2013) Burden of adhesions in abdominal and pelvic surgery: systemic review and met-analysis. BMJ 347:f5588
Brokelman WJA, Lensvelt M, Borel Rinkes IHM, Klinkenbijl JHG et al (2011) Peritoneal changes due to laparoscopic surgery. Surg Endosc 25:1–9
Brüggmann D, Tschartchian G, Wallwiener M, Münstedt K et al (2010) Intra-abdominal adhesions definition, origin, significance in surgical practice, and treatment options. Dtsch Ärztebl int 107(44):769–775
Burridge K, Guilluy C (2016) Focal adhesions, stress fibers and mechanical tension. Exp Cell Res 343:14–20
Cao TV, Hicks MR, Standley PR (2013) In vitro biomechanical stain regulation of fibroblast wound healing. J Am Osteopath Assoc 113(11):806–818
Cao TV, Hicks MR, Zein-Hammoud M et al (2014) Duration and magnitude of myofascial release in 3-dimensional bioengineered tendons: effects on wound healing. J Am Osteopath Assoc 115(2):72–84
Cao TV, Hicks MR, Zein-Hammoud M, Standley PR (2015) Duration and magnitude of myofascial release in 3-dimensional bioengineered tendons: effects on wound healing. J Am Osteopath Assoc 115(2):72–82
Capella-Monsonís H, Kearns S, Kelly J (2019) Battling adhesions: from understanding to prevention. BMC Biomed Eng 1:5
Carano A, Siciliani G (1996) Effects of continuous and intermittend forces on human fibroblasts in vitro. Eur J Orthod 18(1):19–26
Chamorro Comesaña A, del Pilar Suarez Vicente M, Ferreira TD et al (2017) Effect of myofascial induction therapy on post-c-section scars, more than one and a half years old. Pilot study. J Bodyw Mov Ther 21:197–204
Cheatham ML (2009) abdominal compartment syndrome: pathophysiology and definitions. Scand J Trauma, Resusc Emerg Med 17(10). https://doi.org/10.1186/1757-7241-17-10
Chen CS, Mrksich M, Huang S, Whitesides GM et al (1997) Geometric control of cell life and death. Science 276:1425–1428
Cheong YC, Laird SM, Shelton JB et al (2001) Peritoneal healing and adhesion formation/reformation. Hum Reprod Update 7(6):556–566
Coccolini F, Ansaloni L, Manfredi R et al (2013) Peritoneal adhesion index (PAI): proposal of a score for the ‚ignored iceberg’ of medicine and surgery. World J Emerg Surg 8:1–6
Corona R, Verguts J, Schonman R (2011) Postoperative inflammation in the abdominal cavity increases adhesion formation in a laparoscopic mouse model. Fertil Steril 95(4):1224–1228
Correa-Gallegos D, Jiang D, Christ S, Ramesh P, Ye H, Wannemacher J, Gopal SK, et al (2019) proposal of a score for the urgerya score for themeNature. https://doi.org/10.1038/s41586-019-1794-y
Cowman MK, Schmidt TA, Raghavan P, Stecco A (2015) Viscoelastic properties of hyaluronan in physiological conditions. F1000Research 4(655). https://doi.org/10.12688/f1000research.6885.1
Darby IA, Skalli O, Gabbiani G (1990) A-smooth muscle actin is transiently expressed by myofibroblasts during experimental wound healing. Lab Investig 63(1):21–29
Darby IA, Laverdet B, Bonté F (2014) Fibroblasts and myofibroblasts in wound healing. Clin Cosmet Investig Dermatol 7:301–311
Deutzmann R, Bruckner P (2014) Extrazelluläre Matrix − Struktur und Funktion. In: von Heinrich P, Müller M, Graeve L (Hrsg) Löffler/Petrides Biochemie und Pathochemie. Springer-Lehrbuch. Springer, Berlin/Heidelberg, S 931–935
Deyo RA, Weinstein JN (2001) Low back pain. N Engl J Med 344(5):363–370
DiZerega GS (2000) Peritoneum, peritoneal healing, and adhesion formation. Peritoneal surgery. Bd Peritoneal surgery. Springer, New York, S 3–37
DiZerega GS, Campeau JD (2001) Peritoneal repair and post-surgical adhesion formation. Hum Reprod Update 7:547–555
DiZerega GS, Rogers KE (1992) The peritoneum, Bd 1. Springer, New York, S 1–23
Dodd JG, Good MM, Nguyen TL, Grigg AI et al (2006) In vitro biophysical strain model for understanding mechanisms of osteopathic manipulative treatment. J Am Osteopath Assoc 106(3):157–166
Duron J-J (2007) Postoperative intraperitoneal adhesion pathophysiology. Assoc Coloproctology G B Irel 9(2):14–24
Engler AJ, Shamik S, Lee Sweeney H, Discher DE (2006) Matrix elasticity directs stem cell lineage specification. Cell 126:677–689
Fede C, Angelini A, Stern R, Macchi V et al (2018) Quantification of hyaluronan in human fasciae: variations with function and anatomical site. J Anat 233(4):552–556. https://doi.org/10.1111/joa.12866
Fernández-de-las-Peñas C, Dommerholt J (2014) Myofascial trigger points: peripheral or central phenomenon? Curr Rheumatol Rep 16:395
Ferron FR, Pedregosa AT, Garcia MR, Mata AF et al (2011) Presion intraabdominal y toracica en pacientes criticos con sospecha de hipertension intraabdominal. Med Int 35(5):274–279
Fourie WJ (2014) Operationen und Narbenbildung. In: von Schleip R, Findely TW, Chaitow L, Huijing PA (Hrsg) Lehrbuch Faszien, 1. Aufl. Elsevier GmbH, München, S 308–315
Fuller RB (1961) Tensegrity. Portfolio Art News 4:112–127
Gabbiani G (2003) The myofibroblast in woud healing and fibrocontractive dieseases. J Pathol 200(4):500–503
Gardel ML, Sabass B, Li J, Danuser G, Schwartz US, Waterman CM (2008) Traction stress in focal adhesions correlates biphasically with actin retrograde flow speed. J Cell Biol 183:999–1005
Geiger B, Bershadsky A, Pankov R, Yamada KM (2001) Transmembrane crosstalk between the extracellular matrix-cytoskeleton crosstalk. Nat Rev Mol Cell Biol 2:793–805
Ghahiry A, Rezaei F, Khouzani RK, Ashrafinia M (2012) Comparative analysis of long-term outcomes of Misgav-Ladach technique cesarean section and traditional cesarean section. J Obstet Gynaecol Res 38(10):1235–1239
Gold MS, Gebhart GF (2010) Nociceptor sensitization in pain pathogenesis. Nat Med 16(11):1.248–1.257
Grinnell F (1994) Mini-review on the cellular mechanisms of disease. J Cell Biol 124:401–404
Grinnell F (2003) Fibroblast biology in three-dimensional collagen matrices. Trends Cell Biol 13(5):264–269
Guimberteau JC (2014) Das subkutane und epitendinöse Gewebe des multimikrovakuolären Gleitsystems. In: von Schleip R, Findely TW, Chaitow L, Huijing PA (Hrsg) Lehrbuch Faszien, 1. Aufl. Urban & Fischer, München, S 106–108
Guimberteau JC, Armstrong C (2016) Faszien Architektur des menschlichen Fasziengewebes, 1. Aufl. KVM − Der Medizinverlag, Berlin
Guimberteau JC, Bakhach J, Panconi B, Rouzaud S (2007) A fresh look at vascularized flexor tendon transfers: concept, technical aspects and results. J Plast Reconstr Aesthet Surg 60(7):793–810
Guimberteau JC, Delage JP, Mcgrouther DA, Wong JKF (2010) The microvacuolar system: how connective tissue sliding works. J Hand Surg 35:614–622l. Abschn. 8
Hartmann C (2005) Das große Still-Kompendium, Bd 1, 2. Aufl. Jolandos, Unterwössen
Healy JC, Reznek RH (1998) The peritoneum, mesenteries and omenta: normal anatomy and pathological processes. Eur Radiol 8:886–900
Helsmoortel J, Hirth T, Wührl P (2002) Lehrbuch der viszeralen Osteopathie Peritoneale Organe. GeorgThieme, Stuttgart
von Heymann W, Stecco C (2016) Fasziale Dysfunktionen. Man Med 54:303–306. https://doi.org/10.1007/s00337-016-0172-1
Hinz B, Gabbiani G (2003a) Cell-matrix and cell-cell contacts of myofibroblasts: role in connective tissue remodeling. Thromb Haemost 90:993–1002
Hinz B, Gabbiani G (2003b) Mechanisms of force generation and transmission by myofibroblasts. Curr Opin Biotechnol 14:538–546
Hinz B, Mastrangelo D, Iselin CE, Chaponnier C, Gabbiani G (2001) Mechanical tension controls granulation tissue contractile activity and myofibroblast differentiation. Am J Pathol 159(3):1009–1020
Hinz B, Phan SH, Thannickal VJ, Prunotto M et al (2012) Review recent developments in myofibroblast biology paradigms for connective tissue remodeling. Am J Pathol 180(4):1340–1355
Huijing PA (2014a) Kraftübertragung und Muskelmechanik. In: von Schleip R, Findely TW, Chaitow L, Huijing PA (Hrsg) Lehrbuch Faszien, 1. Aufl. Urban & Fischer, München, S 82–83
Huijing PA (2014b) Myofasziale Kraftübertragung − Eine Einführung. In: von Schleip R, Findely TW, Chaitow L, Huijing PA (Hrsg) Lehrbuch Faszien, 1. Aufl. Urban & Fischer, München, S 84–88
Huss S, Wentzel B (2015) Diaphragmen und die Zirkulation. Haug, Stuttgart
Hynes RO (2009) Extracellular matrix:not just pretty fibrils. Science 326(5957):1216–1219
Ingber DE (1997) Integrins, tensegrity, and mechanotransduction. Gravit Space Res 10:2
Ingber DE (1998) The architecture of life. Sci Am 278(1):48–57
Ingber DE (2003a) Mechanobiology and diseased of mechanotransduction. Ann Med 35:1–14
Ingber DE (2003b) Tensegrity I. Cell structure and hierarchical systems biology. J Cell Sci 116:1157–1173
Ingber DE (2003c) Tensegrity II. How structural networks influence cellualr informaiton processing networks. J Cell Sci 116:1397–1408
Ingber DE (2006) Cellular mechanotransduction: putting all the pieces together again. FASEB J 20:815–827
Ingber DE (2008a) Tensegrity and mechanotransduction. J Bodyw Mov Ther 12:198–200
Ingber DE (2008b) Tensegrity-based mechanosensing from macro to micro. Prog Biophys Mol Biol 97(2–3):163–179
Jungbauer S, Gao H, Spatz JP, Kemkemer R (2008) Two characteristic regimes in frequency-dependent dynamic reorientation of fibroblasts on cyclically stretched substrates. Biophys J 95:3470–3478
Kawabata M, Shima N, Nishizono H (2014) Regular change in spontaneous preparative behaviour on intra-abdominal pressure and breathing during dynamic lifting. Eur J Appl Physiol 114:2233–2239
Kjaer M, Langberg H, Bayer ML, Hansen M et al (2009) From mechanical loading to collagen synthesis, structural changes and function in human tendon. Scand J Med Sci Sports 19:500–510
Kumar S, Maxwell IZ, Heisterkamp A, Polte TR et al (2006) Viscoelastic retraction of single living stress fibers and its impact on cell shape, cytoskeletal organization, and extracellular matrix mechanics. Science 90(10):3762–3773
Kwei S, Stavrakis G, Masaya T, Judah Folkman M et al (2004) Early adaptive responses of the vascular wall during venous arterialization in mice. Am J Pathol 164(1):81–89
Lackner I (2017) The pathophysiology of postoperative peritoneal adhesions- osteopathy as a treatment option? Literaturstudie, DUK, Krems
Lancerotto L, Stecco C, Macchi V, Porzionato A et al (2011) Layers of the abdominal wall: anatomical investigation of subcutaneaous tissue and superficial fascia. Surg Radiol Anat. https://doi.org/10.1007/s00276-010-0772-8
Langevin HM, Sherman KJ (2007) Pathophysiological model for chronic low back pain integrating connective tissue and nervous system mechanisms. Med Hypotheses 68:74–80
Langevin HM, Cornbrooks C, Taatjes DJ (2004) Fibroblast form a body-wide cellular network. Histochem Cell Biol 122:7–15
Langevin HM, Bouffard NA, Badger GJ, Iatridis JC, Howe AK (2005) Dynamic fibroblast cytoskeletal respose to subcutaneous tissue stretch ex vivo and in vivo. Am J Phys Cell Phys 288(C):747–756
Langevin HM, Stevens-Tuttle D, Fox JR, Badger GJ, Bouffard NA, Krag MH, Henry SM et al (2009) Ultrasound evidence of altered lumbar connective tissue structure in human subjects with chronic low back pain. BMC Musculoskeletal Disord 10(1):151
Langevin, HM, Fox JR, Koptiuch C, Badger GJ et al (2011) Reduced thoracolumbar fascia shear strain in human chronic low back pain. BMC Musculoskeltal Disord 12(203):1–11
Levin SM, Martin D-C (2012) Biotensegrity: the mechanics of fascia. Fascia e the tensional network of the human body. In: The Science and clinical applications in manual and movement therapy. Elsevier GmbH, Edinburgh, S 137–42
Levin SM, Martin D-C (2014) Biotensegrität-die Faszienmechanik. In: von Schleip R, Findely TW, Chaitow L, Huijing PA (Hrsg) Lehrbuch Faszien, 1. Aufl. Urban & Fischer, München, S 101–105
Liedler M (2017) Einfluss von postoperativen Adhäsionen nach Sektio auf chronischen Low Back Pain − eine Pilotstudie. Masterthese, DUK, Krems
Liem T (2005) Kraniosakrale Osteopathie, 4. Aufl. Hippokrates, Stuttgart
Liem T, Vogt R (2014) Intrakranialle und intraspinale Membranstrukturen. In: von Schleip R, Findely TW, Chaitow L, Huijing PA (Hrsg) Lehrbuch Faszien, 1. Aufl. Urban & Fischer, München, S 42–48
Lindig P (1922) Über die Entstehung, Bedeutung und Behandlung von Adhäsionen im Beckenbauchraum. Klin Wochenzeitschrift 1(22):421–423
Mage G, Wattiez A, Canis M, Pouly JL et al (2000) Classification of adhesions. In: von DiZerega GS (Hrsg) Peritoneal surgery. Springer, New York, S 221–228
Margetts PJ, Bonniaud P (2003) In-depth review basis mechanisms and clinical implications of peritoneal fibrosis. Perit Dial Int 23:530–541
Matteini P, Dei L, Carretti E, Volpi N et al (2009) Structural behavior of highly concentrated hyaluronan. Biomacromolecules 10:1516–1522
McCombe D, Brown T, Slavin J, Morrison WA (2001) The histochemical structure of the deep fascia and its structural response to surgery. Journal of Hand Surgery 26B(2):89–97
McNeilly M, Banes AJ, Benjamin M, Ralphs JR (1996) Tendon cells in vivo form a three dimensional network of cell processes linked by gap junctions. J Anat 189:593–600
Meert GF (2009) Das Becken aus osteopathischer Sicht, 3. Aufl. Urban & Fischer, München
Meert GF (2014) Strömungsdynamik im Fasziengewebe. In: von Schleip R, Findely TW, Chaitow L, Huijing PA (Hrsg) Lehrbuch Faszien, 1. Aufl. Urban & Fischer, München, S 131–134
Melichar B, Freedman RS (2002) Immunology of the peritoneal cavity: relevance for host-tumor relation. Int J Gynecol Cancer 12:3–17
Menzies D, Ellis H (1990) Intestinal obstruction from adhesions − how big is the problem? Ann R Coll Surg Engl 72:60–63
Milanesi R, Aquino RC (2016) Intra-abdominal pressure: an integrative review. Einstein (Sao Paulo) 14(3):423–430
Molinas CR, Binda MM, Manavella GD, Koninckx PR (2010) Adhesion formation after laparoscopic surgery: what do we know about the role of the peritoneal environment? Facts Views Vis Obgyn 2(3):149–160
Muts R (2015) Behandlung der peritonealen Bewegungsflächen in Beziehung der abdominalen Organen. Masterclass Osteopathie gehalten auf der Osteopathische Behandlungskonzepte 12. Peritoneum, Wien
Myers T (2014) Kraftübertragung über Anatomische Zuglinien. In: von Schleip R, Findely TW, Chaitow L, Huijing PA (Hrsg) Lehrbuch Faszien, 1. Aufl. Urban & Fischer, München, S 96–100
Niedergethmann M, Post S (2014) Appendektomie offen. http://www.webop.de/appendektomie-offen-12/. Zugegriffen am 29.03.2016
Pados G, Venetis CA, Almaloglou K, Tarlatzis BC (2010) Prevention of intra-peritoneal adhesions in gynaecological surgery: theory and evidence. Reprod BioMed Online 21:290–303. https://doi.org/10.1016/j.rbmo.2010.04.021
Paoletti S (2014) Zwerchfellartige Strukturen. In: von Schleip R, Findely TW, Chaitow L, Huijing PA (Hrsg) Lehrbuch Faszien, 1. Aufl. Urban & Fischer, München, S 49–53
Park H, Hwang B, Kim Y (2015) The impact of the pelvis floor muscles in dynamic ventilation maneuvers. J PhysTherSci 27:3155–3157
Passerieux E, Rossignol R, Letellier T, Delage JP (2007) Physical continuity of the perimysium from myofibers to tendons: involvement in lateral force transmission in skeletal muscle. J Struct Biol 159:19–28
Pavan GP, Stecco A, Stern R, Stecco C (2014) Painful connections: densification versus fibrosis of fascia. Curr Pain Headache Rep 18(441):1–8
Pischinger A (2010) Das System der Grundregulation. Neu herausgegeben von Heine H, 12. Aufl. Karl F. Haug, Stuttgart
Plotnikov SV, Pasapera AM, Sabass B, Waterman CM (2012) Force fluctuations within focal adhesions mediate ECM-rigidity sensing to guide directed cell migration. Cell 151:1513–1527
Purslow PP, Delage JP (2014) Allgemeine Anatomie der Muskelfaszie. In: von Schleip R, Findely TW, Chaitow L, Huijing PA (Hrsg) Lehrbuch Faszien, 1. Aufl. Urban & Fischer, München, S 4–8
Raftery AT (1973) Regeneration of parietal and visceral peritoneum: a electron microscopical study. J Anat 115:375–392
Raftery AT (1979) Regeneration of peritoneum: a fibrinolytic study. J Anat 129(3):659–664
Richter P (2014) Myofasziale Ketten: Übersicht über die verschiedenen Modelle. In: von Schleip R, Findely TW, Chaitow L, Huijing PA (Hrsg) Lehrbuch Faszien, 1. Aufl. Urban & Fischer, München, S 89–95
Rodríguez RM, del Río FG (2013) Mechanistic basis of manual therapy in myofascial injuries. Sonoelastographic evolution control. J Bodyw Mov Ther 17:221–234
Rodrigues MA, Nahas FX, Gomes HC, Masako Ferreira L (2013) Ventilatory function and intra-abdominal pressure in patients who underwent abdominoplasty with plication of the external oblique aponeurosis. Aesthet Plast Surg 37(5):993–999
Roman M, Chaudhry H, Bukiet B, Stecco A et al (2013) Mathematical analysis of the flow of hyaluronic acid around fascia during manual therapy motions. J Am Osteopath Assoc 113(8):600–610
Sandbo N, Smolyaninova LV, Orlov SN, Dulin NO (2016) Control of myofibroblast differentiationand function by cytoskeletal signaling. Biochem Mosc 81(13):1698–1708
Sandhouse (2011) Glossary of osteopathic terminology. American Association of Collegues of Osteopathic Medicine
Schilder A, Hoheisel U, Magerl W, Benrath J et al (2014) Sensory findings after stimulation of the thoracolumbar fascia with hypertonic saline suggest its contribution to low back pain. Pain 155:222–231
Schleip R (2003a) Fascial plasticity − a new neurobiological explanation, part 1. J Bodyw Mov Ther 7(1):11–19
Schleip R (2003b) Fascial plasticity − a new neurobiological explanation, part 2. J Bodyw Mov Ther 7(2):104–116
Schleip R (2016) Mechanotransduktion: von der zellulären Ebene bis zum ganzen Körper. Osteopathische Medizin 3:16–21
Schleip R, Klingler W, Lehmann-Horn F (2005) Active fascial contractility: fascia may be able to contract in a smooth-like manner und thereby musculoskeletal dynamics. Med Hypotheses 65:273–277
Schleip R, Jäger H, Klingler W (2014) Die Faszie lebt: wie Faszientonus und -struktur von Zellen moduliert werden. In: von Schleip R, Findely TW, Chaitow L, Huijing PA (Hrsg) Lehrbuch Faszien, 1. Aufl. Elsevier GmbH, München, S 115–120
Schmitt VH (2016) Literaturdiskussion. In: von Schmitt VH (Hrsg) Die Biokompatibilität peritonealer Adhäsionsbarrieren. Springer Fachmedien Wiesbaden, Wiesbaden
Schünke M, Schulte E, Schumacher U, Voll M, Wesker K (2015) Prometheus – Innere Organe, 4. Aufl., Innere Organe. Thieme, Stuttgart
Schünke M, Vleeming A, Van Hoof T, Willard FH (2012) A description of the lumbar interfascial triangel and its relation with the lateral raphe:anatomical constituents of load transfer through the lateral margin of the thoracolumbar fascia. J Anat 221:568–576
Schwarz US, Balaban NQ, Riveline D, Bershadsky A et al (2002) Calculation of forces at focal adhesions from elastic substrate data: the effect of localized force and the need for regularization. Biophys J 38:1380–1394
Standley PR, Meltzer KR (2008) In vitro modeling of repetive motion strain and manual medicine treatments: potential roles for pro- and anti-inflammatory cytocines. J Bodyw Mov Ther 12:201–203
Stecco A, Meneghini A, Stern R, Stecco C (2014) Ultrasonography in myofascial neck pain: randomized clinical trial for diagnosis and follow-up. Surg Radiol Anat 36:243–253
Stecco C, Pavan PG, Porzionato A, Macchi V et al (2009) Mechanics of crural fascia: from anatomy to sonstitutive modelling. Surg Radiol Anat 31:523–529. https://doi.org/10.1007/s00276-009-0474-2
Stecco C, Stern R, Porzionato A, Macchi V, Masiero S et al (2011) Hyaluron within fascia in the etiology of myofascial pain. Surg Radiol Anat 33:891–896. https://doi.org/10.1007/s00276-011-0876-9
Stecco C, Stecco A (2014) Die tiefe Faszie der unteren Extremität. In: von Schleip R, Findely TW, Chaitow L, Huijing PA (Hrsg) Lehrbuch Faszien, 1. Aufl. Elsevier GmbH, München, S 23–26
Stecco C, Fede C, Macchi V, Porzionato A et al (2018) The fasciacytes: a new cell devoted to fascial gliding regulation. Clin Anat. https://doi.org/10.1002/ca.23072
Stoltz J, Dumas D, Wang X, Payan E et al (2000) Influence of mechanical forces on cells and tissues. Biorheology 37:3–14
Stout AL, Steege JF, Dodson WJ, Hughes CL (1991) Relationship of laparoscopic findings to self-report of pelvic pain. Am Obstet Gynecol 164(1):73–79
Struller F, Weinreich F-J, Horvath P, Kokkalis M-K, Beckert S et al (2017) Peritoneal innervation: embryology and functional anatomy. Pleura Peritoneum 2(4):153–161
Swanson RL (2013) Biotensegrity: a unifying theory of biological architecture with applications to osteopathic practice, education, and research – a review and analysis. J Am Osteopath Assoc 113(1):34–52
Temple-Wong MM, Ren S, Quach P, Hansen BC et al (2016) Hyaluronan concentration and size distribution in human knee synovial fluid: variations with age and cartilage degeneration. Arthr Res Ther 18(1):18
Tesarz J, Hoheisel U, Wiedenhofer B, Mense S (2011) Sensory innervation of the thoracolumbar fascia in rats and humans. Neuroscience 194:302–308
Threlkeld AJ (1992) The effects of manual therapy on connective tissue. J Am Phys Ther Assoc 72:893–902
Tomasek JJ, Haaksma CJ, Eddy RJ, Vaughan MB (1992) Fibroblast contraction occurs on release of tension in attached collagen lattices: dependency on an organized actin cytoskeleton and serum. Anat Rec 232:359–368
Tomasek JJ, Gabbiani G, Hinz B, Chaponnier C et al (2002) Myofibroblasts and mechanoregulation of connective tissue remodelling. Nat Rev Mol Cell Biol 3:349–363
Tozzi P (2015a) A unifying neuro-fasciagenic model of somatic dysfunction − Underlying mechanism and treatment, Part I. J Bodyw Mov Ther 19:310–326
Tozzi P (2015b) A unifying neuro-fasciagenic model of somatic dysfunction − Underlying mechanism and treatment, Part II. J Bodyw Mov Ther 19:526–543
Tozzi P, Bongiorno D, Vitturini C (2011) Fascial release effects on patients with non-specific cervical or lumbar pain. J Bodyw Mov Ther 15(4):405–416
Tozzi P, Bongiorno D, Vitturini C (2012) Low back pain and kidney mobility: local osteopathic fascial manipulation decreases pain perception and improves renal mobility. J Bodyw Mov Ther 16(3):381–391. https://doi.org/10.1016/j.jbmt.2012.02.001
Trindade VL, Martins PA, Santos S, Parente MP et al (2012) Experimental study of the influence of senescence in the biomechanical properties of the temporal tendon and deep temporal fascia based on uniaxial tension tests. J Biomech 45:199–201
Van den Berg F (2014a) Die Extrazellulärmatrix. In: von Schleip R, Findely TW, Chaitow L, Huijing PA (Hrsg) Lehrbuch Faszien, 1. Aufl. Elsevier GmbH, München, S 121–125
Van den Berg F (2014b) Die Physiologie der Faszie. In: von Schleip R, Findely TW, Chaitow L, Huijing PA (Hrsg) Lehrbuch Faszien, 1. Aufl. Elsevier GmbH, München, S 110–114
Van der Wal J (2009) The architecture of the connective tissue in the musculoskeletal system – an often overlooked functional parameter as to propioception in the locomotor apparatus. Int J Thera Massage Bodyw 2(4):9–23
Wang N, Tolic-Nørrelykke IM, Chen J, Mijailovich SM, Butler JP, Fredberg JJ, Stamenovic D (2002) Cell prestress. I. Stiffness and prestress are closely associated in adherent contractile cells. Am J Physiol Cell Physiol 282(3):C606–C616
Wang H-Q, Wei Y-Y, Wu Z-X, Luo Z-J (2009) Impact of leg lengthening on viscoelastic properties of the deep fascia. BMC Musculoskeltal Disorders 10:105
Wang N, Butler JP, Ingber DE (1993) Mechanotransduction across the cell surface and through the cytosceleton. Science 216:1124–1127
Weibel M-A, Majno G (1973) Peritoneal adhesions and their relation to abdominal surgery: a postmortem study. Am J Surg 126(3):345–353
Wight TN, Potter-Perigo S (2011) The extracellular matrix: an active or passive player in fibrosis? Am J Physiol Gastrointest Liver Physiol 301(6):G950–G955
Willard FH (2014a) Die somatische Faszie. In: von Schleip R, Findely TW, Chaitow L, Huijing PA (Hrsg) Lehrbuch Faszien, 1. Aufl. Elsevier GmbH, München, S 9–14
Willard FH (2014b) Die viszerale Faszie. In: von Schleip R, Findely TW, Chaitow L, Huijing PA (Hrsg) Lehrbuch Faszien, 1. Aufl. Elsevier GmbH, München, S 39–41
Wiseman DM, Trout JR, Diamond MP (1998) The rates of adhesion development and the effects of crystalloid solutions on adhesion development in pelvic surgery. Fertil Steril 70(4):702–711
Wurn BF, Wurn LJ, King R, Heuer MA et al (2004a) Treating female infertility and improving ivf pregnancy rates with a manual physical therapy technique. Medscape Gen Med 6(2):51
Wurn LJ, Wurn BF, Roscow AS, King R et al (2004b) Increasing orgasm and decreasing dyspareunia by a manual physical therapy technique. Medscape Gen Med 6(4):47
Wynn TA (2008) Cellular and molecular mechanisms of fibrosis. J Pathol 214(2):199–210
Xu X, Rivkind A, Pappo O, Pikarsky A, Levi-Schaffer F (2002) Role of mast cells and myofibroblasts in human peritoneal adhesion formation. Ann Surg 236(5):593–601
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Liedler, M. (2020). Behandlungsgrundlagen. In: Peritoneale Adhäsionen. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-662-60500-4_2
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