[libribook.com] Traumatic Scar Tissue Management 1st Edition
Ramos ML, Gragnani A, Ferreira LM (2008) Is there an ideal animal model to study hypertrophic scarring?Journal of Burn Care and Research 29(2): 363–368.Reichelt J (2007) Mechanotransduction of keratinocytes in culture and in the epidermis. European Journalof Cell Biology 86 (11-12): 807–16.Reinke JM, Sorg H (2011) Wound repair and regeneration. European surgical research. Europaischechirurgische Forschung. Recherches Chirurgicales Europeennes 49(1): 35–43.Rodríguez RM, del Río FG (2013) Mechanistic basis of manual therapy in myofascial injuries.Sonoelastographic evolution control. Journal of Bodywork and Movement Therapies 17(2): 221–234.Sarrazy V, Billet F, Micallef L et al (2011) Mechanisms of pathological scarring: role of myofibroblasts andcurrent developments. Wound Repair and Regeneration 19(s1), s10–s15.Schleip R, Klingler W, Lehmann-Horn F (2005) Active fascial contractility: fascia may be able to contractin a smooth muscle-like manner and thereby influence musculoskeletal dynamics. Medical Hypotheses65(2): 273–277.Schouten HJ, Nieuwenhuis MK, van Zuijlen PP (2012) A review on static splinting therapy to prevent burnscar contracture: do clinical and experimental data warrant its clinical application? Burns 38(1): 19–25.Scott JR, Muangman P, Gibran NS (2007) Making sense of hypertrophic scar: a role for nerves. WoundRepair and Regeneration (Suppl. 1): S27–31.Shah JP, Danoff JV, Deshai MJ et al (2008) Biochemicals associated with pain and inflammation areelevated in sites near to, and remote from active myofascial trigger points. Archives of Physical Medicineand Rehabilitation 89: 16–23.Shah J, Phillips T, Danoff J et al (2005) An in vivo microanalytical technique for measuring the localbiochemical milieu of human skeletal muscle. Journal of Applied Physiology 99: 1977–1984.Sibbald RG, Woo KY (2008) The biology of chronic foot ulcers in persons with diabetes. DiabetesMetabolism Research Reviews 24 (Suppl 1): 25–30.Simons DG, Travell JG, Simons LS (1999). Travell & Simons’ Myofascial Pain and Dysfunction: UpperHalf of Body (Vol 1). Philadelphia:Lippincott Williams & Wilkins.Slemp AE, Kirschner RE (2006) Keloids and scars: a review of keloids and scars, their pathogenesis, riskfactors, and management. Current Opinions in Pediatrics 18(4): 396–402.Smith CA, Stauber F, Waters C et al (2007). Transforming growth factor-ß following skeletal muscle straininjury in rats. Journal of Applied Physiology, 102(2): 755–761.Solon J, Levental L, Sengupt K, Georges P, (2007) Fibroblast adaptation and stiffness matching to soft.Elastic Substrates 93 (12): 4453–4461.Sorensen LT (2012) Wound healing and infection in surgery: the pathophysiological impact of smoking,smoking cessation, and nicotine replacement therapy: a systematic review. Annals of Surgery 255(6): 1069–1079.Tey HL, Maddison B, Wang H et al (2012) Cutaneous innervation and itch in keloids. Acta Dermato-Venereologica 92(5): 529–531.Tortora GJ, Funke BR, Case CL (2007) Introduction to Microbiology. San Francisco: Pearson BenjaminCummings.Tredget EE, Nedelec B, Scott PG, Ghahary A (1997) Hypertrophic scars, keloids, and contractures. Thecellular and molecular basis for therapy. Surgical Clinics of North America 77(3): 701–730.Valouchová P, Lewit K (2009) Surface electromyography of abdominal and back muscles in patients with
active scars. Journal of Bodywork and Movement Therapies 13(3): 262–267.Werner R (2012) Scar tissue: when a solution becomes a problem. Massage & Body Work Magazine(July/August).Werner S, Grose R (2003) Regulation of wound healing by growth factors and cytokines. Physiologicalreviews 83(3): 835–870.Widgerow AD (2013) Hypertrophic burn scar evolution and management: review. Wound Healing SouthernAfrica 6(2): 79–86.Williams PE, Goldspink G (1984) Connective tissue changes in immobilised muscle. Journal of Anatomy138(Pt 2): 343.Wipff PJ, Hinz B (2009) Myofibroblasts work best under stress. Journal of Bodywork and MovementTherapies 13: 121–127.Wolfram D, Tzankov A, Pülzl P, Piza-Katzer H (2009) Hypertrophic scars and keloids—a review of theirpathophysiology, risk factors, and therapeutic management. Dermatologic Surgery 35(2): 171–181.Wong VW, Akaishi S, Longaker MT, Gurtner GC (2011) Pushing back: wound mechanotransduction inrepair and regeneration. Journal of Investigative Dermatology 131: 2186–2196.Wynn TA (2004) Fibrotic disease and the T(H)1/T(H)2 paradigm. Nature Reviews Immunology 4(8): 583–594.Xiao H, Wang D, Huo R et al (2013). Mechanical tension promotes skin nerve regeneration by upregulatingnerve growth factor expression. Neural Regeneration Research 8(17): 1576.Yano S, Komine M, Fujimoto M et al (2004) Mechanical stretching in vitro regulates signal transductionpathways and cellular proliferation in human epidermal keratinocytes. Journal of Investigative Dermatology122: 783–790.Yu Q, Stamenkovic I (2000) Cell surface-localized matrix metalloproteinase-9 proteolytically activatesTGF-b and promotes tumor invasion and angiogenesis. Genes & Development14: 163.Zhang LQ, Laato M (2001) Innervation of normal and hypertrophic human scars and experimental woundsin the rat. Ann Chir Gynaecol 90(Suppl 215): 29–32.Zhu Z, Ding J, Shankowsky HA, Tredget EE (2013) The molecular mechanism of hypertrophic scar.Journal of Cell Communication and Signaling 7(4): 239–252.Resource and Further ReadingThe Wound Healing Society: http://woundheal.org/
- Page 443 and 444: Clinical ConsiderationDuring wound
- Page 445 and 446: Clinical ConsiderationAlthough the
- Page 447 and 448: Pathophysiological ScarsPathophysio
- Page 450 and 451: Figure 5.3Adapted from Huang et al.
- Page 452 and 453: Pathophysiological considerationFib
- Page 454 and 455: Table 5.2Important pathophysiologic
- Page 456 and 457: According to Klingler (2012):… pa
- Page 458 and 459: Table 5.3Scar types and related ter
- Page 460 and 461: unyielding or pliable and mobile. R
- Page 462 and 463: Prolonged InflammationInflammation
- Page 464 and 465: ImmobilizationThe impact of immobil
- Page 467 and 468: Figure 5.4The fall-out associated w
- Page 469 and 470: Clinical ConsiderationHere we see t
- Page 471 and 472: Pathophysiological ConsiderationAcc
- Page 473 and 474: Pathophysiological ConsiderationNeu
- Page 475 and 476: The diverse biological effects of N
- Page 477 and 478: Clinical ConsiderationCareful appli
- Page 479 and 480: Clinical ConsiderationSome patholog
- Page 481 and 482: Pathophysiological ConsiderationSom
- Page 483 and 484: compressive effect in the keloidal
- Page 485 and 486: alterations in the mechanical envir
- Page 487 and 488: Clinical ConsiderationMechanical fo
- Page 489 and 490: Table 5.4Role of neuropeptides (NP)
- Page 491 and 492: Fitch P (2005) Scars of life. Journ
- Page 493: Langevin HM (2006) Connective tissu
- Page 497 and 498: trauma.
- Page 499 and 500: Clinical ConsiderationPostsurgical
- Page 501 and 502: following burn injury,bacterial col
- Page 503 and 504: Table 6.1Comparison of scars (Ogawa
- Page 505 and 506: Pathophysiological ConsiderationAcc
- Page 507 and 508: BurnsA burn injury to the skin or o
- Page 510 and 511: Figure 6.1Depth of burn trauma and
- Page 512 and 513: • Stimulate ECM formation• Regu
- Page 514 and 515: Clinical ConsiderationIt has been i
- Page 516 and 517: Clinical ConsiderationMT may be a v
- Page 518 and 519: ThermoregulationThermoregulation (t
- Page 520 and 521: from the tissues and taken up by th
- Page 522 and 523: treatment strategies are difficult
- Page 524 and 525: Clinical ConsiderationSkin rolling
- Page 526 and 527: Sequelae and ComplicationsAdvances
- Page 528 and 529: • Paresthesia - 47%• Arm/should
- Page 530 and 531: breast or around the edge of the ar
- Page 532 and 533: Radiation scarringScar tissue as a
- Page 534 and 535: Implants and painPain of fluctuatin
- Page 536 and 537: LymphedemaBreast cancer treatment o
- Page 538 and 539: volume of fluid that accumulates or
- Page 540 and 541: OneTwoThreeCommonly referred to as
- Page 542 and 543: myokinetic chain/myofascial meridia
Ramos ML, Gragnani A, Ferreira LM (2008) Is there an ideal animal model to study hypertrophic scarring?
Journal of Burn Care and Research 29(2): 363–368.
Reichelt J (2007) Mechanotransduction of keratinocytes in culture and in the epidermis. European Journal
of Cell Biology 86 (11-12): 807–16.
Reinke JM, Sorg H (2011) Wound repair and regeneration. European surgical research. Europaische
chirurgische Forschung. Recherches Chirurgicales Europeennes 49(1): 35–43.
Rodríguez RM, del Río FG (2013) Mechanistic basis of manual therapy in myofascial injuries.
Sonoelastographic evolution control. Journal of Bodywork and Movement Therapies 17(2): 221–234.
Sarrazy V, Billet F, Micallef L et al (2011) Mechanisms of pathological scarring: role of myofibroblasts and
current developments. Wound Repair and Regeneration 19(s1), s10–s15.
Schleip R, Klingler W, Lehmann-Horn F (2005) Active fascial contractility: fascia may be able to contract
in a smooth muscle-like manner and thereby influence musculoskeletal dynamics. Medical Hypotheses
65(2): 273–277.
Schouten HJ, Nieuwenhuis MK, van Zuijlen PP (2012) A review on static splinting therapy to prevent burn
scar contracture: do clinical and experimental data warrant its clinical application? Burns 38(1): 19–25.
Scott JR, Muangman P, Gibran NS (2007) Making sense of hypertrophic scar: a role for nerves. Wound
Repair and Regeneration (Suppl. 1): S27–31.
Shah JP, Danoff JV, Deshai MJ et al (2008) Biochemicals associated with pain and inflammation are
elevated in sites near to, and remote from active myofascial trigger points. Archives of Physical Medicine
and Rehabilitation 89: 16–23.
Shah J, Phillips T, Danoff J et al (2005) An in vivo microanalytical technique for measuring the local
biochemical milieu of human skeletal muscle. Journal of Applied Physiology 99: 1977–1984.
Sibbald RG, Woo KY (2008) The biology of chronic foot ulcers in persons with diabetes. Diabetes
Metabolism Research Reviews 24 (Suppl 1): 25–30.
Simons DG, Travell JG, Simons LS (1999). Travell & Simons’ Myofascial Pain and Dysfunction: Upper
Half of Body (Vol 1). Philadelphia:Lippincott Williams & Wilkins.
Slemp AE, Kirschner RE (2006) Keloids and scars: a review of keloids and scars, their pathogenesis, risk
factors, and management. Current Opinions in Pediatrics 18(4): 396–402.
Smith CA, Stauber F, Waters C et al (2007). Transforming growth factor-ß following skeletal muscle strain
injury in rats. Journal of Applied Physiology, 102(2): 755–761.
Solon J, Levental L, Sengupt K, Georges P, (2007) Fibroblast adaptation and stiffness matching to soft.
Elastic Substrates 93 (12): 4453–4461.
Sorensen LT (2012) Wound healing and infection in surgery: the pathophysiological impact of smoking,
smoking cessation, and nicotine replacement therapy: a systematic review. Annals of Surgery 255(6): 1069–
1079.
Tey HL, Maddison B, Wang H et al (2012) Cutaneous innervation and itch in keloids. Acta Dermato-
Venereologica 92(5): 529–531.
Tortora GJ, Funke BR, Case CL (2007) Introduction to Microbiology. San Francisco: Pearson Benjamin
Cummings.
Tredget EE, Nedelec B, Scott PG, Ghahary A (1997) Hypertrophic scars, keloids, and contractures. The
cellular and molecular basis for therapy. Surgical Clinics of North America 77(3): 701–730.
Valouchová P, Lewit K (2009) Surface electromyography of abdominal and back muscles in patients with