Craniofacial Muscles

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102 M. Lewis et al.BB (PDGFBB), epidermal growth factor [EGF], IL-6 (Robertson et al. 1993 ; Hawkeand Garry 2001 ) ) and involvement with cell adhesion molecules may not only rescueMPCs from apoptosis, but also play similar roles for erythroblasts and neuronalcells (Meucci et al. 2000 ; Chazaud et al. 2003 ) .Within skeletal muscle, fi broblasts are surrounded by the peri- and endomysiumand are attached to the ECM via integrins (Mackey et al. 2008 ) enabling the cells toregister and respond to any mechanical stimuli transmitted through the ECM: thisability has been suggested to be essential for correct fi broblast functioning (Sarasa-Renedo and Chiquet 2005 ) . The endomysial collagen is primarily produced byfi broblasts, and it has been demonstrated in vitro that fi broblasts produce factorsthat may modify MPC response (Sinanan et al. 2008 ) .In summary, the muscles of mastication, and especially the masseter muscle, differfrom non-cranial muscles in several important ways. Firstly, the range and variationof MyHC protein isoforms, and in particular, the persistence of developmental isoformswhich can be considered part of the normal adult MyHC isoform population.Secondly, the presence and location of certain metalloproteinases, especially MMP-9,adjacent to myo fi bres in normal, healthy craniofacial muscle tissue is seen asopposed to its presence only in response to disease or injury, and thirdly, differencesexist in the regenerative capability with a suggestion that the masseter muscle maybe less effective at this process compared to somite-derived muscle.ReferencesAcakpo-Satchivi LJR, Edelmann W, Sartorius C, Lu BD, Wahr PA, Watkins SC, Metzger JM,Leinwand L, Kucherlapati R (1997) Growth and muscle defects in mice lacking adult myosinheavy chain genes. J Cell Biol 139:1219–1229Adams GR, Haddad F (1996) The relationships among IGF-1, DNA content, and protein accumulationduring skeletal muscle hypertrophy. J Appl Physiol 81:2509–2516Adams GR, McCue SA (1998) Localized infusion of IGF-I results in skeletal muscle hypertrophyin rats. J Appl Physiol 84:1716–1722Alameddine HS, Dehaupas M, Fardeau M (1989) Regeneration of skeletal muscle fi bers fromautologous satellite cells multiplied in vitro. An experimental model for testing cultured cellmyogenicity. Muscle Nerve 12:544–555Allbrook D (1981) Skeletal muscle regeneration. Muscle Nerve 4:234–245Allen RE, Boxhorn LK (1989) Regulation of skeletal muscle satellite cell proliferation and differentiationby transforming growth factor-beta, insulin-like growth factor-1, and fi broblastgrowth factor. J Cell Physiol 138:311–315Allen DL, Teitelbaum DH, Kurachi K (2003) Growth factor stimulation of matrix metalloproteinaseexpression and myoblast migration and invasion in vitro. Am J Physiol Cell Physiol284:C805–C815Ariji Y, Kawamata A, Yoshida K, Sakuma S, Nawa H, Fujishita M, Ariji E (2000) Three-dimensionalmorphology of the masseter muscle in patients with mandibular prognathism. DentomaxillofacRadiol 29:113–118Armand O, Boutineau AM, Mauger A, Pautou MP, Kieny M (1983) Origin of satellite cells inavian skeletal muscles. Arch D Anat Microsc Morphol Exp 72:163–181Asakura A, Rudnicki MA (2002) Side population cells from diverse adult tissues are capable ofin vitro hematopoietic differentiation. Exp Hematol 30:1339–1345
6 Masticatory Muscle Structure and Function103Ates K, Yang SY, Orrell RW, Sinanan ACM, Simons P, Solomon A, Beech S, Goldspink G, LewisMP (2007) The IGF-I splice variant MGF increases progenitor cells in ALS, dystrophic, andnormal muscle. FEBS Lett 581:2727–2732Baker J, Liu JP, Robertson EJ, Efstratiadis A (1993) Role of insulin-like growth factors in embryonicand postnatal growth. Cell 75:73–82Barany M (1967) ATPase activity of myosin correlated with speed of muscle shortening. J GenPhysiol 50:197Barany M, Conover TE, Schlisel LH, Gaetjens E, Goffart M (1967) Relation of properties of isolatedmyosin to those of intact muscles of cat and sloth. Eur J Biochem 2:156Barof fi o A, Bochaton-Piallet ML, Gabbiani G, Bader CR (1995) Heterogeneity in the progeny ofsingle human muscle satellite cells. Differentiation 59:259–268Barof fi o A, Hamann M, Bernheim L, Bochaton-Piallet ML, Gabbiani G, Bader CR (1996)Identi fi cation of self-renewing myoblasts in the progeny of single human muscle satellite cells.Differentiation 60:47–57Barton ER, Morris L, Musaro A, Rosenthal N, Sweeney HL (2002) Muscle-speci fi c expression ofinsulin-like growth factor I counters muscle decline in mdx mice. J Cell Biol 157:137–147Beauchamp JR, Morgan JE, Pagel CN, Partridge TA (1999) Dynamics of myoblast transplantationreveal a discrete minority of precursors with stem cell-like properties as the myogenic source.J Cell Biol 144:1113–1121Benington PCM, Gardener JE, Hunt NP (1999) Masseter muscle volume measured using ultrasonographyand its relationship with facial morphology. Eur J Orthod 21:659–670Biressi S, Rando TA (2010) Heterogeneity in the muscle satellite cell population. Semin Cell DevBiol 21:845–854Birkedal-Hansen H (1995) Proteolytic remodelling of extracellular matrix. Curr Opin Cell Biol7:728–735Bischoff R (1997) Chemotaxis of skeletal muscle satellite cells. Dev Dyn 208:505–515Bischoff R, Heintz C (1994) Enhancement of skeletal muscle regeneration. Dev Dyn 201:41–54Boom HPW, Van Spronsena PH, Van Ginkel FC, Van Schijndel RA, Castelijns JA, Tuinzing DB(2008) A comparison of human jaw muscle cross-sectional area and volume in long- and shortfacesubjects, using MRI. Arch Oral Biol 53:273–281Bouvagnet PF, Strehler EE, White GE, Strehler-Page MA, Nadal-Ginard B, Mahdavi V (1987)Multiple positive and negative 5’ regulatory elements control the cell type speci fi c expressionof the embryonic skeletal myosin heavy chain gene. Mol Cell Biol 7:4377–4389Brimah K, Ehrhardt J, Mouly V, Butler-Browne GS, Partridge TA, Morgan JE (2004) Humanmuscle precursor cell regeneration in the mouse host is enhanced by growth factors. Hum GeneTher 15:1109–1124Brooke MH, Kaiser KK (1970) Muscle fi ber types. How many and what kind. Arch Neurol 23:369Butler-Browne GS, Eriksson PO, Laurent C, Thornell LE (1988) Adult human masseter musclefi bers express myosin isozymes characteristic of development. Muscle Nerve 11:610–620Campion DR (1984) The muscle satellite cell—a review. Int Rev Cytol Surv Cell Biol 87:225–251Cantini M, Massimino ML, Rapizzi E, Rossini K, Catani C, Dallalibera L, Carraro U (1995) Humansatellite cell proliferation in vitro is regulated by autocrine secretion of IL6 stimulated by a solublefactor(s) released by activated monocytes. Biochem Biophys Res Commun 216:49–53Cantini M, Giurisato E, Radu C, Tiozzo S, Pampinella F, Senigaglia D, Zaniolo G, Mazzoleni F,Vitiello L (2002) Macrophage-secreted myogenic factors: a promising tool for greatly enhancingthe proliferative capacity of myoblasts in vitro and in vivo. Neurol Sci 23:189–194Cao BH, Zheng B, Jankowski RJ, Kimura S, Ikezawa M, Deasy B, Cummins J, Epperly M,Qu-Petersen Z, Huard J (2003) Muscle stem cells differentiate into haematopoietic lineages butretain myogenic potential. Nat Cell Biol 5:640–646Carlson BM, Gutmann E (1975a) Regeneration in free grafts of normal and denervated muscles inmuscles in rat: morphology and histochemistry. Anat Rec 183:47–61Carlson BM, Gutmann E (1975b) Regeneration in grafts of normal and denervated rat muscles:contractile properties. P fl ugers Arch Eur J Physiol 353:215–225
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Craniofacial Muscles
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EditorsLinda K. McLoonDepartment of
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viContents8 Masticatory Muscle Resp
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viiiContributorsMark Lewis School o
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Chapter 1The Craniofacial Muscles:
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1 The Craniofacial Muscles: Argumen
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1 The Craniofacial Muscles: Argumen
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Chapter 2Head Muscle DevelopmentIta
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2 Head Muscle Development132.3 Head
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2 Head Muscle Development15Fig. 2.3
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2 Head Muscle Development17normal h
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2 Head Muscle Development19to specu
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2 Head Muscle Development21as Islet
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2 Head Muscle Development232.10 Sum
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2 Head Muscle Development25Hirsinge
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2 Head Muscle Development27Rudnicki
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Part IIIExtraocular Muscles
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32 L.K. McLoon et al.Fig. 3.1 Diagr
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34 L.K. McLoon et al.Fig. 3.4 Speci
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36 L.K. McLoon et al.3.4 Unusual Ch
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38 L.K. McLoon et al.Fig. 3.7 Longi
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40 L.K. McLoon et al.Fig. 3.8 Co-ex
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42 L.K. McLoon et al.Fig. 3.9 An ex
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44 L.K. McLoon et al.Fig. 3.10 Use
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46 L.K. McLoon et al.3.9 SummaryIn
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48 L.K. McLoon et al.Fuchs AF, Bind
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Page 57 and 58: 52 V.E. DasFig. 4.1 Initial studies
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Page 63 and 64: 58 V.E. Das4.3 Motor Control of Con
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Page 75 and 76: 70 V.E. Das4.6 SummaryThe oculomoto
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Page 81 and 82: 76 F. Pedrosa Domellöfcompletely d
Page 83 and 84: 78 F. Pedrosa DomellöfFig. 5.2 NMJ
Page 85 and 86: 80 F. Pedrosa DomellöfHowever, bec
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Page 91 and 92: 86 F. Pedrosa DomellöfReferencesAg
Page 93 and 94: 88 F. Pedrosa DomellöfMori M, Kuwa
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Page 115 and 116: 112 B.J. Sessle et al.zygomaticus m
Page 117 and 118: 114 B.J. Sessle et al.Fig. 7.1 ( a
Page 119 and 120: 116 B.J. Sessle et al.Most of the m
Page 121 and 122: 118 B.J. Sessle et al.lie immediate
Page 123 and 124: 120 B.J. Sessle et al.(Dubner et al
Page 125 and 126: 122 B.J. Sessle et al.Fig. 7.3 An e
Page 127 and 128: 124 B.J. Sessle et al.that each out
Page 129 and 130: 126 B.J. Sessle et al.2010 ; Plowma
Page 131 and 132: 128 B.J. Sessle et al.activities. S
Page 133 and 134: 130 B.J. Sessle et al.Moayedi M, We
Page 135 and 136: 132 S.L. Hebert et al.type 3 and cr
Page 137 and 138: 134 S.L. Hebert et al.This early de
Page 139 and 140: 136 S.L. Hebert et al.that EMG valu
Page 141 and 142: 138 S.L. Hebert et al.Newton JP, Ab
Page 143 and 144: Chapter 9Structure and Function of
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9 Structure and Function of the Lar
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Chapter 10Motor Control and Biomech
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10 Motor Control and Biomechanics o
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186 J.C. Stemple et al.established
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188 J.C. Stemple et al.of protein d
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190 J.C. Stemple et al.the depictio
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192 J.C. Stemple et al.Fig. 11.2 Ul
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194 J.C. Stemple et al.11.6 Larynge
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196 J.C. Stemple et al.Neurapraxia,
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198 J.C. Stemple et al.of the preci
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200 J.C. Stemple et al.Gardner GM,
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202 J.C. Stemple et al.Rhee HS, Luc
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Part VITongue Musculature
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208 A. Sokoloff and T. BurkholderTh
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210 A. Sokoloff and T. BurkholderFi
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212 A. Sokoloff and T. Burkholder12
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214 A. Sokoloff and T. Burkholderou
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216 A. Sokoloff and T. Burkholderbe
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218 A. Sokoloff and T. Burkholderel
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220 A. Sokoloff and T. BurkholderFi
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222 A. Sokoloff and T. BurkholderCo
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224 A. Sokoloff and T. BurkholderAn
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226 A. Sokoloff and T. BurkholderOl
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Chapter 13Tongue Biomechanics and M
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Fig. 13.1 Retrogradely labeled enti
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13 Tongue Biomechanics and Motor Co
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Chapter 14Tongue Muscle Responseto
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14 Tongue Muscle Response to Neurom
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Part VIIFacial Muscles
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266 A.O. Grobbelaar and A.C.S. Wool
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288 J. Park et al.Table 16.1 Disord
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290 J. Park et al.Table 16.2 Jankov
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292 J. Park et al.16.2.3 Pathophysi
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294 J. Park et al.evident eyelid sq
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296 J. Park et al.Focal motor seizu
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298 J. Park et al.Fig. 16.1 Content
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300 J. Park et al.Botox ® in human
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302 J. Park et al.Long-term effect
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304 J. Park et al.is as high as 50%
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306 J. Park et al.Table 16.4 Drugs
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308 J. Park et al.septum should be
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310 J. Park et al.16.9 Hemifacial S
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312 J. Park et al.16.9.5 TreatmentB
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314 J. Park et al.regeneration beca
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316 J. Park et al.Alderson K, Holds
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318 J. Park et al.Grandas F, Elston
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320 J. Park et al.McCord CD Jr (198
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Part VIIISummary and Conclusions
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326 L.K. McLoon and F.H. Andrade17.
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332 L.K. McLoon and F.H. AndradeDie
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334 L.K. McLoon and F.H. AndradeSam
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IndexAAbducens nucleusvs. lateral r
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Index339Embryonic myosin heavy chai
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IndexLLagophthalmos , 304, 308Lamin
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Indexmuscular dystrophy , 187-190my
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Index345hydrostat mass reduction ,
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