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Mercuri LG, Handelman CS. Idiopathic condylar resorption: what should we do? Oral Maxillofac Surg Clin North Am 2020;32:105–16.MercuriLGHandelmanCS.Idiopathic condylar resorption: what should we do?2020;32:105–16.Search in Google Scholar
Zhang J, Jiao K, Zhang M, Zhou T, Liu XD, Yu SB, et al. Occlusal effects on longitudinal bone alterations of the temporomandibular joint. J Dent Res 2013;92: 253–9.ZhangJJiaoKZhangMZhouTLiuXDYuSB.Occlusal effects on longitudinal bone alterations of the temporomandibular joint.2013;92:253–9.Search in Google Scholar
Kuang B, Dai J, Wang QY, Song R, Jiao K, Zhang J, et al. Combined degenerative and regenerative remodeling responses of the mandibular condyle to experimentally induced disordered occlusion. Am J Orthod Dentofacial Orthop 2013;143: 69–76.KuangBDaiJWangQYSongRJiaoKZhangJ.Combined degenerative and regenerative remodeling responses of the mandibular condyle to experimentally induced disordered occlusion.2013;143:69–76.Search in Google Scholar
Wang QY, Dai J, Kuang B, Zhang J, Yu SB, Duan YZ, et al. Osteochondral angiogenesis in rat mandibular condyles with osteoarthritis-like changes. Arch Oral Biol 2012;57: 620–9.WangQYDaiJKuangBZhangJYuSBDuanYZ.Osteochondral angiogenesis in rat mandibular condyles with osteoarthritis-like changes.2012;57:620–9.Search in Google Scholar
Zhang J, Liao L, Zhu J, Wan X, Xie M, Zhang H, et al. Osteochondral interface stiffening in mandibular condylar osteoarthritis. J Dent Res 2018;97(5):563–70.ZhangJLiaoLZhuJWanXXieMZhangH.Osteochondral interface stiffening in mandibular condylar osteoarthritis.2018;97(5):563–70.Search in Google Scholar
Liu YD, Liao LF, Zhang HY, Lu L, Jiao K, Zhang M, et al. Reducing dietary loading decreases mouse temporomandibular joint degradation induced by anterior crossbite prosthesis. Osteoarthritis Cartilage 2014;22: 302–12.LiuYDLiaoLFZhangHYLuLJiaoKZhangM.Reducing dietary loading decreases mouse temporomandibular joint degradation induced by anterior crossbite prosthesis.2014;22:302–12.Search in Google Scholar
Lu L, Zhang X, Zhang M, Zhang H, Liao L, Yang T, et al. RANTES and SDF-1 are keys in cell-based therapy of TMJ osteoarthritis. J Dent Res 2015;94: 1601–9.LuLZhangXZhangMZhangHLiaoLYangT.RANTES and SDF-1 are keys in cell-based therapy of TMJ osteoarthritis.2015;94:1601–9.Search in Google Scholar
Zhang J, Zhang HY, Zhang M, Qiu ZY, Wu YP, Callaway DA, et al. Connexin43 hemichannels mediate small molecule exchange between chondrocytes and matrix in biomechanically-stimulated temporomandibular joint cartilage. Osteoarthritis Cartilage 2014;22: 822–30.ZhangJZhangHYZhangMQiuZYWuYPCallawayDA.Connexin43 hemichannels mediate small molecule exchange between chondrocytes and matrix in biomechanically-stimulated temporomandibular joint cartilage.2014;22:822–30.Search in Google Scholar
Zhang M, Wang H, Zhang J, Zhang H, Yang H, Wan X, et al. Unilateral anterior crossbite induces aberrant mineral deposition in degenerative temporomandibular cartilage in rats. Osteoarthritis Cartilage 2016;24: 921–31.ZhangMWangHZhangJZhangHYangHWanX.Unilateral anterior crossbite induces aberrant mineral deposition in degenerative temporomandibular cartilage in rats.2016;24:921–31.Search in Google Scholar
Liu Q, Yang HX, Duan J, Zhang HY, Xie MJ, Ren HT, et al. Bilateral anterior elevation prosthesis boosts chondrocytes proliferation in mice mandibular condyle. Oral Diseases 2019; 25(6): 1589–99.LiuQYangHXDuanJZhangHYXieMJRenHT.Bilateral anterior elevation prosthesis boosts chondrocytes proliferation in mice mandibular condyle.2019;25(6):1589–99.Search in Google Scholar
Zhang Y, Liu Q, Xu X, Zhou P, Zhang H, Yang H, et al. Long-term effect of bilateral anterior elevation of occlusion on the temporomandibular joints. Oral Dis 2022;28(7):1911–20.ZhangYLiuQXuXZhouPZhangHYangH.Long-term effect of bilateral anterior elevation of occlusion on the temporomandibular joints.2022;28(7):1911–20.Search in Google Scholar
Zhou P, Zhang J, Zhang M, Yang H, Liu Q, Zhang H, et al. Effects of occlusion modification on the remodelling of degenerative mandibular condylar processes. Oral Dis 2020;26: 597–608.ZhouPZhangJZhangMYangHLiuQZhangH.Effects of occlusion modification on the remodelling of degenerative mandibular condylar processes.2020;26:597–608.Search in Google Scholar
Zhang Y, Xu X, Zhou P, Liu Q, Zhang M, Yang H, et al. Elder mice exhibit more severe degeneration and milder regeneration in temporomandibular joints subjected to bilateral anterior crossbite. Front Physiol 2021;12: 750468.ZhangYXuXZhouPLiuQZhangMYangH.Elder mice exhibit more severe degeneration and milder regeneration in temporomandibular joints subjected to bilateral anterior crossbite.2021;12:750468.Search in Google Scholar
Jiang Y, Cai Y, Zhang W, Yin Z, Hu C, Tong T, et al. Human cartilage-derived progenitor cells from committed chondrocytes for efficient cartilage repair and regeneration. Stem Cells Transl Med 2016;5: 733–44.JiangYCaiYZhangWYinZHuCTongT.Human cartilage-derived progenitor cells from committed chondrocytes for efficient cartilage repair and regeneration.2016;5:733–44.Search in Google Scholar
Liu Q, Yang HX, Wan XH, Zhang M, Zhang J, Lu L, et al. Calcium-/calmodulin-dependent protein kinase II in occlusion-induced degenerative cartilage of rat mandibular condyle. J Oral Rehabil 2018;45: 442–51.LiuQYangHXWanXHZhangMZhangJLuL.Calcium-/calmodulin-dependent protein kinase II in occlusion-induced degenerative cartilage of rat mandibular condyle.2018;45:442–51.Search in Google Scholar
Zhou X, von der Mark K, Henry S, Norton W, Adams H, de Crombrugghe B. Chondrocytes transdifferentiate into osteoblasts in endochondral bone during development, postnatal growth and fracture healing in mice. PLoS Genet 2014; 10: e1004820.ZhouXvon der MarkKHenrySNortonWAdamsHde CrombruggheB.Chondrocytes transdifferentiate into osteoblasts in endochondral bone during development, postnatal growth and fracture healing in mice.2014;10:e1004820.Search in Google Scholar
Ono N, Ono W, Nagasawa T, Kronenberg HM. A subset of chondrogenic cells provides early mesenchymal progenitors in growing bones. Nat Cell Biol 2014;16: 1157–67.OnoNOnoWNagasawaTKronenbergHM.A subset of chondrogenic cells provides early mesenchymal progenitors in growing bones.2014;16:1157–67.Search in Google Scholar
Liu Y, Kwok Y, Hoi C, Danny C, Kathryn S. Hypertrophic chondrocytes can become osteoblasts and osteocytes in endochondral bone formation. Proc Natl Acad Sci U S A 2014;111: 12097–102.LiuYKwokYHoiCDannyCKathrynS.Hypertrophic chondrocytes can become osteoblasts and osteocytes in endochondral bone formation.2014;111:12097–102.Search in Google Scholar
R Hinton, Y Jing, J Jing, J Feng. Roles of chondrocytes in endochondral bone formation and fracture repair. J Dent Res 2017;96: 23–30.HintonRJingYJingJFengJ.Roles of chondrocytes in endochondral bone formation and fracture repair.2017;96:23–30.Search in Google Scholar
Liu X, Zhang C, Wang D, Zhang H, Liu X, Li J, et al. Proprioceptive mechanisms in occlusion-stimulated masseter hypercontraction. Eur J Oral Sci 2017; 125:127–34.LiuXZhangCWangDZhangHLiuXLiJ.Proprioceptive mechanisms in occlusion-stimulated masseter hypercontraction.2017;125:127–34.Search in Google Scholar
Chen D, Shen J, Zhao W, Wang T, Han L, Hamilton JL, et al. Osteoarthritis: Toward a comprehensive understanding of pathological mechanism. Bone res 2017;5: 16044.ChenDShenJZhaoWWangTHanLHamiltonJL.Osteoarthritis: Toward a comprehensive understanding of pathological mechanism.2017;5:16044.Search in Google Scholar
Thomas C, Fuller C, Whittles C, Sharif M. Chondrocyte death by apoptosis is associated with cartilage matrix degradation. Osteoarthritis Cartilage 2007;15: 27–34.ThomasCFullerCWhittlesCSharifM.Chondrocyte death by apoptosis is associated with cartilage matrix degradation.2007;15:27–34.Search in Google Scholar
Singh M, Detamore M. Biomechanical properties of the mandibular condylar cartilage and their relevance to the TMJ disc. J Biomech 2009;42: 405–17.SinghMDetamoreM.Biomechanical properties of the mandibular condylar cartilage and their relevance to the TMJ disc.2009;42:405–17.Search in Google Scholar
Zhang M, Yang H, Lu L, Wan X, Zhang J, Zhang H, et al. Matrix replenishing by BMSCs is beneficial for osteoarthritic temporomandibular joint cartilage. Osteoarthritis Cartilage 2017;25:1551–62.ZhangMYangHLuLWanXZhangJZhangH.Matrix replenishing by BMSCs is beneficial for osteoarthritic temporomandibular joint cartilage.2017;25:1551–62.Search in Google Scholar
Yang H, Zhang M, Liu Q, Zhang H, Zhang J, Lu L, et al. Inhibition of Ihh reverses temporomandibular joint osteoarthritis via a PTH1R signaling dependent mechanism. Int J Mol Sci 2019;20: 3797.YangHZhangMLiuQZhangHZhangJLuL.Inhibition of Ihh reverses temporomandibular joint osteoarthritis via a PTH1R signaling dependent mechanism.2019;20:3797.Search in Google Scholar
Xu X, Zhang Y, Zhang J, Wang D, Yang H, Liu Q, et al. Zonal interdependence in the temporomandibular joint cartilage. FASEB J 2023;37(4):e22888.XuXZhangYZhangJWangDYangHLiuQ.Zonal interdependence in the temporomandibular joint cartilage.2023;37(4):e22888.Search in Google Scholar
Norrdin RW, Kawcak CE, Capwell BA, McIlwraith CW. Calcified cartilage morphometry and its relation to subchondral bone remodeling in equine arthrosis. Bone 1999;24(2):109–14.NorrdinRWKawcakCECapwellBAMcIlwraithCW.Calcified cartilage morphometry and its relation to subchondral bone remodeling in equine arthrosis.1999;24(2):109–14.Search in Google Scholar
Gunson MJ, Arnett GW, Milam SB. Pathophysiology and pharmacologic control of osseous mandibular condylar resorption. J Oral Maxillofac Surg 2012;70(8):1918–34.GunsonMJArnettGWMilamSB.Pathophysiology and pharmacologic control of osseous mandibular condylar resorption.2012;70(8):1918–34.Search in Google Scholar
Mitsimponas K, Mehmet S, Kennedy R, Shakib K. Idiopathic condylar resorption. Br J Oral Maxillofac Surg. 2018;56(4):249–55.MitsimponasKMehmetSKennedyRShakibK.Idiopathic condylar resorption.2018;56(4):249–55.Search in Google Scholar
Kristensen K, Schmidt B, Stoustrup P, Pedersen T. Idiopathic condylar resorptions: 3-dimensional condylar bony deformation, signs and symptoms. Am J Orthod Dentofacial Orthop 2017;152: 214–23.KristensenKSchmidtBStoustrupPPedersenT.Idiopathic condylar resorptions: 3-dimensional condylar bony deformation, signs and symptoms.2017;152:214–23.Search in Google Scholar
He Y, Lin H, Lin Q, Lu L, Li M, Li Q, et al. Morphologic changes in idiopathic condylar resorption with different degrees of bone loss. Ooral Surg Oral Med Oral Pathol Oral Radiol 2019;128: 332–40.HeYLinHLinQLuLLiMLiQ.Morphologic changes in idiopathic condylar resorption with different degrees of bone loss.2019;128:332–40.Search in Google Scholar
Dutra EH, O’Brien MH, Logan C, Tadinada A, Nanda R, Yadav S. Loading of the condylar cartilage can rescue the effects of botox on TMJ. Calcif Tissue Int 2018;103(1): 71–9.DutraEHO’BrienMHLoganCTadinadaANandaRYadavS.Loading of the condylar cartilage can rescue the effects of botox on TMJ.2018;103(1):71–9.Search in Google Scholar
Wolford L, Goncalves J. Condylar resorption of the temporomandibular joint: how do we treat it? Oral Maxillofac Surg Clin North Am 2015;27: 47–67.WolfordLGoncalvesJ.Condylar resorption of the temporomandibular joint: how do we treat it?2015;27:47–67.Search in Google Scholar
Peacock Z, Lee C, Troulis M, Kaban L. Long-term stability of condylectomy and costochondral graft reconstruction for treatment of idiopathic condylar resorption. J Oral Maxillofac Surg 2019;77: 792–802.PeacockZLeeCTroulisMKabanL.Long-term stability of condylectomy and costochondral graft reconstruction for treatment of idiopathic condylar resorption.2019;77:792–802.Search in Google Scholar
Hwang S, Haers P, Zimmermann A, Oechslin C, Seifert B, Sailer H. Surgical risk factors for condylar resorption after orthognathic surgery. Oral Surg Oral Med Oral Pathol Oral Radiol Endod 2000;89: 542–52.HwangSHaersPZimmermannAOechslinCSeifertBSailerH.Surgical risk factors for condylar resorption after orthognathic surgery.2000;89:542–52.Search in Google Scholar
Alsabban L, Amarista F, Mercuri L, Perez D. Idiopathic condylar resorption: a survey and review of the literature. J Oral Maxillofac Surg 2018;76: 2316.e1–2316.e13.AlsabbanLAmaristaFMercuriLPerezD.Idiopathic condylar resorption: a survey and review of the literature.2018;76:2316.e1–2316.e13.Search in Google Scholar
Papadaki M, Tayebaty F, Kaban L, Troulis M. Condylar resorption. Oral Maxillofac Surg Clin North Am 2007;19: 223–34.PapadakiMTayebatyFKabanLTroulisM.Condylar resorption.2007;19:223–34.Search in Google Scholar
Mehra P, Nadershah M, Chigurupati R. Is alloplastic temporomandibular joint reconstruction a viable option in the surgical management of adult patients with idiopathic condylar resorption? J Oral Maxillofac Surg 2016;74: 2044–54.MehraPNadershahMChigurupatiR.Is alloplastic temporomandibular joint reconstruction a viable option in the surgical management of adult patients with idiopathic condylar resorption?2016;74:2044–54.Search in Google Scholar
Wolford LM, Galiano A. Adolescent internal condylar resorption (AICR) of the temporomandibular joint, part 1: a review for diagnosis and treatment considerations. Cranio 2019;37(1):35–44.WolfordLMGalianoA.Adolescent internal condylar resorption (AICR) of the temporomandibular joint, part 1: a review for diagnosis and treatment considerations.2019;37(1):35–44.Search in Google Scholar
Galiano A, Wolford L, Gonçalves J, Gonçalves D. Adolescent internal condylar resorption (AICR) of the temporomandibular joint can be successfully treated by disc repositioning and orthognathic surgery, part 2: Treatment outcomes. Cranio 2019;37(2):111–20.GalianoAWolfordLGonçalvesJGonçalvesD.Adolescent internal condylar resorption (AICR) of the temporomandibular joint can be successfully treated by disc repositioning and orthognathic surgery, part 2: Treatment outcomes.2019;37(2):111–20.Search in Google Scholar
Wolford LM. Idiopathic condylar resorption of the temporomandibular joint in teenage girls (cheerleaders syndrome). Proc (Bayl Univ Med Cent) 2001;14(3):246–52.WolfordLM.Idiopathic condylar resorption of the temporomandibular joint in teenage girls (cheerleaders syndrome).2001;14(3):246–52.Search in Google Scholar
Kang SS, Shin SH, Auh CK, Chun J. Human skeletal dysplasia caused by a constitutive activated transient receptor potential vanilloid 4 (TRPV4) cation channel mutation. Exp Mol Med 2012;44(12):707–22.KangSSShinSHAuhCKChunJ.Human skeletal dysplasia caused by a constitutive activated transient receptor potential vanilloid 4 (TRPV4) cation channel mutation.2012;44(12):707–22.Search in Google Scholar
Gao W, Hasan H, Anderson DE, Lee W. The Role of Mechanically-Activated Ion Channels Piezo1, Piezo2, and TRPV4 in Chondrocyte Mechanotransduction and Mechano-Therapeutics for Osteoarthritis. Front Cell Dev Biol 2022;10:885224.GaoWHasanHAndersonDELeeW.The Role of Mechanically-Activated Ion Channels Piezo1, Piezo2, and TRPV4 in Chondrocyte Mechanotransduction and Mechano-Therapeutics for Osteoarthritis.2022;10:885224.Search in Google Scholar