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Journal Abstract Search

92 related items for PubMed ID: 11482629

  • 1. Quantitative assessment of cranial defect healing and correlation with the expression of TGF-beta.
    Gosain AK, Song L, Yu P, Mehrara BJ, Maeda CY, Gold LI, Longaker MT.
    J Craniofac Surg; 2001 Jul; 12(4):401-4. PubMed ID: 11482629
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  • 2. Osteogenesis in cranial defects: reassessment of the concept of critical size and the expression of TGF-beta isoforms.
    Gosain AK, Song L, Yu P, Mehrara BJ, Maeda CY, Gold LI, Longaker MT.
    Plast Reconstr Surg; 2000 Aug; 106(2):360-71; discussion 372. PubMed ID: 10946935
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  • 3. Osteogenesis in calvarial defects: contribution of the dura, the pericranium, and the surrounding bone in adult versus infant animals.
    Gosain AK, Santoro TD, Song LS, Capel CC, Sudhakar PV, Matloub HS.
    Plast Reconstr Surg; 2003 Aug; 112(2):515-27. PubMed ID: 12900610
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  • 5. The Impact of Age Upon Healing: Absolute Quantification of Osteogenic Genes in Calvarial Critical-Sized Defects.
    Alleyne B, Varghai D, Askeroglu U, Zwiebel S, Tobin K, Gosain AK.
    J Craniofac Surg; 2016 Jan; 27(1):258-63. PubMed ID: 26751427
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  • 9. Bone healing with an in situ-formed bioresorbable polyethylene glycol hydrogel membrane in rabbit calvarial defects.
    Humber CC, Sándor GK, Davis JM, Peel SA, Brkovic BM, Kim YD, Holmes HI, Clokie CM.
    Oral Surg Oral Med Oral Pathol Oral Radiol Endod; 2010 Mar; 109(3):372-84. PubMed ID: 20060340
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  • 10. Mechanical strain affects dura mater biological processes: implications for immature calvarial healing.
    Fong KD, Warren SM, Loboa EG, Henderson JH, Fang TD, Cowan CM, Carter DR, Longaker MT.
    Plast Reconstr Surg; 2003 Oct; 112(5):1312-27. PubMed ID: 14504515
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  • 11. Enhanced bone formation by transforming growth factor-beta1-releasing collagen/chitosan microgranules.
    Lee JY, Kim KH, Shin SY, Rhyu IC, Lee YM, Park YJ, Chung CP, Lee SJ.
    J Biomed Mater Res A; 2006 Mar 01; 76(3):530-9. PubMed ID: 16331652
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  • 12. A comparison of the healing capabilities of various grafting materials in critical-size defects in guinea pig calvaria.
    Yazdi FK, Mostaghni E, Moghadam SA, Faghihi S, Monabati A, Amid R.
    Int J Oral Maxillofac Implants; 2013 Mar 01; 28(5):1370-6. PubMed ID: 24066330
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  • 15. Prolonged Survival of Transplanted Osteoblastic Cells Does Not Directly Accelerate the Healing of Calvarial Bone Defects.
    Kitami M, Kaku M, Rocabado JM, Ida T, Akiba N, Uoshima K.
    J Cell Physiol; 2016 Sep 01; 231(9):1974-82. PubMed ID: 26754153
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  • 16. Applications of a mouse model of calvarial healing: differences in regenerative abilities of juveniles and adults.
    Aalami OO, Nacamuli RP, Lenton KA, Cowan CM, Fang TD, Fong KD, Shi YY, Song HM, Sahar DE, Longaker MT.
    Plast Reconstr Surg; 2004 Sep 01; 114(3):713-20. PubMed ID: 15318051
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  • 18. Biomolecular mechanisms of calvarial bone induction: immature versus mature dura mater.
    Greenwald JA, Mehrara BJ, Spector JA, Chin GS, Steinbrech DS, Saadeh PB, Luchs JS, Paccione MF, Gittes GK, Longaker MT.
    Plast Reconstr Surg; 2000 Apr 01; 105(4):1382-92. PubMed ID: 10744229
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  • 19. Promoted bone healing at a rabbit skull gap between autologous bone fragment and the surrounding intact bone with biodegradable microspheres containing transforming growth factor-beta1.
    Hong L, Tabata Y, Miyamoto S, Yamada K, Aoyama I, Tamura M, Hashimoto N, Ikada Y.
    Tissue Eng; 2000 Aug 01; 6(4):331-40. PubMed ID: 10992430
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  • 20. Characterization of matrix-induced osteogenesis in rat calvarial bone defects: II. Origins of bone-forming cells.
    Wang J, Glimcher MJ.
    Calcif Tissue Int; 1999 Dec 01; 65(6):486-93. PubMed ID: 10594169
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