Literature DB >> 8380106

Augmentation of the craniofacial skeleton with porous hydroxyapatite granules.

H S Byrd1, P C Hobar, K Shewmake.   

Abstract

Augmentation of the craniofacial skeleton with porous hydroxyapatite granules (Interpore 200) has been performed in 52 sites on 43 patients. Follow-up extends to 5 years, and 26 patients have been followed for greater than 1 year with excellent results. The procedure has been used for reconstruction of congenital and posttraumatic deformities and for purely aesthetic purposes. Areas that have benefited from hydroxyapatite augmentation include the skull, zygomaticomaxillary region, lateral mandible, perialar region, periorbital area, and temporal region. There have been no cases of infection, and only two patients have required minor revisions. Resorption has not occurred.

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Year:  1993        PMID: 8380106

Source DB:  PubMed          Journal:  Plast Reconstr Surg        ISSN: 0032-1052            Impact factor:   4.730


  13 in total

1.  [Long-term results following reconstruction of maxillary sinus wall defects with titanium micro-mesh: a CT-based study].

Authors:  J J Kuttenberger; N Hardt; T C Treumann
Journal:  Mund Kiefer Gesichtschir       Date:  2004-11-04

2.  The role of facial skeletal augmentation and dental restoration in facial rejuvenation.

Authors:  J W Bains; J P Elia
Journal:  Aesthetic Plast Surg       Date:  1994       Impact factor: 2.326

3.  The fate of porous hydroxyapatite granules used in facial skeletal augmentation.

Authors:  Bryan C Mendelson; Steve R Jacobson; Alain M Lavoipierre; Richard J Huggins
Journal:  Aesthetic Plast Surg       Date:  2010-02-26       Impact factor: 2.326

4.  Performance of coralline hydroxyapatite in sinus floor augmentation: a retrospective study.

Authors:  Zhi-Bin Luo; Qing-Bin Zhang; Zhao-Qiang Zhang; Dan Chen; Wang-Xiang Yan; Ke-Feng Li; Yu Chen
Journal:  Clin Oral Investig       Date:  2013-01-29       Impact factor: 3.573

5.  Histological examination of bone regeneration achieved by combining grafting with hydroxyapatite and thermoplastic bioresorbable plates.

Authors:  Taku Kojima; Norio Amizuka; Akiko Suzuki; Paulo Henrique Luiz de Freitas; Michiko Yoshizawa; Akira Kudo; Chikara Saito; Takeyasu Maeda
Journal:  J Bone Miner Metab       Date:  2007-10-25       Impact factor: 2.626

6.  Preparation of porous apatite granules from calcium phosphate cement.

Authors:  A C Tas
Journal:  J Mater Sci Mater Med       Date:  2007-12-01       Impact factor: 3.896

7.  A canine in vitro model for evaluation of marrow-derived mesenchymal stromal cell-based bone scaffolds.

Authors:  Tanmay P Gharat; Patricia Diaz-Rodriguez; Josh D Erndt-Marino; Andrea Carolina Jimenez Vergara; Dany J Munoz Pinto; Robert N Bearden; Shannon S Huggins; Melissa Grunlan; W Brian Saunders; Mariah S Hahn
Journal:  J Biomed Mater Res A       Date:  2018-05-14       Impact factor: 4.396

Review 8.  Changes in the facial skeleton with aging: implications and clinical applications in facial rejuvenation.

Authors:  Bryan Mendelson; Chin-Ho Wong
Journal:  Aesthetic Plast Surg       Date:  2012-05-12       Impact factor: 2.326

9.  Biomaterials for craniofacial reconstruction.

Authors:  Andreas Neumann; Kevin Kevenhoerster
Journal:  GMS Curr Top Otorhinolaryngol Head Neck Surg       Date:  2011-03-10

10.  Biocompatibility issues with modern implants in bone - a review for clinical orthopedics.

Authors:  Katja M R Nuss; Brigitte von Rechenberg
Journal:  Open Orthop J       Date:  2008-04-25
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