Filippo Fontana scite author profile

Background: This review addressed the focused question of what is the predictability of vertical ridge augmentation techniques for patients, who were diagnosed with insufficient alveolar bone volume for the placement of dental implants. Material and Methods: A systematic online review of three main databases was performed between 1966 and 1 November 2007. Four groups of vertical bone augmentation techniques have been identified and evaluated: (1) guided bone regeneration, (2) distraction osteogenesis, (3) onlay bone grafting, and (4) an array of different techniques. Data extraction was based on the following outcomes: (a) success and failure rate of the procedure (vertical bone gain/loss), (b) complication rate of the procedure, and (c) implant survival, success and failure rate. Results: The initial search identified 189 papers from the electronic database. The review produced seven papers for GBR, 13 reporting distraction osteogenesis, five for onlay bone grafting and three describing different techniques. Conclusions: For the concept of vertical ridge augmentation to enable dental implant placement, there are clinical and histological data supporting its potential use. Given the confined number of investigators using these techniques and the low number of patient treatments reported in the literature, the generalizability of this approach is limited at this time.

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Vertical ridge augmentation by expanded‐polytetrafluoroethylene membrane and a combination of intraoral autogenous bone graft and deproteinized anorganic bovine bone (Bio Oss)

Simion¹,

Fontana²,

Rasperini³

et al. 2007

Clinical Oral Implants Res

168

134

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The findings from the present clinical and histological study support the use of a 1 : 1 combination of DBBM and autogenous bone chips for vertical ridge augmentation by means of guided bone regeneration techniques. The regenerated bone may lead to proper osseointegration of a dental implant inserted at the time of the regenerative procedure or after a healing period of at least 6 months. DBBM undergoes very slow resorption and substitution with new bone. Furthermore, long-term clinical studies are needed to confirm the positive effect of DBBM in enhancing the lasting stability of the vertically augmented bone.

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Surface‐modified zirconia implants: tissue response in rabbits

Rocchietta

Fontana

Addis

et al. 2009

Clinical Oral Implants Res

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Value-driven clustering of industrial additive manufacturing applications

Fontana¹,

Klahn

Meboldt

2019

JMTM

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Purpose A prerequisite for the successful adoption of additive manufacturing (AM) technologies in industry is the identification of areas, where such technologies could offer a clear competitive advantage. The purpose of this paper is to investigate the unique value-adding characteristics of AM, define areas of viable application in a firm value chain and discuss common implications of AM adoption for companies and their processes. Design/methodology/approach The research leverages a multi-case-study approach and considers interviews with AM adopting companies from the Swiss and central European region in the medical and industrial manufacturing industries. The authors rely on a value chain model comprising a new product development process and an order fulfillment process (OFP) to analyze the benefits of AM technologies. Findings The research identifies and defines seven clusters within a firm value chain, where the application of AM could create benefits for the adopting company and its customers. The authors suggest that understanding the AM process chain and the design experience are key to explaining the heterogeneous industrial maturity of the presented clusters. The authors further examine the suitability of AM technologies with agile development techniques to pursue incremental product launches in hardware. It is clearly a field requiring the attention of scholars. Originality/value This paper presents a value-driven approach for use-case identification and reveals implications of the industrial implementation of AM technologies. The resultant clustering model provides guidance to new AM adopters.

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Osseointegrated Implants in Vertical Ridge Augmentation with a Nonresorbable Membrane: A Retrospective Study of 75 Implants with 1 to 6 Years of Follow-up

Fontana¹,

Grossi²,

Fimanò³

et al. 2015

Int J Periodontics Restorative Dent

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Filippo Fontana

Clinical outcomes of vertical bone augmentation to enable dental implant placement: a systematic review

Vertical ridge augmentation by expanded‐polytetrafluoroethylene membrane and a combination of intraoral autogenous bone graft and deproteinized anorganic bovine bone (Bio Oss)

Surface‐modified zirconia implants: tissue response in rabbits

Value-driven clustering of industrial additive manufacturing applications

Osseointegrated Implants in Vertical Ridge Augmentation with a Nonresorbable Membrane: A Retrospective Study of 75 Implants with 1 to 6 Years of Follow-up

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