Technique for achieving a passive framework fit: a clinical case report

The clinical application of a 4-step technique for achieving the passive fit of an implant-supported cast bar or framework is reported. Implant-level transfers were attached, splinted intraorally with pattern resin, picked up in an open-tray elastomeric impression, and used to fabricate a working ca...

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Veröffentlicht in:	The Journal of oral implantology 2004, Vol.30 (2), p.83-92
1. Verfasser:	Swallow, Stephen T
Format:	Artikel
Sprache:	eng
Schlagworte:	Dental Abutments Dental Implants Dental Impression Technique Dental Models Dental Prosthesis, Implant-Supported Dentistry Denture Design - instrumentation Denture Design - methods Denture Retention Denture, Partial, Fixed Humans Jaw Relation Record Male Middle Aged Surface Properties
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container_title	The Journal of oral implantology
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creator	Swallow, Stephen T
description	The clinical application of a 4-step technique for achieving the passive fit of an implant-supported cast bar or framework is reported. Implant-level transfers were attached, splinted intraorally with pattern resin, picked up in an open-tray elastomeric impression, and used to fabricate a working cast containing implant analogs. A light-cured template was used to verify master cast accuracy. A ceramometal fixed partial denture restoration was fabricated on the working cast with a preliminary try-in of the cast metal framework. A passive prosthesis fit was achieved. Failure to create an accurate working cast can distort the intended fit of a cast framework on the abutments in the patient's mouth. Optimal positioning of the implant analog in the master cast depends on (1) the transfer technique and (2) the ability of the system to maintain precise rotational orientation of the transfer components. The splinted transfer technique developed 20 years ago has sometimes been effective in improving the accuracy of framework fit with external hexagon implant-abutment connections, but it has not been documented with newer implant-abutment connections. Techniques for reestablishing master cast accuracy and correcting the superstructure are presented. The use of the presented technique resulted in a passive-fitting framework.
doi_str_mv	10.1563/0.694.1
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Implant-level transfers were attached, splinted intraorally with pattern resin, picked up in an open-tray elastomeric impression, and used to fabricate a working cast containing implant analogs. A light-cured template was used to verify master cast accuracy. A ceramometal fixed partial denture restoration was fabricated on the working cast with a preliminary try-in of the cast metal framework. A passive prosthesis fit was achieved. Failure to create an accurate working cast can distort the intended fit of a cast framework on the abutments in the patient's mouth. Optimal positioning of the implant analog in the master cast depends on (1) the transfer technique and (2) the ability of the system to maintain precise rotational orientation of the transfer components. The splinted transfer technique developed 20 years ago has sometimes been effective in improving the accuracy of framework fit with external hexagon implant-abutment connections, but it has not been documented with newer implant-abutment connections. Techniques for reestablishing master cast accuracy and correcting the superstructure are presented. 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subjects	Dental Abutments Dental Implants Dental Impression Technique Dental Models Dental Prosthesis, Implant-Supported Dentistry Denture Design - instrumentation Denture Design - methods Denture Retention Denture, Partial, Fixed Humans Jaw Relation Record Male Middle Aged Surface Properties
title	Technique for achieving a passive framework fit: a clinical case report
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