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Multi-Unit DAS System is intended for use with dental implants as a support for single-unit or multi-unit prostheses in the maxillary or mandibular arch of a partially or fully edentulous patient.

Compatible Implant Systems

All digitally designed custom abutments for use with Multi-Unit DAS System are to be sent to a Talladium validated milling center for manufacture.

Multi-Unit DAS System abutments are two-piece abutments composed of a CAD-CAM fabricated zirconia superstructure and a prefabricated titanium base component where the final two-piece abutment (base and cemented superstructure) is the finished device used for the prosthetic restoration

Multi-Unit DAS system abutments are designed for retention of multi-unit or single-unit restorations. The multi-unit abutments are provided in a straight design (no angulation in the base portion) that threads directly to the OEM implant. For all compatible OEM implant lines, the multi-unit abutment components are provided with gingival heights ranging from 1 mm to 4 mm, a prosthetic platform diameter of 4 mm, and a prosthetic post height of 1.4 mm.

This submission includes one (1) abutment level Ti-Base (coping) Engaging Interface for use with the subject multi-unit abutments. The subject Ti-Base (coping) Engaging Interface is a straight prepable design with an additional gingival height of 1.5 mm and a prepable 10.5 mm prosthetic post. This Ti-Base (coping) Engaging Interface has an engaging interface to the multi-unit abutments and is to be used to fabricate a straight final abutment and a straight final restoration. The subject device is identical to the previously cleared abutment level Ti-base (Part 35.312.209.21-2, K231559), except the current subject device has an engaging interface. The previously cleared abutment level Ti-base (Part 35.312.209.21-2, K231559) is to be used to fabricate a straight final abutment and a straight final restoration.

The subject device multi-unit abutments may be used with the following components, all previously cleared in K231559: Straight Ti-base, non-engaging, part number 35.312.209.21-2; DAS Multi-Unit Engaging Dynamic Ti-Base, part number 31.312.209.01-2; DAS Multi-Unit Non-Engaging Dynamic Ti-Base, part number 31.322.209.01-2; DAS Multi-Unit Non-Engaging Dynamic Ti-Base, part number 31.322.209.21-2; DAS Multi-Unit Healing Cap Regular, part number 40.320.003.88-2; DAS Multi-Unit Healing Cap Wide, part number 40.320.003.89-2; DAS Multi-Unit Dynamic Screw 3.0, part number 41.320.040.01-2; DAS Multi-Unit Provisional Dynamic Screw, part number 41.320.050.02-2; and DAS Multi-Unit Straight Screw, part number 40.320.003.06-2.

No new DAS Multi-Unit Dynamic Ti-Bases are included in this submission. The previously cleared DAS Multi-Unit Dynamic Ti-Base (coping) components (K231599), part numbers 31.312.209.01-2, 31.322.209.01-2, and 31.322.209.21-2 may be used with the subject device Angled Multi-Unit abutments to fabricate a final angled abutment.

A summary of the subject device Multi-Unit DAS System abutment compatibilities with the OEM implants is provided in the following Table 1 Summary of Compatibilities.

Table 1 Summary of Compatibilities

All zirconia superstructures for use with the subject device Multi-Unit DAS system will be made at a Talladium España, SL validated milling center under FDA quality system regulations, and the material will conform to ISO 13356.

The design parameters for the CAD-CAM zirconia superstructure for the subject Multi-Unit DAS Dynamic Ti-base are:

• Minimum wall thickness – 0.25 mm
• Minimum post height for single-unit restorations – 4.0 mm
  (post height measured above the gingival height of the final patient-matched design)
• Maximum gingival height – 4.90 mm
• Minimum gingival height – 3.89 mm
• Maximum angulation – 15°

The design parameters for the CAD-CAM zirconia superstructure for the subject device Multi-Unit DAS Ti-Base (coping) Engaging Interface are:

• Minimum wall thickness – 0.25 mm
• Minimum post height for single-unit restorations – 4.0 mm
  (post height measured above the gingival height of the final patient-matched design)
• Maximum gingival height – 4.90 mm
• Minimum gingival height – 3.89 mm
• Maximum angulation – 0°

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IPDmilled Blanks are intended to be used in conjunction with endosseous dental implants in the maxillary or mandibular arch to provide support for prosthetic restorations.

All digitally designed CAD/CAM customizations for the IPDmilled Blanks are to be designed and manufactured according to digital dentistry workflow or to be sent to an IPD validated milling center for manufacture. The workflow system integrates multiple components of the digital dentistry workflow: scan files from intra-oral and lab (desktop) scanners, CAD software, CAM software, milling machine and associated tooling and accessories. Compatible Implant Systems: Dentium Co., Ltd Implantium, Friadent Implant Systems, Neoss ProActive Implant, SPI® Dental Implant, Inicell®, BEGO Semados® S-Line, ANKYLOS® C/X Implant System, MIS V3 Conical Connection Dental Implant System, Conical Connection Implants (MIS® C1), MIS C1 Narrow Platform Conical Connection Implant System, MIS C1 Wide Platform Conical Connection Abutments, PRAMA White Implant Systems, Altatec GmbH CAMLOG®/CONELOG® PROGRESSIVE-LINE Implants, Straumann TLX Implant System, Kontact Dental Implant System, ICX-Implant System, Tapered Pro Conical Implant System, Straumann® Tissue Level, Zimmer Tapered Screw-Vent®, Nobel Biocare® Nobel Active®, Straumann® Bone Level Tapered Implants, Neodent Implant System – GM Line, Osstem Implant System, Xpeed AnyRidge Internal Implant System, 3i Osseotite® Certain® Dental Implants, Astra Tech Implant System (Osseospeed®), OsseoSpeed™ Plus, BioHorizons Tapered Internal Implant System, MIS Internal Hex Dental Implant System (MIS® Seven®), Straumann BLX Ø3.5 mm Implants, Straumann® BLX Implant System, ALTATEC Camlog Screwline Implant System, Replace TiUnite Endosseous Implant.

The purpose of this submission is to expand abutment categories of IPD Dental Implant Abutments, which were previously cleared.

IPDmilled Blanks is a dental implant abutment system composed of dental abutments and screws intended to be placed into dental implants to provide support for dental prosthetic restorations. Abutments provide basis for single or multiple tooth prosthetic restorations. They are available in a variety of connection types to enable compatibility with commercially available dental implants systems. IPDmilled Blanks have a pre-manufactured connection interface that fits directly with a pre-specified dental implant. The customized shape of the abutment is intended to be designed and manufactured according to a digital dentistry workflow or to be sent to an IPD validated milling center for manufacture. IPDmilled Blank is delivered non-sterile and the final restoration, including the screw, is intended to be sterilized at the dental clinic before it is placed in the patient.

The IPDmilled Blanks are blistered together with their specific screw. The screws are intended to attach the prosthesis to the dental implant.

The metallic components of the subject abutments and screws are made of titanium alloy conforming to ISO 5832-3 "Implants for surgery – Metallic materials – Part 3: Wrought titanium 6-aluminium 4-vanadium alloy".

The design and manufacturing of the custom abutment will be conducted using a digital dentistry workflow requiring the use of the following equipment and software:
Intraoral Scanner: 3Shape TRIOS A/S Series
Desktop Scanner: 3Shape E Series.
Design Software: 3Shape Abutment Designer Software, K151455.
AbutmentCAD, K193352.
Milling unit: CORiTEC 350i PRO / CORiTEC 350i Loader PRO with MillBox CAM software.

IPDmilled Blank libraries' have built-in design limitations, and the user isn't allowed to exceed these limitations. The custom abutment design limitation specifications are as follows:
Minimum gingival height: 0.5 mm
Maximum gingival height: 6.0 mm
Minimum wall thickness: 0.4 mm
Minimum post height: 4.0 mm

All IPDmilled Blanks are for straight abutments only.

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SIMDA Abutments are intended for use with dental implants as a support for single or multiple tooth prostheses in the maxilla or mandible of a partially or fully edentulous patient.

It is compatible with the following systems:

Pre-Milled Blank, Patient-specific abutment

Ti-Base abutment

Multi-unit abutment

Multi-unit Abutment is only compatible with Straumann BLX Implant System.

All digitally designed abutments for use with SIMDA Abutments are intended to be sent to a SIMDA validated milling center for manufacture.

SIMDA Abutment is intended for use as an aid in prosthetic restoration. It consists of Pre-Milled Blank, Ti-Base, Multi-unit Abutment, Multi-unit Base. It has a pre-manufactured connection interface that fits directly to an endosseous dental implant.

Pre-milled Blank Design
This device is a patient-specific abutment composed of titanium alloy (Ti-6Al-4V ELI, ASTM F136) which is designed by a clinician or lab, and milled at a SIMDA validated milling center.

Pre-Milled Blank Design Limitation for Patient-specific abutment:

Pre-Milled Blank Design Limitation for Patient-specific abutment:
Astra OsseoSpeed EV, Astra Tech OsseoSpeed TX is minimum and maximum abutment angle 0~15 º

Ti-Base Abutment
Ti Base consists of a two-piece abutment, where the titanium base is a pre-manufactured titanium component that will be used to support a CAD/CAM-designed zirconia superstructure (the second part of the two-piece abutment) that composes the final abutment.

Ti Base are provided non-sterile therefore must be sterilized after the cementation of the patient-specified superstructure.

Raw material blanks

• InCoris Zi (ZrO2) by Sirona Dental Systems GmbH, L size blanks, cleared under K123664.

Cement

• RelyX Unicem 2Automix by 3M ESPE, cleared under K100756.

Design Limitation for Zirconia superstructure:

Multi-unit Abutment and Base
Multi-unit Abutment which are placed into the dental implant to provide support for the prosthetic restoration. The abutments are made of Titanium grade Ti-6A1-4V ELI (meets ASTM Standard F136). The Multi-unit Abutment has a post height less than 4mm and are always combined with Multi-unit Base, increasing the post height to a minimum of 4.5mm.

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Atlantis Abutment & Atlantis Abutment Milling
The Atlantis Abutment and Atlantis Abutment Milling are intended for use with an endosseous implant to support a prosthetic device in a partially or completely edentulous patient. It is intended for use to support single and multiple tooth prosthesis, in the mandible or maxilla. The Atlantis Abutment screw is intended to secure the Atlantis Abutment to the endosseous implant.

Atlantis Crown Abutment
The Atlantis Crown Abutment is intended for use with an endosseous implant to function as a substructure that also serves as the final restoration, in a partially or completely edentulous patient. The Atlantis Abutment screw is intended to secure the Atlantis Crown Abutment to the endosseous implant.

Atlantis Conus Abutment
The Atlantis Conus Abutment is intended for use with an endosseous implant to support a prosthetic device in partially or completely edentulous patients. It is intended for use to support a removable multiple tooth prosthesis, in the mandible or maxilla. The prosthesis is an attachment-retained by friction fit to the abutment. The Atlantis Abutment screw is intended to secure the Atlantis Conus Abutment to the endosseous implant.

Atlantis Healing Abutment
The Atlantis Healing Abutment is intended for use with an endosseous implant for temporary use during soft tissue healing after one-stage or two-stage surgeries. The Atlantis Abutment screw is intended to secure the Atlantis Healing Abutment to the endosseous implant.

Implant Manufacturer: Institut Straumann
Implant System: Straumann BLX
Implant Diameter (in mm): 3.5, 3.75, 4.0, 4.5, 5.0, 5.5, 6.5
Abutment Platform Diameter (in mm): 2.69

Implant System: Neodent GM
Implant Diameter (in mm): 3.5, 3.75, 4.0, 4.3, 5.0, 6.0, 7.0
Abutment Platform Diameter (in mm): 3.0

The Atlantis® Abutments in Titanium are patient-specific dental abutments that are intended for attachment to dental implants in the treatment of partially or totally edentulous jaws for the purpose of restoring chewing function. The design of the Atlantis® Abutments in Titanium is derived from patient dental models and is completed by Dentsply Sirona using computer-assisted design (CAD) technology according to the clinician's prescription. The final CAD design of the Atlantis® Abutment in Titanium is fabricated using computer-assisted manufacturing (CAM) to produce a customized, patient-specific device. Design and fabrication of the Atlantis® Abutment in Titanium is completed in internal Dentsply Sirona manufacturing facilities.

Alternatively, the CAD design, according to the clinician's prescription, can be performed by a laboratory or clinician in an FDA cleared abutment design software (3Shape Abutment Designer Software, K151455) within the design envelope of the Atlantis® Abutments which is codified in the validated and locked design library of the cleared software. Fabrication of the Atlantis® Abutment is then completed in internal Dentsply Sirona manufacturing facilities.

The Atlantis® Abutment in Titanium serves as a connection of the prosthetic construction and the endosseous implant. The lower part of the abutment is designed to fit with the specific implant geometry it is compatible, and the upper part design is according to the patient's specific anatomy. The Atlantis® Abutment, including the Conus and Healing abutments further described below, are available in Titanium or Gold-shaded (titanium nitride layer applied using PVD (Physical Vapor Deposition)) Titanium. The Crown Abutment which is another Atlantis® Abutment in Titanium, is only available in Titanium.

The Atlantis® Abutment design envelope became the basis for the other more specific designs that make up the Atlantis® Abutments in Titanium. The Atlantis® Abutment is intended for use with an endosseous implant and for single tooth restoration.

The Atlantis® Crown Abutment in Titanium is also a custom fabricated abutment using the same internal CAD/CAM technology. The Atlantis® Crown Abutment in Titanium incorporates a design that is a combination of an abutment and an anatomically accurate crown to constitute the final finished device. It functions as a substructure that also serves as the final abutment, in a partially or completely edentulous patient.

The Atlantis® Conus Abutment supports a removable prosthesis (bridges and overdentures) which is retained by friction fit to the abutment. The abutment connects to the prosthesis via caps embedded in the prosthesis.

The Atlantis® Healing Abutment is used with the compatible implants for temporary use during soft tissue healing after one-stage and two-stage surgeries. It is designed based on the planned final Atlantis® Abutment or Atlantis® Crown Abutment, using the same emergence profile as those abutments to achieve an aesthetic outcome during the soft tissue healing phase.

The proposed Atlantis® Abutments in Titanium for Straumann BLX Implant are compatible with the Straumann BLX Implants. This implant system is available in diameters of 3.5, 3.75, 4.0, 4.5 5.0, 5.5 and 6.5 mm and in lengths of 8, 10, 12, 14, 16, and 18 mm all with identical mating geometry.

The proposed Atlantis® Abutments in Titanium for Neodent GM Implant are compatible with the Neodent GM Implants. This implant system is available in diameters of 3.5, 3.75, 4.0, 4.3, 5.0, 6.0, and 7.0 mm and in lengths of 7, 8, 9, 10, 11, 11.5, 13, 15, 16, 17 and 18 mm, all with identical mating geometry.

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DESS® Dental Smart Solutions abutments are intended to be used in conjunction with endosseous dental implants in the maxillary or mandibular arch to provide support for prosthetic restorations.

All digitally designed custom abutments for use with DESS® Pre-Milled Blank abutments are to be sent to a Terrats Medical validated milling center for manufacture.

The purpose of this submission is to add abutments to the DESS Dental Smart Solutions system, which includes abutments cleared previously in K242340 and K240208. The subject device abutment designs include Pre-Milled Blank Abutments, Multi-Unit Abutments (straight and angled), and abutment screws.

Pre-Milled Blank Abutments are designed for custom abutment fabrication by a CAD-CAM process. All patient-specific custom abutment fabrication is by prescription on the order of the clinician. The Pre-Milled Blank Abutments have a maximum (before milling) diameter of 10 mm or 14 mm and a solid cylindrical design with an engaging or non-engaging implant connection. They are available in versions with a straight screw channel and with an angled screw channel for esthetic considerations. The Pre-Milled Blank Abutments are manufactured from titanium alloy (Ti 6Al-4V).

The design parameters for the CAD-CAM fabrication of a custom abutment from the Pre-Milled Blank Abutment are:

• Minimum wall thickness – 0.45 mm
• Minimum cementable post height for single-unit restoration – 4.0 mm (minimum cementable post height for single-unit restoration is defined as the height above the restorative margin)
• Minimum gingival height – 0.5 mm
• Maximum gingival height – 6.0 mm
• Pre-Milled Blanks are for straight abutments only

Multi-Unit Abutments: Straight and Angled are designed for attachment of multi-unit screw-retained restorations and are provided in three (3) designs, straight (0°), angled 17°, and angled 30°. The designs of the subject Multi-Unit Abutments are similar to the designs of Multi-Unit Abutments cleared in K242340 and K240208. All Multi-Unit Abutments are manufactured from titanium alloy (Ti-6Al-4V).

The subject device straight Multi-Unit Abutments have a non-engaging, threaded design that attaches directly to the implant. The subject device straight (0°) Multi-Unit Abutments are included in this submission are similar in design to straight Multi-Unit Abutments cleared in K242340, K230143, and K222288. Subject device straight Multi-Unit Abutments are provided with a prosthetic platform diameter of 4.8 mm, and with a gingival height ranging from 1 mm to 5.5 mm.

The subject device angled Multi-Unit Abutments are provided only in an engaging design that requires an abutment screw. The subject device Multi-Unit Abutments angled 17° and 30° are provided with a prosthetic platform diameter of 4.8 mm, and with a gingival height ranging from 2.5 to 4.5 mm.

Select straight and angled Multi-Unit Abutments have an added coating of zirconium nitride (ZrN). This coating is identical to the ZrN coating used on abutments with ZrN cleared in K242340.

DESS® Dental Smart Solutions Screws are designed to attach the abutment to the implant or the prosthesis to the abutment. There are a total of seventeen (17) subject device screws compatible with the subject device components or previously cleared components. The new screws have designs that are similar to those of screws cleared in K242340 and K240208. Screws are made of titanium alloy (Ti-6Al-4V). Select subject device screws are available with DLC (Diamond-like Carbon) coating and are identical to that used on screws cleared in K240208.

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Bonafix Implant Abutments are intended for use with dental implants as a support for single-unit or multi-unit prostheses in the maxillary or mandibular arch of a partially or fully edentulous patient.

All digitally designed superstructures, and/or hybrid crowns for use with Titanium Base are to be sent to a Bonafix validated milling center for manufacture.

Bonafix Abutment Solutions are a dental implant abutments system that includes three abutment design types (Temporary, Straight Ti-Base and Multi-Unit), that can be used to support single-unit or multi-unit prosthetic restorations. These abutments incorporating interface features compatible with sixteen (16) endosseous dental implant system platforms (Eight (8) designs from five (5) manufactures). The subject device abutments platform diameters range from 3.5mm to 6.3mm, and the corresponding compatible implant body diameters also range from 3.5 mm to 6.3mm. The system also includes corresponding abutment screws.

Temporary Abutments are manufactured from Titanium Grade 5 and consist of a coronal section, a platform and a connection part. The abutments are provided non-sterile with instructions for end user sterilization. The Temporary Abutments are seated in the implant with a prosthetic screw which is also manufactured from Titanium Grade 5. The prosthetic screw is delivered with the abutment. Angular correction of temporary abutments and placement of implant bodies at an angle is not allowed, they must be used parallel to the direction of occlusal loading forces. Temporary Abutments can be used prior to the insertion of the final components to maintain, stabilize and shape the soft tissue during the healing phase; they may not be placed into occlusion. Modifications can be made by the end-user only in the minimum post height. Minimum post height – 4.0 mm. Temporary Abutments have a maximum duration of usage of 180 days.

The Bonafix TiBase abutment is composed of two-piece abutment that is a titanium base at the bottom and a zirconia superstructure (CAD/CAM patient specific superstructure) at the top. The superstructure are fabricated using a CAD/CAM process in Zirconia. The apical end is prefabricated to fit the compatible implant platform, as shown above, and is available with implant connections for crowns (with socket) or bridges (without socket). Angular correction of abutments and placement of implant bodies at an angle is not allowed, they must be used parallel to the direction of occlusal loading forces. Each abutment is provided with a screw designed to fit the compatible implant. The design parameters for the fabrication of the zirconia superstructure, which are already locked in the CAD/CAM software, are as follows: Minimum wall thickness – 0.45 mm, Minimum abutment post height – 4.0 mm, Maximum abutment post height – 6.5mm, Maximum gingival height – 5.0 mm, Minimum gingival height – 0.7 mm, Angulation – 0°. All digitally designed superstructures, and/or hybrid crowns for use with Bonafix TiBase abutments are to be sent to a Zentek validated milling center for manufacture. All superstructures are to be manufactured from zirconia conforming to ISO 13356. The required cement for bonding the zirconia superstructure to the Bonafix TiBase abutments to create the final two-piece abutment is G-CEM LinkAce™ cleared in K120243. Bonafix Ti-Base Abutments are made of titanium alloy (Ti-6Al-4V) conforming to ASTM F136 Standard Specification for Wrought Titanium-6Aluminum-4Vanadium ELI (Extra Low Interstitial) Alloy for Surgical Implant Applications (UNS R56401) with the superstructure made of zirconia conforming to ISO 13356 Implants for surgery – Ceramic materials based on yttria-stabilized tetragonal zirconia (Y-TZP).

The Multi-unit abutments are screw-attached to the implant to restore fully or partially edentulous arches. Their use is not intended for single-unit crowns. They are designed with various gingival heights (1.5, 2.5 and 3.5mm) and can be screwed directly to a compatible implant. They use a titanium Multi-unit sleeve, which is cemented to the prosthesis. Together with a titanium prosthetic screw, the prosthesis is ready to be screwed onto the Multi-unit abutment, which in turn is screwed onto the implant, thus completing the restoration. This multi-unit abutments are not intended to provide angle or divergence correction. For all system, are manufactured from Titanium Grade 5. Multi-unit sleeve can only be modified in the post height and that the minimum post height is 4mm from gingival collar.

The Prosthetic screw is used to seat all abutments for the system, included the temporary abutments and ti-bases, to the dental implant. They are provided along the prosthetic components, but they are also provided as standalone screws. The Abutment screws are manufactured from titanium alloy conforming to ASTM F136.

All system abutments are provided non-sterile with instructions for end user steam sterilization. The subject devices are provided non-sterile and required to be sterilized. All Bonafix TiBase abutments are packaged into PET bag.

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IPD Dental Implant Abutments are intended to be used in conjunction with endosseous dental implants in the maxillary or mandibular arch to provide support for single or multiple dental prosthetic restorations.

IPD Dental Implant Abutments is a dental implant abutment system composed of dental abutments, screws, as well as other dental abutment accessories, intended to be placed into dental implants to provide support for dental prosthetic restorations.

Abutments provide basis for single or multiple tooth prosthetic restorations. They are available in a variety of connection types to enable compatibility with commercially available dental implants systems.

IPD Dental Implant Abutments includes the following categories of dental abutment designs:

• Titanium base (Interface) abutments (INC3D);
• Multi-Unit abutments (MUA);
• Overdenture Abutments (PSD);
• Temporary Abutments (PP);
• Healing Abutments (TC).

The system also includes the use of the corresponding screws intended to attach the prosthesis to the dental implant. Specifically:

• Ti Screw (TT): Used during restoration fabrication.
• TiN Screw (TTN): Used in finished restorations, with TiN coating.
• TPA Screw (TPA): Used in finished angulated restorations, with TiN coating.

The metallic components of the subject abutments and screws are made of titanium alloy conforming to ISO 5832-3 "Implant for surgery – Metallic materials – Part 3: Wrought titanium 6-aluminium 4-vanadium alloy".

The purpose of this submission is to expand IPD Dental Implant Abutments offerings with:
• New IPD's compatible dental implant systems,
• New angulations available abutment-category specific.
• New in-house TiN coating.

IPD dental implant abutments and screws are compatible with the following commercially available dental implant systems:
(Table 2. Summary of IPD abutments categories with compatibilized OEM Implant/Abutment Systems with specific reference to maximum angulation specifically included in this submission. provided in original text)

Ti Base (Interface) abutments are attached (screw-retained) to the implant/abutment and cemented to the zirconia superstructure.

The Ti Base is a two-piece abutment composed of the titanium component, as the bottom-half, and the zirconia superstructure, as the top-half. It consists of a pre-manufactured prosthetic component in Titanium alloy per ISO 5832-3, as well as the supporting digital library file for FDA-cleared design software (3Shape Abutment Designer™ Software, cleared under K151455) which enables the design of a patient-specific superstructure by the laboratory/clinician and which will be manufactured in FDA-cleared Zirconia (e.g., DD Bio Z, K142987) according to digital dentistry workflow at the point of care, or at a dental laboratory.

The design and fabrication of the zirconia superstructure for Ti Base (Interface) will be conducted using a digital dentistry workflow requiring the use of the following equipment, software and materials:
Scanner: 3D Scanner D850.
Design Software: 3Shape Abutment Designer Software, K151455.
Zirconia Material: DD Bio Z, K142987.
Milling machine/Brand: Dental Concept System Model: DC1 Milling System.
Cement: Multilink® Automix, K123397.

Ti Base (Interface) abutment design parameters for the zirconia superstructure are defined as follows:
Minimum gingival height: 1.5 mm
Minimum wall thickness: 0.43 mm
Minimum post height for single-unit restorations: 4.75 mm (1)
Maximum gingival height: 6.0 mm
Maximum angulation of the final abutment 30° (2)

The resulting final prosthetic restoration is screwed to the dental implant. All subject abutments are single-use and provided non-sterile. Final restoration (which includes the corresponding screw) is intended to be sterilized at the dental clinic before it is placed in the patient.

The provided FDA 510(k) clearance letter pertains to IPD Dental Implant Abutments, a medical device, not an AI/ML-driven software product. Therefore, the information requested regarding acceptance criteria and study data for an AI/ML device (e.g., sample size for test/training sets, expert ground truthing, MRMC studies, standalone performance) is not applicable to this document.

The document describes the device, its intended use, comparison to predicate devices, and the non-clinical performance testing conducted to demonstrate substantial equivalence. These tests are physical and chemical in nature, not related to the performance of an AI/ML algorithm.

Here's a breakdown of why an AI/ML-focused response is not possible, based on the provided text:

• Device Type: The device is "IPD Dental Implant Abutments," which are physical components used in dentistry (titanium alloy abutments, screws, designed for zirconia superstructures). It is not software, a diagnostic imaging tool, or an AI/ML algorithm.
• Purpose of Submission: The submission aims to expand compatibility with new dental implant systems and include new angulations and in-house TiN coating. This is a modification of a physical medical device, not a new AI/ML development.
• Performance Data (Section VII): This section explicitly lists non-clinical performance testing such as:
  • Sterilization validation (ISO 17665-1)
  • Biocompatibility testing (Cytotoxicity, Sensitization, Irritation per ISO 10993)
  • Reverse engineering and dimensional analysis for compatibility
  • Validation of the digital workflow and software system (but this refers to the CAD/CAM software used to design the physical abutments, not an AI/ML diagnostic tool)
  • Static and dynamic fatigue testing (ISO 14801)
  • Modified Surfaces Information
  • MRI safety review

Conclusion:

The provided document describes a 510(k) clearance for a physical dental implant component. It does not contain any information about the acceptance criteria or study design for an AI/ML driven medical device. Therefore, a table of acceptance criteria and reported device performance related to AI/ML, sample sizes for test/training sets, details on expert ground truthing, MRMC studies, or standalone performance of an algorithm cannot be extracted from this text.

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MIST IC abutments are intended for use to support a prosthetic device in a partially or completely edentulous patient. They are intended to support a single-unit or multi-unit, cement retained prosthesis in the mandible or maxilla. MIST IC abutments are compatible for use with the following implants:

All digitally designed custom abutments for use with MIST IC abutments are to be sent to an Imagine Milling Technologies validated milling center for manufacture.

MIST IC from Imagine Milling Technologies, LLC is a line of Ti-base and machinable blank abutments to interface with compatible dental implants from four (4) manufacturers, and a total of eight (8) implant-abutment interface compatibilities. The subject device prosthetic platform diameters range from 3.8 mm to 6.9 mm. All stock subject device components (abutments and abutment screws) are made of titanium alloy conforming to ASTM F136. The subject device MIST IC L-LINK abutments have a TiN coating achieved through a physical vapor deposition (PVD) process that is identical to the process used for TiN coating of Imagine Milling Technologies, LLC devices cleared in K222368. The PVD cathodic arc evaporation process is a high current, low voltage process in which material evaporated from the cathode (Ti) is ionized, transported through the vacuum chamber with reactive gas (N2) and deposited as a non-porous, thin film on the titanium substrate. Each abutment is supplied with the non-sterile abutment screw designed for attachment to the corresponding compatible OEM implant.

All patient-specific abutment fabrication for all MIST IC abutments is by prescription on the order of the clinician. All MIST IC abutments are intended to be milled at an Imagine Milling Technologies, LLC validated milling center under FDA quality system regulations.

MIST IC L-LINK abutments are two-piece abutments to be used as a base when fabricating a CAD-CAM customized restoration where the superstructure produced will compose the second part of the two-piece abutment; the assembly becoming a final finished medical device after cementation on the subject device abutment. They are provided with engaging and non-engaging connections.

The L-LINK abutments and corresponding zirconia superstructure are provided to the clinician either with the superstructure cemented to the abutment by the dental laboratory, or separately for the clinician to bond together chairside using the cement required in the labeling (RelyX RMGIP bonding cement, cleared in K022476).

The design parameters for L-LINK patient-specific abutments are:

• Minimum wall thickness – 0.5 mm
• Minimum cementable post height for single-unit restoration – 4.0 (minimum cementable post height for single-unit restoration is defined as the height above the restorative margin)
• Minimum gingival height – 0.5 mm
• Maximum gingival height (for all except Straumann BLX L-Link) – 5.0 mm
• Maximum gingival height (for Straumann BLX L-LINK) – 6.0 mm
• Maximum angle – 20°

All zirconia copings (superstructures) for use with the subject device MIST IC L-LINK abutments will conform to ISO 13356.

MIST IC PREFIT abutments are cylindrical abutments designed for patient-specific abutment fabrication by a CAD-CAM process and machined into a one-piece, all titanium abutment. The portion of the abutment available for milling is either 9.9 mm in diameter by 20 mm in length or 13.9 mm in diameter by 20 mm in length. MIST IC PREFIT abutments have an engaging connection.

The design parameters for PREFIT patient-specific abutments are:

• Minimum wall thickness – 0.5 mm
• Minimum cementable post height for single-unit restoration – 4.0 (minimum cementable post height for single-unit restoration is defined as the height above the restorative margin)
• Minimum gingival height – 0.5 mm
• Maximum gingival height (for all except Straumann BLX PREFIT) – 5.0 mm
• Maximum gingival height (for Straumann BLX PREFIT) – 6.0 mm
• Maximum angle – 30°

The provided document is a 510(k) clearance letter for a dental device, specifically dental implant abutments. It details the device's administrative information, predicate devices, indications for use, subject device description, and performance data used to demonstrate substantial equivalence.

However, the document does not contain any information regarding acceptance criteria or a study proving the device meets those criteria in the context of an AI/ML algorithm. The performance data section refers to non-clinical analyses, such as MR compatibility, sterilization validation, biocompatibility, mechanical properties testing, reverse engineering, and static/dynamic compression-bending testing conforming to ISO 14801. These are standard tests for mechanical dental devices, not AI/ML performance evaluation.

Therefore, I cannot provide the requested information for acceptance criteria and a study proving an AI device meets them based on the given text. The device described, "Mist IC," is a physical dental implant abutment, not an artificial intelligence/machine learning (AI/ML) powered medical device.

To directly answer your prompt based on the provided text, the following information is missing or not applicable:

1. A table of acceptance criteria and the reported device performance: Not applicable. The document describes mechanical and material performance testing for a physical device, not AI/ML performance metrics like sensitivity, specificity, or AUC against defined acceptance criteria for an AI algorithm.
2. Sample sizes used for the test set and the data provenance: Not applicable. There is no AI/ML test set. The document refers to testing of physical components (OEM implants, abutments, screws, subject device constructs).
3. Number of experts used to establish the ground truth for the test set and the qualifications of those experts: Not applicable. No AI/ML ground truth establishment.
4. Adjudication method (e.g. 2+1, 3+1, none) for the test set: Not applicable.
5. If a multi-reader multi-case (MRMC) comparative effectiveness study was done, If so, what was the effect size of how much human readers improve with AI vs without AI assistance: Not applicable. This is not an AI-assisted diagnostic device.
6. If a standalone (i.e. algorithm only without human-in-the loop performance) was done: Not applicable.
7. The type of ground truth used (expert consensus, pathology, outcomes data, etc.): Not applicable. The "ground truth" for this device's performance would be the physical properties and mechanical integrity verified by engineering standards (e.g., ISO 14801).
8. The sample size for the training set: Not applicable. No AI/ML training set mentioned.
9. How the ground truth for the training set was established: Not applicable. No AI/ML training set mentioned.

The document focuses solely on the substantial equivalence of the "Mist IC" dental implant abutments to legally marketed predicate devices based on design, materials, manufacturing, and conventional mechanical/material performance testing.

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Dynamic TiBase abutments are intended to be used in conjunction with endosseous dental implants in the maxillary or mandibular arch to provide support for prosthetic restorations.

Compatible Implant Systems:

All digitally designed custom abutments for use with Dynamic TiBase abutments are to be sent to a Talladium Medical validated milling center for manufacture.

Dynamic TiBase abutments are two-piece abutments composed of a CAD-CAM fabricated zirconia superstructure and a prefabricated titanium base component where the final two-piece abutment (base and cemented superstructure) is the finished device used for the prosthetic restoration. All subject device bases are made of titanium alloy (Ti-6Al-4V) conforming to ISO 5832-3 and ASTM F136. The Dynamic TiBase abutments are provided in engaging and non-engaging designs for single-unit and multi-unit restorations, respectively.

For each of the compatible OEM implant lines, the prefabricated titanium base components are provided with a gingival height (in the titanium base) ranging from 0.3 mm to 4 mm, and a platform diameter ranging from 4.30 mm to 5.50 mm. Angulation and additional gingival height may be provided in the zirconia superstructure. All Dynamic TiBase prefabricated titanium base components have a post with a cut-out to accommodate a restoration with an angled channel for screw access when clinically necessary. The post height of the prefabricated titanium base component ranges from 3.8 mm to 5.40 mm, and from 2.3 mm to 3.8 mm (cut-out height). The cementable post height of the final patient-matched abutment design, measured above the total combined gingival collar, shall be no less than 4 mm.

All zirconia superstructures (copings) used to complete the final two-piece subject device Dynamic TiBase abutment will be made at a Talladium España, SL validated milling center under FDA quality system regulations, and the material will conform to ISO 13356.

The design parameters for the CAD-CAM zirconia superstructure for the Dynamic TiBase vary slightly among the compatible OEM implants. The design parameters for the CAD-CAM zirconia superstructure are summarized in the following table:

(1) for the compatible sizes shown in Table 1
(2) minimum gingival height in the titanium base, not the zirconia superstructure

The required cement for bonding the zirconia superstructure to the Dynamic TiBases to create the final two-piece abutment is Nova Resin Cement cleared in K213609.

Also, the subject of this submission are seven (7) abutment screws for use with the subject abutments.

This FDA 510(k) clearance letter pertains to a dental implant abutment — the Dynamic TiBase — not an AI-powered diagnostic device or software. Therefore, the information typically requested about acceptance criteria and study designs for validating AI/ML-based medical devices (such as sample size, expert ground truth, adjudication methods, MRMC studies, standalone performance, and training set details) is not applicable to this document.

The "performance data" section in this 510(k) summary refers to traditional engineering and biocompatibility testing for a physical medical device, not performance metrics for an algorithm.

Here's how to interpret the provided document in the context of "acceptance criteria" and "proof":

Acceptance Criteria and Reported Device Performance (as inferred for a physical device):

For a physical device like the Dynamic TiBase, the "acceptance criteria" are generally met through demonstrating substantial equivalence to a previously cleared predicate device. This involves validating material properties, manufacturing processes, functional performance (e.g., mechanical strength, compatibility), and biocompatibility.

The "study that proves the device meets the acceptance criteria" refers to the non-clinical testing performed to demonstrate substantial equivalence.

Regarding the specific questions about an AI/ML context:

1. A table of acceptance criteria and the reported device performance: Provided above, adapted for a physical medical device.
2. Sample size used for the test set and the data provenance: Not applicable. The "test set" for this physical device refers to the number of physical abutment samples or material samples subjected to mechanical, biocompatibility, and MRI testing. The document does not specify exact sample numbers for these engineering tests, only the standards used (e.g., ISO 14801 typically specifies minimum sample sizes). Data provenance is "non-clinical data" generated from laboratory testing.
3. Number of experts used to establish the ground truth for the test set and the qualifications of those experts: Not applicable. Ground truth for a dental abutment's performance is established by engineering standards, material specifications, and physical testing, not by expert human interpretation of images or clinical outcomes in the same way as an AI diagnostic.
4. Adjudication method (e.g. 2+1, 3+1, none) for the test set: Not applicable. This is a concept used in evaluating human reader performance in AI studies.
5. If a multi reader multi case (MRMC) comparative effectiveness study was done, If so, what was the effect size of how much human readers improve with AI vs without AI assistance: Not applicable. This is for AI-assisted diagnostic devices.
6. If a standalone (i.e. algorithm only without human-in-the-loop performance) was done: Not applicable. This refers to an AI algorithm's performance.
7. The type of ground truth used: For a physical device, "ground truth" is defined by adherence to established engineering standards (e.g., ISO 14801 for mechanical strength), material properties, and biocompatibility standards. "Reverse engineering dimensional analysis" served as a form of "ground truth" for compatibility. No pathology or outcomes data was used for this premarket notification.
8. The sample size for the training set: Not applicable. There is no "training set" as this is not an AI/ML device.
9. How the ground truth for the training set was established: Not applicable.

In summary, this 510(k) clearance is for a physical medical device (dental abutment), and the "performance data" section details the engineering and material testing conducted to demonstrate its safety and effectiveness, primarily through substantial equivalence to previously cleared devices. It does not involve AI/ML validation methodologies.

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The Omnibut is a pre-manufactured prosthetic component directly connected to the endosseous dental implant and is intended for use as an aid in prosthetic rehabilitation.

The Omnibut™ is a transmucosal abutment used to support screw-retained prostheses on four or more implants. The subject device has a premanufactured connection for the platforms listed in Table 1 Compatible Implant Systems.

The system involves a ball abutment attached to an implant. A retention attachment allows for angle corrections of up to 30° off the implant axis. The ball abutment is inserted into the attachment is adjusted to the desired angle using an orientation screw. The abutment supports prostheses that connect via titanium cylinders, which are incorporated into resin or ceramic prostheses. Finally, the prostheses are retained to the abutment by prosthetic screws.

The subject device abutments and system components are manufactured from Ti-6Al-4V alloy conforming to ASTM F136. The subject device is a single use device is provided nonsterile and intended to be sterilized by the user prior to placement in the patient.

Here's a breakdown of the acceptance criteria and study information for the Omni-Directional Multi-unit Abutment System (Omnibut™), based on the provided FDA 510(k) summary:

Description of the Device

The Omnibut™ is a pre-manufactured prosthetic component directly connected to endosseous dental implants. It is intended for use as an aid in prosthetic rehabilitation, specifically for supporting screw-retained prostheses on four or more implants. The system includes a ball abutment attached to an implant, with a retention attachment allowing for angle corrections of up to 30° off the implant axis. It supports prostheses that connect via titanium cylinders, which are incorporated into resin or ceramic prostheses. The device is made from Ti-6Al-4V alloy and is provided non-sterile, requiring user sterilization.

1. Table of Acceptance Criteria and Reported Device Performance

2. Sample Size Used for the Test Set and Data Provenance

The provided document does not specify the exact sample sizes for each individual non-clinical test (e.g., number of abutments tested for dynamic fatigue, retention force, simulated use, or cleaning). It refers to the testing as "non-clinical" bench testing.

• Test Set Provenance: The data is generated from bench testing (laboratory studies), not from clinical data involving human patients. Therefore, information like "country of origin of the data" or "retrospective/prospective" is not applicable in the typical sense of clinical trials. The testing was performed in vitro.

3. Number of Experts Used to Establish the Ground Truth for the Test Set and Qualifications of Those Experts

This information is not applicable as the studies are non-clinical bench tests. The "ground truth" for these tests is based on established engineering standards (e.g., ISO 14801), biological evaluation standards (ISO 10993), and internal company protocols for mechanical and cleaning validation, not on expert clinical interpretation of patient data.

4. Adjudication Method (e.g., 2+1, 3+1, none) for the Test Set

This information is not applicable as the studies are non-clinical bench tests. Adjudication methods are typically employed in studies involving human interpretation or clinical endpoints to resolve discrepancies in assessment.

5. If a Multi Reader Multi Case (MRMC) Comparative Effectiveness Study was done, If so, what was the effect size of how much human readers improve with AI vs without AI assistance

An MRMC comparative effectiveness study was not done. This type of study is relevant for AI-powered diagnostic devices involving human readers/interpreters, which is not the case for this dental implant abutment. The device is a physical component, not a diagnostic AI tool.

6. If a Standalone (i.e., algorithm only without human-in-the-loop performance) was done

A standalone performance study was not done in the context of an algorithm. This question is relevant for AI/software devices; this device is a physical medical device. The "standalone" performance here refers to the device's mechanical and biological performance on its own, which is what the bench tests evaluate.

7. The Type of Ground Truth Used (expert consensus, pathology, outcomes data, etc.)

The "ground truth" for the non-clinical performance evaluations relies on:

• Established engineering and biological standards: e.g., ISO 14801:2016 for dynamic fatigue, ISO 10993 for biocompatibility, ANSI/AAMI/ISO for sterilization.
• Predetermined acceptance criteria: For retention force, simulated use, and cleaning efficacy, the "ground truth" is defined by specific pass/fail criteria established during the test design based on expected clinical performance and safety.
• Dimensional accuracy and compatibility models: For compatibility testing, the "ground truth" is established by the dimensions and specifications of OEM implant bodies and abutments.

8. The Sample Size for the Training Set

This information is not applicable because the device is a physical medical component, not a machine learning model or AI algorithm that requires a training set.

9. How the Ground Truth for the Training Set was Established

This information is not applicable for the same reason as above (not a machine learning model).

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