Search Results

Zirconia Implants:
The Neodent Implant System is intended to be surgically placed in the bone of upper or lower jaw to provide support for prosthetic devices, such as artificial teeth, to restore chewing function. It may be used with single-stage or two-stage surgical procedures, for single or multiple unit restorations, and may be loaded immediately when good primary stability is achieved and with physiological occlusion loading. Multiple teeth applications can be rigidly splinted. The implants with length of 5 mm (short implants) may be used only with two-stage surgical procedures. The recommended healing time before loading is between 10 to 12 weeks.

Zi Transmucosal Cover Screw and Healing:
The Neodent Implant System is intended to be surgically placed in the bone of the upper or lower jaw to provide support for prosthetic devices, such as artificial teeth, to restore chewing function. It may be used with single-stage or two-stage surgical procedures, for single or multiple unit restorations, and may be loaded immediately when good primary stability is achieved and with physiological occlusal loading. Multiple teeth applications can be rigidly splinted.

Zi Transmucosal Provisional Coping:
The Neodent Implant System is intended for surgical procedures in maxilla or mandible, providing support for prosthetic devices such as artificial teeth, to restore chewing function. It may be used with single-stage or two-stage procedures, for single- or multi-unit restorations, and may be loaded immediately when good primary stability is achieved and with appropriate occlusal loading.

Zi Transmucosal Abutment Replacement Screw:
The Neodent Implant System is intended to be surgically placed in the bone of the upper or lower jaw to provide support for prosthetic devices, such as artificial teeth, to restore chewing function. It may be used with single-stage or two-stage procedures, for single or multiple unit restorations, and may be loaded immediately when good primary stability is achieved and with appropriate occlusal loading.

Zi Transmucosal Universal Base:
The Universal Ceramic Base Zi Transmucosal 5.0 is an abutment placed over Neodent Zi Transmucosal 5.0 Ceramic Implant System in order to provide support for custom-made prosthetic restorations, such as copings or crowns. It may be used for cement or screw-retained single unit restorations. All digitally designed copings and/or crowns to be used with the Neodent Zirconia Base Abutment System are intended to be sent to Straumann for manufacture at a validated milling center.

Zirconia Base for Bridge:
The Zirconia Base for Bridge is an abutment placed over Neodent Zirconia Implants in order to provide support for custom-made prosthetic restorations. It may be used for cement or screw-retained multi-unit restorations. All digitally designed copings and/or crowns to be used with the Neodent Zirconia Base Abutment System are intended to be sent to Straumann for manufacture at a validated milling center.

Zirconia Base C:
The Zirconia Base C is an abutment placed over Neodent Zirconia Implants in order to provide support for customized prosthetic restorations, such as copings or crowns. It may be used for single-unit restorations that are screw- or cement-retained in esthetic areas over implants installed in the maxilla or mandible. All copings and/or crowns digitally designed for use with the Titanium Base C are to be designed using Sirona inLab software or Sirona CEREC Software and manufactured using a Sirona CEREC or inLab MC X or MC XL milling unit.

This premarket notification includes new ceramic devices into Neodent Implant System, which are compatible with Zirconia Implant System. The Zirconia Implants and Abutments proposed on this submission are similar to devices already cleared in previous submissions of Neodent Implant System – Zirconia Implant System, according to predicate devices described above. This submission intends to expand the portfolio with new solutions and diameter, in order to provide more treatment options to the customers.

The Zirconia Implants are manufactured in Zirconia Y-TZP and are available in Bone Level (BL) or Tissue Level (TL or Transmucosal) configurations. The Zirconia Implants (BL) are available in a diameter of 5.0 mm and lengths in a range of 8 to 13 mm. The Zi Transmucosal Implants (TL) are available in a diameter of 5.0 mm and lengths in a range of 5 to 11.5 mm.

The Zi Transmucosal Healing and Cover Screw are temporary abutments manufactured in PEEK and used during the healing phase. They are compatible with the Zi Transmucosal Implants Ø5.0. The Zi Transmucosal Healing Abutment is available in the heights of 2 and 3.5mm.

The Zi Transmucosal Provisional Coping is a temporary abutment made of polycarbonate (PC) and has a double function: used for molding procedures or production of provisional restoration.

The Zi Transmucosal Abutment Replacement Screw is a prosthetic component manufactured in titanium alloy and used to fix the fix the Zi Transmucosal Base to the Zi Transmucosal Implant.

The Zi Transmucosal Universal Base is a two-piece abutment of base and top-half prosthetic structure to provide support for customized single-unit restorations over Zi Transmucosal Implant (TL). The base is manufactured in Zirconia Y-ZTP and used with a patient-specific top-half prosthetic structure. The two-piece abutment has a cementable portion of 4mm and is available with gingival heights of 0.3, 1.0 and 1.5 mm. The top-half prosthetic structure to be used with Zi Transmucosal Universal Base must be designed and milled in a Straumann Validated Milling center, using the following restoration materials and dimensions:
Material: IPS e.max CAD HT, Associated Material 510(k): K132209, Minimum wall thickness: 0.9 mm, Maximum angulation: 30°
Material: IPS e.max CAD LT, Associated Material 510(k): K132209, Minimum wall thickness: 0.9 mm
Material: N!ce, Associated Material 510(k): K171773, Minimum wall thickness: 1.0 mm
Material: IVOCLAR Multilink cement, Associated Material 510(k): K130436, Minimum wall thickness: N/A
Material: Zirconia N!ce® LT, Associated Material 510(k): K222836, Minimum wall thickness: 0.4 mm
Material: Zirconia N!ce® HT, Associated Material 510(k): K222836, Minimum wall thickness: 0.4 mm
Material: Zirconia N!ce® XT, Associated Material 510(k): K222836, Minimum wall thickness: 0.4 mm
Material: PMMA N!ce, Associated Material 510(k): K071548, Minimum wall thickness: 0.7 mm
Material: Panavia—Kuraray Cement, Associated Material 510(k): K150704, Minimum wall thickness: N/A, Maximum angulation: N/A

The Zi Base for Bridge is a two-piece abutment of base and top-half prosthetic structure to provide support for customized multi-unit restorations over Zirconia Implants (BL). The base is manufactured in Zirconia Y-ZTP and used with a patient-specific top-half prosthetic structure. The two-piece abutment has a cementable portion of 4mm and is available with gingival heights of 1.5, 2.5 and 3.5 mm. The top-half prosthetic structure to be used with Zi Base for Bridge must be designed and milled in a Straumann Validated Milling center, using the following restoration materials and dimensions:
Material: Zirconia N!ce® LT, Associated Material 510(k): K222836, Minimum wall thickness: 0.4 mm, Maximum angulation: 30°
Material: Zirconia N!ce® HT, Associated Material 510(k): K222836, Minimum wall thickness: 0.4 mm
Material: Zirconia N!ce® XT, Associated Material 510(k): K222836, Minimum wall thickness: 0.4 mm
Material: PMMA N!ce, Associated Material 510(k): K071548, Minimum wall thickness: 0.7 mm
Material: Panavia—Kuraray Cement, Associated Material 510(k): K150704, Minimum wall thickness: N/A, Maximum angulation: N/A

The Zi Base C is a two-piece abutment of base and top-half prosthetic structure to provide support for customized single-unit restorations over Zirconia Implants (BL). The base is manufactured in Zirconia Y-ZTP and used with a patient-specific top-half prosthetic structure. The two-piece abutment has a cementable portion of 4mm and is available with gingival heights of 1.5, 2.5, 3.5 and 4.5 mm. The top-half prosthetic structure to be used with Zi Base C must be designed and milled in a Sirona InLab Validated Workflow, using the following restoration materials and dimensions:
Material: IPS e.max CAD, Associated Material 510(k): K132209, Minimum wall thickness: 0.9 mm, Maximum angulation: 20°
Material: IVOCLAR Multilink cement, Associated Material 510(k): K130436, Minimum wall thickness: N/A, Maximum angulation: N/A

All these abutments have an internal connection with the implants (ZiLock) and the prosthetic platform is identical for all subject devices described in this submission. They are intended for single use and provided sterile via Ethylene Oxide method, along with undergoing moist heat sterilization after end-user customization.

The provided FDA 510(k) clearance letter and its associated summary for the Neodent Implant System - Zirconia Implant System contain extensive information about the device, its intended use, and comparisons to predicate devices. However, it does not include specific acceptance criteria with numerical thresholds directly stated within the tables, nor does it detail a study that directly proves the device meets such criteria in terms of performance metrics like sensitivity, specificity, or image quality assessments.

Instead, the submission focuses on demonstrating substantial equivalence to predicate devices through various tests, implying that if the new device performs similarly to or better than previously cleared devices, it meets the necessary standards. The performance testing section describes the types of tests conducted (e.g., dynamic fatigue, torsion, insertion, pull-out, and software validation), but it does not present clear quantitative acceptance criteria or the specific performance results in a comparative table format.

Therefore, many of the requested fields cannot be directly extracted from the provided text as they pertain more to the performance evaluation of AI/software in interpreting medical images, which is not the primary focus of this dental implant submission.

Here's an attempt to answer the questions based on the available information, noting where information is not explicitly provided in the document:

Acceptance Criteria and Device Performance Study for Neodent Implant System - Zirconia Implant System

The FDA 510(k) summary for the Neodent Implant System - Zirconia Implant System focuses on demonstrating substantial equivalence to predicate devices through a combination of bench testing, software validation, MRI compatibility, biocompatibility, and sterilization validation. It does not present specific quantitative acceptance criteria or performance metrics directly from a comparative study in the way one might expect for an AI/software-based medical device (e.g., sensitivity, specificity thresholds). Instead, the "acceptance criteria" are implicitly met by demonstrating that the proposed devices perform at a level substantially equivalent to legally marketed predicate devices under standardized testing conditions.

1. A table of acceptance criteria and the reported device performance

As mentioned, explicit numerical acceptance criteria and reported device performance in a comparative table (e.g., for diagnostic accuracy) are not provided in this 510(k) summary. The summary indicates that tests were conducted according to relevant ISO standards and FDA guidance, and the results demonstrated that the subject devices exhibit a level of performance substantial equivalent to the predicate and reference devices.

Below is a conceptual table based on the types of tests mentioned, noting that specific numerical acceptance criteria and performance data are not detailed in the provided text.

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NeoConvert Solution: The Neodent Implant System is intended to be surgically placed in the bone of the upper or lower jaw to provide support for prosthetic devices, such as artificial teeth, to restore chewing function. The NeoConvert Solution may be used with single-stage or two-stage procedures, for temporary multiple unit restorations, and may be loaded immediately when good primary stability is achieved and with appropriate occlusal loading.

Direct Screw to MUA: The Neodent Implant System is intended to be surgically placed in the bone of the upper or lower jaw to provide support for prosthetic devices, such as artificial teeth, to restore chewing function. The Direct Screw to MUA may be used with single-stage or two-stage procedures, for screw-retained multi-unit restorations, and may be loaded immediately when good primary stability is achieved and with appropriate occlusal loading. All digitally designed personalized copings to be used with the Direct to Multi Unit Abutment Screw are intended to be sent to Straumann for manufacture at a validated milling center.

GM Attachment TiN 30°: The Neodent Implant System is intended to be surgically placed in the bone of the upper or lower jaw to provide support for prosthetic devices, such as artificial teeth, to restore chewing function. The GM Attachment TiN 30° may be used with single-stage or two-stage procedures, for multiple unit restorations, and may be loaded immediately when good primary stability is achieved and with appropriate occlusal loading.

This premarket notification includes the following additions to the Neodent Implant System: NeoConvert Solution, Direct Screw to MUA, GM Attachment TiN 30°. The Neodent Multi-Unit Abutments proposed on this submission are similar to devices already cleared in previous submissions of Neodent Implant System, according to predicate devices described above. This submission intends to expand the portfolio of Neodent Abutments with these new solutions for multi-unit restorations, to provide more treatment options to customers. The NeoConvert Solution is a technique comprised by some abutments (not subject of this submission) used for converting removable temporary prosthesis into a screw-retained fixed temporary prosthesis. The Direct Screw to MUA is a prosthetic component designed to fix planned and digitally designed multi-unit milled restorations directly onto mini or micro abutments, eliminating the need for using the passive seating cylinder to restore chewing function. The GM Attachment TiN 30° is a prosthetic component used to stabilize implant-mucosa-supported removable full prosthesis (retained on the implant and supported on the mucosa), on implants installed in the maxilla or mandible. Although all these three new solutions are compatible with the same implants and components of Neodent Implant System and used for multiple unit rehabilitation, they are not used in conjunction with each other.

The provided text describes a 510(k) premarket notification for the "Neodent Implant System," focusing on the NeoConvert Solution, Direct Screw to MUA, and GM Attachment TiN 30°. This document details the device's technical characteristics, intended use, and its substantial equivalence to previously cleared predicate devices.

However, the provided text does not contain information about acceptance criteria and a study proving a device meets those criteria in the context of an AI/ML medical device submission. The document is a traditional 510(k) submission for dental implants and abutments, which are physical medical devices, not AI/ML software. Therefore, the specific requirements for an AI/ML device study (such as sample sizes for test and training sets, expert qualifications for ground truth, MRMC studies, or standalone performance) are not applicable or present in this document.

The "Performance Testing" section (pages 15-16) describes bench testing (dynamic fatigue, torsion, SEM images), MRI compatibility testing, biocompatibility testing, sterilization validation, and shelf-life testing for the physical dental implant components. These are standard performance tests for this type of physical device, not AI/ML algorithm validation.

Therefore, I cannot provide a table of acceptance criteria and a study proving the device meets acceptance criteria as typically outlined for an AI/ML medical device, as this information is not present in the provided document. The document focuses on demonstrating substantial equivalence of a physical dental device to predicate devices through engineering and material testing.

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Indications for Use for NUVO IF Implants and conventional abutments:

The NUVO IF Implant System is intended to be surgically placed in the maxilla or mandible to provide support for prosthetic devices such as artificial teeth in order to restore chewing function. It may be used with single-stage or twostage procedures, for single or multiple unit restorations, and may be loaded immediately when good primary stability is achieved and with appropriate occlusal loading. Multiple tooth applications may be rigidly splinted.

The Titanium Temporary Abutment is indicated to provide temporary support for prosthesis structure for up to 6 months.

The Attachment Equator and Attachment Removable Prosthesis are indicated for the attachment of full or partial dentures to NUVO implants.

Indications for Use for Rotational and Anti-rotational Titanium Bases abutments:

Titanium Base Abutment is a titanium base placed onto dental implants to provide support for customized prosthetic restorations. It is used with a coping and crown, or crown alone, and is indicated for cement or screw-retained single or multi-unit restorations or screw-retained single restorations.

All digitally designed copings and/or crowns to be used with the Titanium Base Abutment System are intended to be sent to Straumann for manufacture at a validated milling center.

The Rotational Titanium Base is indicated for cement or screw-retained multi-unit restorations.

Indications for Use for CARES® Abutment IF:

The CARES® Abutment is a customized prosthetic abutment, manufactured in titanium alloy, placed onto dental implants to provide support for customized prosthetic restorations (copings or crowns). It is indicated for cementretained single restorations. All digitally designed abutments for use with the CARES® Abutment are intended to be sent to Straumann for manufacturing at a validated milling center.

The NUVO IF Implant System consists of implants, cover screws, and abutments.

Implants: Intended for single use, provided sterile via gamma irradiation, manufactured of commercially pure titanium (Grade 4), bone level design, apically tapered thread-form with apical cutting flutes in various diameters and lengths, and provided with an internal hexagonal implant-to-abutment interface.

Cover Screws: Intended for single use, used to protect the internal geometry of the implants during healing, placed out of occlusion, provided sterile via gamma irradiation or ethylene oxide gas, manufactured of titanium alloy (Ti6Al4V-ELI), and provided with an implant-to-abutment interface compatible with the internal hexagonal geometry of the implants.

Abutments: Intended for single use, provided sterile via ethylene oxide gas or non-sterile, manufactured of titanium alloy (Ti6Al4V-ELI) or a combination of POM polymer and cobalt-chromium alloy, conical format available in different diameters, height of cementable area and gingival height, screw-retained to the implant, provided with an implant-to-abutment interface compatible with the internal hexagonal geometry of the implants, provided with coronal geometries in rotational (non-indexed) and anti-rotational (indexed) versions, and Titanium Base abutments are two-piece abutments composed of a titanium base and a patient-specific CAD/CAM top-half.

This looks like a 510(k) summary for a dental implant system (NUVO IF Implant System), not a study describing acceptance criteria and performance data for an AI/ML medical device. Therefore, I cannot extract the requested information regarding acceptance criteria and performance studies for an AI device.

The document discusses:

• Trade/Device Name: NUVO IF Implant System
• Regulation Number/Name: 21 CFR 872.3640, Endosseous Dental Implant
• Regulatory Class: Class II
• Product Code: DZE, NHA
• Indications for Use: Surgical placement in maxilla or mandible for prosthetic device support, including immediate loading, temporary support, and attachment of dentures.
• Device Description: Details on implants (material, design, size, sterilization), cover screws (material, use, sterilization), and various abutment types (materials, design, sterilization, use).
• Predicate Devices: Several predicate devices are listed and compared for substantial equivalence.
• Performance Data: This section details non-AI/ML performance testing, including:
  • Dynamic fatigue testing per ISO 14801.
  • Sterilization validation (gamma irradiation per ISO 11137-1/2, ethylene oxide per ISO 11135, moist heat per ISO 17665-2).
  • Ethylene oxide residuals testing per ISO 10993-7.
  • Biological Safety Assessment per ISO 10993-1 (cytotoxicity per ISO 10993-5, chemical characterization per ISO 10993-18).
  • Package transport integrity per ISTA 2A.
  • Product and package stability per ASTM F1980.
  • Product endotoxin testing (LAL) per ANSI/AAMI ST72.

There is no mention of an AI/human-in-the-loop study, ground truth establishment, sample sizes for training/test sets for AI, or expert adjudication.

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