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510(k) Data Aggregation

    K Number
    K250271
    Device Name
    Neodent Implant System - Zirconia Implant System
    Manufacturer
    JJGC Indústria e Comércio de Materiais Dentários S.A.
    Date Cleared
    2025-08-18

    (200 days)

    Product Code
    DZE,NHA,PNP
    Regulation Number
    872.3640
    Type
    Traditional
    Panel
    Dental
    Reference & Predicate Devices
    K201491
    Predicate For
    N/A
    AI/MLSaMDIVD (In Vitro Diagnostic)TherapeuticDiagnosticis PCCP AuthorizedThirdpartyExpeditedreview
    Intended Use

    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.

    Device Description

    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.

    AI/ML Overview

    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.

    Acceptance Criteria Category (Implicit)Standard/GuidanceReported Device Performance (Summary)
    Dynamic Fatigue StrengthISO 14801, FDA Guidance (Class II Special Controls)Demonstrated a level of performance substantial equivalent to predicate and reference devices in identical conditions.
    Torsion StrengthNot specifiedAdequate torsion strength in accordance with recommended IFU installation torque.
    Insertion TorqueNot specifiedEvaluated insertion torque in sawbones material (Bone type I, II, III, IV). (Specific values not given).
    Implant Surface Area & Pull-Out StrengthNot specifiedGreater surface area compared to reference devices; higher resistance values in Pull Out Test.
    Software Validation (Sirona Digital Workflow)Not specifiedAccuracy requirement was met; critical design parameters (min wall thickness, max angulation) respected and monitored.
    MRI CompatibilityK182620, FDA GuidanceMR conditional labeling from K182620 is applicable; safe for scanning under previously established parameters.
    BiocompatibilityISO 10993-1, ISO 10993-18, ISO 10993-5, FDA GuidanceSubject devices are equivalent in material and manufacturing processes to predicates; no new issues raised; no additional testing required.
    Sterilization Validation (Ethylene Oxide)ISO 11135:2014Validated to a Sterility Assurance Level (SAL) of 1x10⁻⁶; residuals below max allowable limits per ISO 10993-7.
    Sterilization Validation (Moist Heat)ISO 17665-1Validated using parameters described in IFU.
    Endotoxin TestANSI/AAMI ST72:2011, ISO 11737-3, US Pharmacopeia chapter 85Results <0.05 EU/device.
    Shelf LifeNot specifiedDetermined to be 5 years; packaging identical to predicates.

    2. Sample size used for the test set and the data provenance

    The document details various bench tests (dynamic fatigue, torsion, insertion, pull-out) and validation studies (software, MRI, biocompatibility, sterilization, endotoxin, shelf-life). However, specific numerical sample sizes ("n=") for these individual tests are not provided in the summary. For example, for dynamic fatigue testing, it states "the results demonstrated that...". It doesn't specify how many implants or setups were tested.

    • Data Provenance (Country of Origin): The submitter is JJGC Indústria e Comércio de Materiais Dentários S.A. (dba Neodent) based in Curitiba, Paraná, Brazil. The tests are generally conducted to international ISO standards and FDA guidance, but the location where the tests were performed is not explicitly stated for each test beyond the company's Brazilian location.
    • Retrospective or Prospective: Not applicable in the context of bench testing and validation studies as described. These are laboratory-based tests rather than clinical studies on patient data.

    3. Number of experts used to establish the ground truth for the test set and the qualifications of those experts

    This information is not applicable and not provided in the context of this 510(k) submission. The device is a dental implant system (hardware), not an AI/software device that interprets medical images requiring expert-established ground truth for a test set. The validation processes involve standardized engineering and biological tests as opposed to expert review of clinical cases.

    4. Adjudication method (e.g. 2+1, 3+1, none) for the test set

    This information is not applicable and not provided. As explained above, the submission pertains to a hardware device, not an AI/software system requiring human adjudication for ground truth establishment.

    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

    This information is not applicable and not provided. This type of study is relevant for AI-assisted diagnostic tools, not for dental implant hardware.

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

    This information is not applicable and not provided. This concept is specific to AI/software performance, not a physical dental implant system. The "software validation" mentioned is for the compatibility of milling units (CAD/CAM workflow), ensuring design parameters are respected, not for an AI algorithm interpreting dental images.

    7. The type of ground truth used (expert consensus, pathology, outcomes data, etc.)

    For the bench tests, the "ground truth" is defined by compliance with established engineering standards (e.g., ISO 14801 for dynamic fatigue) and specifications (e.g., material properties, dimensions). For biological safety, it's compliance with ISO 10993. For the CAD/CAM software, it's the accurate adherence to design parameters. This isn't "ground truth" in the diagnostic sense, but rather adherence to predefined engineering and biocompatibility specifications.

    • Clinical Literature Review: A clinical literature review was conducted to support the safety of Zi Transmucosal Implant less than 7mm of length, referencing animal studies and histomorphometry evaluation. This aligns with outcomes data or pathological/histological evidence from preclinical studies, suggesting "similar osseointegration outcomes" and "ability to promote bone formation around them in a manner equivalent to titanium implants."

    8. The sample size for the training set

    This information is not applicable and not provided. This concept is specific to machine learning/AI models, which are not the subject of this 510(k) submission.

    9. How the ground truth for the training set was established

    This information is not applicable and not provided. As above, this is relevant for AI/ML training data, not for a physical dental implant system.

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