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Dentis s-Clean SQ-SL Fixture is indicated for use in partially or fully edentulous mandibles and maxillae, in support of single or multiple unit restorations including; cemented retained, screw retained, or overdenture restorations, and terminal or intermediate abutment support for fixed bridgework. This system is dedicated for one and two stage surgical procedures. This system is intended for delayed loading.

Dentis s-Clean SQ-SL Fixture is two type as Mini and Regular according to the connection. Dentis s-Clean SQ-SL Fixture is a thread type implant made of Pure titanium according to ASTM F67 which will be placed in the alveolar bone to replace the function of the missing tooth. This device has connection between the upper prosthesis and the internal Hex.

The surface of fixture is treated with SLA (Sandblasted with Large-grit and Acid-etching).

The dimensions of fixtures are as following:

Tolerance of dimension shall be within ± 1% range.

s-Clean SQ-SL Fixture is compatible with devices in K192688 and K210134 as below:

s-Clean SO-SL Fixture Mini is compatible with devices in K210080 as below:

Denis s-Clean SQ-SL Fixture is provided sterilized.

Dentis s-Clean SQ-SL Fixture is packaged with Cover screw that was cleared in FDA as K192688 and K210080.

This document is a 510(k) Summary for the Dentis s-Clean SQ-SL Fixture, a dental implant. It does not contain information about the acceptance criteria or a study proving the device meets those criteria from an AI/algorithm performance perspective. The document focuses on establishing substantial equivalence to predicate devices through non-clinical testing.

Therefore, I cannot provide the requested information regarding AI/algorithm acceptance criteria, test set details, expert qualifications, adjudication methods, MRMC studies, standalone performance, ground truth types, or training set details because this information is not present in the provided text.

The "Non-Clinical Test Data" section describes engineering and biocompatibility tests conducted on the device, not an AI algorithm.

Non-Clinical Test Data Summary (from the document):

• Tests performed on the subject device: Fatigue Testing (ISO 14801:2016).
• Tests performed on predicate devices and leveraged for the subject device:
  • Sterilization Validation Test on Fixtures (ISO 11137-1,2,3 referenced in K192688).
  • Shelf-Life Test on Fixtures (ASTM F1980 referenced in K153639).
  • Biocompatibility testing on fixtures (ISO 10993-1:2009, ISO 10993-3:2014, ISO 10993-5:2009, ISO 10993-6:2007, ISO 10993-10:2010 and ISO 10993-11:2006 referenced in K153639).
  • Bacterial Endotoxin Test Report on Fixtures (ANSI/AAMI ST72:2011, USP , and USP referenced in K192688).
• Acceptance Criteria for these non-clinical tests: "met the criteria of the standards" (e.g., ISO 14801:2016 for fatigue).
• Study Design/Purpose: To demonstrate substantial equivalence to predicate devices.
• MR Environment Condition: A non-clinical worst-case MRI review was performed using scientific rationale and published literature to evaluate magnetic safety, addressing magnetically induced displacement force and torque.

This document describes a traditional medical device (dental implant) clearance process, not one involving Artificial Intelligence.

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Dentis s-Clean s-Line Mini is indicated for use in partially or fully edentulous mandibles and maxillae, in support of single or multiple unit restorations including; cemented retained, screw retained, or overdenture restorations, and terminal or intermediate abutment support for fixed bridgework. This system is dedicated for one and two stage surgical procedures. This system is intended for delayed loading.

Dentis s-Clean s-Line Mini is composed of Fixture and Abutments. s-Clean SO-SL Fixture Mini is a thread type implant made of Pure titanium according to ASTM F67 which will be placed in the alveolar bone to replace the function of the missing tooth. This device has connection between the upper prosthesis and the internal Hex. The subject implant body has a two screw-joint (structured with Upper and Lower screw joints) and a hex anti-rotation design connection. The two-screw-joint feature is for diverse screw connection with other abutment that has 1.6M screw or 2.0M Screw. The surface of fixture is treated with SLA (Sandblasted with Large-grit and Acid-etching). It is only part to be implanted into bone, and to provide connection of prosthetic devices or other components of a dental implant set with human body (mandibular or maxillary bone). The system includes various abutments (Cover Screw, Healing Abutment, Sole Abutment, TiN Half Coating Sole Abutment, Couple Abutment, TiN Half Coating Couple Abutment, Angled Abutment, TiN Half Coating Angled Abutment, Abutment Screw, Temporary Abutment, MU Straight Abutment, MU Angled Abutment, MU Angled Abutment Screw) made from Pure titanium (ASTM F67), Ti-6Al-4V (ASTM F136), or PEEK material. Some abutments have Anodizing (Gold Color) or TiN-Coating surface treatments.

This document (K210080) describes the Dentis s-Clean s-Line Mini, an endosseous dental implant system, and its substantial equivalence to predicate devices, rather than an AI/ML-driven device requiring a study to prove meeting acceptance criteria in the context of diagnostic performance (e.g., sensitivity, specificity, AUC).

The acceptance criteria described in this document are related to the physical, chemical, and mechanical properties, as well as the sterility and biocompatibility of the dental implant components, and their substantial equivalence to already marketed devices. The "study" proving acceptance is a series of non-clinical tests and comparisons to predicate devices.

Therefore, I cannot provide a table with "acceptance criteria and reported device performance" as typically found for AI/ML diagnostic devices (e.g., sensitivity, specificity). Instead, I will describe the non-clinical tests and their outcomes as presented in the document to demonstrate the device meets its acceptance criteria for safety and effectiveness as a physical medical device.

1. Table of Acceptance Criteria (for a physical dental implant) and Reported Device Performance

Since this is a physical dental implant, the "acceptance criteria" are based on meeting established standards and demonstrating substantial equivalence to predicate devices in terms of material, design, performance, and biocompatibility.

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

• Sample Size for Test Set: The document doesn't specify a "test set" in the context of an AI/ML diagnostic algorithm. For the physical device, fatigue testing per ISO 14801 would involve a specific number of samples, but the exact count is not provided. Other tests like biocompatibility, sterilization, and shelf-life are typically performed on a limited number of samples representative of the product. The document states a comparative fatigue test was conducted.
• Data Provenance: Not applicable in the context of AI/ML. The "data" here refers to the results of non-clinical bench testing and material characterization. The manufacturer is Dentis Co., Ltd. from South Korea. The testing was performed according to international standards (ISO, ASTM, USP) and FDA-recognized guidance. It's a "prospective" assessment in that the tests were done on the manufactured devices to demonstrate their properties.

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

• This is not applicable for a physical medical device submission like this one. "Ground truth" in this context refers to established standards (e.g., ISO for fatigue, ASTM for materials, ISO/AAMI for sterilization), which are derived from broad expert consensus in relevant fields (engineering, microbiology, toxicology, dentistry).

4. Adjudication Method for the Test Set:

• Not applicable as this is not an AI/ML diagnostic study with human readers. Test results are compared against defined standard criteria.

5. If a Multi-Reader Multi-Case (MRMC) Comparative Effectiveness Study was done:

• No, this type of study is not relevant for a physical dental implant. MRMC studies are typically for evaluating the diagnostic performance of AI/ML systems, often with human readers.

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

• Not applicable. There is no algorithm or AI component in this dental implant.

7. The Type of Ground Truth Used:

• The "ground truth" for proving the device's acceptance is based on:
  • International Standards: Conformance to recognized standards such as ISO 14801 (fatigue), ISO 10993 series (biocompatibility), ISO 11137 series (sterilization), ASTM F67, F136, F1980 (materials, shelf-life), and AAMI/USP guidelines for bacterial endotoxins.
  • Predicate Device Comparison: Substantial equivalence is established by demonstrating that the subject device has the "same intended use and fundamental scientific technology" as legally marketed predicate devices, and any differences "do not raise different questions of safety and effectiveness."

8. The Sample Size for the Training Set:

• Not applicable. There is no AI/ML training set for this physical device.

9. How the Ground Truth for the Training Set Was Established:

• Not applicable. There is no AI/ML training set.

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