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The S-Mono is intended to use in the treatment of missing mandibular central and lateral incisors to support prosthetic device, such as artificial teeth, in order to restore chewing function in partially edentulous patients. S-Mono is intended for single use only. It is intended for delayed loading.

Device Description

The S-Mono is made of Titanium Alloy (ASTM F136) as the raw material. This device supports dental prosthesis such as an artificial tooth by surgically implanting it in the alveolar bone of the mandibular anterior region with a narrow tooth gap, and is intended to restore the patient's chewing function. It is one-body type which includes fixture and abutment. The surface of the fixture is treated using RBM (Resorbable Blast Media). It is roughened by blasting with hydroxyapatite powder and then pickling with nitric acid. The Temporary Cap is made of POM (Polyoxy Methylene) and intended to relieve the patient's foreign body sensation and protect the abutment part while the dental prosthesis is being manufactured. This cap is placed over the abutment part and is used temporarily before the dental prosthesis is placed. The material, dimension, and intended use of the subject devices are similar to devices currently marketed worldwide.

AI/ML Overview

This document describes a 510(k) premarket notification for a dental implant system called S-Mono. The provided text, however, does not contain any information about acceptance criteria or a study that proves the device meets specific performance criteria through a clinical or performance study involving human subjects or AI algorithm performance metrics.

The document focuses on demonstrating substantial equivalence to predicate devices. This means that instead of proving the device meets certain performance metrics through standalone testing, the manufacturer compares the new device (S-Mono) to existing, legally marketed devices (predicates) and argues that it is as safe and effective because of similar intended use, materials, and technological characteristics.

Therefore, I cannot provide the requested information regarding acceptance criteria, device performance, sample sizes for test sets, data provenance, expert ground truth establishment, adjudication methods, MRMC studies, standalone AI performance, or training set details because this information is not present in the provided text.

The "Non-Clinical Testing" section describes several tests performed on the S-Mono, but these are primarily material, sterilization, shelf-life, and biocompatibility tests, not performance studies that would typically define "acceptance criteria" through clinical outcomes or diagnostic accuracy.

Non-Clinical Testing Information Provided:

Sterilization validation testing: Performed according to ISO 11137 (gamma sterilization) and ISO 11737, ISO 17665-1, ISO 17665-2 (steam sterilization).
Shelf-life testing: Performed according to ASTM F1980, ASTM F1929, and ISO 11737-2.
Fixture surface characteristics evaluation: EDS (Energy-dispersive X-ray spectroscopy), SEM Analysis, and Surface Roughness Analysis were performed after RBM treatment.
Biocompatibility tests: Performed according to ISO 10993-1, 3, 5, 6, 10, 11, 12, and 33.
MR Conditional labeling: A non-clinical worst-case MRI review was conducted using scientific evidence and published literature (Woods, Terry O., et al., 2019). Titanium alloy (Ti-6A1-4V, ELI) properties were assessed according to magnetic induction displacement force (ASTM F2052), magnetic induction torque (ASTM F2213), RF induction heating (ASTM F2182), and image artifact (ASTM F2119).

In summary, the provided text describes the regulatory filing for a dental implant and focuses on demonstrating substantial equivalence, not on providing the results of a performance study with acceptance criteria.

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K Number

K192197

Device Name

Magicore II System

Manufacturer

InnoBioSurg Co., Ltd.

Date Cleared

2020-04-28

(259 days)

Product Code

Regulation Number

Type

Panel

Reference & Predicate Devices

K072570,K080594,K150344,K153350,K160670,K161689,K162099,K171027,K173120,K173575,K152520

Intended Use

The Magicore II System is intended to replace missing teeth to restore chewing function. The Magicore II System can be placed in support of single or multiple-unit restorations including; cement retained, or overdenture restorations, and terminal or immediate abutment support for fixed bridgework. This system is for one or two stage surgical procedures. This system is intended for delayed loading.

Device Description

An endosseous dental implant is a device made of a material such as Ti 6AL 4V Eli (Conforming to ASTM Standard F-136). The Magicore II System consists of dental implants, cylinders, caps and screws for use in one or two-stage dental implant placement and restorations. The implant-abutment connection is tight and precise fitting with internal hex and Morse taper bevel. The surface of the Magicore II implant is treated with SLA (sand-blasted, large-grit, acid-etched). The Fixture diameters are 4.0, 4.5, 5.0, 5.5, 6.0, 6.5mm and threaded lengths are 7, 8, 9, 10, 11, 12, 13mm in this system. The contained various abutments and screws in the system are Short Abutment, Magic Multi Abutment, Magic Multi Cylinder, Magic Multi Abutment ST, Abutment Screw, Healing Cap, Magicore Angled Abutment.

AI/ML Overview

This document is a 510(k) summary for the Magicore II System, an endosseous dental implant system. The submission focuses on demonstrating substantial equivalence to predicate devices, rather than presenting a standalone clinical study on device performance. Therefore, many of the requested details regarding clinical study design, expert adjudication, MRMC studies, and ground truth establishment are not present in this document, as they are not typically required for a 510(k) submission for this type of device.

The acceptance criteria provided here are primarily based on non-clinical performance testing (fatigue testing) and comparison to predicate devices in terms of material, design, indications for use, and manufacturing processes, rather than a clinical trial demonstrating specific performance metrics.

Here's a breakdown of the requested information based on the provided text:

1. Table of Acceptance Criteria and Reported Device Performance

The acceptance criteria for this device are aligned with demonstrating substantial equivalence to its predicate devices through non-clinical testing and comparison of characteristics. The primary performance metric mentioned is fatigue strength.

Acceptance Criteria Category	Specific Criteria/Standard	Reported Device Performance/Met?
Fatigue Strength	ISO 14801:2016 for worst-case scenario.	"Fatigue Testing according to ISO 14801:2016 was performed on the subject device under the worst-case scenario and its result is strong enough to achieve their intended use." (Implies criteria met)
Sterilization Validation	ANSI/AAMI ST79, ISO 17665-1, ISO 17665-2, ISO 11737-1, ISO 11737-2, ISO 11138-1 (End User), ISO 11137-1 and ISO 11137-2 (Provided Sterile)	End User Sterilization Validation Test Report provided. Tests for devices provided sterile (Fixtures) were leveraged from predicate K152520, indicating they meet the standards.
LAL Information/Testing	USP	Leveraged from predicate K162099, indicating compliance.
Shelf Life Testing	ASTM F1980 on Healing Abutments	Leveraged from predicate K152520, indicating compliance.
Biocompatibility	ISO 10993-1:2009, ISO 10993-3:2014, ISO 10993-5:2009, ISO 10993-6:2007, ISO 10993-10:2010, ISO 10993-11:2006 (Fixtures) and ISO 10993-1:2009, ISO 10993-5:2009, ISO 10993-6:2007, ISO 10993-10:2010 (Abutments)	Biocompatibility testing was leveraged from predicates K140806, K152520, K162099 (fixtures) and K152520, K173120 (abutments), indicating compliance with the standards for the respective components.
Material Composition	Ti-6Al-4V Eli (Conforming to ASTM Standard F-136) for fixtures and abutments.	Stated as the material for both subject and predicate devices, demonstrating equivalence.
Dimensional Tolerance	Within ± 1% range for Fixtures and Abutments.	Not explicitly stated as "met" in a test report summary, but the discussions of "differences" being within acceptable limits for substantial equivalence implies this. "The differences ... doesn't affect device's fundamental functions and safety."
Intended Use	To replace missing teeth to restore chewing function, for single/multiple-unit restorations, cement	"The Magicore II System has same device characteristics with the Primary predicate devices, Magicore system (K152520) such as... intended use..." and all comparative tables confirm identical or highly similar stated intended uses.

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

Sample Size for Test Set: This document does not describe a clinical "test set" in the sense of patient data. The "test set" here refers to the physical devices undergoing non-clinical laboratory testing. The sample sizes for these specific non-clinical tests (e.g., how many implants were used for fatigue testing) are not specified in this summary document.
Data Provenance: The data provenance is primarily from non-clinical laboratory testing (e.g., fatigue, sterilization, biocompatibility tests). Some test results are "leveraged" from previous 510(k) clearances (K152520, K162099, K140806, K173120), implying the data originated from other studies performed by the manufacturer or their affiliates. The country of origin for the data is implicitly where the manufacturer (InnoBioSurg Co., Ltd. - Republic of Korea) and referenced test labs are located. The data is retrospective in the sense that results from previously cleared devices are referenced.

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

Not applicable. This submission relies on non-clinical engineering and materials testing standards (e.g., ISO, ASTM, USP) rather than a test set requiring expert clinical ground truth establishment.

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

Not applicable. As there is no clinical test set requiring subjective interpretation by experts, no adjudication method is mentioned or required.

5. If a Multi-Reader Multi-Case (MRMC) Comparative Effectiveness Study Was Done, and the Effect Size of Human Readers Improve With AI vs. Without AI Assistance

Not applicable. This device is a dental implant system, not an AI-powered diagnostic or assistive tool. No MRMC study was conducted or relevant.

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

Not applicable. This is a physical medical device, not an algorithm.

7. The Type of Ground Truth Used (Expert Consensus, Pathology, Outcomes Data, etc.)

Ground Truth Type: For the non-clinical tests, the "ground truth" is defined by established international and national standards (e.g., ISO 14801 for fatigue limits, ISO 10993 for biocompatibility thresholds). The device's performance is compared against these engineering and material science standards.

8. The Sample Size for the Training Set

Not applicable. This is not a machine learning or AI device that would require training data.

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

Not applicable. As above, no training set for an algorithm is involved.

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