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510(k) Data Aggregation
(329 days)
The InfinixTM Universal Composite is indicated for:
- · Restorations in the posterior region (Class I and II)
- · Anterior restorations (Class III, IV)
- · Class V restorations (cervical caries, root erosion, wedge-shaped defects)
- · Veneering of discolored anterior teeth
- · Splinting of mobile teeth
- · Extended fissure sealing in molars and premolars
- · Repair of composite/ceramic veneers
Infinix™ Universal Composite is a packable (high viscosity) dental composite filling material, intended for direct anterior and posterior restorations, class V restorations, veneering of discolored anterior teeth, and repair of composite/ceramic veneers. The resin matrix of the Infinix™ Universal Composite contains Urethane dimethacrylate (UDMA), Bisphenol-a glycidyl dimethacrylate (Bis-GMA) and triethylene glycol dimethacrylate (TEGDMA). The inorganic filler of the Infinix™ Universal Composite is a mix of particles of alumino-silicate-based glasses, silica dioxide and pigments. A small percentage of the silica-based filler particles are covalently bound to quaternary ammonium residues (OASi), added to maintain the integrity of the restoration. The Infinix™ Universal Composite is provided in syringes (4 g) and in single-dose capsules (0.2 g) and is available in five shades (A1, A2, A3, B1 and translucent).
The provided document is a 510(k) Premarket Notification from the FDA for a dental resin material named "Infinix™ Universal Composite". This submission focuses on demonstrating substantial equivalence to a predicate device based on material properties and non-clinical testing. It does not describe a study involving algorithms, human readers, or image analysis for diagnostic purposes.
Therefore, most of the requested information regarding acceptance criteria, device performance in a diagnostic context, sample sizes for test/training sets, expert ground truth establishment, adjudication methods, MRMC studies, or standalone algorithm performance cannot be extracted from this document as it pertains to a different type of medical device and evaluation.
However, I can extract the non-clinical performance criteria and reported performance from the document.
1. A table of acceptance criteria and the reported device performance
The document lists various non-clinical tests performed on the Infinix™ Universal Composite to establish substantial equivalence to the predicate device, Tetric EvoCeram®, and compliance with ISO 4049 and FDA guidance. The acceptance criteria are implicitly those defined by these standards and guidance documents. The document states that the device "performs as intended based on the bench testing per ISO 4049 and FDA guidance document". Specific numerical results for "reported device performance" are not provided in this summary, but the general conclusion is that the device met these criteria.
| Acceptance Criteria (Implied by Standard/Guidance) | Infinix™ Universal Composite Performance (Reported) |
|---|---|
| Biocompatibility (ISO 10993, ISO 7405) | Biocompatible (based on assessment of Cytotoxicity, Oral Mucosal Irritation, Acute Systemic Toxicity, Material Mediated Pyrogenicity, Bacterial Reverse Mutation, Mouse Lymphoma Assay, Biological Risk Assessment) |
| Flexural Strength (ISO 4049:2009) | Performed as intended (Met ISO 4049:2009 criteria) |
| Elastic Modulus | Performed as intended |
| Compression Strength | Performed as intended |
| Shade and Color Stability | Performed as intended |
| Polymerization Conversion Degree | Performed as intended |
| Viscosity | Performed as intended |
| Spontaneous Polymerization Sensitivity at Ambient Light (ISO 4049:2009) | Performed as intended (Met ISO 4049:2009 criteria) |
| Water Solubility (ISO 4049:2009) | Performed as intended (Met ISO 4049:2009 criteria) |
| Water Sorption (ISO 4049:2009) | Performed as intended (Met ISO 4049:2009 criteria) |
| Depth of Cure (ISO 4049:2009) | Performed as intended (Met ISO 4049:2009 criteria) |
| Radio-opacity (ISO 4049:2009) | Performed as intended (Met ISO 4049:2009 criteria) |
| Knoop Hardness | Performed as intended |
| Preservation of Surface Integrity | Performed as intended |
| Intensity for curing | $\geq550 \text{ mW/cm}^2$ |
| Wavelength for curing | $430-490 \text{ nm}$ |
| Curing time | $20 \text{ sec.}$ |
2. Sample size used for the test set and the data provenance (e.g. country of origin of the data, retrospective or prospective)
This information is not applicable and not provided. The study pertains to non-clinical bench testing and biocompatibility assessments of a dental material, not a diagnostic device with test sets of patient data.
3. Number of experts used to establish the ground truth for the test set and the qualifications of those experts (e.g. radiologist with 10 years of experience)
This information is not applicable and not provided. Ground truth in the context of this device would relate to the physicochemical properties and biocompatibility of the material, not expert interpretation of diagnostic data.
4. Adjudication method (e.g. 2+1, 3+1, none) for the test set
This information is not applicable and not provided. Adjudication methods are relevant for expert review of human data, not for material property testing.
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
No such study was done or is described. This device is a dental filling material, not an AI-powered diagnostic tool.
6. If a standalone (i.e. algorithm only without human-in-the-loop performance) was done
No such study was done or is described. This device is a dental filling material, not an algorithm.
7. The type of ground truth used (expert consensus, pathology, outcomes data, etc)
The "ground truth" for this device's evaluation is based on established scientific and regulatory standards for material properties and biocompatibility as outlined in ISO 4049, ISO 10993, ISO 7405, and FDA guidance for dental composite resin devices. It's objective, quantitative measurements against these standards.
8. The sample size for the training set
This information is not applicable and not provided. There is no "training set" in the context of material property evaluation for a dental composite.
9. How the ground truth for the training set was established
This information is not applicable and not provided for the reasons stated above.
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(288 days)
The Novidia™ Bulk Fill Flow Composite is indicated for:
-
- Base under Class I and II direct restorations
-
- Liner under direct restorative materials
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- Pit and fissure sealant
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- Restoration of minimally invasive cavity preparations (including small, non-stress-bearing occlusal restorations)
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- Class III and V restorations
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- Blocking out of undercuts
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- Repair of small enamel defects
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- Repair of small defects in esthetic indirect restorations
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- Repair of resin and acrylic temporary materials
- As a core build-up where at least half the coronal tooth structure is remaining to provide structural support for the crown
Novidia™ Bulk Fill Flow Composite is a low viscosity, visible-light activated, radiopaque, flowable composite indicated for minimally invasive cavity preparations as well as various other indications. The resin matrix of the Novidia™ Bulk Fill Flow Composite contains Urethane dimethacrylate (UDMA), Bisphenol-a glycidyl dimethacrylate (Bis-GMA) and triethylene glycol dimethacrylate (TEGDMA). The inorganic filler of the Novidia™ Bulk Fill Flow Composite is a mix of particles of alumino-silicate-based glasses, silica dioxide and pigments. A small percentage of the silica-based filler particles are covalently bound to quaternary ammonium residues (QASi), added to maintain the integrity of the restoration. The Novidia™ Bulk Fill Flow Composite is provided in syringes (2 g) and in single-dose capsules (0.2 g) and is available in two shades (A2 and A3).
The provided text describes a 510(k) premarket notification for a dental device, "Novidia™ Bulk Fill Flow Composite." The information focuses on demonstrating substantial equivalence to a predicate device ("Filtek™ Bulk Fill Flowable Restorative") primarily through non-clinical performance testing (bench testing and biocompatibility assessments).
Therefore, the requested information regarding acceptance criteria and the study that proves the device meets the acceptance criteria will reflect this focus on non-clinical, in vitro performance, rather than clinical study data involving human readers or AI algorithms.
Here's a breakdown based on the provided text:
1. Table of Acceptance Criteria and Reported Device Performance
The acceptance criteria for Novidia™ Bulk Fill Flow Composite are implicitly aligned with the performance characteristics of its predicate device, Filtek™ Bulk Fill Flowable Restorative, as well as the requirements of the ISO 4049:2009 standard for polymer-based restorative materials.
| Feature | Acceptance Criteria (based on ISO 4049:2009 & Predicate) | Reported Device Performance (Novidia™ Bulk Fill Flow Composite) |
|---|---|---|
| Flexural Strength | ≥80 MPa (met by predicate) | Met acceptance criteria (explicitly stated) |
| Radio-opacity | >1.0 mm Al (met by predicate) | Met acceptance criteria (explicitly stated) |
| Depth of Cure | ≥2mm at an intensity of ≥ 550 mW/cm2 for 20 seconds (met by predicate) | Met acceptance criteria (explicitly stated) |
| Water Sorption | ≤ 40 µg/mm3 (met by predicate) | Met acceptance criteria (explicitly stated) |
| Water Solubility | ≤ 7.5 µg/mm3 (met by predicate) | Met acceptance criteria (explicitly stated) |
| Spontaneous Polymerization Sensitivity at Ambient Light | 60 ± 5 sec. (physically homogenous by visual inspection) (met by predicate) | Met acceptance criteria (explicitly stated) |
| Intensity for Curing | Similar to predicate's range (400-1000 mW/cm²) | ≥550 mW/cm² |
| Wavelength for Curing | Similar to predicate's range (400-500 nm) | 430-490 nm |
| Curing Time | Similar to predicate's (20 sec; 40 sec for opaque shades) | 20 sec. |
| Biocompatibility | Pass ISO 10993 and ISO 7405 | Passed (stated to be biocompatible) |
| Other Bench Tests | Performs as intended | Performance assessed for Elastic modulus, Compression strength, Shade and color stability, Polymerization conversion degree, Viscosity, Knoop hardness, Preservation of Surface Integrity |
2. Sample Size Used for the Test Set and Data Provenance
The document does not specify the exact sample sizes (e.g., number of specimens tested for flexural strength) for the non-clinical bench tests. However, it indicates that testing was conducted "per ISO 4049 and FDA guidance document 'Dental Composite Resin Devices - Premarket Notification [510(k)] Submissions'." These standards and guidance documents typically specify minimum sample sizes for material properties testing.
The data provenance is from non-clinical laboratory testing performed to support the 510(k) submission. No specific country of origin for the testing lab is mentioned, but the submitter, Nobio Ltd., is based in Kadima, Israel. This is retrospective in the sense that the testing was completed prior to the submission for regulatory clearance.
3. Number of Experts Used to Establish the Ground Truth for the Test Set and Qualifications of Those Experts
This question is not applicable in the context of this 510(k) submission. The "ground truth" for the device's performance is established by objective, standardized laboratory measurements against established international standards (ISO 4049:2009) and FDA guidance, not by expert consensus or human interpretation of images/data for diagnostic purposes.
4. Adjudication Method for the Test Set
Not applicable. This device is a material, and its performance is evaluated through physical and chemical property testing, not through human adjudication of diagnostic outcomes.
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 device is a dental restorative material, not an AI-assisted diagnostic or imaging device. No MRMC study was performed or is relevant. The document explicitly states: "Animal and clinical performance data was not included." and "Clinical studies demonstrating that the presence of QASi in this device improves clinical outcomes have not been conducted."
6. If a Standalone (i.e. algorithm only without human-in-the loop performance) was done
Not applicable. This is not an algorithm or AI device.
7. The Type of Ground Truth Used
The "ground truth" for this device's performance is based on objective, standardized measurements of its physical, chemical, and biological properties as defined by:
- International standards (e.g., ISO 4049:2009 for polymer-based restorative materials, ISO 10993 for biocompatibility).
- FDA guidance documents for dental composite resin devices.
- Comparison to the established performance characteristics of the legally marketed predicate device.
8. The Sample Size for the Training Set
Not applicable. This is not a machine learning or AI device that requires a training set.
9. How the Ground Truth for the Training Set Was Established
Not applicable. As this is not an AI/ML device, there is no training set or associated ground truth establishment process.
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(287 days)
The Novidia™ Flowable Composite is indicated for:
- Class III and V restorations
- Restoration of minimally invasive cavity preparations (including small, non-stress bearing occlusal restorations)
- As base/liner under direct or indirect restorations
- Repair of small defects in esthetic indirect restorations
- Pit and fissure sealing
- Blocking out of undercuts
- Repair of resin and acrylic temporary materials
Novidia™ Flowable Composite is a low viscosity, visible light activated, radiopaque, flowable composite indicated for minimally invasive cavity preparations as well as various other indications. The resin matrix of the Novidia™ Flowable Composite contains Urethane dimethacrylate (UDMA), Bisphenol-a glycidyl dimethacrylate (Bis-GMA) and triethylene glycol dimethacrylate (TEGDMA). The inorganic filler of the Novidia™ Flowable Composite is a mix of particles of alumino-silicate-based glasses, silica dioxide and pigments. A small percentage of the silica-based filler particles are covalently bound to quaternary ammonium residues (OASi), added to maintain the integrity of the restoration. The Novidia™ Flowable Composite is provided in syringes (2 g) and in single-dose capsules (0.2 g) and is available in three shades (A1, A2 and A3).
The provided text describes a 510(k) submission for a dental device, the Novidia™ Flowable Composite. The document focuses on demonstrating substantial equivalence to a predicate device, rather than providing a detailed clinical study proving acceptance criteria for a new AI/medical image analysis device. Therefore, much of the requested information regarding acceptance criteria, study details, and AI-specific metrics is not available in the provided text.
However, I can extract and structure the available information regarding performance data, which in this case refers to non-clinical testing.
1. Table of acceptance criteria and the reported device performance:
The document outlines a series of non-clinical (bench) tests performed on the Novidia™ Flowable Composite. For several key physical properties, it states that the device was tested according to ISO 4049:2009 standards, which would implicitly define the acceptance criteria, as the statement of "performing as intended" implies meeting these standards. However, the specific numerical acceptance criteria (e.g., minimum flexural strength value) are not explicitly stated in the text, nor are the precise numerical results for the Novidia™ Flowable Composite.
| Acceptance Criteria (Standard Reference) | Reported Device Performance (Implicitly Meets Standard) |
|---|---|
| Flexural Strength (ISO 4049:2009) | Tested and performs as intended |
| Elastic Modulus | Tested and performs as intended |
| Compression Strength | Tested and performs as intended |
| Shade and Color Stability | Tested and performs as intended |
| Polymerization Conversion Degree | Tested and performs as intended |
| Viscosity | Tested and performs as intended |
| Spontaneous Polymerization Sensitivity (Ambient Light) (ISO 4049:2009) | Tested and performs as intended |
| Water Solubility (ISO 4049:2009) | Tested and performs as intended |
| Water Sorption (ISO 4049:2009) | Tested and performs as intended |
| Depth of Cure (ISO 4049:2009) | Tested and performs as intended |
| Radio-opacity (ISO 4049:2009) | Tested and performs as intended |
| Knoop Hardness | Tested and performs as intended |
| Preservation of Surface Integrity (Resistant to microbial degradation) | Novidia Flowable Composite with 1.2% (wt/wt) QASi filler is resistant to microbial degradation evidenced by preserved surface roughness in presence of continuous microbial challenge. |
Biocompatibility Testing:
| Biocompatibility Test (Standard Reference) | Reported Device Performance (Implicitly Meets Standard) |
|---|---|
| Cytotoxicity (ISO 10993 and ISO 7405) | Biocompatible |
| Oral Mucosal Irritation Test (ISO 10993 and ISO 7405) | Biocompatible |
| Acute Systemic Toxicity (ISO 10993 and ISO 7405) | Biocompatible |
| Material Mediated Pyrogenicity (ISO 10993 and ISO 7405) | Biocompatible |
| Bacterial Reverse Mutation (ISO 10993 and ISO 7405) | Biocompatible |
| Mouse Lymphoma Assay (ISO 10993 and ISO 7405) | Biocompatible |
| Biological Risk Assessment (ISO 10993 and ISO 7405) | Biocompatible |
2. Sample size used for the test set and the data provenance:
- Test Set Sample Size: Not specified for any of the bench tests.
- Data Provenance: The document does not specify the country of origin for the data or whether it was retrospective or prospective. Given these are bench tests rather than clinical studies, these terms are less applicable.
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. The data comes from physical/chemical bench testing, not expert interpretation of medical images or conditions.
4. Adjudication method for the test set:
- This information is not applicable and not provided. Adjudication is relevant for clinical or image-based studies where multiple readers interpret data.
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. The device is a dental material, not an AI or medical image analysis device. No MRMC study was conducted.
6. If a standalone (i.e. algorithm only without human-in-the-loop performance) was done:
- This information is not applicable and not provided. The device is a dental material, not an AI or algorithm.
7. The type of ground truth used:
- The "ground truth" for the non-clinical performance and biocompatibility data is established by objective measurements and standardized protocols (e.g., ISO 4049, ISO 10993, ISO 7405 benchmarks for material properties and biological responses). For the "Preservation of Surface Integrity" test, the ground truth was the measured surface roughness under microbial challenge.
8. The sample size for the training set:
- This information is not applicable and not provided. This is a material science submission, not an AI/machine learning submission, so there is no concept of a "training set."
9. How the ground truth for the training set was established:
- This information is not applicable and not provided, as there is no training set mentioned or implied.
In summary, the provided document describes the substantial equivalence of a dental material based on its physical, chemical, and biological properties evaluated through non-clinical bench testing. It does not contain information relevant to AI/medical image analysis device evaluation criteria such as clinical study design, expert consensus, or reader performance metrics.
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