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The Biogel Eclipse Natural Rubber Latex Surgical Gloves tested for use with chemotherapy agents is a disposable device made of natural rubber latex, that is intended to be worn on the hands, usually in a surgical setting, to provide a barrier against potentially infectious material and other contaminants. In addition, these gloves were tested for use with chemotherapy drugs in accordance with ASTM D6978 Standard Practice for Assessment of Resistance of Medical Gloves to Permeation by Chemotherapy Drugs.

The Biogel® Eclipse Indicator Underglove Green natural rubber latex surgical indicator underglove tested for use with chemotherapy agents is a disposable device made of natural rubber lates, that is intended to be worn on the hands, usually in a surgical setting, to provide a barrier against potentially infectious material and other contaminants. In addition, these gloves were tested for use with chemotherapy drugs in accordance with ASTM D6978 Standard Practice for Assessment of Resistance of Medical Gloves to Permeation by Chemotherapy Drugs.

The Biogel® Surgeons Natural rubber latex surgical gloves tested for use with chemotherapy agents is a disposable device made of natural rubber latex, that is intended to be worn on the hands, usually in a surgical setting, to provide a barrier against potentially infectious material and other contaminants. In addition, these gloves were tested for use with chemotherapy drugs in accordance with ASTM D6978 Standard Practice for Assessment of Resistance of Medical Gloves to Permeation by Chemotherapy Drugs.

Biogel® Indicator Underglove Green natural rubber latex surgical indicator underglove tested for use with chemotherapy agents is a disposable device made of natural rubber latex, that is intended to be worn on the hands, usually in a surgical setting, to provide a barrier against potentially infectious material and other contaminants. In addition, these gloves were tested for use with chemotherapy drugs in accordance with ASTM D6978 Standard Practice for Assessment of Resistance of Medical Gloves to Permeation by Chemotherapy Drugs.

The Biogel® PI Micro Indicator Underglove Blue polyisoprene surgical indicator underglove tested for use with chemotherapy agents is a disposable device made of polyisoprene, blue in color, that is intended to be worn on the hands, usually in a surgical setting, to provide a barrier against potentially infectious material and other contaminants. In addition, these gloves were tested for use with chemotherapy drugs in accordance with ASTM D6978 Standard Practice for Assessment of Resistance of Medical Gloves to Permeation by Chemotherapy Drugs.

The Biogel® PI UltraTouch S Polyisoprene surgical gloves for reduced risk of Type IV allergic contact dermatitis Tested for use with chemotherapy agents is a disposable device made of polyisoprene, blue in color, that is intended to be worn on the hands, usually in a surgical setting, to provide a barrier against potentially infectious material and other contaminants. In addition, these gloves were tested for use with chemotherapy drugs in accordance with ASTM D6978 Standard Practice for Assessment of Resistance of Medical Gloves to Permeation by Chemotherapy Drugs.

The Biogel® PI UltraTouch S Indicator Underglove Blue polyisoprene surgical indicator underglove for reduced risk of Type IV allergic contact dermatitis Tested for use with chemotherapy agents is a disposable device made of polyisoprene, blue in color, that is intended to be worn on the hands, usually in a surgical setting, to provide a barrier against potentially infectious material and other contaminants. In addition, these gloves were tested for use with chemotherapy drugs in accordance with ASTM D6978 Standard Practice for Assessment of Resistance of Medical Gloves to Permeation by Chemotherapy Drugs.

Device Description

AI/ML Overview

The document provides information on the performance of several types of surgical gloves when tested for resistance to permeation by chemotherapy drugs. The acceptance criteria and the study method are based on ASTM D6978 Standard Practice for Assessment of Resistance of Medical Gloves to Permeation by Chemotherapy Drugs.

Here's the breakdown:

1. Table of Acceptance Criteria and Reported Device Performance:

The implicit acceptance criterion for these gloves, based on the Breakthrough detection time values and the common understanding in such tests, is that the gloves should demonstrate resistance to permeation by chemotherapy drugs for a reasonable duration (e.g., as long as possible, or at least a certain minimum time). While a specific "pass/fail" threshold is not explicitly stated as an acceptance criterion in minutes, the values of ">240 minutes" indicate excellent performance for most drugs. The lower values for Carmustine and Thiotepa highlight instances where permeation occurs more quickly.

The reported device performance for each glove type and chemotherapy drug is provided in the tables across the document. Below is a summary table combining this information as an example, for "Biogel Eclipse Natural Rubber Latex Surgical Gloves tested for use with chemotherapy agents" (from page 3):

Drug and Concentration	Acceptance Criteria (Breakthrough Detection Time - implicit goal)	Reported Device Performance (Breakthrough detection time in minutes (0.01µg/cm²/mins))
Bleomycin 15 mg/ml	As long as possible, ideally >240 minutes	>240
Busulfan 6 mg/ml	As long as possible, ideally >240 minutes	>240
Carmustine 3.3 mg/ml	As long as possible, ideally >240 minutes	12.1
Cisplatin 1 mg/ml	As long as possible, ideally >240 minutes	>240
Cyclophosphamide (Cytoxan) 20 mg/ml	As long as possible, ideally >240 minutes	>240
Cytarabine HCL 100 mg/ml	As long as possible, ideally >240 minutes	>240
Dacarbazine (DTIC) 10 mg/ml	As long as possible, ideally >240 minutes	>240
Doxorubicin HCL 2 mg/ml	As long as possible, ideally >240 minutes	>240
Ellence 2 mg/ml	As long as possible, ideally >240 minutes	>240
Etoposide (Toposar) 20 mg/ml	As long as possible, ideally >240 minutes	>240
Fludarabine 25 mg/ml	As long as possible, ideally >240 minutes	>240
Fluorouracil 50 mg/ml	As long as possible, ideally >240 minutes	>240
Idarubicin 1 mg/ml	As long as possible, ideally >240 minutes	>240
Ifosfamide 50 mg/ml	As long as possible, ideally >240 minutes	>240
Mechlorethamine HCl 1 mg/ml	As long as possible, ideally >240 minutes	>240
Melphalan 5 mg/ml	As long as possible, ideally >240 minutes	>240
Methotrexate 25 mg/ml	As long as possible, ideally >240 minutes	>240
Mitomycin C 0.5 mg/ml	As long as possible, ideally >240 minutes	>240
Mitoxantrone 2 mg/ml	As long as possible, ideally >240 minutes	>240
Paclitaxel (Taxol) 6 mg/ml	As long as possible, ideally >240 minutes	>240
Paraplatin 10 mg/ml	As long as possible, ideally >240 minutes	>240
Rituximab 10 mg/ml	As long as possible, ideally >240 minutes	>240
Thiotepa 10 mg/ml	As long as possible, ideally >240 minutes	14.1
Vincristine Sulfate 1 mg/ml	As long as possible, ideally >240 minutes	>240

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

The document does not explicitly state the sample size for the test set (number of gloves tested per drug type). It only reports the breakthrough detection time.
The data provenance is from testing conducted in accordance with ASTM D6978 Standard Practice for Assessment of Resistance of Medical Gloves to Permeation by Chemotherapy Drugs. This is a standardized, laboratory-based prospective testing methodology. The country of origin of the data is not specified, but the submission is to the U.S. FDA.

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

This type of study (chemical permeation testing of medical devices) does not typically involve human expert adjudication in the same way, for example, a diagnostic image interpretation study would. The "ground truth" is established by the objective, quantitative measurement of chemical permeation according to the specified ASTM standard. Therefore, there are no "experts" in the sense of clinical reviewers establishing a ground truth.

4. Adjudication Method for the Test Set:

Not applicable. As described above, this is a laboratory test with objective measurements, not a human interpretation task requiring adjudication.

5. Multi-Reader Multi-Case (MRMC) Comparative Effectiveness Study:

Not applicable. This is a standalone performance test of a physical device against chemical permeation, not an AI-assisted diagnostic task involving human readers.

6. Standalone (Algorithm Only Without Human-in-the-Loop Performance) Study:

This entire study is a standalone performance assessment of a physical device. There is no "algorithm" or "human-in-the-loop" concept involved. The performance is the intrinsic resistance of the glove material to chemical permeation.

7. The Type of Ground Truth Used:

The ground truth used is based on objective, quantitative measurements of chemical permeation using analytical methods specified or implied by the ASTM D6978 standard. The "Breakthrough detection time" is the measured outcome, indicating the time at which a quantifiable amount of the chemotherapy drug permeates through the glove material.

8. The Sample Size for the Training Set:

Not applicable. This is a direct performance test of a manufactured product, not a machine learning model. There is no "training set" in this context.

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

Not applicable. There is no training set for this type of device performance study.

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K Number

K062847

Device Name

BIOGEL ECLIPSE INDICATOR UNDERGLOVE

Manufacturer

MOLNLYCKE HEALTH CARE US, LLC

Date Cleared

2006-12-20

(77 days)

Product Code

Regulation Number

Type

Panel

Reference & Predicate Devices

K980942,K053443

Intended Use

The Biogel Eclipse Indicator Underglove is a disposable device made of natural rubber latex that is intended to be worn on the hands, usually in a surgical setting, to provide a barrier against potentially infectious material and other contaminants.

Device Description

The Biogel Eclipse Indicator Underglove is a sterile powder free, polymer coated latex surgical glove. The glove contains 50 micrograms or less of total water extractable protein per gram.

AI/ML Overview

This document describes a 510(k) premarket notification for the Biogel Eclipse, Latex, Sterile, Powder Free, Indicator Underglove. As such, the focus is on demonstrating substantial equivalence to a predicate device rather than comprehensive clinical study data for new product claim validation.

Here's a breakdown of the requested information based on the provided text, along with an explanation of why some points are not applicable in this context:

1. Table of Acceptance Criteria and Reported Device Performance:

Characteristic	Acceptance Criteria (from ASTM D3577)	Reported Device Performance
Dimensions	Meets ASTM D3577	Pass
Physical Properties	Meets ASTM D3577	Pass
Freedom from Holes	Meets ASTM D3577	Pass
Biocompatibility (Primary Skin Irritation)	Standard	Pass
Biocompatibility (Guinea Pig Sensitization)	Standard	Pass
Total Water Extractable Protein	50 micrograms or less per gram	Less than 50 micrograms per gram

Explanation: The document explicitly states "The Biogel Eclipse Indicator Underglove meets the technological characteristics of ASTM D3577." The "Pass" indicates compliance with these criteria. The protein content is a specific characteristic mentioned with its own pass/fail threshold.

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

Sample Size: Not explicitly stated in the provided text. The document refers to meeting ASTM D3577, which would define the sample sizes for the various tests.
Data Provenance: Not explicitly stated, but typically, these tests are conducted by the manufacturer or accredited testing laboratories. The data would be specific to lots of the manufactured device. These are likely prospective tests performed on newly manufactured devices to ensure they meet the standard.

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

Not Applicable in this context. The "ground truth" for evaluating surgical glove performance is defined by established international standards like ASTM D3577 and biocompatibility testing protocols, not by expert consensus on individual cases. These standards specify objective physical and chemical tests.

4. Adjudication Method for the Test Set:

Not Applicable in this context. Since the "ground truth" is based on objective physical and chemical test results against a standard, there is no need for expert adjudication. The test results are either within the specified limits or not.

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 surgical glove, not an AI-powered diagnostic or assistive technology. Therefore, an MRMC study and the concept of "human readers" or "AI assistance" do not apply.

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

Not Applicable. This is a physical medical device (surgical glove), not an algorithm or software. "Standalone performance" in the context of AI algorithms does not apply here.

7. The Type of Ground Truth Used:

Objective Test Standards and Specifications: The ground truth for this device is based on
- ASTM D3577: A standard specification for rubber surgical gloves, which defines acceptable levels for dimensions, physical properties (e.g., tensile strength, elongation), and freedom from holes.
- Biocompatibility Standards: Specific standards for primary skin irritation and guinea pig sensitization, which define acceptable reactions (or lack thereof) to ensure the device is not harmful to tissue.
- Chemical Analysis: Measurement of total water extractable protein content against a specified limit (50 micrograms or less per gram).

8. The Sample Size for the Training Set:

Not Applicable. This is a physical medical device and does not involve machine learning or AI, thus there is no "training set."

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

Not Applicable. As there is no training set for a machine learning model, this question is not relevant.

Summary of the Study Proving Acceptance Criteria:

The "study" proving the device meets acceptance criteria is a series of laboratory tests and analyses demonstrating compliance with recognized standards. Specifically:

The manufacturer performed tests on the Biogel Eclipse Indicator Underglove to ensure it Meets ASTM D3577 for characteristics such as dimensions, physical properties, and freedom from holes.
Biocompatibility tests (Primary Skin Irritation and Guinea Pig Sensitization) were conducted and the device received a "Pass," indicating it meets established safety standards.
The total water extractable protein content was measured and found to be "50 micrograms or less per gram," meeting the specified threshold.

The overall conclusion is that "The Biogel Eclipse Indicator Underglove meets the technological characteristics of ASTM D3577 and is substantially equivalent to the predicate devices identified in sited in this 510(k) summary." This indicates that the device has undergone the necessary testing to demonstrate its performance and safety against established industry standards for surgical gloves.

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