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510(k) Data Aggregation
(120 days)
For the administration of fluids from a container into the patient's vascular system through a vascular access device.
The proposed devices consist of Solution Administration Sets. These devices include Basic, Secondary, CONTINU-FLO solution sets, Stand-Alone devices and Chemotherapy devices (see Table 2 for a list of subject device set names per product family). They are single use disposable, non-pyrogenic, sterile devices intended for the administration of fluids from a container into the patient's vascular system.
This is a 510(k) premarket notification for "Solution Administration Sets" by Baxter Healthcare Corporation. The document states that the devices are substantially equivalent to a predicate device (K203609 cleared on September 30, 2021).
Here's the breakdown of the acceptance criteria and the study information based on the provided text:
1. Table of Acceptance Criteria and Reported Device Performance:
The document doesn't provide a specific table of acceptance criteria with corresponding performance values in the format usually seen for AI/ML devices. Instead, it describes general conformance to recognized standards and the positive outcomes of various tests.
| Acceptance Criteria (Standard / Test) | Reported Device Performance |
|---|---|
| ISO 80369-7: 2021 (Small-bore connectors for liquids and gases in healthcare applications - Part 7: Connectors for intravascular or hypodermic applications) | All proposed devices were found to be in conformance with this standard. Performance testing included mechanical (tensile strength), pressure (burst, leakage, backflow, internal), stress cracking, resistance, torque, spike insertion/removal force, drop form accuracy, vacuum, pump/set integrity, DEHP content. |
| ISO 8536-4 (Infusion equipment for medical use - Part 4: Infusion sets for single use, gravity feed) | Complete sets meet the performance requirements of this standard (mentioned in relation to priming volume and tubing types). |
| ISO 10993-1 (Biological Evaluation of Medical Devices) / FDA-2013-D-0350 Guidance | The proposed devices are biocompatible and appropriate for their intended use. Biocompatibility tests conducted: Cytotoxicity, Sensitization, Intracutaneous (Irritation) Reactivity, Acute Systemic Toxicity, 30 Day Systemic Repeat Dose Toxicity Study, Material Mediated Pyrogen, Hemolysis. All met acceptance criteria. |
| USP Particulate Matter in Injections | Filter performance testing included particulate retention, integrity, air filter flow. Particulate matter testing met the USP Acceptance criteria. |
| Microbial Ingress Testing (Baxter's testing strategy, per K223175) | All test results met their acceptance criteria, demonstrating the absence of microbial ingress into the sterile fluid path during simulated clinical use, supporting appropriate design for intended use. |
| ISO 11137-1: 2006 (Sterilization of health care products - Radiation - Part 1) | Sterilization process established per this standard. Devices sterilized via radiation with a minimum Sterility Assurance Level (SAL) of 10-6. |
| ISO 11137-2: 2013 (Sterilization of health care products - Radiation - Part 2) | Minimum Sterilizing Dose (MSD) established and validated as per Method 1. Continued validity confirmed via periodic dose audit studies. |
| ISO 11607-1: 2019 (Packaging for terminally sterilized medical devices - Part 1) | Package verification testing performed per this standard (Simulated Distribution per ASTM D4169-22) and included visual (ASTM F1886), seal strength (ASTM F88), and bubble test (ASTM F2096-11). All met requirements. |
| ASTM F1980-21 (Accelerated Aging of Sterile Barrier Systems and Medical Devices) | 2-year shelf-life confirmed via accelerated aging. |
Note: This submission is for a traditional medical device (solution administration sets), not an AI/ML device. Therefore, the questions related to AI/ML specific studies (sample size for test set, data provenance, number of experts for ground truth, adjudication, MRMC study, standalone performance, training set sample size, training set ground truth) are not applicable to this document. The "tests" described are standard engineering, biocompatibility, and sterilization validations for physical medical devices.
2. Sample size used for the test set and the data provenance (e.g. country of origin of the data, retrospective or prospective)
Not applicable, as this is a traditional medical device, not an AI/ML device. The testing described is bench testing and biocompatibility assessments, not a study involving patient data or a specific test set in the AI/ML context.
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)
Not applicable, as this is a traditional medical device, not an AI/ML device. Ground truth as typically defined for AI/ML models is not relevant here.
4. Adjudication method (e.g. 2+1, 3+1, none) for the test set
Not applicable, as this is a traditional medical device, not an AI/ML device.
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, as this is a traditional medical device, not an AI/ML device.
6. If a standalone (i.e. algorithm only without human-in-the-loop performance) was done
Not applicable, as this is a traditional medical device, not an AI/ML device.
7. The type of ground truth used (expert consensus, pathology, outcomes data, etc)
Not applicable, as this is a traditional medical device, not an AI/ML device. Instead of "ground truth," the device relies on conformance to established international and national standards (ISO, ASTM, USP) and predefined acceptance criteria for various physical, chemical, and biological tests.
8. The sample size for the training set
Not applicable, as this is a traditional medical device, not an AI/ML device.
9. How the ground truth for the training set was established
Not applicable, as this is a traditional medical device, not an AI/ML device.
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(294 days)
For the administration of fluids from a container into the patient's vascular system through a vascular access device.
The proposed devices consist of Intravascular Administration Sets. These devices include Basic, Secondary, and CONTINU-FLO solution sets. They are single use disposable, non-pyrogenic, sterile devices intended for the administration of fluids from a container into the patient's vascular system.
The provided text is a 510(k) summary for Baxter Healthcare Corporation's Intravascular Administration Sets (K203609). It details the substantial equivalence determination for this medical device to a predicate device (Solution Administration Sets, K112893).
However, the summary does not contain the specific information requested in the prompt regarding acceptance criteria, device performance, sample sizes, expert involvement, ground truth establishment, or multi-reader multi-case studies.
The document primarily focuses on:
- Device Description: What the Intravascular Administration Sets are, their components, and how they function.
- Predicate Device Comparison: A detailed table comparing the technological characteristics of the proposed device to the predicate device, highlighting differences in length, priming volume, dimensions, and material components.
- Discussion of Differences: Explanations for each technological difference and assurance that these differences do not raise new questions of safety or effectiveness.
- Nonclinical Tests: A list of bench tests (Luer tests, particulate matter, non-DEHP claim, solvent bond tests, flow rate tests, pump compatibility), biocompatibility tests (cytotoxicity, sensitization, toxicity, hemolysis), and sterility tests (barrier packaging, fluid path, shelf life, sterilization dose establishment, pyrogen testing, microbial ingress). It states that all test results meet their acceptance criteria.
Therefore, I cannot populate the table or provide detailed answers to questions 1-9 as the necessary information is not present in the provided document. The document states that "All test results meet their acceptance criteria," but it does not define what those criteria are or report specific performance metrics against those criteria. It also does not discuss any studies involving human readers or expert consensus for ground truth.
Here's what I can infer from the document, though it falls short of the requested detail:
- Acceptance Criteria & Reported Performance: The document states, "All test results meet their acceptance criteria." This implies that acceptance criteria were established for each of the listed bench, biocompatibility, and sterility tests. However, the specific quantitative acceptance criteria (e.g., maximum allowable particulate matter, minimum burst pressure, flow rate accuracy range) and the reported device performance (e.g., actual particulate count, measured burst pressure, achieved flow rate accuracy) are not provided.
- Sample Sizes: The document does not specify sample sizes used for any of the tests.
- Data Provenance: The tests are described as "bench tests," "biocompatibility," and "sterility" tests conducted by the manufacturer (Baxter Healthcare Corporation). The data would therefore be prospective, internal testing data. No country of origin for data is specified beyond the manufacturer's location (Round Lake, Illinois).
- Experts for Ground Truth / Adjudication / MRMC Study / Standalone Performance: This section of the prompt is highly relevant for AI/ML device clearances (e.g., software as a medical device). This document describes a traditional Class II medical device (intravascular administration sets). There is no mention of AI/ML components, human readers, expert panels, or comparative effectiveness studies in the context of diagnostic or interpretive performance. Therefore, questions regarding these aspects are not applicable to the content provided.
- Type of Ground Truth: For this type of physical device, "ground truth" would be established by the physical and chemical properties and performance characteristics measured in the listed bench, biocompatibility, and sterility tests, compared against established engineering standards (e.g., ISO, USP, ASTM) and internal specifications. There is no subjective human interpretation or diagnostic outcome data involved.
- Training Set Sample Size / Ground Truth Establishment (for AI/ML): These questions are entirely irrelevant to this device and the provided document, as it is not an AI/ML product. The "training set" here would metaphorically be the design and manufacturing processes refined over time.
In summary, the provided document is a regulatory submission for a physical medical device, not an AI/enabled one. Therefore, many of the questions asked, particularly those related to data sets, expert involvement, and reader studies, are not applicable to the content provided.
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(30 days)
Indicated for use when low plasticizer solubility is desired (e.g., for administration of high lipid content solutions such as parenteral fat emulsion).
The Non-DEHP IV Fat Emulsion Administration Sets product line consists of single use disposable devices intended for the administration of fluids from a container into the patient's vascular system through a needle or catheter inserted into a vein. The Non-DEHP IV Fat Emulsion Administration Sets are indicated for use when low plasticizer solubility is desired (e.g., for administration of high lipid content solutions such as parenteral fat emulsion). These sets are comprised of a drip chamber with a non-vented spike, non-DEHP polyvinyl chloride (PVC) tubing, and a two piece Luer lock. On all sets there is a fixture slide clamp and a regulating roller clamp. Configurations of these sets differ in drip chamber (60 drops/mL or 10 drops/mL). These devices are nonpyrogenic, sterile and can be used for gravity or pump infusion of I.V. fluids using Sigma Spectrum and other Baxter Infusion Pumps.
This document describes the non-clinical performance testing of the "Non-DEHP IV Fat Emulsion Administration Sets" (K172544) by Baxter Healthcare Corporation.
1. Acceptance Criteria and Reported Device Performance
The provided document lists various performance tests undertaken for the device. The reported performance for all tests is that they "All tests met the acceptance criteria." The specific acceptance criteria are broadly defined as "Per Baxter Test Method" for each test.
Here's a table summarizing the tests and the reported performance:
| Test | Acceptance Criteria | Reported Device Performance |
|---|---|---|
| Solvent Bond Tensile Strength Test | Per Baxter Test Method. | Met Acceptance Criteria |
| Solvent Bond Air Pressure Test | Per Baxter Test Method. | Met Acceptance Criteria |
| Continuous Bubble Test (Pump Compatibility Test) | Per Baxter Test Method. | Met Acceptance Criteria |
| Accumulated Bubble Test (Pump Compatibility Test) | Per Baxter Test Method. | Met Acceptance Criteria |
| Slide Clamp Shut-Off Test | Per Baxter Test Method. | Met Acceptance Criteria |
| Slide Clamp Shut-Off Test-Post 24 Hour | Per Baxter Test Method. | Met Acceptance Criteria |
| Slide Clamp 7 Day Subsystem and Tubing Damage Test | Per Baxter Test Method. | Met Acceptance Criteria |
| Slide Clamp Flow Stability Test | Per Baxter Test Method. | Met Acceptance Criteria |
| Slide Clamp Tug Stability Test | Per Baxter Test Method. | Met Acceptance Criteria |
| Upstream Occlusion Test (Pump Compatibility Test) | Per Baxter Test Method. | Met Acceptance Criteria |
| Downstream Occlusion Test (Pump Compatibility Test) | Per Baxter Test Method. | Met Acceptance Criteria |
| Roller Clamp Force Test | Per Baxter Test Method. | Met Acceptance Criteria |
| Roller Clamp Shut-Off Test | Per Baxter Test Method. | Met Acceptance Criteria |
| Roller Clamp 7 Day Subsystem and Tubing Damage Test | Per Baxter Test Method. | Met Acceptance Criteria |
| Roller Clamp Flow Stability Test | Per Baxter Test Method. | Met Acceptance Criteria |
| Roller Clamp Tug Stability Test | Per Baxter Test Method. | Met Acceptance Criteria |
| Roller Clamp Flow Control Test | Per Baxter Test Method. | Met Acceptance Criteria |
| Administration Set Integrity Test After Maximum Fluid Delivery | Per Baxter Test Method | Met Acceptance Criteria |
| Visual Inspection For Structural Damage After 24 hours Exposure to Lipids | Per Baxter Test Method | Met Acceptance Criteria |
| Flow Rate Accuracy (Pump Compatibility Test) | Per Baxter Test Method | Met Acceptance Criteria |
| Non-DEHP Claim Verification | Per Baxter Test Method | Met Acceptance Criteria |
| Shelf Life (Aging Test) | Not explicitly stated | 2 years |
| Sterility (SAL) | Not explicitly stated | 10^-6 SAL |
| Package Verification (Visual Inspection, ASTM F88 Seal Strength, ASTM F2096 Bubble Leak) | Not explicitly stated | Met Acceptance Criteria |
| Biocompatibility | ISO-10993-1, G95-1 | Met Requirements |
2. Sample Size Used for the Test Set and Data Provenance
The document states that testing was performed on "subject device model code set configurations 2R1145 and 2R1146" or on "a worst case/representative sample."
- Sample Size: The exact number of units or samples used for each test is not explicitly stated.
- Data Provenance: The tests are described as bench tests conducted by Baxter Healthcare Corporation. The document does not specify the country of origin of the data or whether it was retrospective or prospective, but it implies prospective testing for the purpose of the 510(k) submission.
3. Number of Experts Used to Establish the Ground Truth for the Test Set and Qualifications
This section is not applicable as the evaluation involves non-clinical bench testing of physical device properties and performance, not a diagnostic or clinical assessment requiring expert-established ground truth.
4. Adjudication Method for the Test Set
This section is not applicable for non-clinical bench testing. The evaluation relies on specific test methods and their quantitative or qualitative outcomes.
5. If a Multi Reader Multi Case (MRMC) Comparative Effectiveness Study was done
No, a Multi Reader Multi Case (MRMC) comparative effectiveness study was not done. This type of study is typically performed for diagnostic imaging devices or software where human readers interpret medical images, often with and without AI assistance. The submitted device is an administration set, which does not involve human image interpretation in that context.
6. If a Standalone (i.e. algorithm only without human-in-the-loop performance) was done
This section is not applicable. The device is an intravenous administration set, not an algorithm. The performance testing is for the physical device itself.
7. The Type of Ground Truth Used
For the non-clinical performance tests, the "ground truth" is established by defined engineering specifications, industry standards, and internal Baxter test methods. These methods determine the acceptable range or outcome for each performance characteristic (e.g., tensile strength, leak integrity, flow rate, biocompatibility).
8. The Sample Size for the Training Set
This section is not applicable as the device is a physical medical device, not a machine learning algorithm that requires a training set.
9. How the Ground Truth for the Training Set was Established
This section is not applicable as the device is a physical medical device, not a machine learning algorithm.
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(350 days)
To administer fluids with Baxter infusion pumps to a patient's vascular system from a container though a needle or catheter inserted into a vein, primarily used to admining the chemotherapeutic drug paclitaxel, but can also be used for general solution administration.
The Paclitaxel Sets product line consists of single use disposable devices intended for the administration of fluids from a container into the patient's vascular system through a vascular device, primarily for solutions containing the chemotherapeutic drug paclitaxel. These devices are the same as the current marketed devices, which were previously cleared under 510(k) premarket notification K981792 (cleared August 17, 1998).
The sets are each comprised of a non-DEHP drip chamber with a spike, 0.2 micron filter, non-DEHP polyvinyl chloride tubing pump segment, polyethylene (PE)-lined trilayer tubing, and a luer lock. On all sets there is a fixtured slide clamp and an on-off roller clamp. Configurations of these sets differ in overall length, type of injection site (Interlink or Clearlink), and type of spike (vented or non-vented).
The basis for this premarket notification is a change to the PE-lined trilayer tubing and the 0.2 micron filter currently used in this product line. The inner layer material of the trilayer tubing is changing from Low Density Polyethylene to Linear Low Density Polyethylene. The solution membrane material of the 0.2 micron filter is changing from a hydrophilic polyethersulfone (PES) to another equivalent hydrophilic PES. All changes have been previously cleared under 510(k) premarket notifications for other Baxter Intravascular (IV) Administration Sets.
The provided text describes a 510(k) premarket notification for "Paclitaxel Sets" by Baxter Healthcare Corporation. It outlines the changes made to an existing device, its intended use, and the nonclinical tests conducted to demonstrate equivalence to a predicate device.
However, the document does NOT describe the acceptance criteria and the study that proves a device (e.g., an AI algorithm, a diagnostic tool) meets the acceptance criteria in the context of improving human reader performance or a standalone algorithmic performance.
Instead, this document pertains to a resubmission for a physical medical device (intravenous administration sets) with material changes, and the "acceptance criteria" discussed are largely related to bench testing and material compatibility to ensure that the modified physical device performs equivalently to the original predicate device.
Therefore, many of the requested points, such as AI-assisted human reader improvement, standalone algorithm performance, number of experts for ground truth, adjudication methods, training set details, and MRMC studies, are not applicable to this type of device submission.
Here's an attempt to answer the
questions based on the provided text, highlighting what is present and what is absent/not applicable:
1. A table of acceptance criteria and the reported device performance
The document lists various bench tests and their acceptance criteria, which are consistently stated as "Per Baxter test method" or "Equivalence to predicate device." The actual quantitative performance data that verifies these acceptance criteria are not reported in this summary document, only that the tests were conducted and the results met their criteria.
| Test | Acceptance Criteria | Reported Device Performance (as stated in document) |
|---|---|---|
| Clear Passage Test | Per Baxter test method. | "All test results meet their acceptance criteria, and support that the proposed devices are appropriately designed for their intended use." (Specific data not provided) |
| Roller Clamp Force Test | Per Baxter test method. | "All test results meet their acceptance criteria, and support that the proposed devices are appropriately designed for their intended use." (Specific data not provided) |
| Roller Clamp Shut-Off Test | Per Baxter test method. | "All test results meet their acceptance criteria, and support that the proposed devices are appropriately designed for their intended use." (Specific data not provided) |
| Roller Clamp Tubing Leak Test | Per Baxter test method. | "All test results meet their acceptance criteria, and support that the proposed devices are appropriately designed for their intended use." (Specific data not provided) |
| Solvent Bond Tensile Strength Test | Per Baxter test method. | "All test results meet their acceptance criteria, and support that the proposed devices are appropriately designed for their intended use." (Specific data not provided) |
| Solvent Bond Air Pressure Test | Per Baxter test method. | "All test results meet their acceptance criteria, and support that the proposed devices are appropriately designed for their intended use." (Specific data not provided) |
| Air Diffusion Test | Per Baxter test method. | "All test results meet their acceptance criteria, and support that the proposed devices are appropriately designed for their intended use." (Specific data not provided) |
| Bubble Point Test | Per Baxter test method. | "All test results meet their acceptance criteria, and support that the proposed devices are appropriately designed for their intended use." (Specific data not provided) |
| Gravity Flow Rate Test | Per Baxter test method. | "All test results meet their acceptance criteria, and support that the proposed devices are appropriately designed for their intended use." (Specific data not provided) |
| Flow Rate Test Post Sterile Water Conditioning | Per Baxter test method. | "All test results meet their acceptance criteria, and support that the proposed devices are appropriately designed for their intended use." (Specific data not provided) |
| Flow Rate Test Post Parenteral Nutrition Conditioning | Per Baxter test method. | "All test results meet their acceptance criteria, and support that the proposed devices are appropriately designed for their intended use." (Specific data not provided) |
| Bacterial Retention Test | Per Baxter test method. | "All test results meet their acceptance criteria, and support that the proposed devices are appropriately designed for their intended use." (Specific data not provided) |
| Upstream/Downstream Occlusion Test (with Baxter pumps: FLO-GARD and SIGMA Spectrum) | Per Baxter test method. | "All test results meet their acceptance criteria, and support that the proposed devices are appropriately designed for their intended use." (Specific data not provided) |
| Drug Compatibility Test (Paclitaxel Concentration) | Equivalence to predicate device. | "All test results meet their acceptance criteria, and support that the proposed devices are appropriately designed for their intended use." (Specific data not provided) |
| Drug Compatibility Test (pH) | Equivalence to predicate device. | "All test results meet their acceptance criteria, and support that the proposed devices are appropriately designed for their intended use." (Specific data not provided) |
| Drug Compatibility Test (Color) | Equivalence to predicate device. | "All test results meet their acceptance criteria, and support that the proposed devices are appropriately designed for their intended use." (Specific data not provided) |
| Drug Compatibility Test (Visual Inspection) | Equivalence to predicate device. | "All test results meet their acceptance criteria, and support that the proposed devices are appropriately designed for their intended use." (Specific data not provided) |
| Biocompatibility tests (Cytotoxicity, Systemic Toxicity, Irritation/Intracutaneous Reactivity, Sensitization, Hemocompatibility, Material Mediated Pyrogen, USP Physiochemical) | In accordance with ISO-10993. | "Biocompatibility assessments were conducted... The battery of testing included the following tests." (Results stating compliance are implied, specific data not provided) |
| Sterility validation (MSD, SAL) | 10^(-6) SAL for gamma radiation. | Established and validated at 14.2 – 25.0 kGy. In compliance with ANSI/AAMI/ISO 11137-2. |
| Package verification (Visual, Seal Strength, Bubble Leak) | Per ASTM F88, ASTM F2096. | Not explicitly stated what was found, but implied to have met criteria for "Sterile, nonpyrogenic" labeling. |
| Shelf-Life (Aging tests) | Not specified. | Supported an 18-month shelf-life claim. |
2. Sample sizes used for the test set and the data provenance
- Sample Size: The document does not specify the sample sizes (number of units) used for each of the bench tests.
- Data Provenance: Not applicable in the context of patient data for a diagnostic/AI device. The testing is bench testing of physical units.
3. Number of experts used to establish the ground truth for the test set and the qualifications of those experts
Not applicable. This is not a study involving human interpretation of data where expert consensus is needed for ground truth (e.g., medical image interpretation). The "ground truth" for this device is its physical and chemical properties and performance, validated through standard engineering and laboratory tests.
4. Adjudication method (e.g. 2+1, 3+1, none) for the test set
Not applicable. There's no human interpretation or subjective judgment that would require adjudication for this type of bench 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
Not applicable. This device is an intravenous administration set, not an AI or diagnostic device that would assist human readers.
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)
The "ground truth" for this device is based on established engineering standards, validated laboratory tests, and equivalence to a legally marketed predicate device. For drug compatibility, it is based on observed equivalence in concentration, pH, color, and visual inspection to the predicate device. For sterility, it's based on a defined Sterility Assurance Level validated against ISO standards.
8. The sample size for the training set
Not applicable. This is not an AI/machine learning device.
9. How the ground truth for the training set was established
Not applicable. This is not an AI/machine learning device.
Summary of Device Performance Study:
The studies described are non-clinical bench tests and biocompatibility assessments designed to demonstrate that the changes made to the "Paclitaxel Sets" (specifically, the inner layer material of the trilayer tubing and the solution membrane material of the 0.2 micron filter) do not negatively impact the intended use or fundamental scientific technology of the device. The reported performance is that "All test results meet their acceptance criteria," indicating successful demonstration of equivalence or performance according to internal Baxter test methods and relevant international standards (e.g., ISO-10993, ANSI/AAMI/ISO 11137-2, ASTM standards). The specific quantitative results are not included in this summary document.
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