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510(k) Data Aggregation
(223 days)
The peripheral nerve block Pinpoint™ GT Needle is intended for use in injecting local anesthetics and/or analgesics into a patient to provide regional anesthesia and/or to facilitate the placement of a catheter.
The peripheral nerve block Pinpoint™ GT Needle may be used in any appropriate patient population.
Bard Access Systems, Inc's Pinpoint™ GT Needle is designed to inject anesthetic for regional anesthesia. The Pinpoint™ GT Needle contains a magnet which emits a passive magnetic field that can be detected by ultrasound systems equipped with Pinpoint™ GT Needle Technology. The Pinpoint™ GT Needle, when used with an ultrasound system equipped with Pinpoint™ GT Needle Technology, creates a virtual image of the needle on the ultrasound display, providing clinicians with a visual representation of the needle throughout the insertion process.
The subject device can be used with or without ultrasound assisted procedures and may be used with the Pinpoint™ GT Needle Technology at the discretion of the clinician.
The document describes the Pinpoint™ GT Needles, which are peripheral nerve block needles intended for injecting local anesthetics and/or analgesics for regional anesthesia or catheter placement. The device contains a passive magnet that can be detected by compatible ultrasound systems to provide a virtual image of the needle.
All the information provided in the input is related to the Pinpoint™ GT Needles and its comparison against a predicate device (SonoTAP Needle) and a reference device (Pinpoint™ GT Safety Introducer Needle).
Here's the breakdown of the requested information based on the provided text:
1. A table of acceptance criteria and the reported device performance
The document states that the subject device configurations met all predetermined acceptance criteria derived from the listed verification tests, demonstrating substantially equivalent performance as compared to the predicate device. However, specific numerical acceptance criteria and their corresponding reported performance values are not explicitly provided in a direct table format with thresholds. Instead, a list of performance tests conducted and the standards utilized is given, implying that meeting these standards constitutes the acceptance criteria.
| Performance Test / Standard Utilized | Device Performance (as stated in document) |
|---|---|
| Needle Lumen Patency (ISO 7864:1993, Sterile hypodermic needles for single use) | Met all predetermined acceptance criteria. |
| Needle-Hub Tensile (ISO 7864:1993, Sterile hypodermic needles for single use) | Met all predetermined acceptance criteria. |
| Effective Needle Length (ISO 7864:1993, Sterile hypodermic needles for single use) | Met all predetermined acceptance criteria. |
| Needle Tip Inspection (ISO 7864:1993, Sterile hypodermic needles for single use) | Met all predetermined acceptance criteria. |
| Cannula Surface Finish (ISO 9626:1991/Amd 1, 2001, Stainless steel needle tubing for the manufacturer of medical devices) | Met all predetermined acceptance criteria. |
| Needle OD and ID Dimensions (ISO 9626:1991/Amd 1, 2001 & ASTM A908-03 (2013)) | Met all predetermined acceptance criteria. |
| Needle Stiffness (ISO 9626:1991/Amd 1, 2001) | Met all predetermined acceptance criteria. |
| Corrosion (ISO 9626:1991/Amd 1, 2001) | Met all predetermined acceptance criteria. |
| Needle Hub - Luer Connector Testing (ISO 594-1:1986, ISO 594-2:1998) | Met all predetermined acceptance criteria. |
| Fluid Path Leakage (ISO 594-2:1998) | Met all predetermined acceptance criteria. |
| Needle Particulate (USP (2011)) | Met all predetermined acceptance criteria. |
| Needle Echogenicity | Met all predetermined acceptance criteria. |
| Needle Bevel Up Indicator | Met all predetermined acceptance criteria. |
| Priming Volume | Met all predetermined acceptance criteria. |
| Needle Interface With Catheter | Met all predetermined acceptance criteria. |
| Magnetic Axis orientation (Bard internal standards and procedures) | Met all predetermined acceptance criteria. The risks associated with the use of the subject device with Pinpoint™ GT Needle Technology have been further mitigated, and the benefits have been determined to outweigh the risks. |
| System Compatibility (Bard internal standards and procedures) | Met all predetermined acceptance criteria. The risks associated with the use of the subject device with Pinpoint™ GT Needle Technology have been further mitigated, and the benefits have been determined to outweigh the risks. |
| Needle Tip to Magnet Length | Met all predetermined acceptance criteria. |
| Needle Chemical Properties | Met all predetermined acceptance criteria. |
| Needle Bevel Dimensions (Primary Grind) | Met all predetermined acceptance criteria. |
| Needle Insertion Force | Met all predetermined acceptance criteria. |
| Biocompatibility (ISO 10993-1, 10993-5, 10993-10, 10993-11, 10993-12) | Met all predetermined acceptance criteria. All materials were determined to be biocompatible. |
| Sterilization (ISO 10993-7, ANSI/AAMI/ISO 11135:2014) | Met all predetermined acceptance criteria. Provided Sterile. SAL $10^{-6}$, Ethylene Oxide. |
2. Sample sizes used for the test set and the data provenance
The document does not specify the sample sizes used for each individual test or the overall "test set." It also does not explicitly state the data provenance (e.g., country of origin, retrospective or prospective). The testing methods are primarily focused on device performance tests against recognized standards (e.g., ISO, ASTM, USP) and internal protocols, rather than clinical data from human subjects.
3. Number of experts used to establish the ground truth for the test set and the qualifications of those experts
This information is not provided in the document. The testing described is primarily focused on engineering performance and material compatibility, not clinical ground truth established by experts.
4. Adjudication method (e.g., 2+1, 3+1, none) for the test set
This information is not provided in the document. Adjudication methods are typically associated with clinical studies involving human interpretation or assessment, which is not the primary focus of the performance tests described here.
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
There is no mention of an MRMC comparative effectiveness study involving human readers or AI assistance in this document. The Pinpoint™ GT Needle incorporates a "passive magnet" feature that works with an "ultrasound system equipped with Pinpoint™ GT Needle Technology" to create a "virtual image of the needle." This describes a technology for enhanced visualization during a procedure, not an AI-assisted diagnostic or interpretive system that human readers would interact with in an MRMC study.
6. If a standalone (i.e. algorithm only without human-in-the-loop performance) was done
This is not applicable to the device described. The Pinpoint™ GT Needle is a physical medical device (a needle) that assists in a medical procedure, not a standalone algorithm. Its magnetic feature is designed to be used in conjunction with an ultrasound system and the clinician, so there is always a human in the loop.
7. The type of ground truth used (expert consensus, pathology, outcomes data, etc.)
The "ground truth" for the performance tests described is rooted in established international standards (ISO, ASTM, USP) and internal Bard protocols for medical device quality, safety, and functionality. These standards define physical, chemical, and mechanical properties that the device must meet, effectively serving as the ground truth for engineering and material performance. For example, "Needle Lumen Patency" is tested against requirements specified in ISO 7864:1993. Biocompatibility is tested against ISO 10993 series.
8. The sample size for the training set
This information is not provided and is not applicable. The Pinpoint™ GT Needle is a physical device, and the described evaluation involves functional and safety testing, not machine learning model training.
9. How the ground truth for the training set was established
This information is not provided and is not applicable as there is no mention of a "training set" or machine learning model.
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(198 days)
The hypodermic Pinpoint™ GT Needle is intended for the injection into or the withdrawal of body fluids from parts of the body below the surface of the skin. The needle is to be used with syringes for general purpose fluid injection. The needle tip is echogenic and may be used with ultrasound to provide a visual representation of the needle tip throughout the insertion, medication administration and aspiration process.
Bard Access Systems, Inc's hypodermic Pinpoint™ GT Needles are designed to inject medication or aspirate fluid. The hypodermic Pinpoint™ GT Needles contain a magnet which emits a passive magnetic field that can be detected by ultrasound systems equipped with Pinpoint™ GT Needle Technology. The hypodermic Pinpoint™ GT Needles, when used with an ultrasound system equipped with Pinpoint™ GT Needle Technology, creates a virtual image of the needle on the ultrasound display, providing clinicians with a visual representation of the needle throughout the insertion, medication administration and aspiration process. There are four (4) hypodermic Pinpoint™ GT Needle configurations included in this submission, as shown in the table below.
The provided document describes the hypodermic Pinpoint™ GT Needle and its journey through FDA 510(k) premarket notification. It focuses on demonstrating substantial equivalence to a predicate device, rather than proving a new performance claim or the efficacy of an AI algorithm. Therefore, many of the requested elements pertaining to AI model validation (e.g., sample size for training set, number of experts for ground truth, MRMC study, effect size of AI assistance) are not applicable to this document.
The document outlines acceptance criteria primarily through a list of performance tests designed to show the device meets engineering and safety standards, and is substantially equivalent to a legally marketed predicate device.
Here's an analysis of the acceptance criteria and the study (verification and validation tests) as provided in the document:
Acceptance Criteria and Reported Device Performance
The document states: "The subject device configurations met all predetermined acceptance criteria derived from the above listed verification tests and demonstrated substantially equivalent performance as compared to the cited predicate device."
This implies that for each performance test listed, there were predefined acceptance criteria, and the device successfully met them. However, the specific quantitative acceptance criteria and the numerical reported device performance are not explicitly detailed in the provided text. Instead, the document lists the types of tests conducted and the standards utilized, indicating that the device passed these tests.
Table of Acceptance Criteria and Reported Device Performance:
| Performance Test | Acceptance Criteria (Implied) | Reported Device Performance (Implied) |
|---|---|---|
| Needle Lumen Patency | Met standard requirements for clear lumen. | Passed. |
| Needle-Hub Tensile Force | Met ISO 7864:1993 requirements. | Passed (demonstrated substantial equivalence). |
| Effective Needle Length | Met specified dimensional requirements. | Passed. |
| Needle Tip Inspection | Met visual/dimensional requirements for tip quality. | Passed. |
| Cannula Surface Finish | Met ISO 9626:1991/Amd 1, 2001 and ISO 7864:1993 requirements. | Passed. |
| Needle OD and ID Dimensions | Met ISO 9626:1991/Amd 1, 2001 and ASTM A908-03:2013 requirements. | Passed. |
| Needle Stiffness | Met ISO 9626:1991/Amd 1, 2001 requirements. | Passed. |
| Corrosion | Met resistance to corrosion requirements. | Passed. |
| Needle Hub - Luer Connector | Met ISO 594-1:1986 and ISO 594-2:1998 requirements. | Passed. |
| Fluid Path Leakage | Met ISO 594-2:1998 requirements for no leakage. | Passed. |
| Needle Particulate | Met USP:2011 limits for particulate matter. | Passed. |
| Needle Echogenicity | Met specified requirements for ultrasound visibility. | Passed. |
| Needle Bevel-Up Indicator | Functioned as designed to indicate bevel-up. | Passed. |
| Priming Volume | Met specified volume requirements. | Passed. |
| Magnetic Axis Orientation | Met specified requirements for magnetic field orientation. | Passed. |
| System Compatibility | Compatible with Pinpoint™ GT Needle Technology (per internal stds). | Passed. |
| Needle Tip to Magnet Length | Met specified dimensional requirements. | Passed. |
| Needle Chemical Properties | Met specified requirements for material composition. | Passed. |
| Needle Bevel Dimensions | Met specified dimensional requirements for bevel grind. | Passed. |
| Needle Insertion Force | Met specified force limits for insertion. | Passed. |
| Biocompatibility | Met ISO 10993 series requirements. | Passed (demonstrated biological compatibility). |
Study Proving Device Meets Acceptance Criteria:
The study design is described as "Verification and validation tests... designed and performed in accordance with Design Controls as per 21 CFR §820.30." The tests conducted are listed in the table above, referencing various ISO and ASTM standards, as well as USP standards and internal protocols.
Information Not Applicable or Not Provided in the Document:
Many of the requested details are specific to the validation of AI/ML algorithms and are not relevant to the approval of a physical medical device like this needle, which underwent a 510(k) submission based on substantial equivalence.
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Sample size used for the test set and the data provenance:
- Sample Size: Not explicitly stated for each test, but implied to be sufficient for demonstrating compliance with the referenced standards (e.g., ISO, ASTM). The document lists four needle configurations (18G x 2.75", 19°; 21G x 3", 30°; 22G x 2", 30°; 24G x 1.5", 30°) which would have been tested.
- Data Provenance: Not specified, but generally, device performance testing is conducted by the manufacturer (Bard Access Systems, Inc. in Salt Lake City, Utah) in controlled laboratory environments. This would be prospective testing on manufactured devices.
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Number of experts used to establish the ground truth for the test set and the qualifications of those experts: Not applicable. Ground truth for a physical device like a needle is established through engineering and material science measurements against predefined specifications, not expert consensus on interpretations.
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Adjudication method (e.g. 2+1, 3+1, none) for the test set: Not applicable for physical device testing. Test results are objective measurements against standards.
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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 hypodermic needle, not an AI diagnostic tool. The "echogenic" feature simply means it's visible on ultrasound, and the optional "passive magnet" feature works with a separate "Pinpoint™ GT Needle Technology" system (which is explicitly stated as "not the subject of this submission"). The needle itself does not involve AI assistance to human readers.
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If a standalone (i.e. algorithm only without human-in-the-loop performance) was done: Not applicable.
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The type of ground truth used (expert consensus, pathology, outcomes data, etc.): Ground truth for this device involved engineering specifications, material properties, and performance standards (e.g., tensile strength, dimensional accuracy, biocompatibility, leakage).
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The sample size for the training set: Not applicable. There is no AI model being trained as part of this submission.
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How the ground truth for the training set was established: Not applicable. There is no AI model being trained as part of this submission.
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