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510(k) Data Aggregation

    K Number
    K232616
    Device Name
    Volta AF-Xplorer
    Manufacturer
    Volta Medical
    Date Cleared
    2023-09-27

    (30 days)

    Product Code
    DQK
    Regulation Number
    870.1425
    Type
    Special
    Panel
    Cardiovascular (CV)
    Reference & Predicate Devices
    K141185,K130626,K221213,K223516,K201298
    Why did this record match?
    Reference Devices :

    K141185, K130626, K221213

    AI/MLSaMDIVD (In Vitro Diagnostic)TherapeuticDiagnosticis PCCP AuthorizedThirdpartyExpeditedreview
    Intended Use

    The Volta AF-Xplorer assists operators in the real-time manual or automatic annotation of 3D anatomical and electrical maps of human atria for the presence of multipolar intra-cardiac atrial electrograms exhibiting spatiotemporal dispersion during atrial fibrillation or atrial tachycardia.

    The clinical significance of utilizing the Volta AF-Xplorer software to help identify areas with intra-cardiac atrial electrograms exhibiting spatiotemporal dispersion for catheter ablation of atrial arrhythmias, such as atrial fibrillation, has not been established by clinical investigations.

    Device Description

    The Volta AF-Xplorer is a machine and deep learning based-algorithm designed to assist operators in the real-time manual or automation of 3D anatomical and electrical maps of the human heart for the presence of electrograms exhibiting spatio-temporal dispersion, i.e., dispersed electrograms.

    The Volta AF-Xplorer device is a non-sterile reusable medical device, composed of a computing platform and a software application. Volta AF-Xplorer works with all existing 510(k)-cleared catheters that meet specific dimension requirements and with one of the three specific data acquisition systems:

    • two compatible EP recording systems (identical to VX1 and VX1+ (Volta Medical (K201298, । K223516)): the LabSystem Pro EP Recording System (Boston Scientific) (K141185) or the MacLab CardioLab EP Recording System (General Electric) (K130626),
    • a 3D mapping system (new compared to VX1 and identical to VX1+): EnSite X 3D mapping system -(Abbott) (K221213).

    A connection cable is used to connect the corresponding data acquisition system to the Volta AF-Xplorer system, depending on the type of communication used:

    • -Unidirectional analog communication with the EP recording systems via a custom-made cable (two diferent variants: DSUB, Octopus) and an Advantech PCI-1713U analog-to-digital converter, which acquires analog data, digitizes it, and transmits the digital signals to the computer that hosts the Volta AF-Xplorer software.
    • -Bidirectional digital communication with the EnSite 3D mapping system via an ethernet cable (four different lengths: 20.10. 5 or 2m) which transmits the digital signals directly to the computer.

    The computer and its attached display are located outside the sterile operating room area. The Volta AF-Xplorer software analyzes the patient's electrograms to cue operators in real-time to intra-cardiac electrograms of interest for atrial regions harboring dispersed electrograms as well as a cycle length estimation from electrograms recorded with the mapping and the coronary sinus catheters. The results of the analysis are graphically presented on the attached computer display and/or on a secondary medical screen or on an operating room widescreen. The identified regions of interest are either manually (all configurations) or automatically (only available in digital bidirectional communication with the EnSite X 3D mapping system) tagged in the corresponding 3D mapping system.

    AI/ML Overview

    The provided text describes the 510(k) summary for the Volta AF-Xplorer and its substantial equivalence to previous predicate devices (VX1+ and VX1). However, the document does not contain specific details about the acceptance criteria or the study that proves the device meets those criteria in a structured format. Instead, it generally states that "The testing and acceptance criteria are the same as those in the predicate VX1+ and VX1 devices" and that "The processing was evaluated and demonstrated equivalent performance with the acceptance criteria from the VX1+ and VX1 studies."

    Therefore, I cannot directly extract the specific information requested in your prompt regarding acceptance criteria, reported performance, sample sizes, expert details, or ground truth establishment based solely on the provided text. The document indicates that such studies were performed for the predicate devices and that the Volta AF-Xplorer maintained equivalent performance, but the specifics of those studies are not detailed here.

    To answer your request, I would need access to the performance data and study reports for the VX1+ and VX1 devices, which are referenced but not included in this 510(k) summary.

    Based on the available text, I can only provide the following information from the document:

    • Device Performance (General Statement): The Volta AF-Xplorer demonstrated "equivalent performance with the acceptance criteria from the VX1+ and VX1 studies."
    • Study Type (Inferred): The document refers to "software design verification" and "bench testing" that was previously conducted for the VX1+ (K201298) to demonstrate "rigorous software verification testing including unitary testing of the main algorithm modules."
    • Training Set (Not specified in this document): Information about the training set size or how its ground truth was established is not present in this document.
    • Test Set (Not specified in this document): Information about the test set size, data provenance, number/qualifications of experts, or adjudication methods is not present.
    • MRMC Study / Standalone Performance: The document does not describe a multi-reader multi-case (MRMC) comparative effectiveness study or provide details on standalone (algorithm-only) performance.
    • Ground Truth Type (Not specified in this document): The specific type of ground truth used (e.g., expert consensus, pathology, outcomes data) is not detailed.

    In summary, the provided FDA 510(k) letter and summary state that the performance data for Volta AF-Xplorer were deemed sufficient through equivalence to its predicate devices, but it does not detail the underlying studies, acceptance criteria, or performance metrics themselves.

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    K Number
    K223516
    Device Name
    VX1+
    Manufacturer
    Volta Medical
    Date Cleared
    2023-01-21

    (60 days)

    Product Code
    DQK
    Regulation Number
    870.1425
    Type
    Traditional
    Panel
    Cardiovascular (CV)
    Reference & Predicate Devices
    K141185,K130626,K221213,K201298
    Why did this record match?
    Reference Devices :

    K141185, K130626, K221213

    AI/MLSaMDIVD (In Vitro Diagnostic)TherapeuticDiagnosticis PCCP AuthorizedThirdpartyExpeditedreview
    Intended Use

    The VX1+ assists operators in the real-time manual or automatic annotation of 3D anatomical and electrical maps of human atria for the presence of multipolar intra-cardiac atrial electrograms exhibiting spatiotemporal dispersion during atrial fibrillation or atrial tachycardia.

    The clinical significance of utilizing the VX1+ software to help identify areas with intra-cardiac atrial electrograms exhibiting spatiotemporal dispersion for catheter ablation of atrial arrhythmias, such as atrial fibrillation, has not been established by clinical investigations.

    Device Description

    The VX1+ is a machine and deep learning based-algorithm designed to assist operators in the real-time manual or automatic annotation of 3D anatomical and electrical maps of the human heart for the presence of electrograms exhibiting spatio-temporal dispersion, i.e., dispersed electrograms (DEs).

    The VX1+ device is a non-sterile reusable medical device, composed of a computing platform and a software application. VX1+ works with all existing 510(k)-cleared catheters that meet specific dimension requirements and with one of the three specific data acquisition systems:

    • two compatible EP recording systems (identical to VX1 (Volta Medical (K201298)): the LabSystem Pro EP Recording System (Boston Scientific) (K141185) or the MacLab CardioLab EP Recording System (General Electric) (K130626),
    • a 3D mapping system (novelty compared to VX1): EnSite X 3D mapping system (Abbott) (K221213).

    A connection cable is used to connect the corresponding data acquisition system to the VX1+ system, depending on the type of communication used:

    • Unidirectional analog communication with the EP recording systems via a custom-made cable (two different variants: DSUB, Octopus) and an Advantech PCI-1713U analog-todigital converter, which acquires analog data, digitizes it, and transmits the digital signals to the computer that hosts the VX1+ software.
    • -Bidirectional digital communication with the EnSite 3D mapping system via an ethernet cable (four different lengths: 20,10, 5 or 2m) which transmits the digital signals directly to the computer.

    The computer and its attached display are located outside the sterile operating room area. The VX1+ software analyzes the patient's electrograms to cue operators in real-time to intracardiac electrograms of interest for atrial regions harboring DEs as well as a cycle length estimation from electrograms recorded with the mapping and the coronary sinus catheters. The results of the analysis are graphically presented on the attached computer display and/or on a secondary medical screen or on an operating room widescreen. The identified regions of interest are either manually (all configurations) or automatically (only available in digital bidirectional communication with the EnSite X 3D mapping system) tagged in the corresponding 3D mapping system.

    AI/ML Overview

    The provided text describes the acceptance criteria and a study for the Volta Medical VX1+ device. However, it does not contain a detailed table of acceptance criteria with specific performance metrics (e.g., sensitivity, specificity, accuracy, F1-score) and corresponding reported device performance, nor does it detail a multi-reader multi-case (MRMC) comparative effectiveness study.

    Based on the available information, here's a breakdown of what can be extracted and what is missing:

    Acceptance Criteria and Device Performance

    The document describes non-clinical and clinical tests performed, implying certain underlying acceptance criteria were met for substantial equivalence to the predicate device (VX1). However, explicit quantitative acceptance criteria (e.g., "sensitivity > 90%") are not provided in the text. The reported device performance is described generally as "acceptably correlate" and "reliably assists."

    Table of Acceptance Criteria and Reported Device Performance (as inferred and with missing specifics):

    Criterion Description (Inferred)Acceptance Criteria (Explicitly Stated? Not in document)Reported Device Performance (from document)
    Non-Clinical – Algorithm Performance (Dispersion Adjudication Correlation)Not explicitly stated (e.g., a specific correlation coefficient or concordance rate).VX1+ dispersion algorithm "acceptably correlate[s] with unlimited-time expert visual analysis" (replayed from VX1's 510(k) study).
    Non-Clinical – Usability*Not explicitly stated (e.g., number of critical usability errors
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    K Number
    K201298
    Device Name
    VX1
    Manufacturer
    Volta Medical
    Date Cleared
    2020-09-16

    (124 days)

    Product Code
    DQK,DOK
    Regulation Number
    870.1425
    Type
    Traditional
    Panel
    Cardiovascular (CV)
    Reference & Predicate Devices
    K141185,K130626,K093566
    Why did this record match?
    Reference Devices :

    K141185, K130626

    AI/MLSaMDIVD (In Vitro Diagnostic)TherapeuticDiagnosticis PCCP AuthorizedThirdpartyExpeditedreview
    Intended Use

    The VX1 assists operators in the real-time manual annotation of 3D anatomical and electrical maps of human atria for the presence of multipolar intra-cardiac atrial electrograms exhibiting spatiotemporal dispersion during atrial fibrillation or atrial tachycardia.

    The clinical significance of utilizing the VX1 software to help identify areas with intra-cardiac atrial electrograms exhibiting spatiotemporal dispersion for catheter ablation of atrial arrhythmias, such as atrial fibrillation, has not been established by clinical investigations.

    Device Description

    The VX1 "" is a machine and deep learning based-algorithm designed to assist operators in the real-time manual annotation of 3D anatomical and electrical maps of the human atria for the presence of electrograms exhibiting spatiotemporal dispersion during atrial fibrillation or atrial tachycardia", i.e., dispersed intra-cardiac atrial electrograms (DEs). The device works with all existing 510(k) cleared catheters that meet specific dimension requirements and with two data acquisition systems: the LabSystem Pro Acquisition System (Boston Scientific) (K141185) and the MacLab CardioLab Acquisition System (General Electric) (K130626). A connection cable is used to connect the data acquisition system with an Advantech PCI-1713U analog-to-digital converter, which transmits the acquired information to a nearby computer that hosts the VX1 software. The computer and its attached display are located outside the sterile operating room area. The VX1 software analyzes the patient's electrograms to cue operators in real-time to intra-cardiac electrograms of interest for atrial regions harboring DEs as well as a cycle length estimation from electrograms recorded with the mapping and the coronary sinus catheters. The results of the analysis are graphically presented on the attached computer display.

    AI/ML Overview

    1. Table of Acceptance Criteria and Reported Device Performance:

      The document does not explicitly present a table of acceptance criteria with corresponding performance values in the way typically seen in a formal statistical analysis plan. However, the outcomes of the "Reader Study" and the "Limited Time Annotation Testing" serve as a form of acceptance criteria, where the device's agreement with expert consensus is evaluated.

      Performance MetricAcceptance Criteria (Implied)Reported Device Performance
      Inter-operator agreementStrong agreement among expert readersConfirmed. Experts strongly agreed with one another.
      VX1 correlation with expert annotation (Reader Study)Acceptable correlation with physician annotationVX1 adjudication acceptably correlates with physician annotation.
      Period estimation performanceOutperform or be comparable to alternative algorithmsVX1 period estimation algorithm outperformed both FFT-based and AC-based algorithms for noisy/non-periodic electrograms.
      VX1 algorithm accuracy (k-fold cross-validation)High accuracyOver 89% accuracy.
      VX1 performance vs. unassisted electrophysiologistsSuperior agreement to annotating experts than unassisted humansVX1 algorithm demonstrated superior performance (agreement to annotating experts) to cardiac electrophysiologists.
      Clinical risk and procedure timeNo additional risk or procedure timeNot associated with additional risk or procedure time.
      Comparable performance to predicate's CFAE moduleComparable performanceVX1 device demonstrated comparable performance in locating electrical signal transmission pattern disruptions as the predicate's CFAE module.

    2. Sample sizes used for the test set and data provenance:

      • Reader Study: 14,370 electrograms.
      • Period Estimation Algorithm Testing: 2,550 electrograms.
      • Limited Time Annotation Testing: 1,020 electrograms.
      • Clinical Study: 300 patients across 8 centers.
      • Data Provenance: The document states "An OUS clinical study was performed..." indicating that at least some clinical data is from outside the US. The "training database of 275,020 1.5 second annotated electrograms" drew on "anonymized information from a very large database". The nature (retrospective/prospective) is not explicitly stated for all datasets, but the clinical study was likely prospective to evaluate usability and efficacy.

    3. Number of experts used to establish the ground truth for the test set and qualifications of those experts:

      • Reader Study and Limited Time Annotation Testing: 3 independent experts were used to adjudicate the 14,370 electrograms for the Reader Study. For the Limited Time Annotation Testing, 2 annotating experts were used (who reached a consensus). Their specific qualifications beyond "independent experts" and "annotating experts" are not detailed (e.g., years of experience or board certification).
      • "Unassisted" Human Readers in Limited Time Annotation Testing: 28 cardiac electrophysiologists who underwent a "full-day seminar on spatiotemporal dispersion."

    4. Adjudication method for the test set:

      • Reader Study: "adjudicated by three independent experts". It doesn't specify if this was a 2+1, 3+1, or simple majority.
      • Limited Time Annotation Testing: "two annotating experts who were allowed unlimited time to make a classification determination and reach a consensus". This suggests a consensus-based adjudication between two experts.

    5. If a multi-reader multi-case (MRMC) comparative effectiveness study was done, and the effect size:

      • A comparative study was done during the "Limited Time Annotation Testing" comparing the VX1 algorithm's performance to that of 28 cardiac electrophysiologists. This fits the description of a multi-reader (28 electrophysiologists) multi-case (1,020 electrograms) study.
      • Effect Size: The document states the "VX1 algorithm demonstrated superior performance (agreement to the annotating experts) to the cardiac electrophysiologists in identifying dispersed and non-dispersed intra-cardiac atrial electrograms." However, a specific effect size (e.g., AUC difference, sensitivity/specificity improvement, or statistical significance value) is not provided.

    6. If a standalone performance (algorithm only without human-in-the-loop performance) was done:

      • Yes, the "Reader Study" directly compared the VX1's classification to expert annotation, implying a standalone performance evaluation.
      • The "Period estimation algorithm testing" also evaluated the algorithm's performance independently.
      • The k-fold cross-validation is a standalone algorithm performance test.

    7. The type of ground truth used:

      • Expert Consensus: The primary ground truth for the Reader Study and Limited Time Annotation Testing was established by "independent experts" or "annotating experts" reaching a consensus on the presence or absence of dispersed intra-cardiac atrial electrograms.

    8. The sample size for the training set:

      • The k-fold cross-validation was performed on a "training database of 275,020 1.5 second annotated electrograms."

    9. How the ground truth for the training set was established:

      • The training database drew on "anonymized information from a very large database... of 1.5 second snippets of multipolar intra-cardiac atrial electrograms located on a dedicated data server". The document does not explicitly state how these 275,020 electrograms were annotated (e.g., by experts, or through a different automated process). However, the context of comparing the algorithm to expert annotations in the validation suggests that expert annotation would be the most robust method for establishing ground truth for training as well. Without explicit mention, it's inferred to be expert-annotated.
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