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510(k) Data Aggregation

    K Number
    K251561
    Device Name
    Biograph Trinion
    Manufacturer
    Siemens Medical Solutions USA, Inc.
    Date Cleared
    2025-07-31

    (71 days)

    Product Code
    KPS
    Regulation Number
    892.1200
    Type
    Special
    Panel
    Radiology (RA)
    Reference & Predicate Devices
    K233650,K231833,K242300,K233677
    Why did this record match?
    Device Name :

    Biograph Trinion

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

    The Siemens PET/CT systems are combined X-Ray Computed Tomography (CT) and Positron Emission Tomography (PET) scanners that provide registration and fusion of high resolution physiologic and anatomic information.

    The CT component produces cross-sectional images of the body by computer reconstruction of X-Ray transmission data from either the same axial plane taken at different angles or spiral planes taken at different angles. The PET subsystem images and measures the distribution of PET radiopharmaceuticals in humans for the purpose of determining various metabolic (molecular) and physiologic functions within the human body and utilizes the CT for fast attenuation correction maps for PET studies and precise anatomical reference for the fused PET and CT images.

    The system maintains independent functionality of the CT and PET devices, allowing for single modality CT and/or PET diagnostic imaging.

    These systems are intended to be utilized by appropriately trained health care professionals to aid in detecting, localizing, diagnosing, staging and restaging of lesions, tumors, disease and organ function for the evaluation of diseases and disorders such as, but not limited to, cardiovascular disease, neurological disorders and cancer. The images produced by the system can also be used by the physician to aid in radiotherapy treatment planning and interventional radiology procedures.

    This system can be used for low dose lung cancer screening in high risk populations.*

    *As defined by professional medical societies. Please refer to clinical literature, including the results of the National Lung Screening Trial (N Engl J Med 2011; 365:395-409) and subsequent literature, for further information.

    Device Description

    Biograph Trinion PET/CT systems are combined multi-slice X-Ray Computed Tomography and Positron Emission Tomography scanners. This system is designed for whole body oncology, neurology and cardiology examinations. Biograph Trinion PET/CT systems provide registration and fusion of high-resolution metabolic and anatomic information from the two major components of each system (PET and CT). Additional components of the system include a patient handling system and acquisition and processing workstations with associated software.

    Biograph Trinion VK20 software is a command-based program used for patient management, data management, scan control, image reconstruction and image archival and evaluation. All images conform to DICOM imaging format requirements.

    Biograph PET/CT systems, which are the subject of this application, are substantially equivalent to the commercially available Biograph Trinion VK10 family of PET/CT systems (K233677). Differences compared to the commercially available Biograph Trinion systems include:

    • The commercially available SOMATOM go.All and go.Top systems with VB10 (K233650) software have been incorporated into the Biograph Trinion VK20 systems, including commercially available CT features.

    • Additional PET axial field of view (FoV) systems allowing for more scalability.

    • Additional patient communication and comfort features.

    • PET respiratory gating with an external gating device has been implemented.

    The Biograph Trinion models may also use the names Biograph Mission, Biograph Wonder, Biograph Ambition and Biograph Devotion for marketing purposes.

    AI/ML Overview

    The provided FDA 510(k) clearance letter for the Biograph Trinion PET/CT system primarily focuses on demonstrating substantial equivalence to a predicate device and adherence to recognized performance standards. It indicates that "all performance testing met the predetermined acceptance values," but does not provide specific numerical acceptance criteria or reported device performance for an AI/algorithm component, nor does it detail a study proving the device meets AI-specific acceptance criteria. The context suggests the "performance testing" refers to general PET/CT system performance, not AI-driven diagnostic assistance.

    Therefore, many of the requested details, particularly those related to a standalone AI algorithm's performance, human-in-the-loop studies, dataset characteristics (sample size, provenance), and ground truth establishment methods for an AI component, are not available in the provided text.

    Based on the information available in the document, here's what can be extracted and inferred, with explicit notes where information is missing or not applicable in the context of an AI study.

    Acceptance Criteria and Reported Device Performance

    The document states that "all performance testing met the predetermined acceptance values." However, it does not specify what those acceptance values were or the precise reported performance metrics beyond this general statement. The tests conducted were primarily related to the physical performance of the PET/CT system as per NEMA NU 2:2024 and NEMA XR 25:2019 standards, not specifically an AI component for diagnostic aid.

    Table of Acceptance Criteria and Reported Device Performance (Based on available information for the PET/CT system):

    Performance Metric (PET/CT system)Acceptance Criteria (Stated as "predetermined acceptance values")Reported Device Performance
    Spatial ResolutionMet acceptance valuesMet acceptance values
    Scatter Fraction, Count Losses, and RandomsMet acceptance valuesMet acceptance values
    SensitivityMet acceptance valuesMet acceptance values
    Accuracy: Corrections for Count Losses and RandomsMet acceptance valuesMet acceptance values
    Image Quality, Accuracy of CorrectionsMet acceptance valuesMet acceptance values
    Time-of-Flight ResolutionMet acceptance valuesMet acceptance values
    PET-CT Coregistration AccuracyMet acceptance valuesMet acceptance values
    No AI-specific performance metrics detailedNot specified in documentNot specified in document

    Study Details (Focusing on AI-related aspects where applicable, and general system testing otherwise)

    1. Sample size used for the test set and the data provenance:

      • For System Performance (NEMA tests): The document does not specify a "test set" in terms of patient data. NEMA tests typically involve phantom studies rather than patient data. Thus, sample size and data provenance are not applicable in the traditional sense for these tests.
      • For AI Component: The document does not provide any information on a test set (patient cases, images) or data provenance (e.g., country of origin, retrospective/prospective) for validating an AI component for diagnostic assistance. The descriptions are entirely about the physical PET/CT system.

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

      • For System Performance: Ground truth for NEMA tests is established by physical measurements and calibration standards, not human experts.
      • For AI Component: This information is not provided in the document as there's no mention of an AI-driven diagnostic aid requiring expert-established ground truth.

    3. Adjudication method (e.g., 2+1, 3+1, none) for the test set:

      • For System Performance: Not applicable.
      • For AI Component: This information is not provided in the document.

    4. 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:

      • The document does not indicate that an MRMC study was performed for an AI component. The focus is on the substantial equivalence of the PET/CT hardware and software to a predicate device, and compliance with performance standards for the imaging system itself.

    5. If a standalone (i.e., algorithm only without human-in-the-loop performance) was done:

      • The document does not detail any standalone algorithm performance testing. The performance testing described is for the integrated PET/CT system's physical and functional characteristics.

    6. The type of ground truth used (expert consensus, pathology, outcomes data, etc.):

      • For System Performance: Ground truth for NEMA tests involves physical phantoms and established measurement protocols.
      • For AI Component: This information is not provided in the document.

    7. The sample size for the training set:

      • This information is not provided in the document, as there is no mention of an AI model that undergoes a separate training process requiring a distinct training set.

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

      • This information is not provided in the document, as there is no mention of an AI model's training set.

    Summary of Device and Performance Information from Document:

    The provided 510(k) clearance letter for the Biograph Trinion is for a PET/CT imaging system, not an AI-based diagnostic software. The "performance testing" described in the document pertains to the physical and functional aspects of the PET/CT scanner (e.g., spatial resolution, sensitivity, image quality) as measured against industry standards (NEMA NU 2:2024). The clearance is based on proving substantial equivalence to a predicate device and adherence to these well-established performance standards for imaging hardware.

    Therefore, the detailed questions regarding AI acceptance criteria, AI test set characteristics, human-in-the-loop studies, and AI ground truth establishment are not addressed in this document because the device being cleared is the imaging system itself, not an AI software component for image analysis or diagnostic support. The document implies that the system can be used for certain clinical applications (like lung cancer screening), but it doesn't describe an automated AI system within the device that requires separate clinical validation with reader studies or large patient datasets.

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