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    K Number
    K131945
    Device Name
    GE DATEX-OHMEDA AVANCE CS2
    Manufacturer
    DATEX-OHMEDA
    Date Cleared
    2013-08-08

    (42 days)

    Product Code
    BSZ
    Regulation Number
    868.5160
    Type
    Special
    Panel
    Anesthesiology (AN)
    Reference & Predicate Devices
    K001814,K051092,K123195,K092027,K102239,K123125
    Why did this record match?
    Device Name :

    GE DATEX-OHMEDA AVANCE CS2

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

    The GE Datex-Ohmeda Avance CS2 Anesthesia System is intended to provide general inhalation anesthesia and ventilatory support to a wide range of patients (neonatal, pediatric, adult). The device is intended for volume or pressure control ventilation.

    Device Description

    The GE Datex-Ohmeda Avance CS2 anesthesia machines are intended to provide general inhalation anesthesia and ventilatory support to a wide range of patients (neonatal, pediatric, adult). They represent one of the systems in a long line of products based on the Datex-Ohmeda Excel. Aestiva, and Aespire Anesthesia Systems. Avance systems are to be used only by trained and qualified medical professionals trained in the administration of general anesthesia.

    The Avance and Avance CS2 anesthesia systems supply set flows of medical gases to the breathing system using electronic gas mixing. Gas flows are selected by the user using the electronic controls on the main display unit and then displayed as electronic flow meters on the system display unit. The Avance systems are equipped with a pneumatic back-up O2 delivery system and traditional flow tube, as well. A large selection of frames options including central brake or individual caster brakes, gases, and vaporizers are available to give the user control of the system configuration. The Avance systems are also available in pendant models. Avance systems are available with two or three gases, up to three vaporizer positions and up to three cvlinder connections. All models have O2. The Avance systems come with up to two optional gases (air, N2O).

    The Avance systems accept Tec 6 Plus and Tec 7 vaporizers on a Selectatec manifold. Safety features and devices within the Avance systems are designed to decrease the risk of hypoxic mixtures, agent mixtures and complete power or sudden gas supply failures. The Avance systems are available with optional integrated respiratory gas monitoring. When supplied as an option, the integrated respiratory gas monitoring is provided via the GE Compact Gas Airway Modules Series: M-Gas Module (M-CAiO and M-CAiOV software revision 3.2 and above cleared via K001814) and E-Gas Compact Gas Airway Module (E-CAiOVX software revision 3.2 and above cleared via K051092) which can be physically integrated into the Avance, receive electronic power from the Avance and communicate measured values to the Avance for display on the system display unit. In addition to M-Gas and E-gas modules, the Avance CS- can utilize the GE CARESCAPE Respiratory Module (E-sCAiO, E-sCAiOV cleared via K123195).

    The Datex-Ohmeda 7900 Anesthesia Ventilator is used in the Avance Anesthesia Systems. It is a microprocessor based, electronically controlled, pneumatically driven ventilator that provides patient ventilation during surgical procedures. The 7900 ventilator is equipped with a built-in monitoring system for inspired oxygen, airway pressure and exhaled volume. Sensors in the breathing circuit are used to control and monitor patient ventilation as well as measure inspired oxygen concentration. This allows for the compensation of compression losses, fresh gas contribution and small leakage in the breathing absorber. bellows and system. User setting and microprocessor calculations control breathing patterns. The user interface keeps settings in memory. The user may change settings with a simple setting sequence. A bellows contains breathing gasses to be delivered to the patient. Positive End Expiratory Pressure (PEEP) is regulated electronically. Positive pressure is maintained in the breathing system so that any leakage that occurs is outward. An RS-232 serial digital communications port connects to and communicates with external devices. Ventilator modes for the device include Volume Control Ventilation (VCV), Pressure Control Ventilation (PCV) (optional), Synchronized Intermittent Mandatory Ventilation/Pressure Support (SIMV/PSV) (optional), Pressure Support Ventilation (PSVPro) (optional), Synchronized Intermittent Mandatory Ventilation-Pressure Control (SIMV-PC) (optional), Pressure Control Ventilation-Volume Guaranteed (PCV-VG) (optional), Constant Positive Airway Pressure/Pressure Support Ventilation (CPAP/PSV), Pressure Control Ventilation-Volume Guaranteed with Pressure Support Ventilation (SIMV PCV-VG) (optional), and Volume Control Ventilation Mode for Cardiac Bypass Mode (optional). Ventilator parameters and measurements are displayed on the system display unit.

    Several frame configurations are available, including one that allows for the physical integration of the GE Monitor Series (cleared Carescape B850 via K092027 and B650 cleared on K102239). These configurations also provide cable management solutions such that the necessary connections from the monitor display unit to the monitor are hidden within the Avance frame. Additional configurations allow for the mounting of various patient monitors on the top shelf of the Avance.

    AI/ML Overview

    The provided text is a 510(k) summary for the GE Datex-Ohmeda Avance CS2 Anesthesia System. It details the device's description, intended use, and a comparison to a predicate device. However, it explicitly states that no clinical testing was required or conducted for the modifications made to this version of the device.

    Therefore, the document does not contain the information requested in your prompt regarding acceptance criteria and the study that proves the device meets them, as these are typically derived from clinical or comprehensive performance studies which were not performed in this case.

    Specifically, the document states:

    • "The modifications made to the GE Datex-Ohmeda Avance CS2 did not require clinical testing. The functionality of the modified features was completely evaluated by performing nonclinical tests of design verification and validation testing."

    Without a clinical study or a study specifically designed to establish performance against acceptance criteria, I cannot fill out the requested table or provide details on sample sizes, expert involvement, ground truth establishment, or comparative effectiveness.

    The only "testing" mentioned is nonclinical verification and validation testing, which includes:

    • Risk Analysis
    • Requirements Reviews
    • Design Reviews
    • Testing on unit level (Module verification)
    • Integration testing (System verification)
    • Performance testing (Verification)
    • Safety testing (Verification)
    • Simulated use testing (Validation)

    This nonclinical testing served to confirm that the changes made (primarily updated labeling to include the use of an optional CARESCAPE respiratory module) did not alter the fundamental scientific technology or indications for use, and that the device remained substantially equivalent to its predicate.

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    K Number
    K123125
    Device Name
    GE DATEX-OHMEDA AVANCE CS2
    Manufacturer
    DATEX-OHMEDA, INC.
    Date Cleared
    2013-02-06

    (125 days)

    Product Code
    BSZ
    Regulation Number
    868.5160
    Type
    Special
    Panel
    Anesthesiology (AN)
    Reference & Predicate Devices
    K001814,K051092,K092027,K102239,K112722
    Why did this record match?
    Device Name :

    GE DATEX-OHMEDA AVANCE CS2

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

    The GE Datex-Ohmeda Avance CS2 Anesthesia System is intended to provide general inhalation anesthesia and ventilatory support to a wide range of patients (neonatal, pediatric, adult). The device is intended for volume or pressure control ventilation.

    Device Description

    The GE Datex-Ohmeda Avance and Avance CS anesthesia machines are intended to provide general inhalation anesthesia and ventilatory support to a wide range of patients (neonatal, pediatric, adult). They represent one of the systems in a long line of products based on the Datex-Ohmeda Excel, Aestiva, and Aespire Anesthesia Systems. Avance systems are to be used only by trained and qualified medical professionals trained in the administration of general anesthesia.

    The Avance and Avance CS2 anesthesia systems supply set flows of medical gases to the breathing system using electronic gas mixing. Gas flows are selected by the user using the electronic controls on the main display unit and then displayed as electronic flow meters on the system display unit. The Avance systems are equipped with a pneumatic back-up O2 delivery system and traditional flow tube, as well. A large selection of frames options including central brake or individual caster brakes, gases, and vaporizers are available to give the user control of the system configuration. The Avance systems are also available in pendant models. Avance systems are available with two or three gases, up to three vaporizer positions and up to three cylinder connections. All models have O2. The Avance systems come with up to two optional gases (air, N2O).

    The Avance systems accept Tec 6 Plus and Tec 7 vaporizers on a Selectatec manifold. Safety features and devices within the Avance systems are designed to decrease the risk of hypoxic mixtures, agent mixtures and complete power or sudden gas supply failures. The Avance systems are available with optional integrated respiratory gas monitoring. When supplied as an option, the integrated respiratory gas monitoring is provided via the GE Compact Gas Airway Modules Series: M-Gas Module (M-CAiO and M-CAiOV software revision 3.2 and above cleared via K001814) and E-Gas Compact Gas Airway Module (E-CAiOVX software revision 3.2 and above cleared via K051092) which can be physically integrated into the Avance, receive electronic power from the Avance and communicate measured values to the Avance for display on the system display unit.

    The Datex-Ohmeda 7900 Anesthesia Ventilator is used in the Avance Anesthesia Systems. It is a microprocessor based, electronically controlled, pneumatically driven ventilator that provides patient ventilation during surgical procedures. The 7900 ventilator is equipped with a built-in monitoring system for inspired oxygen, airway pressure and exhaled volume. Sensors in the breathing circuit are used to control and monitor patient ventilation as well as measure inspired oxygen concentration. This allows for the compensation of compression losses, fresh gas contribution and small leakage in the breathing absorber, bellows and system. User setting and microprocessor calculations control breathing patterns. The user interface keeps settings in memory. The user may change settings with a simple setting sequence. A bellows contains breathing gasses to be delivered to the patient. Positive End Expiratory Pressure (PEEP) is regulated electronically. Positive pressure is maintained in the breathing system so that any leakage that occurs is outward. An RS-232 serial digital communications port connects to and communicates with external devices. Ventilator modes for the device include Volume Control Ventilation (VCV), Pressure Control Ventilation (PCV) (optional), Synchronized Intermittent Mandatory Ventilation/Pressure Support (SIMV/PSV) (optional), Pressure Support Ventilation (PSVPro) (optional), Synchronized Intermittent Mandatory Ventilation-Pressure Control (SIMV-PC) (optional), Pressure Control Ventilation-Volume Guaranteed (PCV-VG) (optional), Constant Positive Airway Pressure/Pressure Support Ventilation (CPAP/PSV), Pressure Control Ventilation-Volume Guaranteed with Pressure Support Ventilation (SIMV PCV-VG) (optional), and Volume Control Ventilation Mode for Cardiac Bypass Mode (optional). Ventilator parameters and measurements are displayed on the system display unit.

    Several frame configurations are available, including one that allows for the physical integration of the GE Monitor Series(most recently cleared Carescape B850 via K092027 and B650 cleared on K102239). These configurations also provide cable management solutions such that the necessary connections from the monitor display unit to the monitor are hidden within the Avance frame. Additional configurations allow for the mounting of various patient monitors on the top shelf of the Avance.

    AI/ML Overview

    Here's an analysis of the provided text regarding acceptance criteria and supporting studies for the GE Datex-Ohmeda Avance CS2 Anesthesia System:

    Based on the provided document, the application is for a 510(k) premarket notification, which focuses on demonstrating substantial equivalence to a predicate device rather than undergoing new clinical trials for efficacy. Therefore, much of the information typically requested for acceptance criteria and a deep dive into study design for novel devices is not present or not applicable in this context.

    The document explicitly states: "The modifications made to the GE Datex-Ohmeda Avance to create the GE Datex-Ohmeda Avance CS2 did not require clinical testing. The functionality of the modified features was completely evaluated by performing nonclinical tests of design verification and validation testing."

    This immediately tells us that there was no standalone clinical study with human patients to prove device performance against specific acceptance criteria in the way one might expect for a new, high-risk device.

    Here's a breakdown of the requested information based on the provided text:

    1. Table of Acceptance Criteria and the Reported Device Performance

    Given the nature of a 510(k) for an updated device, the "acceptance criteria" are primarily related to meeting specifications, voluntary standards, and demonstrating that the new features do not negatively impact safety and effectiveness compared to the predicate device. There isn't a table of specific clinical performance metrics (e.g., accuracy of a diagnostic feature, rates of successful treatment) with corresponding target values and achieved results reported in this summary.

    Acceptance Criteria (Implied from 510(k) process and text):

    Acceptance Criteria CategoryDescription (Implied)Reported Device Performance
    Substantial EquivalenceDemonstrated that the Avance CS2 is as safe, as effective, and has performance substantially equivalent to the predicate device (GE Datex-Ohmeda Avance, K112722).Met: The FDA's 510(k) clearance (K123125) confirms substantial equivalence.
    Specifications ComplianceDevice functions (new and existing) meet their defined technical specifications.Met: "thoroughly tested through verification of specifications and validation"
    Voluntary StandardsCompliance with applicable voluntary standards for anesthesia systems.Met: "Verification of compliance with applicable voluntary standards has also been made"
    Risk MitigationIdentified and mitigated risks associated with the device.Met: "Risk Analysis" was applied during development.
    Software ValidationSoftware components are thoroughly validated.Met: "including software validation"
    Intended UseThe device performs as intended for general inhalation anesthesia and ventilatory support for a wide range of patients.Met: The device is cleared for its stated indications for use.

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

    • Test Set Sample Size: Not applicable in the context of human clinical data for this specific device. The testing involved "nonclinical tests of design verification and validation testing," including unit-level testing, integration testing, performance testing, safety testing, and simulated use testing. These are not typically quantified with "sample sizes" in the same way as human subject studies; rather, they involve testing various components, configurations, and scenarios.
    • Data Provenance: Not applicable as no clinical data from patients was used. The data provenance would be from internal engineering and quality testing (e.g., lab test data, simulated environment data).

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

    • Not applicable. Since no clinical testing was performed and no ground truth was established from patient data, there's no mention of experts establishing a ground truth for a test set in a diagnostic or outcome-based scenario. The "ground truth" for nonclinical testing would be engineering specifications and functional requirements.

    4. Adjudication Method for the Test Set

    • Not applicable. There was no clinical test set requiring adjudication in the context of human data. Adjudication methods (like 2+1, 3+1) are typically used for resolving disagreements among human readers/experts in interpreting clinical data.

    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 anesthesia system, not an AI-powered diagnostic or assistive tool for human readers. Therefore, an MRMC comparative effectiveness study involving human readers and AI assistance would not be relevant and was not performed.

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

    • Not applicable. This is an anesthesia machine, not an algorithm-only device. Its performance is inherent in its hardware, software, and integrated components, designed to operate with a medical professional as the "human in the loop" administering anesthesia.

    7. The Type of Ground Truth Used

    • For Nonclinical Testing: The ground truth would be based on engineering specifications, design requirements, and established performance benchmarks derived from the predicate device and relevant industry standards.
    • For Substantial Equivalence: The ultimate "ground truth" for the 510(k) process is the safety and effectiveness profile of the predicate device (GE Datex-Ohmeda Avance, K112722). The new device must demonstrate it meets this same standard.

    8. The Sample Size for the Training Set

    • Not applicable. Given the device type and the absence of clinical studies, there is no mention of a "training set" in the context of machine learning. The testing performed (verification and validation) is based on engineering principles and quality assurance, not statistical training sets.

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

    • Not applicable, as there was no machine learning training set mentioned.
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