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Panther™ RealART is used to correct geometric mismatches between radiation beams and the treatment target under on-line image-guidance. The optional software module is part of the family of treatment planning products under the trade name Panther™.

PANTHER™ RealART is an optional software module to the Prowess radiation therapy planning software for supporting online image-guided radiation therapy. The Panther™ RealART on-line plan adaptation system is composed of a workstation with two Intel Quad-Core Xeon processors (or later versions) running Windows XP operation system (or later versions) and proprietary software that allows the trained users to adjust radiation therapy treatment plans based on the images acquired on the day of treatment with the patient at the treatment position.

The provided text describes the Panther™ RealART device and its 510(k) submission but does not include a detailed table of acceptance criteria or specific reported device performance metrics against such criteria. The study described is primarily a non-clinical verification and validation study, supplemented by a limited "clinical testing" activity.

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

1. Table of Acceptance Criteria and Reported Device Performance

The document does not explicitly present a table of acceptance criteria with corresponding device performance metrics. Instead, it broadly states that the device "met its specifications" and "demonstrated substantially equivalent performance to the predicate device, and is safe and effective for its intended use."

The closest statements to performance criteria are:

• "results in equivalent or better quality of treatment plans as compared with the use of predicate device as demonstrated in our field tests."
• "the use of Panther™ RealART will improve the accuracy of IMRT treatment delivery."

Without specific numerical targets for "quality of treatment plans" or "accuracy of IMRT treatment delivery," a precise table cannot be constructed.

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

• Sample Size for "Clinical Tests": Four CT datasets, acquired from a total of four fractions from two prostate and one pancreas cases.
• Data Provenance: The "clinical testing" was conducted at the Medical College of Wisconsin using "real patient cases." This indicates prospective data collection for the purpose of testing the device, though the term "clinical testing" in this context refers to a limited field test rather than a full-scale clinical trial.

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

The document does not specify the number of experts or their qualifications involved in establishing ground truth for the test set. It mentions "medical physicists/dosimetrists at the Medical College of Wisconsin" conducted functional testing and "clinical physicists contracted by Prowess" verified risk mitigation methods. However, it doesn't state if these individuals established the specific ground truth for the "clinical tests" cases, nor does it detail their qualifications (e.g., years of experience).

4. Adjudication Method for the Test Set

The document does not describe any specific adjudication method (e.g., 2+1, 3+1) for establishing ground truth or assessing the device's performance on the test set.

5. Multi-Reader Multi-Case (MRMC) Comparative Effectiveness Study

No multi-reader multi-case (MRMC) comparative effectiveness study is mentioned. The "clinical testing" involved a very small sample of cases and did not appear to focus on comparing human reader performance with and without AI assistance.

6. Standalone Performance Study (Algorithm Only Without Human-in-the-Loop Performance)

The primary testing described is focused on the software's functionality and its ability to assist trained users in adjusting treatment plans.
The device's description highlights its components ("Rapid delineation of targets and organs at risk (OAR)," "Segment aperture morphing," "Segment weight optimization"). These are algorithms, and their performance was likely evaluated in a standalone manner during the "Verification and validation of the software... in house according to the Verification and Validation (V&V) Protocol" and functional testing. However, no specific standalone performance metrics (e.g., sensitivity, specificity for contour delineation, or accuracy of segment morphing) are reported in this summary. The "clinical tests" serve to "verify the dose coverage of the target and the correctness of the on-line correction" (which is an output of the algorithm with user input).

7. Type of Ground Truth Used

The type of ground truth used for the "clinical tests" is not explicitly defined, but it can be inferred that it involves expert assessment of the correctness of the on-line correction and dose coverage based on actual patient CT images and treatment plans. It is likely a form of expert consensus or expert-defined optimal plan rather than pathology or long-term outcomes data, given the context of radiation therapy planning.

8. Sample Size for the Training Set

The document does not provide any information regarding the sample size used for the training set of the Panther™ RealART algorithms.

9. How Ground Truth for the Training Set Was Established

The document does not provide any information on how the ground truth for the training set was established, as it does not discuss the training phase of the algorithm.

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