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The Passport 17m and Passport 12m patient monitors are intended for monitoring, displaying, reviewing, and transferring of multiple physiological parameters including ECG (3-lead or 12-lead selectable, arrhythmia detection, ST segment analysis, OT analysis, and heart rate (HR)), respiration rate (Resp), temperature (Temp), pulse oxygen saturation (SpO2), pulse rate (PR), non-invasive blood pressure (NIBP), invasive blood pressure(IBP), pulmonary artery wedge pressure (PAWP), cardiac output (C.O.), continuous cardiac output (CCO), mixed/central venous oxygen saturation (SvO2/ScvO2), carbon dioxide (CO2), Oxygen (O2), anesthetic gas (AC), impedance cardiograph (CCG), bispectral index (BIS), respiration mechanics (RM), and neuromuscular transmission monitoring (NMT). The equipment also provides an interpretation of resting 12-lead ECG.

All the parameters can be monitored on single adult, pediatric, and neonatal patients with the exception of the following:
• The arrhythmia detection, ST Segment analysis of Mortara algorithm, BIS, RM, CCO, SvO2/ScvO2, PAWP monitoring and NMT monitoring are intended for adult and pediatric patients only;

· ST Segment analysis of Mindray algorithm is intended for adult patients only;

· C.O. monitoring is restricted to adult patients only;

• ICG monitoring is only for use on adult patients who meet the following requirements: height: 122 to 229cm, weight: 30 to 155kg.

The monitor is to be used in healthcare facilities by clinical professionals or under their guidance. It should only be used by persons who have received adequate training in its use. It is not intended for helicopter transport, hospital ambulance, or home use.

T1 Patient Monitor:

The T1 Patient Monitor is intended for monitoring, displaying, reviewing, and transferring of multiple physiological parameters including ECG (3-lead, or 12-lead selectable, arrhythmia detection, ST Segment analysis, QT analysis, and heart rate (HR)), respiration (Resp), temperature (Temp), pulse oxygen saturation (SpO2), pulse rate (PR), non-invasive blood pressure (NIBP), invasive blood pressure (IBP), pulmonary artery wedge pressure (PAWP), and carbon dioxide (CO2). The equipment also provides an interpretation of resting 12-lead ECG.

All the parameters can be monitored on single adult, pediatric, and neonatal patients with the exception of the following:
• The arthythmia detection, ST Segment analysis of Mortara algorithm, and PAWP monitoring are intended for adult and pediatric patients;

· ST Segment analysis of Mindray ECG algorithm is intended for adult patients only.

Device Description

The subject Passport Series Patient Monitors includes three monitors:

o Passport 12m Patient Monitor
Passport 17m Patient Monitor ●
o T1 Patient Monitor

The T1 patient monitor is one of the available modules that can be plugged into the Passport 17m or 12m monitor. The T1 can also be used as a standalone monitor and when used as a standalone monitor, it provides a subset of the functions that are provided by Passport 17m and 12m.

AI/ML Overview

This document is a 510(k) summary for the Mindray Passport Series Patient Monitors (Passport 12m, Passport 17m, and T1). It focuses on establishing substantial equivalence to previously cleared predicate devices and does not contain a full study report with detailed acceptance criteria and performance data for a new AI/ML device.

Therefore, the following information, relevant to AI/ML device studies, cannot be extracted from the provided text:

A table of acceptance criteria and the reported device performance: The document states that "functional and system level testing" was conducted and that the devices "continue to meet specifications and the performance of the device is equivalent to the predicate." However, it does not provide specific acceptance criteria values or detailed performance metrics.
Sample sized used for the test set and the data provenance: Not mentioned.
Number of experts used to establish the ground truth for the test set and the qualifications of those experts: Not mentioned.
Adjudication method for the test set: Not mentioned.
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 relevant as this is not a new AI/ML device being submitted for comparative effectiveness.
If a standalone (i.e., algorithm only without human-in-the-loop performance) was done: Not relevant as this is not a new AI/ML device.
The type of ground truth used (expert consensus, pathology, outcomes data, etc.): Not mentioned.
The sample size for the training set: Not mentioned.
How the ground truth for the training set was established: Not mentioned.

Summary of available relevant information from the document:

This 510(k) submission is for modifications to existing patient monitors, not for a new AI/ML device. The changes include:

Wireless Module: Addition of a Laird (2.4GHz/5GHz) wireless module.
MPM Module: Addition of an MPM 3.0 module with similar functionality to the MPM 2.0 module.
Masimo SpO2 accessories: Support for new Masimo SpO2 accessories.
ECG accessories: Support for new ECG accessories (12-lead, defibrillation-proof).
CO2 accessories: Support for new DRYLINE PRIME and DRYLINE PRIME+ gas sampling lines and water traps.
Signal Cord Resistance: Improvements to SpO2/CO2/BIS signal cord resistance to damage.
NIBP Issue Correction: Correction of an issue where NIBP misreported "NIBP Excessive Motion" after 49 days.
Anesthetic Agent (AA) Numerics: Support for End tidal (Et) and Fraction of Inspired (Fi) numerics for anesthetic agent (AA).
Physiological Alarms: Support for specific physiological alarm behaviors (triggered only when parameter value is higher/lower than limits, re-alarming after reset, non-overlapping relationships of alarm limit setting).
Alarm Setup Menu: Support for password protection for accessing the Alarm Setup menu.
User Authorization: Support for user authorization via LDAP.
Patient Monitor Information: Support for Facility information, Room No. information, and Visit Number in patient demographics.
Printing: Support for printing arrhythmia settings in reports, changing factory default printer paper size, and QT report printing.
MAC Address Display: Support to display the MAC address of the patient monitor.
ST Values Display: Support for displaying ST values in the parameter tile.
Patient Private Information: Support for encryption of patient private information sent to the network.
ST Point Adjustment: Support for adjustment of the ST point on multiple displayed leads.
NIBP Measurement on Clock: Support for NIBP measurement on the clock.
Network Application Transmission Priority Setting: Support for network application transmission priority setting.
ECG Beat Annotation: Support for ECG beat annotation.
DNS for ADT and LDAP server address: Support for DNS for ADT and LDAP server address.
Bed No. Issue Correction: Correction of an issue where the Bed No. of the Passport 12m/17m is changed after T1 is pulled out of the monitors.

Performance Data:
Mindray conducted functional and system level testing to evaluate the performance of these modifications. The testing demonstrated that the devices "continue to meet specifications and the performance of the device is equivalent to the predicate." The devices also meet relevant consensus standards (listed in the document).

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K Number

K152902

Device Name

Passport Series Patient Monitors (including Passport 17m, Passport 12m and T1)

Manufacturer

SHENZHEN MINDRAY BIO-MEDICAL ELECTRONICS CO., LTD

Date Cleared

2016-02-18

(140 days)

Product Code

MHX,CBO,CBR,CBS,CCK,CCL,DOA,DPZ,DRT,DSB,DSI,DSK,DXG,DXN,FLL,MLD,OLW

Regulation Number

870.1025

Type

Traditional

Panel

Cardiovascular (CV)

Reference & Predicate Devices

K101521,K150352,K150632,K143195

Intended Use

Passport 12m and 17m Patient Monitors:

The Passport 17m and Passport 12m patient monitors are intended for monitoring, displaying, alarming, and transferring of multiple physiological parameters including ECG (3-lead or 12-lead selectable, arrhythmia detection, ST segment analysis, OT analysis, and heart rate (HR)), respiration rate (Resp), temperature (Temp), pulse oxygen saturation (SpO2), pulse rate (PR), non-invasive blood pressure (NIBP), invasive blood pressure(IBP), pulmonary artery wedge pressure (PAWP), cardiac output (C.O.), continuous cardiac output (CCO), mixed/central venous oxygen saturation (Sv02/Scv02), carbon dioxide (C02), Oxygen (02), anesthetic gas (AG), impedance cardiograph (ICC), bispectral index (BIS), and respiration mechanics (RM). The equipment also provides an interpretation of resting 12-lead ECG.

All the parameters can be monitored on single adult, pediatric, and neonatal patients with the exception of the following: · The arrhythmia detection, ST Segment analysis of Mortara algorithm, BIS, RM, CCO, SvO2/Scv02, and PAWP monitoring are intended for adult and pediatric patients only;

· ST Segment analysis of Mindray algorithm is intended for adult patients only;

· C.O. monitoring is restricted to adult patients only;

• ICG monitoring is only for use on adult patients who meet the following requirements: height: 122 to 229cm, weight: 30 to 155kg.

T1 Patient Monitor:

All the parameters can be monitored on single adult, pediatric, and neonatal patients with the exception of the following: • The arthythmia detection, ST Segment analysis of Mortara algorithm, and PAWP monitoring are intended for adult and pediatric patients;

· ST Segment analysis of Mindray ECG algorithm is intended for adult patients only.

Device Description

The subject Passport Series Patient Monitors includes three monitors:

Passport 12m Patient Monitor ●
o Passport 17m Patient Monitor
o T1 Patient Monitor

All of the devices in the family are multiparameter monitors indicated for monitoring, displaying, reviewing, alarming, and transferring multiple physiological parameters. The Passport 12m and 17m Patient monitors provide patient monitoring capabilities based on the user selected modules that are plugged into the main monitor. The T1 patient monitor is one of the available modules that can be plugged into the Passport 17m or 12m monitor. The T1 can also be used as a standalone monitor and when used as a standalone monitor, it provides a subset of the functions that are provided by Passport 17m and 12m.

AI/ML Overview

The provided text focuses on the substantial equivalence of the Passport Series Patient Monitors to predicate devices, rather than outlining specific acceptance criteria and a study demonstrating the device meets those criteria with detailed performance metrics. The information pertains to a 510(k) submission, which aims to show equivalence to a legally marketed device, not necessarily to prove it meets pre-defined acceptance criteria with a new, standalone study the way a PMA might.

However, I can extract information related to performance testing and changes from the provided text.

Here's an analysis based on the supplied document:

1. Table of Acceptance Criteria and Reported Device Performance

The document does not explicitly state "acceptance criteria" in the traditional sense of numerical thresholds that the device must meet for specific clinical performance metrics. Instead, it describes "performance data" in the context of demonstrating substantial equivalence to a predicate device. The performance is assessed against the specifications of the predicate device and relevant consensus standards.

The table in the document (pages 7-8) compares the features and performance specifications of the subject devices to the predicate device (K143195). The relevant performance aspects are nested within the "Feature" column and include:

Feature/Parameter	Acceptance Criteria (Implicit - from Predicate or Standards)	Reported Device Performance (Subject Device)
Respiration Rate (Resp)	Measurement range: Adult: 0 to 120 rpm; Pediatric, neonate: 0 to 150 rpm. Accuracy: 7 to 150 rpm: ±2 rpm or ±2%, whichever is greater.	Same (Equivalent to predicate)
Temperature (Temp)	Measurement range: 0 to 50°C (32 to 122°F). Accuracy: ±0.1°C or ±0.2°F (without probe).	Same (Equivalent to predicate)
Pulse Oxygen Saturation (SpO2) - Mindray Module	Measurement range: 0 to 100%. Accuracy: 70 to 100%: ±2% (adult/pediatric mode); 70 to 100%: ±3% (neonate mode); 0% to 69%: Not specified.	Same (Equivalent to predicate)
Pulse Oxygen Saturation (SpO2) - Masimo Module	Measurement range: 1 to 100%. Accuracy: 70 to 100%: ±2% (without motion, adult/pediatric); 70 to 100%: ±3% (without motion, neonate); 70 to 100%: ±3% (with motion); 1% to 69%: Not specified.	Same (Equivalent to predicate)
Pulse Oxygen Saturation (SpO2) - Nellcor Module	Measurement range: 0 to 100%. Accuracy: 70 to 100%: ±2% (adult/pediatric); 70 to 100%: ±3% (neonate); 0% to 69%: Not specified.	Same (Equivalent to predicate)
Pulse Rate (PR) - from Mindray SpO2 Module	Measurement range: 20 to 254 bpm. Accuracy: ±3 bpm.	Same (Equivalent to predicate)
Pulse Rate (PR) - from Masimo SpO2 Module	Measurement range: 25 to 240 bpm. Accuracy: ±3 bpm (without motion); ±5 bpm (with motion).	Same (Equivalent to predicate)
Pulse Rate (PR) - from Nellcor SpO2 Module	Measurement range: 20 to 300 bpm. Accuracy: 20 to 250 bpm: ±3 bpm.	Same (Equivalent to predicate)
Pulse Rate (PR) - from IBP Module	Measurement range: 25 to 350 bpm. Accuracy: ±1 bpm or ±1%, whichever is greater.	Same (Equivalent to predicate)
Non-invasive Blood Pressure (NIBP) - Adult	Measurement range: Systolic: 40 to 270; Diastolic: 10 to 210; Mean: 20 to 230. Accuracy: Max mean error: ±5 mmHg; Max standard deviation: 8 mmHg.	Same (Equivalent to predicate)
Non-invasive Blood Pressure (NIBP) - Pediatric	Measurement range: Systolic: 40 to 200; Diastolic: 10 to 150; Mean: 20 to 165. Accuracy: Max mean error: ±5 mmHg; Max standard deviation: 8 mmHg.	Same (Equivalent to predicate)
Non-invasive Blood Pressure (NIBP) - Neonate	Measurement range: Systolic: 40 to 135; Diastolic: 10 to 100; Mean: 20 to 110. Accuracy: Max mean error: ±5 mmHg; Max standard deviation: 8 mmHg.	Same (Equivalent to predicate)
Invasive Blood Pressure (IBP)	Measurement range: -50 to 300 mmHg. Accuracy: ±2% or ±1 mmHg, whichever is greater (without sensor).	Same (Equivalent to predicate)
Carbon Dioxide (CO2) - Sidestream Module	Measurement range: 0 to 99 mmHg. Accuracy: 0 to 40 mmHg: ±2 mmHg; 41 to 76 mmHg: ±5% of reading; 77 to 99 mmHg: ±10% of reading.	Same (Equivalent to predicate)
Carbon Dioxide (CO2) - Microstream Module	Measurement range: 0 to 99 mmHg. Accuracy: 0 to 38 mmHg: ±2 mmHg; 39 to 99 mmHg: ±5% of reading + 0.08% of (reading-38).	Same (Equivalent to predicate)
Carbon Dioxide (CO2) - Mainstream Module	Measurement range: 0 to 150 mmHg. Accuracy: 0 to 40 mmHg: ±2 mmHg; 41 to 70 mmHg: ±5% of reading; 71 to 100 mmHg: ±8% of reading; 101 to 150 mmHg: ±10% of reading.	Same (Equivalent to predicate)
Impedance Cardiograph (ICG)	Measurement range: SV: 5 to 250 ml; HR: 4 to 200 bpm; C.O.: 1.4 to 15 L/min. Accuracy: HR: ±2 bpm. (SV and C.O. not specified for accuracy).	Same (Equivalent to predicate)

Note: For features like "QT analysis" (added to ECG Mindray Algorithm) and "AFib" (added to Arrhythmia Analysis Mindray Algorithm), and "Adjustable QRS Detection Threshold" (added), the document states "Added" or "Same" but does not provide specific performance metrics or acceptance criteria for these new or modified features in the provided text. It generally states that "The testing provided an evaluation of the performance of the device relevant to each of the modifications... The functional and system level testing showed that the devices continue to meet specifications and the performance of the device is equivalent to the predicate."

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

The document states: "Mindray conducted functional and system level testing on the subject devices." It does not specify the sample size for this testing or the data provenance (e.g., country of origin, retrospective or prospective). The testing appears to be internal engineering and verification testing rather than a clinical trial with patient data.

3. Number of Experts and Qualifications

The document makes no mention of experts being used to establish ground truth for a test set. The validation described is based on engineering and system-level testing against specifications derived from the predicate device and consensus standards.

4. Adjudication Method

No adjudication method is mentioned, as there is no indication of expert review or clinical ground truth establishment in the provided text.

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

The document does not describe a MRMC comparative effectiveness study, nor does it mention any effect size of human readers improving with or without AI assistance. This type of study would typically be conducted for diagnostic or interpretive algorithms, not necessarily for a multi-parameter patient monitor's basic physiological parameter measurements.

6. Standalone (Algorithm Only) Performance Study

The document generally refers to "functional and system level testing" and "conformance with applicable standards." While this implies algorithm performance was assessed as part of the overall device functionality, it does not specifically detail a standalone algorithm-only performance study with dedicated metrics like sensitivity, specificity, accuracy, etc., for a particular diagnostic output. The focus is on the device's ability to measure and present physiological parameters in a manner equivalent to the predicate.

7. Type of Ground Truth Used

Based on the provided text, the ground truth for the performance evaluations (e.g., accuracy of measurement ranges) would likely be established using calibrated test equipment, simulation, and potentially comparison to established reference methods or predicate device outputs during engineering and system-level testing. There is no mention of pathology, expert consensus, or outcomes data being used as ground truth for this submission. The "ground truth" for showing equivalence seems to be alignment with predicate device specifications and recognized consensus standards.

8. Sample Size for the Training Set

The document does not mention a training set or its sample size. This is a 510(k) submission for a patient monitor, not a machine learning or AI-driven diagnostic device that would typically involve a separate training set. While the device does have "arrhythmia detection" and "ST segment analysis" algorithms, the document focuses on their functional equivalence and adherence to standards rather than detailing the methodology of their development or independent training/testing.

9. How Ground Truth for the Training Set Was Established

As no training set is mentioned, this information is not provided.

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K Number

K143195

Device Name

Passport Series Patient Monitors (including Passport 17M, Passport 12M and T1)

Manufacturer

Shenzhen Mindray Bio-Meidcal Electronics Co., Ltd

Date Cleared

2014-12-22

(46 days)

Product Code

Regulation Number

Type

Panel

Reference & Predicate Devices

K132026,K123074,K132037,K092449,K132075

Intended Use

The Passport 17M and Passport 12M patient monitors are intended for monitoring. displaying, reviewing, and transferring of multiple physiological parameters including ECG (3-lead , 5-lead or 12-lead selectable, arrhythmia detection, ST segment analysis, and heart rate (HR)), respiration rate (Resp), temperature (Temp), pulse oxygen saturation (SpO2), pulse rate (PR), non-mvasive blood pressure (NIBP), invasive blood pressure(IBP), pulmonary artery wedge pressure (PAWP), cardiac output (C.O.), continuous cardiac output (CCO), mixed/central venous oxygen saturation (Sy()//Scy(), carbon dioxide (CO2), Oxygen (O2), anesthetic gas (AG), impedance cardiograph (ICG), bispectral index (BIS), and respiration mechanics (RM). The equipment also provides an interpretation of resting 12-lead ECG.

All the parameters can be monitored on single adult, pediatric, and neonatal patients with the exception of the following:

. The arrhythmia detection. ST Segment analysis of Mortara algorithm. BIS, RM, CCO. SvOz/Scv02, and PAWP monitoring are intended for adult and pediatric patients only:
ST Segment analysis of Mindray algorithm is intended for adult patients only; ●
C.O. monitoring is restricted to adult patients only: ●
ICG monitoring is only for use on adult patients who meet the following ● requirements: height: 122 to 229cm, weight: 30 to 155kg.

The T1 Patient Monitor is intended for monitoring, displaying, reviewing, storing, and transferring of multiple physiological parameters including ECG (3-lead, or 12-lead selectable, arrhythmia detection, ST Segment analysis, and heart rate (HR)), respiration (Resp), temperature (Temp), pulse oxygen saturation (SpOz), pulse rate (PR), non-invasive blood pressure (NIBP), invasive blood pressure (IBP), pulmonary artery wedge pressure (PAWP), and carbon dioxide (CO2). The equipment also provides an interpretation of resting 12-lead ECG.

All the parameters can be monitored on single adult, pediatric, and neonatal patients with the exception of the following:

The arrhythmia detection, ST Segment analysis of Mortara algorithm, and PAWP monitoring are intended for adult and pediatric patients;

ST Segment analysis of Mindray ECG algorithm is intended for adult patients only;

Device Description

The subject Passport Series Patient Monitors includes three monitors:

. Passport 12M Patient Monitor
Passport 17M Patient Monitor ●
T1 Patient Monitor

All of the devices in the family are multiparameter monitors indicated for monitoring, displaying, reviewing, alarming, and transferring multiple physiological parameters. The Passport 12M and 17M Patient monitors provide patient monitoring capabilities based on the user selected modules that are plugged into the main monitor. The T1 patient monitor is one of the available modules that can be plugged into the Passport 17M or 12M monitor. The T1 can also be used as a standalone monitor and when used as a standalone monitor, it provides a subset of the functions that are provided by Passport 17M and 12M.

Each of the three monitors that are the subject of this 510(k) are modified versions of previously cleared Mindray devices. The Passport 17M and Passport 12M were previously cleared in K132075, on April 18, 2014 and the T1 was previously cleared in K123074 on July 3, 2013.

AI/ML Overview

The provided text is a 510(k) Summary for the Mindray Passport Series Patient Monitors (K143195). This document focuses on demonstrating substantial equivalence to a predicate device, rather than providing detailed acceptance criteria and a single study proving that the device meets those criteria.

The core of the submission is that the subject devices are modified versions of previously cleared Mindray devices (K132075 and K123074). The performance data cited refers to functional and system-level testing to evaluate the performance of the modifications and ensure continued adherence to specifications and relevant consensus standards. It does not contain information about a specific single study with acceptance criteria and results.

Given the nature of the K143195 submission as an amendment/modification to existing devices, the information provided focuses on the changes and how these changes do not alter the substantial equivalence to the predicate devices. Therefore, the requested information about acceptance criteria and a detailed study proving the device meets those criteria for the entire device as if it were a novel submission is not explicitly present in the provided text.

However, I can extract information related to the performance characteristics, which serve as implicit acceptance criteria based on the predicate device's performance and general recognized standards for patient monitors.

Here's an attempt to structure the answer based on the available information, noting where specific details are not provided:

1. Table of Acceptance Criteria and Reported Device Performance

The document doesn't present a formal table of acceptance criteria with corresponding performance results in a standalone "study summary" format. Instead, it compares the specifications of the subject devices to the predicate device. The "acceptance criteria" are implied to be the specifications of the predicate device and relevant industry standards. The "reported device performance" is generally stated as "Same" or that the new (modified) features "meet specifications" or "are equivalent to the predicate device."

Here's an illustrative table based on the provided "Device Comparison Table," highlighting areas that could be inferred as "acceptance criteria" and "performance":

Feature Category	Parameter	Implicit Acceptance Criteria (from Predicate Device K132075)	Reported Subject Device Performance (K143195)
General	Indications for Use	Monitoring, displaying, reviewing, alarming, and transferring multiple physiological parameters for adult, pediatric, and neonatal patients (with specific exceptions).	For Passport 12M/17M, "Same" as predicate device. For T1, Indications are a "subset" of the predicate. New feature: 12-lead ECG interpretation, noted as present in cleared Mindray V Series (K132026), implying equivalence.
Display	Integrated display and touchscreen (17M)	17", 1280*1024 pixels	Same
	Integrated display and touchscreen (12M)	12", 800*600 pixels	Same
	Integrated display and touchscreen (T1)	(Predicate K123074: 5", 480*272 pixels)	5", 480*272 pixels (same as K123074)
	Secondary display (Passport 12M/17M)	Independent control and display (17M), Linked to integrated display (12M)	Same
	Secondary display (T1)	N/A in predicate K132075	Independent display and control via a VGA port in the T1 docking station (new feature for T1)
Connectivity	Wireless module (Passport 17M)	ASUS module for network connection	Same
	Wireless module (Passport 12M)	ASUS module for network connection	Added support for Silex wireless module. "Mindray conducted Wireless functionality testing to ensure the performance of the new wireless modules meet specifications and are equivalent to the predicate device."
	Wireless module (T1)	N/A in predicate K132075	Added wireless function using the Cyberlink wireless module. "Mindray conducted Wireless functionality testing to ensure the performance of the new wireless modules meet specifications and are equivalent to the predicate device."
Physiological Params	ECG (features)	3-lead, 5-lead or 12-lead selectable, arrhythmia detection, ST segment analysis, heart rate	Same
	12-lead ECG interpretation	Not supported (Predicate K132075)	Supported (All subject devices). Justified by equivalence to K132026. Performance not detailed here.
	ECG J-point auto detection	Supported	Same (17M, 12M). Added (T1). Performance not detailed.
	Respiration rate (Resp) Measurement & Accuracy	Adult: 0-120 rpm, Pediatric/Neonate: 0-150 rpm. Accuracy: 7-150 rpm: ±2 rpm or ±2%, whichever is greater; 0-6 rpm: Not specified.	Same
	Temperature (Temp) Measurement & Accuracy	0-50°C (32-122°F). Accuracy: ±0.1°C or ±0.2°F (without probe).	Same
	SpO2 Measurement & Accuracy (Mindray SpO2)	Range: 0-100%. Accuracy: 70-100%: ±2% (adult/pediatric), ±3% (neonate); 0-69%: Not specified.	Same
	SpO2 Measurement & Accuracy (Masimo SpO2)	Range: 1-100%. Accuracy: 70-100%: ±2% (no motion, adult/pediatric), ±3% (no motion, neonate), ±3% (with motion); 1-69%: Not specified.	Same
	SpO2 Measurement & Accuracy (Nellcor SpO2)	Range: 0-100%. Accuracy: 70-100%: ±2% (adult/pediatric), ±3% (neonate); 0-69%: Not specified.	Same
	Pulse rate (PR) from SpO2 Module	Mindray SpO2: 20-254 bpm, ±3 bpm. Masimo SpO2: 25-240 bpm, ±3 bpm (no motion), ±5 bpm (with motion). Nellcor SpO2: 20-300 bpm, 20-250 bpm: ±3 bpm.	Same
	Pulse rate (PR) from IBP Module	25-350 bpm, ±1 bpm or ±1%.	Same
	NIBP Measurement & Accuracy	Adult Systolic: 40-270 mmHg, Diastolic: 10-210 mmHg, Mean: 20-230 mmHg. Pediatric Systolic: 40-200 mmHg, Diastolic: 10-150 mmHg, Mean: 20-165 mmHg. Neonate Systolic: 40-135 mmHg, Diastolic: 10-100 mmHg, Mean: 20-110 mmHg. Accuracy: Max mean error: ±5 mmHg, Max standard deviation: 8 mmHg.	Same
	IBP Measurement & Accuracy	Range: -50 to 300 mmHg. Accuracy: ±2% or ±1 mmHg, whichever is greater (without sensor).	Same
	Pulse Pressure Variation (PPV)	Supported feature of IBP (Passport 12M/17M)	Same (17M, 12M). Added (T1).
	CO2 Measurement & Accuracy	Sidestream: 0-99 mmHg; Accuracy: 0-40 mmHg: ±2 mmHg, 41-76 mmHg: ±5%, 77-99 mmHg: ±10%. Microstream: 0-99 mmHg; Accuracy: 0-38 mmHg: ±2 mmHg, 39-99 mmHg: ±5% +0.08% of (reading-38). Mainstream: 0-150 mmHg; Accuracy: 0-40 mmHg: ±2 mmHg, 41-70 mmHg: ±5%, 71-100 mmHg: ±8%, 101-150 mmHg: ±10%.	Specifications unchanged. Modules repackaged to occupy a single slot. (All subject devices).
Other	3 Additional SpO2 Sensors	None (Predicate K132075)	Added LNCS NeoPt, LNCS Neo, LNCS Inf. Cleared in K132037 (implies their performance against specific standards is already established).
	4 New NIBP cuffs	None (Predicate K132075)	Added CM1306, CM1307, CM1506, CM1507. Substantial equivalent to NIBP cuffs cleared in K132075 and K092449 (implies their performance against specific standards is already established).

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

The document does not detail specific sample sizes for test sets for individual parameters or features. It states:

"Mindray conducted functional and system level testing on the subject devices. The testing provided an evaluation of the performance of the device relevant to each of the modifications to the subject devices since their previous clearance."
"Mindray has conducted testing to ensure the subject devices meet relevant consensus standards."
"Mindray has also followed the FDA Class II Special Controls Guidance Document: Arrhythmia Detector and Alarm issues on October 28, 2003."
"Mindray conducted Wireless functionality testing to ensure the performance of the new wireless modules meet specifications and are equivalent to the predicate device."

There is no mention of data provenance (e.g., country of origin, retrospective/prospective). The studies appear to be internal V&V testing.

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

There is no information provided regarding the number or qualifications of experts used to establish ground truth for any test sets. The testing referenced appears to be engineering/technical validation against specifications and standards rather than clinical studies requiring expert adjudication of data. For interpretations like 12-lead ECG, it is stated that the feature is equivalent to a previously cleared device (K132026), implying that its validation methods would have been established there.

4. Adjudication Method for the Test Set

No adjudication method is described.

5. If a Multi-Reader Multi-Case (MRMC) Comparative Effectiveness Study was done

No MRMC comparative effectiveness study is mentioned. This type of study is typically done for diagnostic imaging devices or algorithms where human interpretation is a key component and the AI is intended to assist, altering reader performance. For a patient monitor, the performance validation is typically against direct physiological measurements and established standards.

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

The entire device (the patient monitor) is a standalone system in the sense that its algorithms process physiological signals and present data and alarms. The performance data described ("functional and system level testing") would inherently be evaluating the algorithms and hardware in isolation from a human interpretation loop. For example, SpO2 accuracy is measured against a reference, not against a human's interpretation of SpO2. The 12-lead ECG interpretation, being an automated algorithm output, would be assessed for its accuracy as a standalone function.

7. The Type of Ground Truth Used

Based on the nature of the device (physiological monitor) and the parameters listed, the ground truth would typically be established by:

Reference standards/equipment: For parameters like NIBP, IBP, SpO2, Temperature, CO2, etc., the device's measurements are compared against highly accurate reference measurement equipment or simulators.
Known input signals: For features like arrhythmia detection, standardized ECG waveforms with known arrhythmias are often used.
Clinical data: For capabilities like 12-lead ECG interpretation, ground truth is usually established by highly experienced cardiologists' interpretations, though the document only refers to equivalence to a previously cleared device for this feature.
Specifications: The "acceptance criteria" are derived from the performance specifications of the predicate device and relevant international standards.

8. The Sample Size for the Training Set

The document does not describe the development or training of AI/ML algorithms. It is a 510(k) for hardware and software modifications to an existing patient monitor, rather than a novel AI/ML device. Therefore, no information on training set sample size is provided. The functions described (e.g., arrhythmia detection, ST segment analysis) typically rely on established signal processing algorithms, not necessarily machine learning requiring explicit "training sets" in the modern sense.

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

As no training set is mentioned for AI/ML algorithms, this information is not applicable and not provided in the document.

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