Rad-67 Pulse CO-Oximeter Operators Manual Sept 2019

Operators Manual

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Operator's Manual

Rad-67™ Pulse CO-Oximeter® Spot-Check

Not for Sale in the USA - For Export Only These operating instructions provide the necessary information for proper operation of all models of the Rad-67. There may be information provided in this manual that is not relevant for your system. General knowledge of pulse oximetry and an understanding of the features and functions of Rad-67 are prerequisites for its proper use. Do not operate Rad-67 without completely reading and understanding these instructions. Notice: Purchase or possession of this device does not carry any express or implied license to use with replacement parts which would, alone or in combination with this device, fall within the scope of one of the relating patents. For professional use. See instructions for use for full prescribing information, including indications, contraindications, warnings, and precautions. Wireless Radio: Contains: FCC ID: VKF-MWM1 | Model: Rad-67 | Contains: IC: 7362A-MWM1 | IC Model: MWM1 Masimo Corporation 52 Discovery Irvine, CA 92618, USA Tel.: 949-297-7000 Fax.: 949-297-7001 www.masimo.com EU authorized representative for Masimo Corporation: MDSS GmbH Schiffgraben 41 D-30175 Hannover, Germany

3149433

MEDICAL ELECTRICAL EQUIPMENT WITH RESPECT TO ELECTRIC SHOCK, FIRE AND MECHANICAL HAZARDS ONLY IN ACCORDANCE WITH Conforms to ANSI/AAMI std. ES 60601-1:2005, Certified to CAN/CSA std. C22.2 No. 60601-1:2008, and applicable Particular, (ISO 80601-2-61:2011) and related Collateral (IEC 60601-1-11:2010) Standards for which the product has been found to comply by Intertek.

Patents: www.masimo.com/patents.htm ® , Adaptive Probe Off Detection®, APOD®, Discrete Saturation Transform®, DST®, FastSat®, FST®, Masimo®, Pulse CO-Oximeter®, PVi®, rainbow®, SET®, Signal Extraction Technology®, Signal IQ®, SpCO®, SpHb®, SpMet®, X-Cal® are federally registered trademarks of Masimo Corporation.

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Contents About This Manual-------------------------------------------------------------------------------------------7 Product Description, Features and Indications for Use----------------------------------------------- 9 Product Description ------------------------------------------------------------------------------------- 9 Indications for Use-------------------------------------------------------------------------------------- 9 Contraindications --------------------------------------------------------------------------------------- 9 Safety Information, Warnings and Cautions ---------------------------------------------------------- 11 Safety Warnings and Cautions ----------------------------------------------------------------------- 11 Performance Warnings and Cautions --------------------------------------------------------------- 12 Cleaning and Service Warnings and Cautions ---------------------------------------------------- 16 Compliance Warnings and Cautions ---------------------------------------------------------------- 16 Chapter 1: Technology Overview ------------------------------------------------------------------------ 19 Signal Extraction Technology® (SET®) ------------------------------------------------------------ 19 rainbow Pulse CO-Oximetry Technology® --------------------------------------------------------- 22 Chapter 2: Description ------------------------------------------------------------------------------------ 27 General System Description -------------------------------------------------------------------------- 27 Features --------------------------------------------------------------------------------------------------28 Chapter 3: Setting Up------------------------------------------------------------------------------------- 29 Unpacking and Inspection --------------------------------------------------------------------------- 29 Preparation for Use ------------------------------------------------------------------------------------ 29 Guidelines for Setting Up ----------------------------------------------------------------------------- 29 Initial Battery Charging ------------------------------------------------------------------------------- 29 Powering the Rad-67 ON and OFF ------------------------------------------------------------------ 30 Connecting to Wireless Network -------------------------------------------------------------------- 31 Connecting to a Printer ------------------------------------------------------------------------------- 31 Chapter 4: Operation ------------------------------------------------------------------------------------- 33 Using the Touchscreen and Home Button -------------------------------------------------------- 33 About the Main Screen -------------------------------------------------------------------------------- 37 Accessing Main Menu Options ----------------------------------------------------------------------- 42 Parameter Settings ------------------------------------------------------------------------------------ 44 Additional Settings ------------------------------------------------------------------------------------ 49 Spot-Check Settings ---------------------------------------------------------------------------------- 50 www.masimo.com

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Rad-67

Contents

Spot-Check Sessions ---------------------------------------------------------------------------------- 51 Sounds --------------------------------------------------------------------------------------------------- 54 Device Settings ----------------------------------------------------------------------------------------- 55 About----------------------------------------------------------------------------------------------------- 64 Screenshot Capture ------------------------------------------------------------------------------------ 65 Chapter 5: Spot-Check ------------------------------------------------------------------------------------ 67 Performing a Spot-Check ----------------------------------------------------------------------------- 68 Spot-Check Results ------------------------------------------------------------------------------------ 70 Chapter 6: Alerts and Messages ------------------------------------------------------------------------ 73 About Alerts--------------------------------------------------------------------------------------------- 73 Messages ------------------------------------------------------------------------------------------------ 74 Chapter 7: Troubleshooting ------------------------------------------------------------------------------ 77 Troubleshooting Measurements--------------------------------------------------------------------- 77 Troubleshooting Rad-67 ------------------------------------------------------------------------------ 81 Chapter 8: Specifications -------------------------------------------------------------------------------- 85 Display Range ------------------------------------------------------------------------------------------ 85 Accuracy (ARMS*) ------------------------------------------------------------------------------------- 85 Resolution ----------------------------------------------------------------------------------------------- 86 Electrical------------------------------------------------------------------------------------------------- 87 Environmental------------------------------------------------------------------------------------------ 87 Physical Characteristics ------------------------------------------------------------------------------ 88 Historical Data Storage ------------------------------------------------------------------------------- 88 Display Indicators-------------------------------------------------------------------------------------- 88 Compliance --------------------------------------------------------------------------------------------- 88 Output Interface --------------------------------------------------------------------------------------- 89 Wireless Specifications ------------------------------------------------------------------------------- 89 Guidance and Manufacturer's Declaration-Electromagnetic Emissions---------------------- 92 Guidance and Manufacturer's Declaration-Electromagnetic Immunity ---------------------- 93 Recommended Separation Distances -------------------------------------------------------------- 96 Symbols-------------------------------------------------------------------------------------------------- 97 Citations ------------------------------------------------------------------------------------------------- 99 Chapter 9: Service and Maintenance ---------------------------------------------------------------- 101 Cleaning ----------------------------------------------------------------------------------------------- 101 www.masimo.com

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Contents

Performance Verification --------------------------------------------------------------------------- 101 Maintenance ------------------------------------------------------------------------------------------ 102 Repair Policy ------------------------------------------------------------------------------------------ 103 Return Procedure------------------------------------------------------------------------------------- 103 Contacting Masimo ---------------------------------------------------------------------------------- 103 Index ------------------------------------------------------------------------------------------------------- 107

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About This Manual This manual explains how to set up and use Rad-67™ Pulse CO-Oximeter®. Important safety information relating to general use of Rad-67 appears in this manual. Read and follow any warnings, cautions, and notes presented throughout this manual. The following are explanations of warnings, cautions, and notes. A warning is given when actions may result in a serious outcome (for example, injury, serious adverse effect, death) to the patient or user. WARNING: This is an example of a warning statement. A caution is given when any special care is to be exercised by the patient or user to avoid injury to the patient, damage to this device, or damage to other property. CAUTION: This is an example of a caution statement. A note is given when additional general information is applicable. Note: This is an example of a note.

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Product Description, Features and Indications for Use Product Description Rad-67™ Pulse CO-Oximeter® is a non-invasive device intended to measure functional oxygen saturation of arterial hemoglobin (SpO2), pulse rate (PR), perfusion index (Pi), and Pleth Variability Index (PVi) along with optional non-invasive measurements of total hemoglobin (SpHb), carboxyhemoglobin (SpCO), total oxygen content (SpOC), and methemoglobin (SpMet). The following key features are available for Rad-67: •

Masimo SET and rainbow SET™ technology performance.

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SpO2 and pulse rate measurements in motion and low perfusion environments.

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Spot-check monitoring of carboxyhemoglobin (SpCO), methemoglobin (SpMet), and total hemoglobin (SpHb).

•

Wireless radio for transfer of parameter data and connection to wireless printers.

Indications for Use The Masimo Rad-67™ Pulse CO-Oximeter® and accessories are indicated for non-invasive spot checking of functional saturation of arterial oxygen hemoglobin (SpO2), pulse rate (PR), carboxyhemoglobin saturation (SpCO), methemoglobin saturation (SpMet), and total hemoglobin concentration (SpHb). The Masimo Rad-67™ Pulse CO-Oximeter® and accessories are indicated for use by trained personnel with adult, pediatric and infant individuals during both no motion and motion conditions and for individuals who are well or poorly perfused in clinical and non-clinical settings (e.g., hospitals, hospital-type facilities, mobile environments, home, clinics, physician offices, blood donation facilities, and ambulatory surgery centers).

Contraindications The Rad-67 is not intended for use as an apnea monitor.

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Safety Information, Warnings and Cautions CAUTION: Rad-67 is to be operated by, or under the supervision of, qualified personnel only. Read the manual, accessories directions for use, all precautionary information, and specifications before use.

Safety Warnings and Cautions WARNING: Do not use Rad-67 if it appears or is suspected to be damaged. Damage to the device can result in exposed electrical circuits that may cause patient harm. WARNING: Do not adjust, repair, open, disassemble, or modify the Rad-67. Damage to the device may result in degraded performance and/or patient injury. WARNING: Do not start or operate the Rad-67 unless the setup was verified to be correct. Improper set-up of this device may result in degraded performance and/or patient injury. WARNING: Do not place the Rad-67 or accessories in any position that might cause it to fall on the patient. WARNING: Only use Masimo authorized devices with Rad-67. Using unauthorized devices with Rad-67 may result in damage to the device and/or patient injury. WARNING: All sensors and cables are designed for use with specific devices. Verify the compatibility of the device, cable, and sensor before use; otherwise degraded performance and/or patient injury can result. WARNING: Do not use the Rad-67 in the presence of flammable anesthetics or other flammable substance in combination with air, oxygen-enriched environments, or nitrous oxide to avoid risk of explosion. WARNING: Do not use the Rad-67 during magnetic resonance imaging (MRI) or in an MRI environment. WARNING: Rad-67 may be used during defibrillation. However, to reduce the risk of electric shock, the operator should not touch the Rad-67 during defibrillation. WARNING: To protect against electrical shock injury, follow the directions below: •

Avoid placing the device on surfaces with visible liquid spills.

•

Do not soak or immerse the device in liquids.

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Do not attempt to sterilize the device.

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Use cleaning solutions only as instructed in this Operator's Manual.

•

Do not attempt to clean the Rad-67 while monitoring patient.

WARNING: To ensure safety, avoid placing anything on the device during operation. WARNING: As with all medical equipment, carefully route patient cables to reduce the possibility of patient entanglement or strangulation. CAUTION: Do not place the Rad-67 where the controls can be changed by the patient. CAUTION: Do not place Rad-67 where the AC power supply cannot be readily disconnected when used on AC power. www.masimo.com

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Rad-67

Safety Information, Warnings and Cautions

CAUTION: To ensure patient electrical isolation, all external device connections to the output interface port must be done using only authorized data cables. Note: Disconnect the device from AC mains by unplugging the AC power supply from the Rad-67. Note: Use and store the Rad-67 in accordance with specifications. See the Specifications section in this manual.

Performance Warnings and Cautions WARNING: Do not use for continuous monitoring. Rad-67 is intended for spot-checking only, no physiological alarms are provided. WARNING: Rad-67 should not be used as the sole basis for medical decisions. It must be used in conjunction with clinical signs and symptoms. WARNING: The Rad-67 and Accessories are not intended to be used as the sole basis for making diagnosis or treatment decisions related to suspected carbon monoxide poisoning; it is intended to be used in conjunction with additional methods of assessing clinical signs and symptoms. WARNING: If any measurement seems questionable, first check the patient’s vital signs by alternate means and then check Rad-67 for proper functioning. WARNING: Variation in hemoglobin measurements may be profound and may be affected by sample type, body positioning, as well as other physiological conditions. Any results exhibiting inconsistency with the patient's clinical status should be repeated and/or supplemented with additional data. WARNING: Rad-67 should not be used as a replacement or substitute for ECG-based arrhythmia analysis. WARNING: Rad-67 may be used during defibrillation. This may affect the accuracy or availability of the parameters and measurements. WARNING: Rad-67 may be used during electrocautery. This may affect the accuracy or availability of the parameters and measurements. WARNING: Rad-67 may not fully charge in a high ambient temperature environment. WARNING: Properly apply sensors according to sensor's directions for use. Misapplied sensor or sensors that become partially dislodged may cause no or incorrect readings. WARNING: Select a well perfused site for monitoring, very low perfusion at the monitored site may result in no or incorrect readings. WARNING: Do not use Rad-67 on patients that have been injected with dyes or any substance containing dyes, the change in usual blood pigmentation may cause no or incorrect readings. WARNING: Displayed parameter(s) may not be accurate when a low SIQ message is provided. Clinicians should consider additional information to supplement values to completely understand the patient’s condition. WARNING: If SpO2 values indicate hypoxemia, a laboratory blood sample should be taken to confirm the patient’s condition. WARNING: SpO2 is empirically calibrated in healthy adult volunteers with normal levels of carboxyhemoglobin (COHb) and methemoglobin (MetHb). www.masimo.com

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Rad-67

Safety Information, Warnings and Cautions

WARNING: Optical, pleth-based measurements (e.g. SpO2, SpHb, SpOC, SpMet, and SpCO) can be affected by the following: •

Improper sensor application or use of use of incorrect sensor.

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Blood pressure cuff applied to the same arm as the sensor site.

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Intravascular dyes such as indocyanine green or methylene blue.

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Venous congestion.

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Abnormal venous pulsations (e.g. tricuspid value regurgitation, Trendelenburg position).

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Abnormal pulse rhythms due to physiological conditions or induced through external factors (e.g. cardiac arrhythmias, intra-aortic balloon, etc.).

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Externally applied coloring and texture such as nail polish, acrylic nails, glitter, etc.

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Moisture, birthmarks, skin discoloration, nail aberration, deformed fingers, or foreign objects in the light path.

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Elevated levels of bilirubin.

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Physiological conditions that can significantly shift the oxygen disassociation curve.

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A physiological condition that may effect vasomotor tone or changes in vasomotor tone.

WARNING: Inaccurate SpO2 readings may be caused by: •

Elevated levels of COHb and/or MetHb.

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Severe anemia.

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Extremely low arterial perfusion.

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Excessive induced motion.

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Hemoglobinopathies (qualitative defects including sickle cell) and Hemoglobin synthesis disorders (Quantitative defects such as Thalassemias).

WARNING: Inaccurate SpHb and SpOC readings may be caused by: •

Low arterial perfusion.

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Motion induced artifact.

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Low arterial oxygen saturation levels.

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Elevated COHb and/or MetHb levels.

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Hemoglobinopathies (qualitative defects including sickle cell) and Hemoglobin synthesis disorders (quantitative defects such as Thalassemias).

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Severe anemia.

WARNING: Inaccurate SpCO readings may be caused by: •

Elevated methemoglobin levels in the range of >15%.

•

Hemoglobinopathies (qualitative defects including sickle cell) and Hemoglobin synthesis disorders (quantitative defects such as Thalassemias).

• Extremely elevated hemoglobin levels. www.masimo.com 13

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Safety Information, Warnings and Cautions

•

Low arterial perfusion.

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Low arterial oxygen saturation levels including altitude induced hypoxemia.

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Motion induced artifact.

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Severe anemia.

WARNING: SpCO readings may not be provided if there are Low arterial oxygen saturation levels or elevated methemoglobin levels. WARNING: Inaccurate SpMet readings may be caused by: •

Elevated carboxyhemoglobin levels in the range of > 3%.

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Hemoglobinopathies (qualitative defects including sickle cell) and Hemoglobin synthesis disorders (quantitative defects such as Thalassemias).

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Extremely elevated hemoglobin levels.

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Low arterial perfusion.

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Low arterial oxygen saturation levels including altitude induced hypoxemia.

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Motion induced artifact.

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Physiological conditions that can significantly shift the oxygen disassociation curve.

•

Severe anemia.

WARNING: Kidney Disease Feature is not intended to diagnose or assess a patient’s kidney function. The feature is intended to be an optional feature that can be enabled based upon the assessment of the clinician. WARNING: Do not use the Kidney Disease Feature on patients who do not have Kidney Disease. SpHb measurements may incorrectly reflect a shift in the measurement bias. CAUTION: If using Rad-67 during full body irradiation, keep the sensor out of the radiation field. If the sensor is exposed to the radiation, the reading might be inaccurate or the device might read zero for the duration of the active irradiation period. CAUTION: When patients are undergoing photodynamic therapy they may be sensitive to light sources. Pulse oximetry may be used only under careful clinical supervision for short time periods to minimize interference with photodynamic therapy. CAUTION: High ambient light sources such as surgical lights (especially those with a xenon light source), bilirubin lamps, fluorescent lights, infrared heating lamps, and direct sunlight can interfere with the performance of the sensor. CAUTION: To prevent interference from ambient light, ensure that the sensor is properly applied, and cover the sensor site with opaque material, if required. Failure to take this precaution in high ambient light conditions may result in inaccurate measurements. CAUTION: When using a compatible sensor, ensure the gender has been entered correctly. Entering an incorrect gender may affect measurement performance of the device. CAUTION: If the Low Perfusion message is frequently displayed, find a better perfused monitoring site. In the interim, assess the patient and, if indicated, verify oxygenation status through other means. CAUTION: To minimize radio interference, other electrical equipment that emits radio frequency transmissions should not be in close proximity to Rad-67. www.masimo.com

Masimo

Rad-67

Safety Information, Warnings and Cautions

CAUTION: Do not place the Rad-67 near electrical equipment that may affect the device, preventing it from working properly. CAUTION: Failure to charge Rad-67 promptly after a Low Battery alarm may result in the device shutting down. CAUTION: Do not connect the AC power supply to an electrical outlet controlled by a wall switch or dimmer. CAUTION: In order to establish and maintain Rad-67’s minimum Quality of Service, the following network specifications should be met before and after installation: •

Wired Network Connection During Ping Test, passing result if: a. At least 98% of packets have latency ≤ 30 milliseconds, and b. No more than 2 % packets loss.

•

Wireless Network Connection During Ping Test, passing result if: a. At least 98% of packets have latency ≤ 100 milliseconds, b. No more than 2 % packets loss, and c. Primary access point signal strength at least -67 dBm.

CAUTION: The wireless quality of services may be influenced by the presence of other devices that may create radio frequency interference (RFI). Some RFI devices to consider are as follows: electrocautery equipment, cellular telephones, wireless PC and tablets, pagers, RFID, MRI electrically powered wheelchair, etc. When used in the presence of potential RFI devices, consideration should be taken to maximize separation distances and to observe for any potential signs of interference such as loss of communication or reduced Wi-Fi signal strength. CAUTION: Replace the cable or sensor when a replace sensor or when a low SIQ message is consistently displayed while monitoring consecutive patients after completing the low SIQ troubleshooting steps listed in the troubleshooting section. CAUTION: Due to edema at the measurement site for patients suffering from Kidney Disease, SpHb measurements may present a potential bias. Enable the Kidney Disease Feature (when available) for patients suffering from Kidney Disease to help reduce the impact of any potential bias. CAUTION: For pregnant patients, SpHb readings may be inaccurate due to possible edema at the measurement site. (For patients with kidney disease, please refer to Enabling the Kidney Disease Feature on page 50.) CAUTION: SpHb readings may be inaccurate for patients due to edema at the measurement site. (For patients with kidney disease, please refer to Enabling the Kidney Disease Feature on page 50.) Note: Cables and sensors are provided with X-Cal™ technology to minimize the risk of inaccurate readings and unanticipated loss of patient monitoring. Refer to the Cable or Sensor Directions for Use for the specified duration of patient monitoring time. Note: Physiological conditions that result in loss of pulsatile signal may result in no SpO2, SpHb, SpOC, SpCO, or SpMet readings. Note: Rad-67 is provided with a Wi-Fi signal indicator as an indication of Wi-Fi communication. www.masimo.com

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Rad-67

Safety Information, Warnings and Cautions

Note: Always charge Rad-67 when it is not in use to ensure that the battery remains fully charged. Note: All batteries lose capacity with age, thus the amount of run time at Low Battery will vary depending upon the age of the Battery Module. Note: A functional tester cannot be used to assess the accuracy of Rad-67. Note: When using the Maximum Sensitivity setting, performance of the "Sensor Off" detection may be compromised. If the Rad-67 is in this setting and the sensor becomes dislodged from the patient, the potential for false readings may occur due to environmental "noise" such as light, vibration, and excessive air movement. Note: The Kidney Disease Feature is only available on the Rad-67 when a supported sensor is provided. Note: Additional information specific to the Masimo sensors compatible with Rad-67, including information about parameter/measurement performance during motion and low perfusion, may be found in the sensor's directions for use (DFU).

Cleaning and Service Warnings and Cautions WARNING: Do not attempt to remanufacture, recondition or recycle the Rad-67 as these processes may damage the electrical components, potentially leading to patient harm. WARNING: To avoid electric shock, do not attempt to replace or remove the Battery from the Rad-67. Service of Rad-67 should be done by qualified personnel only. CAUTION: Only perform maintenance procedures specifically described in the manual. Otherwise, return the Rad-67 for servicing. CAUTION: Do not touch, press, or rub the display panels with abrasive cleaning compounds, instruments, brushes, rough-surface materials, or bring them into contact with anything that could scratch the display. CAUTION: To avoid permanent damage to the Rad-67, do not use undiluted bleach (5% 5.25% sodium hypochlorite) or any other cleaning solution not recommended. CAUTION: Do not use petroleum-based or acetone solutions, or other harsh solvents, to clean the Rad-67. These substances affect the device’s materials and device failure can result. CAUTION: Do not submerge the Rad-67 in any cleaning solution or attempt to sterilize by autoclave, irradiation, steam, gas, ethylene oxide or any other method. This will seriously damage the device. CAUTION: To prevent damage, do not soak or immerse Rad-67 in any liquid solution.

Compliance Warnings and Cautions WARNING: Any changes or modifications not expressly approved by Masimo shall void the warranty for this equipment and could void the user’s authority to operate the equipment. WARNING: In accordance with international telecommunication requirements, the frequency band of 2.4 GHz and 5.15 to 5.25 GHz is only for indoor usage to reduce potential for harmful interference to co-channel mobile satellite systems. WARNING: Per RSS-Gen, Section 8.4 This device complies with Industry Canada license-exempt RSS standard(s). Operation is subject to the following two conditions: (1) this device may not cause interference, and (2) this device must accept any interference, www.masimo.com 16 Masimo

Rad-67

Safety Information, Warnings and Cautions

including interference that may cause undesired operation of the device. Per RSS-Gen, Radio apparatus shall comply with the requirements to include required notices or statements to the user of equipment with each unit of equipment model offered for sale. CAUTION: Disposal of Product: Comply with local laws in the disposal of the device and/or its accessories. CAUTION: Device contains an internal battery. Dispose of the battery according to required country or regional requirements. Note: Use Rad-67 in accordance with the Environmental Specifications section in the Operator's Manual. Note: This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. Note: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures: •

Reorient or relocate the receiving antenna.

•

Increase the separation between the equipment and receiver.

•

Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.

•

Consult the dealer or an experienced radio/TV technician for help.

Note: This equipment has been tested and found to comply with the Class B limits for medical devices according to the EN 60601-1-2: 2007, Medical Device Directive 93/42/EEC. These limits are designed to provide reasonable protection against harmful interference in all establishments, including domestic establishments. Note: In order to maintain compliance with FCC regulations, shielded cables must be used with this equipment. Operation with non-approved equipment or unshielded cables is likely to result in interference to radio and TV reception. The user is cautioned that changes and modifications made to the equipment without the approval of manufacturer could void the user's authority to operate this equipment. Note: To satisfy RF exposure requirements, this device and its antenna must not be co-located or operating in conjunction with any other antenna or transmitter. Note: This Class B digital apparatus complies with Canadian ICES-003. Note: This device complies with Industry Canada license-exempt RSS standard(s). Operation is subject to the following two conditions: (1) this device may not cause interference, and (2) this device must accept any interference, including interference that may cause undesired operation of the device.

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Chapter 1: Technology Overview The following chapter contains general descriptions about parameters, measurements, and the technology used by Masimo products.

Signal Extraction Technology® (SET®) Masimo Signal Extraction Technology's signal processing differs from that of conventional pulse oximeters. Conventional pulse oximeters assume that arterial blood is the only blood moving (pulsating) in the measurement site. During patient motion, however, the venous blood also moves, causing conventional pulse oximeters to read low values, because they cannot distinguish between the arterial and venous blood movement (sometimes referred to as noise). Masimo SET® pulse oximetry utilizes parallel engines and adaptive filtering. Adaptive filters are powerful because they are able to adapt to the varying physiologic signals and/or noise and separate them by looking at the whole signal and breaking it down to its fundamental components. The Masimo SET® signal processing algorithm, Discrete Saturation Transform® (DST®), in parallel with Fast Saturation Transform (FST®), reliably identifies the noise, isolates it and, using adaptive filters, cancels it. It then reports the true arterial oxygen saturation for display on the monitor.

Masimo rainbow SET® Parallel Engines This figure is for conceptual purposes only.

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Rad-67

Chapter 1: Technology Overview

Masimo SET® DST This figure is for conceptual purposes only.

General Description for Oxygen Saturation (SpO2) Pulse oximetry is governed by the following principles: 1. 2.

Oxyhemoglobin (oxygenated blood) and deoxyhemoglobin (non-oxygenated blood) differ in their absorption of red and infrared light (spectrophotometry). The amount of arterial blood in tissue changes with your pulse (photoplethysmography). Therefore, the amount of light absorbed by the varying quantities of arterial blood changes as well.

Successful Monitoring for SpO2, PR and Pi Stability of the SpO2 readings may be a good indicator of signal validity. Although stability is a relative term, experience will provide a good feeling for changes that are artifactual or physiological and the speed, timing, and behavior of each. The stability of the readings over time is affected by the averaging time being used. The longer the averaging time, the more stable the readings tend to become. This is due to a dampened response as the signal is averaged over a longer period of time than during shorter averaging times. However, longer averaging times delay the response of the oximeter and reduce the measured variations of SpO2 and pulse rate.

Functional Oxygen Saturation (SpO2) The Rad-67 is calibrated to measure and display functional oxygen saturation (SpO2): the amount of oxyhemoglobin expressed as a percentage of the hemoglobin that is available to transport oxygen. Note: Dyshemoglobins are not capable of transporting oxygen, but are recognized as oxygenated hemoglobins by conventional pulse oximetry.

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Rad-67

Chapter 1: Technology Overview

General Description for Pulse Rate (PR) Pulse rate (PR), measured in beats per minute (BPM) is based on the optical detection of peripheral flow pulse.

General Description for Perfusion Index (Pi) The Perfusion Index (Pi) is the ratio of the pulsatile blood flow to the non-pulsatile or static blood in peripheral tissue. Pi thus represents a noninvasive measure of peripheral perfusion that can be continuously and noninvasively obtained from a pulse oximeter.

General Description for Pleth Variability Index (PVi) The Pleth Variability Index (PVi) is a measure of the dynamic changes in the Perfusion Index (Pi) that occur during the respiratory cycle. The calculation is accomplished by measuring changes in Pi over a time interval where one or more complete respiratory cycles have occurred. PVi is displayed as a percentage (0-100%). PVi may show changes that reflect physiological factors such as vascular tone, circulating blood volume, and intrathoracic pressure excursions. The utility of PVi has been evaluated in clinical studies [1-11]. Technical and clinical factors that may affect PVi include probe malposition, probe site, patient motion, skin incision, spontaneous breathing activity, lung compliance, open pericardium, use of vasopressors or vasodilators, low perfusion index, subject age, arrhythmias, left or right heart failure, and tidal volume [12-14].Citations for Pleth Variability Index (PVi) 1.

2. 3.

5. 6. 7. 8.

Cannesson M., Desebbe O., Rosamel P., Delannoy B., Robin J., Bastien O., Lehot J.J. Pleth Variability Index to Monitor the Respiratory Variations in the Pulse Oximeter Plethysmographic Waveform Amplitude and Predict Fluid Responsiveness in the Operating Theatre. Br J Anaesth. 2008 Aug;101(2):200-6. Forget P, Lois F, de Kock M. Goal-Directed Fluid Management Based on the Pulse Oximeter-Derived Pleth Variability Index Reduces Lactate Levels and Improves Fluid Management. Anesth Analg. 2010 Oct;111(4):910-4. Zimmermann M., Feibicke T., Keyl C., Prasser C., Moritz S., Graf B.M., Wiesenack C. Accuracy of Stroke Volume Variation Compared with Pleth Variability Index to Predict Fluid Responsiveness in Mechanically Ventilated Patients Undergoing Major Surgery. Eur J Anaesthesiol. 2010 Jun;27(6):555-61. Desebbe O, Boucau C, Farhat F, Bastien O, Lehot JJ, Cannesson M. Anesth Analg. The Ability of Pleth Variability Index to Predict the Hemodynamic Effects of Positive End-Expiratory Pressure in Mechanically Ventilated Patients under General Anesthesia. 2010 Mar 1;110(3):792-8. Tsuchiya M., Yamada T., Asada A. Pleth Variability Index Predicts Hypotension During Anesthesia Induction. Acta Anesthesiol Scand. 2010 May;54(5):596-602. Loupec T., Nanadoumgar H., Frasca D., Petitpas F., Laksiri L., Baudouin D., Debaene B., Dahyot-Fizelier C., Mimoz O. Pleth Variability Index Predicts Fluid Responsiveness in Critically Ill Patients. Crit Care Med. 2011 Feb;39(2):294-9. Fu Q., Mi W.D., Zhang H. Stroke Volume Variation and Pleth Variability Index to Predict Fluid Responsiveness during Resection of Primary Retroperitoneal Tumors in Hans Chinese. Biosci Trends. 2012 Feb;6(1):38-43. Haas S., Trepte C., Hinteregger M., Fahje R., Sill B., Herich L., Reuter D.A. J. Prediction of Volume Responsiveness using Pleth Variability Index in Patients

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Rad-67

9. 10.

11. 12. 13. 14.

Chapter 1: Technology Overview Undergoing Cardiac Surgery after Cardiopulmonary Bypass. Anesth. 2012 Oct;26(5):696-701. Byon H.J., Lim C.W., Lee J.H., Park Y. H., Kim H.S., Kim C.S., Kim J.T. Br. J. Prediction of ﬂuid Responsiveness in Mechanically Ventilated Children Undergoing Neurosurgery. Anaesth 2013 Apr;110(4):586-91. Feissel M., Kalakhy R., Banwarth P., Badie J., Pavon A., Faller J.P., Quenot JP. Plethysmographic Variation Index Predicts Fluid Responsiveness in Ventilated Patients in the Early Phase of Septic Shock in the Emergency Department: A Pilot Study. J Crit Care. 2013 Oct;28(5):634-9. Yu Y., Dong J., Xu Z., Shen H., Zheng J. Pleth Variability Index-Directed Fluid Management in Abdominal Surgery under Combined General and Epidural Anesthesia. J Clin Monit Comput. 2014 Feb 21. Desgranges F.P., Desebbe O., Ghazouani A., Gilbert K., Keller G., Chiari P., Robin J.,Bastien O., Lehot J.J., Cannesson M. Br. J. Anaesth 2011 Sep;107(3):329-35. Cannesson M. Arterial pressure variation and goal-directed fluid therapy. J Cardiothorac Vasc Anesth. 2010 Jun;24(3):487-97. Takeyama M, Matsunaga A, Kakihana Y, Masuda M, Kuniyoshi T, Kanmura Y. Impact of Skin Incision on the Pleth Variability Index. J Clin Monit Comput 2011 Aug;25(4):215-21.

Signal IQ The Signal IQ provides an indicator of the assessment of the confidence in the displayed SpO2 value. The SpO2 SIQ can also be used to identify the occurrence of a patient’s pulse. With motion, the plethysmographic waveform is often distorted and may be obscured by noise artifact. Shown as a vertical line, the SpO2 SIQ coincides with the peak of an arterial pulsation. Even with a plethysmographic waveform obscured by artifact, the Signal IQ identifies the timing that the algorithms have determined for the arterial pulsation. The pulse tone (when enabled) coincides with the vertical line of the SpO2 SIQ. The height of the vertical line of the SpO2 SIQ provides an assessment of the confidence in the measurement displayed. A high vertical bar indicates higher confidence in the measurement. A small vertical bar indicates lower confidence in the displayed measurement. When the Signal IQ is very low, this suggests that the accuracy of the displayed measurement may be compromised. See About the Status Bar on page 38.

rainbow Pulse CO-Oximetry Technology® rainbow Pulse CO-Oximetry technology is governed by the following principles: 1.

Oxyhemoglobin (oxygenated blood), deoxyhemoglobin (non-oxygenated blood), carboxyhemoglobin (blood with carbon monoxide content), methemoglobin (blood with oxidized hemoglobin) and blood plasma constituents differ in their absorption of visible and infrared light (using spectrophotometry).

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Rad-67

Chapter 1: Technology Overview

The amount of arterial blood in tissue changes with pulse (photoplethysmography). Therefore, the amount of light absorbed by the varying quantities of arterial blood changes as well.

Rad-67 uses a multi-wavelength sensor to distinguish between oxygenated blood, deoxygenated blood, blood with carbon monoxide, oxidized blood and blood plasma. Rad-67 utilizes a sensor with various light-emitting diodes (LEDs) that pass light through the site to a diode (detector). Signal data is obtained by passing various visible and infrared lights (LEDs, 500 to 1400nm) through a capillary bed (for example, a fingertip, a hand, a foot) and measuring changes in light absorption during the blood pulsatile cycle. This information may be useful to clinicians. The maximum radiant power of the strongest light is rated at ≤ 25 mW. The detector receives the light, converts it into an electronic signal and sends it to the Rad-67 for calculation. 1. 2.

Light Emitting Diodes (LEDs) (7 + wavelengths) Detector

Once Rad-67 receives the signal from the sensor, it utilizes proprietary algorithms to calculate the patient’s functional oxygen saturation (SpO2 [%]), blood levels of carboxyhemoglobin saturation (SpCO [%]), methemoglobin saturation (SpMet [%]), total hemoglobin concentration (SpHb [g/dL]) and pulse rate (PR). The SpCO, SpMet and SpHb measurements rely on a multi-wavelength calibration equation to quantify the percentage of carbon monoxide and methemoglobin and the concentration of total hemoglobin in arterial blood. Maximum skin-sensor interface temperature was tested to be less than 41º C (106º F) in a minimum ambient temperature of 35º C (95º F). The tests were conducted with sensors operating at reasonable worst case power. www.masimo.com

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Rad-67

Chapter 1: Technology Overview

Pulse CO-Oximetry vs. Drawn Whole Blood Measurements When SpO2, SpCO, SpMet, and SpHb measurements obtained from the Rad-67 (noninvasive) are compared to drawn whole blood (invasive) measurements by blood gas and/or laboratory CO-Oximetry methods, caution should be taken when evaluating and interpreting the results. The blood gas and/or laboratory CO-Oximetry measurements may differ from the SpO2, SpCO, SpMet, SpHb, and SpOC measurements of the Rad-67. Any comparisons should be simultaneous, meaning the measurement on the device should be noted at the exact time that blood is drawn. In the case of SpO2, different results are usually obtained from the arterial blood gas sample if the calculated measurement is not appropriately corrected for the effects of variables that shift the relationship between the partial pressure of oxygen (pO2) and saturation, such as: pH,temperature, the partial pressure of carbon dioxide (pCO2), 2,3-DPG, and fetal hemoglobin. In the case of SpCO, different results are also expected if the level of methemoglobin (MetHb) in the blood gas sample is abnormal (greater than 2% for MetHb). In the case of SpHb, variation in hemoglobin measurements may be profound and may be affected by sampling technique as well as the patient's physiological conditions. Any results exhibiting inconsistency with the patient's clinical status should be repeated and/or supplemented with additional test data. As with most hemoglobin tests, a laboratory blood sample should be analyzed prior to clinical decision making. High levels of bilirubin may cause erroneous SpO2, SpMet, SpCO, and SpHb readings. As blood samples are usually taken over a period of 20 seconds (the time it takes to draw the blood) a meaningful comparison can only be achieved if the oxygen saturation (SaO2), levels of carboxyhemoglobin (COHb), and MetHb of the patient are stable and not changing over the period of time that the blood gas sample is taken. Subsequently, blood gas and laboratory CO-Oximetry measurements of SpO2, SpCO, SpMet, SpHb, and SpOC may vary with the rapid administration of fluids and in procedures such as dialysis. Additionally, drawn whole blood testing can be affected by sample handling methods and time elapsed between blood draw and sample testing. Measurements with Low Signal IQ should not be compared to laboratory measurements.

General Description for Total Hemoglobin (SpHb) Pulse CO-Oximetry is a continuous and noninvasive method of measuring the levels of total hemoglobin (SpHb) in arterial blood. It relies on the same principles of pulse oximetry to make its SpHb measurement.

Successful Monitoring for SpHb A stable SpHb reading is associated with correct sensor placement, small physiological changes during the measurement and acceptable levels of arterial perfusion at the measurement site. Physiological changes at the measurement site are mainly caused by fluctuations in the oxygen saturation, blood concentration and perfusion. See Safety Information, Warnings and Cautions on page 11 and Troubleshooting Measurements on page 77.

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