Here we report pulse oximeter performance based on Open Oximetry Project device testing using 2013 FDA Guidelines for 510k clearance and 2017 ISO 80601 standards, while also trying to account for expanded criteria to improve diversity of skin pigment in study cohorts (US FDA "Approach for Improving the Performance Evaluation of Pulse Oximeter Devices Taking Into Consideration Skin Pigmentation, Race and Ethnicity"). You can view our study protocols here, or more generally read about quantification of oximeter performance on our FAQ.

Root mean square error (ARMS) is a common measure of pulse oximeter device performance that combines bias and precision.

*NOTE: performance is only reported here once we have tested the device in ≥10 study subjects (i.e. as required by 2013 FDA and 2017 ISO requirements). Performance may change significantly as we continue to perform testing in additional subjects and conditions. Please continue to check back as we update frequently. Click the device to see details on how many subjects have been tested as well as details of skin color testing.

Here we report retail purchase costs (USD) for buying the pulse oximeter, including one adult finger probe. Costs are obtained from one or multiple sources including manufacturers or online retail stores. Of note, some devices have special discount pricing for low and middle-income countries. The special prices are not accounted for in this report.

*CAUTION: This calculator makes many assumptions, is not based on the specific manufacturer/model durability, and costs may not reflect cost of ownership in well-resourced or home care settings. Costs are based solely on the purchase cost for this oximeter and general assumptions about how long a device with this form factor (i.e., fingertip vs handheld vs tabletop) might be expected to last in a heavy-use environment (e.g., a resource-variable clinical setting with frequent use, where damage, loss and theft are possible). These assumptions were informed by input from clinicians across diverse settings. Lifetime ownership cost varies considerably by user and setting. Click the settings button next to the cost to view the formula and adjust these assumptions based on your local context and use case.

Here we report pulse oximeter performance based on Open Oximetry Project device testing using 2013 FDA Guidelines for 510k clearance and 2017 ISO 80601 standards, while also trying to account for expanded criteria to improve diversity of skin pigment in study cohorts (US FDA "Approach for Improving the Performance Evaluation of Pulse Oximeter Devices Taking Into Consideration Skin Pigmentation, Race and Ethnicity"). You can view our study protocols here, or more generally read about quantification of oximeter performance on our FAQ.

Root mean square error (ARMS) is a common measure of pulse oximeter device performance that combines bias and precision.

*NOTE: performance is only reported here once we have tested the device in ≥10 study subjects (i.e. as required by 2013 FDA and 2017 ISO requirements). Performance may change significantly as we continue to perform testing in additional subjects and conditions. Please continue to check back as we update frequently. Click the device to see details on how many subjects have been tested as well as details of skin color testing.

Here we report retail purchase costs (USD) for buying the pulse oximeter, including one adult finger probe. Costs are obtained from one or multiple sources including manufacturers or online retail stores. Of note, some devices have special discount pricing for low and middle-income countries. The special prices are not accounted for in this report.

*CAUTION: This calculator makes many assumptions, is not based on the specific manufacturer/model durability, and costs may not reflect cost of ownership in well-resourced or home care settings. Costs are based solely on the purchase cost for this oximeter and general assumptions about how long a device with this form factor (i.e., fingertip vs handheld vs tabletop) might be expected to last in a heavy-use environment (e.g., a resource-variable clinical setting with frequent use, where damage, loss and theft are possible). These assumptions were informed by input from clinicians across diverse settings. Lifetime ownership cost varies considerably by user and setting. Click the settings button next to the cost to view the formula and adjust these assumptions based on your local context and use case.

Here we report pulse oximeter performance based on Open Oximetry Project device testing using 2013 FDA Guidelines for 510k clearance and 2017 ISO 80601 standards, while also trying to account for expanded criteria to improve diversity of skin pigment in study cohorts (US FDA "Approach for Improving the Performance Evaluation of Pulse Oximeter Devices Taking Into Consideration Skin Pigmentation, Race and Ethnicity"). You can view our study protocols here, or more generally read about quantification of oximeter performance on our FAQ.

Root mean square error (ARMS) is a common measure of pulse oximeter device performance that combines bias and precision.

*NOTE: performance is only reported here once we have tested the device in ≥10 study subjects (i.e. as required by 2013 FDA and 2017 ISO requirements). Performance may change significantly as we continue to perform testing in additional subjects and conditions. Please continue to check back as we update frequently. Click the device to see details on how many subjects have been tested as well as details of skin color testing.

Here we report retail purchase costs (USD) for buying the pulse oximeter, including one adult finger probe. Costs are obtained from one or multiple sources including manufacturers or online retail stores. Of note, some devices have special discount pricing for low and middle-income countries. The special prices are not accounted for in this report.

*CAUTION: This calculator makes many assumptions, is not based on the specific manufacturer/model durability, and costs may not reflect cost of ownership in well-resourced or home care settings. Costs are based solely on the purchase cost for this oximeter and general assumptions about how long a device with this form factor (i.e., fingertip vs handheld vs tabletop) might be expected to last in a heavy-use environment (e.g., a resource-variable clinical setting with frequent use, where damage, loss and theft are possible). These assumptions were informed by input from clinicians across diverse settings. Lifetime ownership cost varies considerably by user and setting. Click the settings button next to the cost to view the formula and adjust these assumptions based on your local context and use case.

Here we report pulse oximeter performance based on Open Oximetry Project device testing using 2013 FDA Guidelines for 510k clearance and 2017 ISO 80601 standards, while also trying to account for expanded criteria to improve diversity of skin pigment in study cohorts (US FDA "Approach for Improving the Performance Evaluation of Pulse Oximeter Devices Taking Into Consideration Skin Pigmentation, Race and Ethnicity"). You can view our study protocols here, or more generally read about quantification of oximeter performance on our FAQ.

Root mean square error (ARMS) is a common measure of pulse oximeter device performance that combines bias and precision.

*NOTE: performance is only reported here once we have tested the device in ≥10 study subjects (i.e. as required by 2013 FDA and 2017 ISO requirements). Performance may change significantly as we continue to perform testing in additional subjects and conditions. Please continue to check back as we update frequently. Click the device to see details on how many subjects have been tested as well as details of skin color testing.

Here we report retail purchase costs (USD) for buying the pulse oximeter, including one adult finger probe. Costs are obtained from one or multiple sources including manufacturers or online retail stores. Of note, some devices have special discount pricing for low and middle-income countries. The special prices are not accounted for in this report.

*CAUTION: This calculator makes many assumptions, is not based on the specific manufacturer/model durability, and costs may not reflect cost of ownership in well-resourced or home care settings. Costs are based solely on the purchase cost for this oximeter and general assumptions about how long a device with this form factor (i.e., fingertip vs handheld vs tabletop) might be expected to last in a heavy-use environment (e.g., a resource-variable clinical setting with frequent use, where damage, loss and theft are possible). These assumptions were informed by input from clinicians across diverse settings. Lifetime ownership cost varies considerably by user and setting. Click the settings button next to the cost to view the formula and adjust these assumptions based on your local context and use case.

Here we report pulse oximeter performance based on Open Oximetry Project device testing using 2013 FDA Guidelines for 510k clearance and 2017 ISO 80601 standards, while also trying to account for expanded criteria to improve diversity of skin pigment in study cohorts (US FDA "Approach for Improving the Performance Evaluation of Pulse Oximeter Devices Taking Into Consideration Skin Pigmentation, Race and Ethnicity"). You can view our study protocols here, or more generally read about quantification of oximeter performance on our FAQ.

Root mean square error (ARMS) is a common measure of pulse oximeter device performance that combines bias and precision.

*NOTE: performance is only reported here once we have tested the device in ≥10 study subjects (i.e. as required by 2013 FDA and 2017 ISO requirements). Performance may change significantly as we continue to perform testing in additional subjects and conditions. Please continue to check back as we update frequently. Click the device to see details on how many subjects have been tested as well as details of skin color testing.

Here we report retail purchase costs (USD) for buying the pulse oximeter, including one adult finger probe. Costs are obtained from one or multiple sources including manufacturers or online retail stores. Of note, some devices have special discount pricing for low and middle-income countries. The special prices are not accounted for in this report.

*CAUTION: This calculator makes many assumptions, is not based on the specific manufacturer/model durability, and costs may not reflect cost of ownership in well-resourced or home care settings. Costs are based solely on the purchase cost for this oximeter and general assumptions about how long a device with this form factor (i.e., fingertip vs handheld vs tabletop) might be expected to last in a heavy-use environment (e.g., a resource-variable clinical setting with frequent use, where damage, loss and theft are possible). These assumptions were informed by input from clinicians across diverse settings. Lifetime ownership cost varies considerably by user and setting. Click the settings button next to the cost to view the formula and adjust these assumptions based on your local context and use case.

Here we report pulse oximeter performance based on Open Oximetry Project device testing using 2013 FDA Guidelines for 510k clearance and 2017 ISO 80601 standards, while also trying to account for expanded criteria to improve diversity of skin pigment in study cohorts (US FDA "Approach for Improving the Performance Evaluation of Pulse Oximeter Devices Taking Into Consideration Skin Pigmentation, Race and Ethnicity"). You can view our study protocols here, or more generally read about quantification of oximeter performance on our FAQ.

Root mean square error (ARMS) is a common measure of pulse oximeter device performance that combines bias and precision.

*NOTE: performance is only reported here once we have tested the device in ≥10 study subjects (i.e. as required by 2013 FDA and 2017 ISO requirements). Performance may change significantly as we continue to perform testing in additional subjects and conditions. Please continue to check back as we update frequently. Click the device to see details on how many subjects have been tested as well as details of skin color testing.

Here we report retail purchase costs (USD) for buying the pulse oximeter, including one adult finger probe. Costs are obtained from one or multiple sources including manufacturers or online retail stores. Of note, some devices have special discount pricing for low and middle-income countries. The special prices are not accounted for in this report.

*CAUTION: This calculator makes many assumptions, is not based on the specific manufacturer/model durability, and costs may not reflect cost of ownership in well-resourced or home care settings. Costs are based solely on the purchase cost for this oximeter and general assumptions about how long a device with this form factor (i.e., fingertip vs handheld vs tabletop) might be expected to last in a heavy-use environment (e.g., a resource-variable clinical setting with frequent use, where damage, loss and theft are possible). These assumptions were informed by input from clinicians across diverse settings. Lifetime ownership cost varies considerably by user and setting. Click the settings button next to the cost to view the formula and adjust these assumptions based on your local context and use case.

Here we report pulse oximeter performance based on Open Oximetry Project device testing using 2013 FDA Guidelines for 510k clearance and 2017 ISO 80601 standards, while also trying to account for expanded criteria to improve diversity of skin pigment in study cohorts (US FDA "Approach for Improving the Performance Evaluation of Pulse Oximeter Devices Taking Into Consideration Skin Pigmentation, Race and Ethnicity"). You can view our study protocols here, or more generally read about quantification of oximeter performance on our FAQ.

Root mean square error (ARMS) is a common measure of pulse oximeter device performance that combines bias and precision.

*NOTE: performance is only reported here once we have tested the device in ≥10 study subjects (i.e. as required by 2013 FDA and 2017 ISO requirements). Performance may change significantly as we continue to perform testing in additional subjects and conditions. Please continue to check back as we update frequently. Click the device to see details on how many subjects have been tested as well as details of skin color testing.

Here we report retail purchase costs (USD) for buying the pulse oximeter, including one adult finger probe. Costs are obtained from one or multiple sources including manufacturers or online retail stores. Of note, some devices have special discount pricing for low and middle-income countries. The special prices are not accounted for in this report.

*CAUTION: This calculator makes many assumptions, is not based on the specific manufacturer/model durability, and costs may not reflect cost of ownership in well-resourced or home care settings. Costs are based solely on the purchase cost for this oximeter and general assumptions about how long a device with this form factor (i.e., fingertip vs handheld vs tabletop) might be expected to last in a heavy-use environment (e.g., a resource-variable clinical setting with frequent use, where damage, loss and theft are possible). These assumptions were informed by input from clinicians across diverse settings. Lifetime ownership cost varies considerably by user and setting. Click the settings button next to the cost to view the formula and adjust these assumptions based on your local context and use case.

Here we report pulse oximeter performance based on Open Oximetry Project device testing using 2013 FDA Guidelines for 510k clearance and 2017 ISO 80601 standards, while also trying to account for expanded criteria to improve diversity of skin pigment in study cohorts (US FDA "Approach for Improving the Performance Evaluation of Pulse Oximeter Devices Taking Into Consideration Skin Pigmentation, Race and Ethnicity"). You can view our study protocols here, or more generally read about quantification of oximeter performance on our FAQ.

Root mean square error (ARMS) is a common measure of pulse oximeter device performance that combines bias and precision.

*NOTE: performance is only reported here once we have tested the device in ≥10 study subjects (i.e. as required by 2013 FDA and 2017 ISO requirements). Performance may change significantly as we continue to perform testing in additional subjects and conditions. Please continue to check back as we update frequently. Click the device to see details on how many subjects have been tested as well as details of skin color testing.

Here we report retail purchase costs (USD) for buying the pulse oximeter, including one adult finger probe. Costs are obtained from one or multiple sources including manufacturers or online retail stores. Of note, some devices have special discount pricing for low and middle-income countries. The special prices are not accounted for in this report.

*CAUTION: This calculator makes many assumptions, is not based on the specific manufacturer/model durability, and costs may not reflect cost of ownership in well-resourced or home care settings. Costs are based solely on the purchase cost for this oximeter and general assumptions about how long a device with this form factor (i.e., fingertip vs handheld vs tabletop) might be expected to last in a heavy-use environment (e.g., a resource-variable clinical setting with frequent use, where damage, loss and theft are possible). These assumptions were informed by input from clinicians across diverse settings. Lifetime ownership cost varies considerably by user and setting. Click the settings button next to the cost to view the formula and adjust these assumptions based on your local context and use case.

Here we report pulse oximeter performance based on Open Oximetry Project device testing using 2013 FDA Guidelines for 510k clearance and 2017 ISO 80601 standards, while also trying to account for expanded criteria to improve diversity of skin pigment in study cohorts (US FDA "Approach for Improving the Performance Evaluation of Pulse Oximeter Devices Taking Into Consideration Skin Pigmentation, Race and Ethnicity"). You can view our study protocols here, or more generally read about quantification of oximeter performance on our FAQ.

Root mean square error (ARMS) is a common measure of pulse oximeter device performance that combines bias and precision.

*NOTE: performance is only reported here once we have tested the device in ≥10 study subjects (i.e. as required by 2013 FDA and 2017 ISO requirements). Performance may change significantly as we continue to perform testing in additional subjects and conditions. Please continue to check back as we update frequently. Click the device to see details on how many subjects have been tested as well as details of skin color testing.

Here we report retail purchase costs (USD) for buying the pulse oximeter, including one adult finger probe. Costs are obtained from one or multiple sources including manufacturers or online retail stores. Of note, some devices have special discount pricing for low and middle-income countries. The special prices are not accounted for in this report.

*CAUTION: This calculator makes many assumptions, is not based on the specific manufacturer/model durability, and costs may not reflect cost of ownership in well-resourced or home care settings. Costs are based solely on the purchase cost for this oximeter and general assumptions about how long a device with this form factor (i.e., fingertip vs handheld vs tabletop) might be expected to last in a heavy-use environment (e.g., a resource-variable clinical setting with frequent use, where damage, loss and theft are possible). These assumptions were informed by input from clinicians across diverse settings. Lifetime ownership cost varies considerably by user and setting. Click the settings button next to the cost to view the formula and adjust these assumptions based on your local context and use case.

Here we report pulse oximeter performance based on Open Oximetry Project device testing using 2013 FDA Guidelines for 510k clearance and 2017 ISO 80601 standards, while also trying to account for expanded criteria to improve diversity of skin pigment in study cohorts (US FDA "Approach for Improving the Performance Evaluation of Pulse Oximeter Devices Taking Into Consideration Skin Pigmentation, Race and Ethnicity"). You can view our study protocols here, or more generally read about quantification of oximeter performance on our FAQ.

Root mean square error (ARMS) is a common measure of pulse oximeter device performance that combines bias and precision.

*NOTE: performance is only reported here once we have tested the device in ≥10 study subjects (i.e. as required by 2013 FDA and 2017 ISO requirements). Performance may change significantly as we continue to perform testing in additional subjects and conditions. Please continue to check back as we update frequently. Click the device to see details on how many subjects have been tested as well as details of skin color testing.

Here we report retail purchase costs (USD) for buying the pulse oximeter, including one adult finger probe. Costs are obtained from one or multiple sources including manufacturers or online retail stores. Of note, some devices have special discount pricing for low and middle-income countries. The special prices are not accounted for in this report.

*CAUTION: This calculator makes many assumptions, is not based on the specific manufacturer/model durability, and costs may not reflect cost of ownership in well-resourced or home care settings. Costs are based solely on the purchase cost for this oximeter and general assumptions about how long a device with this form factor (i.e., fingertip vs handheld vs tabletop) might be expected to last in a heavy-use environment (e.g., a resource-variable clinical setting with frequent use, where damage, loss and theft are possible). These assumptions were informed by input from clinicians across diverse settings. Lifetime ownership cost varies considerably by user and setting. Click the settings button next to the cost to view the formula and adjust these assumptions based on your local context and use case.

Here we report pulse oximeter performance based on Open Oximetry Project device testing using 2013 FDA Guidelines for 510k clearance and 2017 ISO 80601 standards, while also trying to account for expanded criteria to improve diversity of skin pigment in study cohorts (US FDA "Approach for Improving the Performance Evaluation of Pulse Oximeter Devices Taking Into Consideration Skin Pigmentation, Race and Ethnicity"). You can view our study protocols here, or more generally read about quantification of oximeter performance on our FAQ.

Root mean square error (ARMS) is a common measure of pulse oximeter device performance that combines bias and precision.

*NOTE: performance is only reported here once we have tested the device in ≥10 study subjects (i.e. as required by 2013 FDA and 2017 ISO requirements). Performance may change significantly as we continue to perform testing in additional subjects and conditions. Please continue to check back as we update frequently. Click the device to see details on how many subjects have been tested as well as details of skin color testing.

Here we report retail purchase costs (USD) for buying the pulse oximeter, including one adult finger probe. Costs are obtained from one or multiple sources including manufacturers or online retail stores. Of note, some devices have special discount pricing for low and middle-income countries. The special prices are not accounted for in this report.

*CAUTION: This calculator makes many assumptions, is not based on the specific manufacturer/model durability, and costs may not reflect cost of ownership in well-resourced or home care settings. Costs are based solely on the purchase cost for this oximeter and general assumptions about how long a device with this form factor (i.e., fingertip vs handheld vs tabletop) might be expected to last in a heavy-use environment (e.g., a resource-variable clinical setting with frequent use, where damage, loss and theft are possible). These assumptions were informed by input from clinicians across diverse settings. Lifetime ownership cost varies considerably by user and setting. Click the settings button next to the cost to view the formula and adjust these assumptions based on your local context and use case.

Here we report pulse oximeter performance based on Open Oximetry Project device testing using 2013 FDA Guidelines for 510k clearance and 2017 ISO 80601 standards, while also trying to account for expanded criteria to improve diversity of skin pigment in study cohorts (US FDA "Approach for Improving the Performance Evaluation of Pulse Oximeter Devices Taking Into Consideration Skin Pigmentation, Race and Ethnicity"). You can view our study protocols here, or more generally read about quantification of oximeter performance on our FAQ.

Root mean square error (ARMS) is a common measure of pulse oximeter device performance that combines bias and precision.

*NOTE: performance is only reported here once we have tested the device in ≥10 study subjects (i.e. as required by 2013 FDA and 2017 ISO requirements). Performance may change significantly as we continue to perform testing in additional subjects and conditions. Please continue to check back as we update frequently. Click the device to see details on how many subjects have been tested as well as details of skin color testing.

Here we report retail purchase costs (USD) for buying the pulse oximeter, including one adult finger probe. Costs are obtained from one or multiple sources including manufacturers or online retail stores. Of note, some devices have special discount pricing for low and middle-income countries. The special prices are not accounted for in this report.

*CAUTION: This calculator makes many assumptions, is not based on the specific manufacturer/model durability, and costs may not reflect cost of ownership in well-resourced or home care settings. Costs are based solely on the purchase cost for this oximeter and general assumptions about how long a device with this form factor (i.e., fingertip vs handheld vs tabletop) might be expected to last in a heavy-use environment (e.g., a resource-variable clinical setting with frequent use, where damage, loss and theft are possible). These assumptions were informed by input from clinicians across diverse settings. Lifetime ownership cost varies considerably by user and setting. Click the settings button next to the cost to view the formula and adjust these assumptions based on your local context and use case.

Here we report pulse oximeter performance based on Open Oximetry Project device testing using 2013 FDA Guidelines for 510k clearance and 2017 ISO 80601 standards, while also trying to account for expanded criteria to improve diversity of skin pigment in study cohorts (US FDA "Approach for Improving the Performance Evaluation of Pulse Oximeter Devices Taking Into Consideration Skin Pigmentation, Race and Ethnicity"). You can view our study protocols here, or more generally read about quantification of oximeter performance on our FAQ.

Root mean square error (ARMS) is a common measure of pulse oximeter device performance that combines bias and precision.

*NOTE: performance is only reported here once we have tested the device in ≥10 study subjects (i.e. as required by 2013 FDA and 2017 ISO requirements). Performance may change significantly as we continue to perform testing in additional subjects and conditions. Please continue to check back as we update frequently. Click the device to see details on how many subjects have been tested as well as details of skin color testing.

Here we report retail purchase costs (USD) for buying the pulse oximeter, including one adult finger probe. Costs are obtained from one or multiple sources including manufacturers or online retail stores. Of note, some devices have special discount pricing for low and middle-income countries. The special prices are not accounted for in this report.

*CAUTION: This calculator makes many assumptions, is not based on the specific manufacturer/model durability, and costs may not reflect cost of ownership in well-resourced or home care settings. Costs are based solely on the purchase cost for this oximeter and general assumptions about how long a device with this form factor (i.e., fingertip vs handheld vs tabletop) might be expected to last in a heavy-use environment (e.g., a resource-variable clinical setting with frequent use, where damage, loss and theft are possible). These assumptions were informed by input from clinicians across diverse settings. Lifetime ownership cost varies considerably by user and setting. Click the settings button next to the cost to view the formula and adjust these assumptions based on your local context and use case.

Here we report pulse oximeter performance based on Open Oximetry Project device testing using 2013 FDA Guidelines for 510k clearance and 2017 ISO 80601 standards, while also trying to account for expanded criteria to improve diversity of skin pigment in study cohorts (US FDA "Approach for Improving the Performance Evaluation of Pulse Oximeter Devices Taking Into Consideration Skin Pigmentation, Race and Ethnicity"). You can view our study protocols here, or more generally read about quantification of oximeter performance on our FAQ.

Root mean square error (ARMS) is a common measure of pulse oximeter device performance that combines bias and precision.

*NOTE: performance is only reported here once we have tested the device in ≥10 study subjects (i.e. as required by 2013 FDA and 2017 ISO requirements). Performance may change significantly as we continue to perform testing in additional subjects and conditions. Please continue to check back as we update frequently. Click the device to see details on how many subjects have been tested as well as details of skin color testing.

Here we report retail purchase costs (USD) for buying the pulse oximeter, including one adult finger probe. Costs are obtained from one or multiple sources including manufacturers or online retail stores. Of note, some devices have special discount pricing for low and middle-income countries. The special prices are not accounted for in this report.

*CAUTION: This calculator makes many assumptions, is not based on the specific manufacturer/model durability, and costs may not reflect cost of ownership in well-resourced or home care settings. Costs are based solely on the purchase cost for this oximeter and general assumptions about how long a device with this form factor (i.e., fingertip vs handheld vs tabletop) might be expected to last in a heavy-use environment (e.g., a resource-variable clinical setting with frequent use, where damage, loss and theft are possible). These assumptions were informed by input from clinicians across diverse settings. Lifetime ownership cost varies considerably by user and setting. Click the settings button next to the cost to view the formula and adjust these assumptions based on your local context and use case.

Here we report pulse oximeter performance based on Open Oximetry Project device testing using 2013 FDA Guidelines for 510k clearance and 2017 ISO 80601 standards, while also trying to account for expanded criteria to improve diversity of skin pigment in study cohorts (US FDA "Approach for Improving the Performance Evaluation of Pulse Oximeter Devices Taking Into Consideration Skin Pigmentation, Race and Ethnicity"). You can view our study protocols here, or more generally read about quantification of oximeter performance on our FAQ.

Root mean square error (ARMS) is a common measure of pulse oximeter device performance that combines bias and precision.

*NOTE: performance is only reported here once we have tested the device in ≥10 study subjects (i.e. as required by 2013 FDA and 2017 ISO requirements). Performance may change significantly as we continue to perform testing in additional subjects and conditions. Please continue to check back as we update frequently. Click the device to see details on how many subjects have been tested as well as details of skin color testing.

Here we report retail purchase costs (USD) for buying the pulse oximeter, including one adult finger probe. Costs are obtained from one or multiple sources including manufacturers or online retail stores. Of note, some devices have special discount pricing for low and middle-income countries. The special prices are not accounted for in this report.

*CAUTION: This calculator makes many assumptions, is not based on the specific manufacturer/model durability, and costs may not reflect cost of ownership in well-resourced or home care settings. Costs are based solely on the purchase cost for this oximeter and general assumptions about how long a device with this form factor (i.e., fingertip vs handheld vs tabletop) might be expected to last in a heavy-use environment (e.g., a resource-variable clinical setting with frequent use, where damage, loss and theft are possible). These assumptions were informed by input from clinicians across diverse settings. Lifetime ownership cost varies considerably by user and setting. Click the settings button next to the cost to view the formula and adjust these assumptions based on your local context and use case.

Here we report pulse oximeter performance based on Open Oximetry Project device testing using 2013 FDA Guidelines for 510k clearance and 2017 ISO 80601 standards, while also trying to account for expanded criteria to improve diversity of skin pigment in study cohorts (US FDA "Approach for Improving the Performance Evaluation of Pulse Oximeter Devices Taking Into Consideration Skin Pigmentation, Race and Ethnicity"). You can view our study protocols here, or more generally read about quantification of oximeter performance on our FAQ.

Root mean square error (ARMS) is a common measure of pulse oximeter device performance that combines bias and precision.

*NOTE: performance is only reported here once we have tested the device in ≥10 study subjects (i.e. as required by 2013 FDA and 2017 ISO requirements). Performance may change significantly as we continue to perform testing in additional subjects and conditions. Please continue to check back as we update frequently. Click the device to see details on how many subjects have been tested as well as details of skin color testing.

Here we report retail purchase costs (USD) for buying the pulse oximeter, including one adult finger probe. Costs are obtained from one or multiple sources including manufacturers or online retail stores. Of note, some devices have special discount pricing for low and middle-income countries. The special prices are not accounted for in this report.

*CAUTION: This calculator makes many assumptions, is not based on the specific manufacturer/model durability, and costs may not reflect cost of ownership in well-resourced or home care settings. Costs are based solely on the purchase cost for this oximeter and general assumptions about how long a device with this form factor (i.e., fingertip vs handheld vs tabletop) might be expected to last in a heavy-use environment (e.g., a resource-variable clinical setting with frequent use, where damage, loss and theft are possible). These assumptions were informed by input from clinicians across diverse settings. Lifetime ownership cost varies considerably by user and setting. Click the settings button next to the cost to view the formula and adjust these assumptions based on your local context and use case.

Here we report pulse oximeter performance based on Open Oximetry Project device testing using 2013 FDA Guidelines for 510k clearance and 2017 ISO 80601 standards, while also trying to account for expanded criteria to improve diversity of skin pigment in study cohorts (US FDA "Approach for Improving the Performance Evaluation of Pulse Oximeter Devices Taking Into Consideration Skin Pigmentation, Race and Ethnicity"). You can view our study protocols here, or more generally read about quantification of oximeter performance on our FAQ.

Root mean square error (ARMS) is a common measure of pulse oximeter device performance that combines bias and precision.

*NOTE: performance is only reported here once we have tested the device in ≥10 study subjects (i.e. as required by 2013 FDA and 2017 ISO requirements). Performance may change significantly as we continue to perform testing in additional subjects and conditions. Please continue to check back as we update frequently. Click the device to see details on how many subjects have been tested as well as details of skin color testing.

Here we report retail purchase costs (USD) for buying the pulse oximeter, including one adult finger probe. Costs are obtained from one or multiple sources including manufacturers or online retail stores. Of note, some devices have special discount pricing for low and middle-income countries. The special prices are not accounted for in this report.

*CAUTION: This calculator makes many assumptions, is not based on the specific manufacturer/model durability, and costs may not reflect cost of ownership in well-resourced or home care settings. Costs are based solely on the purchase cost for this oximeter and general assumptions about how long a device with this form factor (i.e., fingertip vs handheld vs tabletop) might be expected to last in a heavy-use environment (e.g., a resource-variable clinical setting with frequent use, where damage, loss and theft are possible). These assumptions were informed by input from clinicians across diverse settings. Lifetime ownership cost varies considerably by user and setting. Click the settings button next to the cost to view the formula and adjust these assumptions based on your local context and use case.

Here we report pulse oximeter performance based on Open Oximetry Project device testing using 2013 FDA Guidelines for 510k clearance and 2017 ISO 80601 standards, while also trying to account for expanded criteria to improve diversity of skin pigment in study cohorts (US FDA "Approach for Improving the Performance Evaluation of Pulse Oximeter Devices Taking Into Consideration Skin Pigmentation, Race and Ethnicity"). You can view our study protocols here, or more generally read about quantification of oximeter performance on our FAQ.

Root mean square error (ARMS) is a common measure of pulse oximeter device performance that combines bias and precision.

*NOTE: performance is only reported here once we have tested the device in ≥10 study subjects (i.e. as required by 2013 FDA and 2017 ISO requirements). Performance may change significantly as we continue to perform testing in additional subjects and conditions. Please continue to check back as we update frequently. Click the device to see details on how many subjects have been tested as well as details of skin color testing.

Here we report retail purchase costs (USD) for buying the pulse oximeter, including one adult finger probe. Costs are obtained from one or multiple sources including manufacturers or online retail stores. Of note, some devices have special discount pricing for low and middle-income countries. The special prices are not accounted for in this report.

*CAUTION: This calculator makes many assumptions, is not based on the specific manufacturer/model durability, and costs may not reflect cost of ownership in well-resourced or home care settings. Costs are based solely on the purchase cost for this oximeter and general assumptions about how long a device with this form factor (i.e., fingertip vs handheld vs tabletop) might be expected to last in a heavy-use environment (e.g., a resource-variable clinical setting with frequent use, where damage, loss and theft are possible). These assumptions were informed by input from clinicians across diverse settings. Lifetime ownership cost varies considerably by user and setting. Click the settings button next to the cost to view the formula and adjust these assumptions based on your local context and use case.

Here we report pulse oximeter performance based on Open Oximetry Project device testing using 2013 FDA Guidelines for 510k clearance and 2017 ISO 80601 standards, while also trying to account for expanded criteria to improve diversity of skin pigment in study cohorts (US FDA "Approach for Improving the Performance Evaluation of Pulse Oximeter Devices Taking Into Consideration Skin Pigmentation, Race and Ethnicity"). You can view our study protocols here, or more generally read about quantification of oximeter performance on our FAQ.

Root mean square error (ARMS) is a common measure of pulse oximeter device performance that combines bias and precision.

*NOTE: performance is only reported here once we have tested the device in ≥10 study subjects (i.e. as required by 2013 FDA and 2017 ISO requirements). Performance may change significantly as we continue to perform testing in additional subjects and conditions. Please continue to check back as we update frequently. Click the device to see details on how many subjects have been tested as well as details of skin color testing.

Here we report retail purchase costs (USD) for buying the pulse oximeter, including one adult finger probe. Costs are obtained from one or multiple sources including manufacturers or online retail stores. Of note, some devices have special discount pricing for low and middle-income countries. The special prices are not accounted for in this report.

*CAUTION: This calculator makes many assumptions, is not based on the specific manufacturer/model durability, and costs may not reflect cost of ownership in well-resourced or home care settings. Costs are based solely on the purchase cost for this oximeter and general assumptions about how long a device with this form factor (i.e., fingertip vs handheld vs tabletop) might be expected to last in a heavy-use environment (e.g., a resource-variable clinical setting with frequent use, where damage, loss and theft are possible). These assumptions were informed by input from clinicians across diverse settings. Lifetime ownership cost varies considerably by user and setting. Click the settings button next to the cost to view the formula and adjust these assumptions based on your local context and use case.

Here we report pulse oximeter performance based on Open Oximetry Project device testing using 2013 FDA Guidelines for 510k clearance and 2017 ISO 80601 standards, while also trying to account for expanded criteria to improve diversity of skin pigment in study cohorts (US FDA "Approach for Improving the Performance Evaluation of Pulse Oximeter Devices Taking Into Consideration Skin Pigmentation, Race and Ethnicity"). You can view our study protocols here, or more generally read about quantification of oximeter performance on our FAQ.

Root mean square error (ARMS) is a common measure of pulse oximeter device performance that combines bias and precision.

*NOTE: performance is only reported here once we have tested the device in ≥10 study subjects (i.e. as required by 2013 FDA and 2017 ISO requirements). Performance may change significantly as we continue to perform testing in additional subjects and conditions. Please continue to check back as we update frequently. Click the device to see details on how many subjects have been tested as well as details of skin color testing.

Here we report retail purchase costs (USD) for buying the pulse oximeter, including one adult finger probe. Costs are obtained from one or multiple sources including manufacturers or online retail stores. Of note, some devices have special discount pricing for low and middle-income countries. The special prices are not accounted for in this report.

*CAUTION: This calculator makes many assumptions, is not based on the specific manufacturer/model durability, and costs may not reflect cost of ownership in well-resourced or home care settings. Costs are based solely on the purchase cost for this oximeter and general assumptions about how long a device with this form factor (i.e., fingertip vs handheld vs tabletop) might be expected to last in a heavy-use environment (e.g., a resource-variable clinical setting with frequent use, where damage, loss and theft are possible). These assumptions were informed by input from clinicians across diverse settings. Lifetime ownership cost varies considerably by user and setting. Click the settings button next to the cost to view the formula and adjust these assumptions based on your local context and use case.

Here we report pulse oximeter performance based on Open Oximetry Project device testing using 2013 FDA Guidelines for 510k clearance and 2017 ISO 80601 standards, while also trying to account for expanded criteria to improve diversity of skin pigment in study cohorts (US FDA "Approach for Improving the Performance Evaluation of Pulse Oximeter Devices Taking Into Consideration Skin Pigmentation, Race and Ethnicity"). You can view our study protocols here, or more generally read about quantification of oximeter performance on our FAQ.

Root mean square error (ARMS) is a common measure of pulse oximeter device performance that combines bias and precision.

*NOTE: performance is only reported here once we have tested the device in ≥10 study subjects (i.e. as required by 2013 FDA and 2017 ISO requirements). Performance may change significantly as we continue to perform testing in additional subjects and conditions. Please continue to check back as we update frequently. Click the device to see details on how many subjects have been tested as well as details of skin color testing.

Here we report retail purchase costs (USD) for buying the pulse oximeter, including one adult finger probe. Costs are obtained from one or multiple sources including manufacturers or online retail stores. Of note, some devices have special discount pricing for low and middle-income countries. The special prices are not accounted for in this report.

*CAUTION: This calculator makes many assumptions, is not based on the specific manufacturer/model durability, and costs may not reflect cost of ownership in well-resourced or home care settings. Costs are based solely on the purchase cost for this oximeter and general assumptions about how long a device with this form factor (i.e., fingertip vs handheld vs tabletop) might be expected to last in a heavy-use environment (e.g., a resource-variable clinical setting with frequent use, where damage, loss and theft are possible). These assumptions were informed by input from clinicians across diverse settings. Lifetime ownership cost varies considerably by user and setting. Click the settings button next to the cost to view the formula and adjust these assumptions based on your local context and use case.

Here we report pulse oximeter performance based on Open Oximetry Project device testing using 2013 FDA Guidelines for 510k clearance and 2017 ISO 80601 standards, while also trying to account for expanded criteria to improve diversity of skin pigment in study cohorts (US FDA "Approach for Improving the Performance Evaluation of Pulse Oximeter Devices Taking Into Consideration Skin Pigmentation, Race and Ethnicity"). You can view our study protocols here, or more generally read about quantification of oximeter performance on our FAQ.

Root mean square error (ARMS) is a common measure of pulse oximeter device performance that combines bias and precision.

*NOTE: performance is only reported here once we have tested the device in ≥10 study subjects (i.e. as required by 2013 FDA and 2017 ISO requirements). Performance may change significantly as we continue to perform testing in additional subjects and conditions. Please continue to check back as we update frequently. Click the device to see details on how many subjects have been tested as well as details of skin color testing.

Here we report retail purchase costs (USD) for buying the pulse oximeter, including one adult finger probe. Costs are obtained from one or multiple sources including manufacturers or online retail stores. Of note, some devices have special discount pricing for low and middle-income countries. The special prices are not accounted for in this report.

*CAUTION: This calculator makes many assumptions, is not based on the specific manufacturer/model durability, and costs may not reflect cost of ownership in well-resourced or home care settings. Costs are based solely on the purchase cost for this oximeter and general assumptions about how long a device with this form factor (i.e., fingertip vs handheld vs tabletop) might be expected to last in a heavy-use environment (e.g., a resource-variable clinical setting with frequent use, where damage, loss and theft are possible). These assumptions were informed by input from clinicians across diverse settings. Lifetime ownership cost varies considerably by user and setting. Click the settings button next to the cost to view the formula and adjust these assumptions based on your local context and use case.

Here we report pulse oximeter performance based on Open Oximetry Project device testing using 2013 FDA Guidelines for 510k clearance and 2017 ISO 80601 standards, while also trying to account for expanded criteria to improve diversity of skin pigment in study cohorts (US FDA "Approach for Improving the Performance Evaluation of Pulse Oximeter Devices Taking Into Consideration Skin Pigmentation, Race and Ethnicity"). You can view our study protocols here, or more generally read about quantification of oximeter performance on our FAQ.

Root mean square error (ARMS) is a common measure of pulse oximeter device performance that combines bias and precision.

*NOTE: performance is only reported here once we have tested the device in ≥10 study subjects (i.e. as required by 2013 FDA and 2017 ISO requirements). Performance may change significantly as we continue to perform testing in additional subjects and conditions. Please continue to check back as we update frequently. Click the device to see details on how many subjects have been tested as well as details of skin color testing.

Here we report retail purchase costs (USD) for buying the pulse oximeter, including one adult finger probe. Costs are obtained from one or multiple sources including manufacturers or online retail stores. Of note, some devices have special discount pricing for low and middle-income countries. The special prices are not accounted for in this report.

*CAUTION: This calculator makes many assumptions, is not based on the specific manufacturer/model durability, and costs may not reflect cost of ownership in well-resourced or home care settings. Costs are based solely on the purchase cost for this oximeter and general assumptions about how long a device with this form factor (i.e., fingertip vs handheld vs tabletop) might be expected to last in a heavy-use environment (e.g., a resource-variable clinical setting with frequent use, where damage, loss and theft are possible). These assumptions were informed by input from clinicians across diverse settings. Lifetime ownership cost varies considerably by user and setting. Click the settings button next to the cost to view the formula and adjust these assumptions based on your local context and use case.

Here we report pulse oximeter performance based on Open Oximetry Project device testing using 2013 FDA Guidelines for 510k clearance and 2017 ISO 80601 standards, while also trying to account for expanded criteria to improve diversity of skin pigment in study cohorts (US FDA "Approach for Improving the Performance Evaluation of Pulse Oximeter Devices Taking Into Consideration Skin Pigmentation, Race and Ethnicity"). You can view our study protocols here, or more generally read about quantification of oximeter performance on our FAQ.

Root mean square error (ARMS) is a common measure of pulse oximeter device performance that combines bias and precision.

*NOTE: performance is only reported here once we have tested the device in ≥10 study subjects (i.e. as required by 2013 FDA and 2017 ISO requirements). Performance may change significantly as we continue to perform testing in additional subjects and conditions. Please continue to check back as we update frequently. Click the device to see details on how many subjects have been tested as well as details of skin color testing.

Here we report retail purchase costs (USD) for buying the pulse oximeter, including one adult finger probe. Costs are obtained from one or multiple sources including manufacturers or online retail stores. Of note, some devices have special discount pricing for low and middle-income countries. The special prices are not accounted for in this report.

*CAUTION: This calculator makes many assumptions, is not based on the specific manufacturer/model durability, and costs may not reflect cost of ownership in well-resourced or home care settings. Costs are based solely on the purchase cost for this oximeter and general assumptions about how long a device with this form factor (i.e., fingertip vs handheld vs tabletop) might be expected to last in a heavy-use environment (e.g., a resource-variable clinical setting with frequent use, where damage, loss and theft are possible). These assumptions were informed by input from clinicians across diverse settings. Lifetime ownership cost varies considerably by user and setting. Click the settings button next to the cost to view the formula and adjust these assumptions based on your local context and use case.