The High Price of Equity in Pulse Oximetry: A cost evaluation and need for interim solutions

Importance: Disparities in pulse oximetry accuracy, disproportionately affecting patients of color, have been associated with serious clinical outcomes. Although many have called for pulse oximetry hardware replacement, the cost associated with this replacement is not known. Objective: To estimate the cost of replacing all pulse oximetry hardware throughout a hospital system. Design: Single-center survey, 2023 Setting: Single center. Participants: One academic medical center with three hospitals. Main Outcomes and Measures: Cost of fleet replacement as identified by current day prices for hardware. Results: New and used prices for 5,079/5,678 (89.5%) across three hospitals for pulse oximetry devices were found. The average equipment cost to replace pulse oximetry hardware is $15,704.12 per bed. Replacement and integration costs are estimated at $28.5–31.8 million for the entire medical system. Extrapolating these costs to 5,564 hospitals in the United States results in an estimated cost of $14.1 billion. Conclusions and Relevance: “Simply replacing” pulse oximetry hardware to address disparities may be neither simple, cheap, or timely. Solutions for addressing pulse oximetry accuracy disparities leveraging current technology may be necessary. Trial Registration: Pro00113724, exempt


Background
Pulse oximetry is a critical tool in modern medicine. 1Patients of color -especially Black patients -have been associated with increased pulse oximetry accuracy disparities, as evidenced by increased hidden or occult hypoxemia. 2,34][5] Many have called for simply replacing all pulse oximetry devices with new technology.7][8] However, "simple replacement" may neither be simple, cheap, nor timely.The objective of this manuscript is to describe the financial and logistical burden in replacing pulse oximeters at one health system and across the United States. 2,6

Types of pulse oximetry equipment
Pulse oximetry devices fall into three categories: • Multi-Parameter Models (e.g., Philips MX800, GE Dash 4000): Complex units that display multiple vital signs, predominantly used in ICUs and operating rooms.
• Pulse Ox Modules/Monitors (e.g., Masimo Rad-7): Specialized for pulse oximetry, these can be integrated into existing systems without replacing whole units.
• Vital Signs Monitors (e.g., Philips SureSigns VS4): Primarily used in outpatient and general inpatient settings, these collect various vital signs.
Monitors usually interface with electronic medical record systems.Standalone units require manual data entry.Among these, pulse ox modules are the easiest to replace.

Equipment data
The Hospital System X provided extensive equipment inventories, categorized by individual locations.New and used for use under a CC0 license.This article is a US Government work.It is not subject to copyright under 17 USC 105 and is also made available preprint (which was not certified by peer review) is the author/funder, who has granted medRxiv a license to display the preprint in perpetuity.

Device integration estimates
The integration process involves multiple variables, including server specifications, firewalls, and software revisions.
The time required was estimated at 250-500 person-hours per device model, at a rate of $200/hour.Costs were fully applied to multi-parameter monitors, 50% to pulse ox modules/monitors, and not applied to vital signs monitors.

Extrapolation to United States National Hospital data
Hospital data from 2015 was obtained from the Health, United States data finder. 10Fleet replacement costs were modeled in two ways: based on estimated costs per bed by hospital A-C and based on used price percentages of MSRP.
We utilized 2015 national hospital data from the Health, United States data finder.Estimates for fleet replacement costs were based on two models: one using cost per bed by types of hospitals and the other using used price percentages of MSRP.

Cost estimates for a single academic health system
Hospital System X comprises three main facilities.Hospital A is a large center with 1,048 beds, including 332 designated for specialized care.Hospital B is a medium-sized facility with 186 beds, of which 28 are specialized.Hospital C has 373 beds, with 22 allocated for specialized care.Across these hospitals, 140 distinct types of pulse oximetry equipment are in use.Available pricing data cover 85.9% of all 8,460 devices in the system, and 67.1% of these are for use under a CC0 license.This article is a US Government work.It is not subject to copyright under 17 USC 105 and is also made available preprint (which was not certified by peer review) is the author/funder, who has granted medRxiv a license to display the preprint in perpetuity.
Two key devices, Philips SureSigns VS4 and MX700, have both new and used pricing available.The ratio of new-toused prices for these devices ranges from 513% to 133%.Consequently, the new Manufacturer's Suggested Retail Price (MSRP) was conservatively approximated as 133% of the used prices, with an adjustment range of 110% to 200%.Of the 5,678 devices currently in hospital use, 89.5% had either new or used price data.The estimated replacement cost for these devices, not including integration costs, is $25.2 million.This estimate encompasses 89.5% of devices currently in use, with per-bed costs ranging from $10,801 to $22,392.
Additional costs for integrating these devices are projected to be between $3.25 and $6.5 million, leading to a total projected cost of $28.5 to $31.8 million for the hospitals.When extending the scope to include clinics affiliated with Hospital System X, the estimated replacement cost for all devices rises to $35.9 million.With projected integration costs of an additional $4.4 to $8.8 million, the overall expenditure is estimated to be between $40.3 and $44.7 million.

Extrapolation to national costs
National United States hospital data from the CDC 2015 data reveals 5,564 hospitals, with an average of 161.4 beds/hospital.Estimates looking at different base hospital rates, assuming 75%, are in Table 2.At an estimated cost from $10,801-22,392/bed for fleet replacement, these estimates suggest that fleet replacement will cost $9.7-20.1 billion.
Using an average of all rates across the health system, the new MSRP can be estimated from used costs.Based on an estimated cost of $15,704/bed ($13,727-22,085/bed), the estimated fleet replacement cost is $14.1 billion ($13.7-22.1 billion).(Supplemental Table 4)

Discussion
The racial disparities in pulse oximetry accuracy are not just statistically alarming but also clinically urgent.Such disparities contribute to increased morbidity and mortality among patients of color, a pressing issue that cannot be relegated to the lengthy timelines associated with natural equipment replacement cycles. 9Our analysis reveals that full for use under a CC0 license.This article is a US Government work.It is not subject to copyright under 17 USC 105 and is also made available preprint (which was not certified by peer review) is the author/funder, who has granted medRxiv a license to display the preprint in perpetuity.
The copyright holder for this this version posted September 23, 2023.; https://doi.org/10.1101/2023.09.21.23295939 doi: medRxiv preprint equipment overhaul is neither cost-effective nor timely, thereby mandating prioritized attention at federal and industry levels for alternative solutions.
There is an immediate need for targeted funding and policies that can drive rapid innovation in this space.Federal agencies must take the lead in establishing frameworks that incentivize the development of more accurate, yet economically viable, pulse oximetry technologies.Similarly, industry stakeholders should prioritize research and development investments towards creating lower-cost solutions that can be deployed quickly.
Informatics-based approaches are especially promising in this context.By leveraging existing hardware and data analytics, we can implement more accurate and less invasive solutions sooner.These strategies not only avoid the massive financial burden of full-scale equipment replacement-estimated up to $22.1 billion nationally-but also present an opportunity for quicker implementation.However, such approaches would benefit substantially from federal and industry support, be it in the form of research grants, tax incentives, or regulatory fast-tracking.

Limitations
The study has limitations, such as incomplete price data and unaccounted volume discounts, which may underestimate the actual replacement costs.Also, device integration costs may be underestimated, particularly for vital signs monitors.

Conclusion
The racial disparities in pulse oximetry accuracy have immediate and dire clinical ramifications.A simplistic notion of device replacement is neither affordable nor timely, demanding an estimated $9.7-22.1 billion and several years for nationwide implementation.Given these challenges, it is essential to prioritize federal and industry interventions that can innovate lower-cost and quicker solutions, such as informatics-based approaches.Policymakers, healthcare providers, and researchers must urgently collaborate to navigate this complex problem efficiently and equitably.
for use under a CC0 license.This article is a US Government work.It is not subject to copyright under 17 USC 105 and is also made available preprint (which was not certified by peer review) is the author/funder, who has granted medRxiv a license to display the preprint in perpetuity.

Table 1. Average replacement cost for all beds in a hospital across the system.
Based on the number of devices with prices, this table reflects the cost of replacing pulse oximeters by individual hospitals, along with across the three hospitals together.Prices for replacement cost are in thousands (e.g., Hospital A $17.

Figure 1 .
Figure 1.Flow diagram equipment prices were sought online, primarily utilizing Google and comprehensive sites like Bimedis.com.Price data was retrieved in June 2023.All prices were calculated in United States dollars.Data on hospital size was retrieved from the American Hospital Directory.To reconcile new and used prices, the lowest ratio of new or Manufacturer's Suggested Retail Prices (MSRP) to used prices was conservatively estimated from devices with both new and used prices.No discount rate was assumed given the lack of transparency to discount rates.

Table 2 . National estimates in fleet replacement cost, using different hospital types for estimates, using 75% used/new price estimates
1 million, B $4.2 million, C $4.0 million).This article is a US Government work.It is not subject to copyright under 17 USC 105 and is also made available preprint (which was not certified by peer review) is the author/funder, who has granted medRxiv a license to display the preprint in perpetuity.This table reflects the extrapolated cost of replacing pulse oximetry equipment for all 5,564 hospitals in the 2015 CDC hospital data chart.This model explores a range of costs for replacing pulse oximetry per bed from a quaternary academic medical center (hospital A) through community hospitals (B, C).This does not include integration costs.This article is a US Government work.It is not subject to copyright under 17 USC 105 and is also made available preprint (which was not certified by peer review) is the author/funder, who has granted medRxiv a license to display the preprint in perpetuity.The copyright holder for this this version posted September 23, 2023.; https://doi.org/10.1101/2023.09.21.23295939 doi: medRxiv preprint