Eliminating
Mercury in Hospitals
Environmental Best Practices for Health Care Facilities I November 2002
JCAHO Environment of Care
Standards 1.3,2.3,4.0
Mercury Exposure Pathways
In utero
Consuming mercury-contaminated fish
Inhaling mercury vapors in the workplace
Handling work clothes contaminated
with mercury
Atmospheric Mercury Contributions
by Industry Sector
(1997, EPA)
How Pervasive and Harmful
is Mercury in the Environment?
Mercury is a toxic pollutant and is listed as one of 12 priority chemicals by
the EPA Persistent, Bioaccumulative, and Toxic (PBT) Chemical Program.
Consuming fish from mercury-polluted water bodies can severely affect the
central nervous system; impair hearing, speech and gait; and cause blindness,
tremors, insomnia, emotional instability, paralysis, loss of muscular control,
and even death.1 Fish consumption advisories for mercury have been issued for
thousands of water bodies nationwide, including all the Great Lakes and their
connecting waters, more than 79,000 other lakes and more than 485,000 miles
of rivers. In 2001,49 states had issued mercury advisories for lakes, rivers, and
other water bodies.2
Neonatal exposure to mercury has been linked to several serious birth defects
and recent research suggests that prenatal effects occur at mercury intake levels
5 to 10 times lower than that of adults. Additionally, a National Academies of
Science report from July 2000 showed that 60,000 children are born in the U.S.
each year with neurological problems because of exposure to methylmercury
in utero.3
Numerous cases of mercury poisoning, primarily through inhalation, have been
documented in the workplace. In a survey conducted by the National Institute
for Occupational Safety and Health, researchers estimated that 70,000
American workers might be exposed to mercury vapors on the job, including
nurses, lab technicians, and others working in health care facilities.4 In addition,
families of these workers were identified to be at risk of exposure from mercury-
contaminated work clothes brought home by workers.5
What Are The Industrial Sources Of Mercury?
Although mercury is naturally occurring in volcanoes, natural deposits, and oceanic volatilization, human activities have substantially increased the
amount of mercury cycling through the ecosystem. A 1997 EPA study6 identifying industrial processes that contributed heavily to atmospheric mer-
cury found that medical waste incinerators (MWI) contribute 13% (the fourth-largest source) of the anthropogenic mercury emissions to the envi-
ronment. Additionally, hospitals contribute 4 to 5% of the total wastewater mercury load in some communities.7 Many local wastewater treatment
plants have identified hospitals as industrial pollution sources and have imposed strict wastewater limits for mercury (see Case Study 2).
Eliminating or reducing mercury use not only lowers compliance costs, but also minimizes the potential for expensive spill cleanups.
(For more information on mercury sources and health effects, see www.h2e-online.org/about/mercury.htm.)
continues
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page 2
Environmental Best Practices for Health Care Facilities | Eliminating Mercury in Hospitals
Why Commit to Being Mercury-Free?
Public Health-
Hospitals most frequently commit to becoming mercury-free based on an ethical motivation to protect human health and the environment. This desire
often supports the hospitals' mission statements which commonly include a goal of "assessing and improving community health." As significant
users of products containing mercury, hospitals have an opportunity to play a key role in protecting public health by minimizing the use and release
of mercury into the environment.
Regulations-
Mercury waste is regulated under the Resource Conservation Recovery Act (RCRA), which requires all hazardous waste handlers to have specially
trained staff and equipment on hand in case of a spill or release. Additionally these facilities must meet special storage, handling, disposal, waste
tracking, and reporting requirements. Failure to meet any of these requirements can result in fines up to $25,000 per day.
Voluntary Agreements
Because of health care's contribution of mercury to the environment, EPA and the American Hospital
Association (AHA) signed a memorandum of understanding in 1998 committing to the virtual
elimination of mercury from hospitals by 2005.8
The following sections of this fact sheet present information about mercury-containing devices and
chemicals, alternatives to mercury-containing products, vendor information, and case studies of successful
mercury elimination programs. This fact sheet also contains links to other important resources for com-
pleting a mercury inventory, setting up a mercury elimination program, and taking the steps necessary
to eliminate mercury at your hospital.
By August 2002,
over 300 health care facilities
nationwide had already taken
the "Hospitals for a Healthy
Environment Pledge."
For more information see
/v.h2e-online.org
i
,lfi
A
1 EPA Mercury White Paper, www.epa.gov/ttn/oarpg/t3/memoranda/whtpaper.pdf
2 EPA Listing of Fish and Wildlife Advisories. May 2002. www.epa.gov/waterscience/fish/
3 National Academies of Science, National Research Council. July 2000. "Toxicological Effects
of Methylmercury."
4 Anne Nadakavukaren. "Our Global Environment: A Health Perspective". 1995.
5 Guy Williams. "Mercury Pollution Prevention in Healthcare." National Wildlife Federation. July 1997.
6 EPA. EPA-452/R-97- 004. "Mercury Study Report to Congress, Volume II: An Inventory of
Anthropogenic Mercury Emissions in the United States". December 1997.
7 "Making Medicine Mercury-Free: A Resource Guide for Mercury-Free Medicine." Health Care
without Harm. 2001.
8 Health Care Without Harm, in partnership with the U.S. Environmental Protection Agency, the
American Hospital Association and the American Nurses Association, has launched Hospitals for
a Healthy Environment (H2E). www.h2e-online.org
Where Is Mercury Found in Hospitals?
Although mercury is found in many places within hospitals, a mercury elimination plan
should include a prioritized list of targets. For example, the California Department of
Health Services (CA DHS)9 conducted mercury inventories at six northern California
hospitals in 1999 and found that sphygmomanometers and gastroenterology instru-
ments accounted for 89 percent of the mercury in these hospitals.
Most mercury-containing equipment have a mercury-free alternative. Although
some mercury-free alternatives may initially cost more, facilities often find that
their initial capital costs are outweighed by the total costs associated with mercury
cleanup equipment, spill costs and liabilities, and handling and disposal costs and
liabilities (see Table 1, page 5).
Mercury can be found in many commonly-used hospital devices and materials including:
Thermometers
Contain about 0.5 gram of mercury (laboratory thermometers contain 2 to 10 grams of mercury)
Generally account for a small percentage of total mercury at hospitals
Two recent independent studies'0 " have found
significant accuracy problems associated with
mercury thermometers:
25% of new mercuiy thermometers were
inaccurate by at least ±0.2 degrees C
28% of mercuiy thermometers were inaccu-
rate by at least ±0.1 degree C
[TheASTM standard for glass/mercuiy medical
thermometers specifies a maximum allowable
eiror of ± O.l C in the cited range.]
Mercury Thermometers:
Prone To Inaccuracies
Worthy of Gold Standard Status?
A study12 of 444 mercuiy sphygs found:
55% showed zero le\>el between
10 and 20 mm Hg
38% had dirty columns that
obscured readings
20% of the columns vjere not vertical
5% had blocked air filters
3 units had visible mercuiy
droplets outside the mercuiy tube
continues
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Eliminating Mercury in Hospitals I Environmental Best Practices for Health Care Facilities
page 3
An important source of mercury contamination of nonhazardous waste streams because they are often disposed of improperly
In contact with staff and patients more than any other
medical device
Broken thermometers inappropriately disposed of in red
bags or sharps containers may be incinerated and release
mercury into the environment
A UCLA Medical Center study found that broken mercury
thermometers were the most common sources of mercury
spillsaccounting for over 55% of incidents
Alternatives are readily available (see thermometer inset that
contains detailed data on the efficacy, cost, and features
of both mercury and mercury-free fever thermometers)
Mercury Sources in Seven Northern California Hospitals
(California Department of Health Services, September, 2000)
1.43%
Fluorescents
0.067%
Thermometers
i 0.66%
Switches
i O.J 2%
X-ray tubes
Engineering
i- 0.06%,
Sphygmomanometers (blood pressure monitors)
Contain 70 to 90 grams of mercury
Typically located in heavily used areas including patient
rooms, waiting areas, triage centers, and offices where the
Barostats
0.04%
Fixatives and
stains
0.04%
potential for patient or health care worker exposure to
mercury is high
The equipment at hospitals that often contain the largest amount of mercury
Without regular maintenance, mercury sphygs can be inaccurate
Alternatives are readily available (see sphyg insert that contains detailed data on the efficacy, cost, and features of both mercury and
mercury-free sphygs)
Cantor and Miller Abbot tubes (also called esophageal bougies and Sengstaken-Blakemore tubes)
Used to clear gastrointestinal [Gl] restrictions
The equipment at hospitals that often contain the second largest concentration of mercury
A single set of bougie tubes can contain up to 454 grams of mercury
FDA device failure database shows 58 incidents from 1991 to 2000 in which Gl tubes broke and released mercury inside patients13
Alternatives are readily available; some substitutes are weighted with air or water while others are preweighted with tungsten; because the mercury
in Gl tubes functions as a weight, rather than a measurement device, the performance of alternatives is less questionable, and tungsten-weighted
devices are considered just as effective
Additionally, tungsten-weighted alternatives have the advantage of being opaque in X-rays, allowing detection of the dilator as it moves
through the body
Non-Clinical Mercury Sources (sphyg repair kits, barometers, switches, etc.)
Barometers contain about 800 grams of mercury and can be replaced with a 1 -millibar precision aneroid for less than $250 or simply rely on a
local airport or weather station for data
Eliminating mercury sphygs renders a repair kit containing mercury obsolete
Other Sources
Staining solutions and laboratory reagents
(thimerosal, mercury chloride, immusal, and carbol-fuchin)
Check the mercury content of your chemical at
www1.netcasters.com/mercury/
Tissue fixatives (Zenker's solution and B5)
Thermostats
Batteries
Manometers on medical equipment
Esophageal dilators (also called Maloney or Hurst bougies)
Fluorescent and high-intensity lamps
Cleaning solutions
continues
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page 4
Environmental Best Practices for Health Care Facilities | Eliminating Mercury in Hospitals
Taking the Leap....
How do you get a mercury reduction program rolling? Here's a step-by-step plan for making mercury reduction a priority at your hospital
(also see Case Study 1, page 6):
Step 1 Make A Commitment
Get support from the top. Talk to your hospital leadership, and get a
signed statement to be mercury-free.
Establish a mercury-free team. Designate a program leader who will
be enthusiastic and dedicated to the program and would identify a
person in each department who has the authority to make departmen-
tal changes in order to build support.
Step 2 Conduct A Mercury Inventory
Create a baseline inventory of mercury-containing products in your
hospital against which progress can be measured.
Mercury inventory tools are widely available on the Internet. The
Mercury Assessment Toolkit produced by the CA DHS is particularly
comprehensive, easy to adapt to hospital-specific conditions, easy to
use, and tracks reductions automatically.
See www.dhs.ca.gov/ps/ddwem/environmental/med_waste/med-
wasteindex.htm for additional information.
Step 3 Evaluate Alternatives
Evaluate mercury-free alternatives in the context of your hospital.
Is the performance comparable?
What is the purchase cost for alternatives? For accessories?
For maintenance?
Are these costs offset by lower handling, disposal, and liability
costs?
Contact the vendors listed at the end of this fact sheet for more infor-
mation on mercury-free alternatives to common hospital devices, or
check out these web sites: www.sustainablehospitals.org and
abe.www.ecn.purdue.edu/~mercury/src/devicepage.htm
Step 4 Establish Goals And Implementation Plans
Set short-term, measurable goals that match your hospital's resources. Reasonable goals, such as the elimination of mercury sphygmomanometers
within 2 years, are easily measured and proposed as part of a hospital's business plan. Once attained, the goals can provide a springboard for new
mercury reduction projects.
continues
UCLA Mercury Spill Frequency (1997-1999)
(average of 18 mercury spills per year)
Spill cleanup costs: Labor: approximately $10,000/year
Disposal: approximately $34/pound
42% of the hazardous material unit incidents
involved mercury
Hazardous material unit spent 90 hours/year
responding to mercury-related spills
Hazardous material team cost $ 100 per hour resulting
in a labor cost alone of $28,059 for the 3-year period
Matching Mercury Replacement Strategies with Budgets
r Targeted Device ^
^ Financially Strapped ^
^ Capital Budgets Allocated K
Sphygmomanometer5
Replace at servicing intervals
Replace as many as possible with available
funding, then phase out remaining devices
when broken
Gastrointestinal Tubes
Replace when expired
Replace immediately
Thermometers
9
Replace a set percentage each quarter or year
targeting departments with high breakage first
Implement a one-time mass replacement
J
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Eliminating Mercury in Hospitals I Environmental Best Practices for Health Care Facilities
page
Step 5 - Institute Best Management Practices
Educate staff regarding the hazards of mercury and proper handling and disposal.
Eliminate mercury-containing equipment and products.
Establish and monitor mercury-free purchasing policies.
Step 6 - Measure Success
Use your mercury inventory (from Step 2) to re-evaluate your facility. Identify your
successes and modify your plan as necessary. Most importantly, get the message
out to hospital staff members that they are making a difference!
Step 7 - Keep The Mercury Out
Work with your purchasing department to make sure that mercury products do
not find their way back into the hospital. Require vendors to disclose the mercury
content of products that you intend to purchase. See "Tools for Change" at
www.sustainablehospitals.org for an example of a vendor product mercury-content
disclosure agreement and mercury-free purchasing policy language.
(Table 1)
Mercury Spill Training and Equipment13
Training
Cost
Trainees $90
(3 employees x 2 hrs x $ 15/hr) + loss of productivity
Trainer (2 hrs x $20/hr) $40
+ loss of productivity
Equipment
Cost
Spill Kit and
Draeger Mercury Sniffer
$519
Total Cost: $649
Mercury Spills
Depending on the type and size of the spill and the facility, mercury cleanups at hospitals are sometimes handled by staff if they are trained and
available, or otherwise addressed by cleanup contractors. While mercury spill data from a wide variety of health care facilities including large and
small, urban and rural, emergency, research and clinical facilities are generally unavailable or incomplete, the best available data comes from a large
hospital at the University of California, Los Angeles (UCLA) between 1997 and 1999 (see summary on previous page).
What Does It Cost To Prepare For and Clean Up Mercury Spills?
Because of health and safety considerations and the environmental impact of mercury,
any hospital that stores and uses mercury-containing devices within its facility is required
by federal regulations to be prepared to handle mercury spills. Table 1 shows costs for
mercury spill training and equipment that a hospital will incur, and Table 2 lists liability
costs that a hospital might incur. Actual cleanup costs for several spill scenarios are
itemized in the sphyg and thermometer inserts.
(Table 2)
Human Health and Environmental Liability
Exposures
Workers' Compensation,
Lost Time,
and Lawsuits
Fines and
Lawsuits for
Improper Cleanups
And Disposal
ase-specific
Up to $75,000 +
possible jail sentence
9 California Department of Health Services. 2000. A Guide to Mercury Assessment and Elimination
in Healthcare Facilities, www.dhs.ca.gov/medicalwaste
10 Leick-Rude, M.K. and Bloom, L.F. 1998. A Comparison of Temperature-Taking Methods in Neonates. Neonatal Network. Volume 17. Number 5. Pages 21-37.
" Mayfield, S. R. et al. 1984. Temperature Measurements in Term and Preterm Neonates. Journal of Pediatrics. Volume 104. Number 2. Pages 271-275 as cited in Leick-Rude,
M.K. and Bloom, L.F. 1998.
c N.K. Markandu, F. Whitcher; A. Arnold and C. Carney. "The Mercury Sphygmomanometer Should Be abandoned Before it is Proscribed." Journal of Human Hypertension.
Volume 14, pages 31 through 36.2000.
13 Holly J. Barron. HealthSystem Minnesota Mercury Reduction "MnTAP Intern Project Report." 2000.
continues
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page 6
Environmental Best Practices for Health Care Facilities | Eliminating Mercury in Hospitals
The following three case studies are summarized in terms of "Impetus," "Actions," and "Results" to help identify the challenges faced by hospitals and
the solutions they employed to start eliminating mercury. While each hospital is unique, these case studies may help you anticipate hurdles and
estimate costs associated with mercury elimination.
case study 01 | Mercury Costs Prompt Elimination Program in Rochester, NY
The 750-bed Strong Memorial Hospital (SMH) is the primary teaching hospital of the University of Rochester
Medical School and is a regional trauma center. Since 1997, SMH has implemented a focused mercury
reduction plan to eliminate the problems associated with spill response, disposal, and training.
Actions: Executive involvement and support:
SMH signed a memorandum of understanding with the Monroe County Health Department
CEO assigned program personnel and resources
Staff training and involvement:
Trained staff in program objectives and mercury awareness
Multidisciplinary teams identified mercury-containing devices and mercury use
Developed a mercury training poster for newly hired nurses
Developed and distributed a mercury use and disposal pamphlet
Added a mercury-specific training unit to the annual Resource Conservation Recovery Act (RCRA) training,
including a "show-and-tell" for different mercury-containing items encountered during routine maintenance
Included questions on Joint Commission on Accreditation of Healthcare Organization (JCAHO) safety
surveys about proper mercury disposal and a check box noting the presence of mercury-filled sphygs
Added a hazardous materials section (including mercury) to the project manager's renovation and
construction manual
Mercury Collection:
Developed and implemented procedures to improve staff use of mercury collection facilities including:
- Placing specially-labeled collection containers for mercury thermometers within patient care units
- Adding labels on or near sharps containers to remind staff members not to place thermometers
in the medical waste containers
- Establishing easy-to-access battery drop-off locations
- Establishing a centralized collection point for used
fluorescent lamps
< Replaced all mercury sphygs
Reduced mercury thermometer use by over 90% encountered difficulty replacing thermometers in the
neonatal intensive care unit due to infection control concerns
SMH's program cited as an example of a quality improvement initiative during the 1998 JCAHO survey
Eliminated annual disposal of 45 pounds of mercury-filled GI tubing by purchasing only tungsten-filled
GI tubing since the program began
Histopathology and other clinical laboratories discontinued use of mercury compounds
r
Year
Thermometers
Sphygs
Pre-1997
9,444
900
1997
7,706
500
2001
524
0
w
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Eliminating Mercury in Hospitals I Environmental Best Practices for Health Care Facilities
page 7
case study 02 | Wastewater Violations Force Change in Boston, MA
Impetus:
Beth Israel Deaconess Hospital began its mercury reduction program in 1993 when the local sewer district
lowered mercury limits in industrial wastewater to 1 part per billion (ppb) resulting in subsequent fines of
$118,000 for exceedences. Beth Israel's wastewater contained approximately 360 ppb mercury.
Actions:
Trained staff on mercury sources and proper disposal methods, posted wastewater data, and changed the
collection process for mercury-laden chemicals including the fixatives B5 and Zenker's solution
Infrastructure upgrades: cleaned traps and pipes
End-of-pipe treatment: installed a sand filter ($40,000) and a dewatering unit ($60,000) both requiring
minimal maintenance
Instituted a wastewater sampling program to establish a baseline for measuring its progress
(Baseline Wastewater Mercury Content: 360 ppb mercury)
Training, awareness and lab chemical replacement reduced mercury content to 100 ppb
Trap and pipe cleaning reduced content to 48 ppb
Improved wastewater treatment reduced content to < 1 ppb
case study 03 | Spills Prompt Mercury-Free Commitment in Grand Rapids, MI
Impetus:
Butterworth Hospital with 529 beds made a commitment to eliminate mercury after three separate mercury spills
cost the hospital over $6,000. In 1995, the hospital estimated that there was 1.5 pounds of mercury per bed.
Actions:
Replaced all existing sphygs and esophageal dilators containing mercury
Instituted a policy banning the purchase of mercury-containing thermometers, sphygs,
esophageal dilators, and batteries
Results:
Removed 300 pounds of mercury
No longer sends mercury-containing devices overseas as part of its humanitarian efforts
continues
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page 8
Environmental Best Practices for Health Care Facilities | Eliminating Mercury in Hospitals
Mercury-Free Thermometers
Alaris/IVAC
(800) 854-7128
www. alarismed. com
Braun
(800) 327-7226
Geratherm
(888) 596-9498
www. 1 thermometer.com
Medical Indicators
(888) 930-4599
www. medicalindicato rs. com
Omron Healthcare*
www.omron.com/ohi
Welch Allyn
www.welchallyn.com
3M Healthcare
(800) 228-3957
www.3m.com/healthcare
Mercury-Free
Sphygmomanometers
Alco Classic*
(800) 323-4282
American Diagnostic
Corporation
(631) 273-9600
www.adctoday.com/
Omron Healthcare*
www. omron. com/o hi
Tips On Procurement
www.state.ma.us/ota/pubs/epp-
marc h 01. htm#/tips
Trimline
(800) 526-3538
www.trimlinemed.com
W.A. Baum
(888) 281-6061
(631)226-3940
Welch Allyn'1'
www.welchallyn.com
Mercury-Free
Gastrointestinal Devices
Miller Abbot Tubes
Anderson
(800) 523-1276, x 292
Bard Medical Sendees
(800) 227-3357
Rusch
(800) 553-5214
www.j-uschinc.com
Bougie Tubes
Pilling
(800) 523-6507
Cantor Tubes
Anderson
(800) 523-1276, x 292
Mercury-Free
Vital Signs Monitors
Alaris
(800) 854-7128
www.alarismed.com
Welch Allyn
www.welchallyn.com
Mercury-Free
Laboratory Chemicals
For alternatives see the list at
Mrww.sustainablehosptals.org
Consider taking the "Hospitals for a Healthy Environment Pledge." Find out more at www.h2e-online.org
* Companies with a mercury exchange program to help defray the cost of replacing mercury-containing devices.
See www.state.ma.us/ota/pubs/eppmarch01.htm#tips for tips on procuring non-mercury sphygmomanometers.
This fact sheet was produced by the Environmental Protection Agency (EPA) Region 9 Pollution Prevention Program. Mention of trade names, products,
or services does not convey, and should not be interpreted as conveying, official EPA approval, endorsement, or recommendation.
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Sphygmomanometer Environmental Best Practices for Health Care Facilities | Eliminating Mercury in Hospitals
Cost Comparisor13
Sphygmomanometer Cost Comparison
Costs Over 5-Year Period
am s
Mercury Unit
Aneroid Unit
r Electronic Unit
Wall Unit
Mobile Unit
Vital Signs Monitor
Purchase and Training
Purchase Cost14
$129
$152
$264
$1,250 to $3,000
Batteries
NA
NA
$30
Training"
$20
$20
$80
Calibration
Biomedical Engineer
(15 minutes/calibration x $40/hour) = $10/calibration
$100"'
(every 6 months)
$100"'
(every 6 months)
$10
(every 5 years or if damaged)
Storage, Handling and Cleanup
Shipping, Handling and Disposal"
$34
as hazardous waste
$0.03
as solid waste
$.017
as solid waste
Mercury Spill Training and Equipment (see table below)
$649
NA
5-Year Usage Cost Totals
$932
$272
$384
$1,370 -$3,120 ,
Mercury Sphygmomanometer Spill Cleanup Costs1
Hard Floor/Early Detection
Mercury Spill Kit
$325
3 Hours of Staff Time
$45
Disposal Of 5-gallon Bucket
$620
Total
$990
Hard Floor/Late Detection
Mercury Spill Kit
$325
10 Hours of Staff Time
$150
Disposal Of 5-gallon Bucket
$620
Total
$1,095
Carpeted/Early Detection
Mercury Spill Kit
$325
10 Hours Staff Time
$150
27 Sq. Ft. Carpet Replacement
$48
Disposal Of 5 5-gallon Drum
$1,000
Total
$1,523
Carpeted/Late Detection
Mercury Spill Kit
$325
20 Hours Staff Time
$300
90 Sq. Ft. Carpet Replacement
$160
Disposal Of 5 5-gallon Drum
$1,000
Total
$1,785
Average Cost per Spill18 =
$1,539
3 Unless noted, costs are from Holly J. Barron. HealthSystem Minnesota Mercury Reduction "MnTAP Intern Project Report." 2000.
4 Purchase costs are for mercury-free sphygs: Welch Allyn wall unit, Trimline mobile unit, and Alaris/IVAC vital signs monitor (4200 or 4400 Series)
5 Trainee (4 employees x 0.25 hour x $15/hour); trainer (0.25 hour x $20/hour); 1 hour training for vital signs monitor
6 Assumes one 15 minute calibration takes place every 6 months over the 5 year period (15 min/calibration x $40/hour x 2 calibrations/year x 5 years).
7 Varies by region; hazardous waste ($34 per pound or $895 - $1,200 per 55 gallon drum); solid waste (approx. $0.03 per pound, or $68 per ton);
see www.epa.gov/epaoswer/non-hw/recycle/recmeas/docs/guide_b.pdf)
8 Average for 13 mercury sphygmomanometer spills
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Eliminating Mercury in Hospitals I Environmental Best Practices for Health Care Facilities
Sphygmomanometer
Efficacy
Accuracy
Calibration
Installation
Maintenance
View Window
Measurement
Technique
Other Features
Sphygmomanometer Efficacy
Mercury
+/- 3 mm Hg conforms to AAMI
standards
Operator must understand and
account for mercury meniscus
Oxidized mercury can make the col-
umn appear dirty and make readings
difficult
* Required every 6 months
* Adjusted only at the zero point
Mercury tube must be perfectly
vertical in its unit and perpendicular
to the ground
Requires excellent technique to read
the meniscus of a mercury column
~ Without proper maintenance, accu-
racy of the device could be consider-
ably diminished
> Frequent filter replacement needed
to avoid mercury column "lag," a
delay in mercury response, that
contributes to inaccuracies
0 to 300 mm Hg with no stop pin
Relies on the auscultatory technique
Aneroid
+/- 3 mm Hg conforms to AAMI
standards
Includes a self-bleeding deflation
valve for increased reading accuracy
Required every 6 months
Requires specialized tools and
technical skills to calibrate the
mechanism at several pressure
points, including zero
No specific orientation required
Easier to read than mercury column
Easy to see if aneroid needle is off
zero when not in use
Calibration is harder than with mer-
cury units
0 to 300 mm Hg with no stop pin
Relies on the auscultatory technique
Vital Signs Monitor
* +/- 3 mm Hg conforms to AAMI
standards
* Digital display removes operator
error and bias
* Automatic deflation rate improves
accuracy
Recommended every 5 years or if the
device has been dropped
Usually provided at no cost by the
manufacturer
No specific orientation required
1 Digital display standardize
measurements
* Automatic inflation and deflation
improves staff efficiency
Battery replacement as necessary
(approximately every 350 uses)
NA
Relies on oscillometric technique
Unit can also measure temperature,
pulse rate, blood pressure
AAMI - Association for the Advancement of Medical Instruments
mm Hg = millimeter mercury column
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Thermometer Environmental Best Practices for Health Care Facilities | Eliminating Mercury in Hospitals
Cost Comparison
Fever Thermometer Cost Comparison13
Costs Over 5-Year Useful Life (estimate 35,000 uses; approximately 20/day)
Mercury
Liquid-ln-Glass
Digital
Tympanic
|H Matrix/single use
Purchase/Training
Purchase Cost1"
$2.00
$13.75
$180
$296
$3,500
Probe CoversJ0
NA
NA
$1,960
($28 per 500)
$2,100
($30 per 500)
NA
Batteries
($5 x replaced every 5,000 uses)
NA
NA
$35
$35
NA
Training
NA
NA
$20:l
NA
Calibration
Biomedical Engineering
NA
NA
$70::
NA
NA
(15 min/calibration x $40/hour)
Storage/Handling/ Cleanup
Shipping, Handling and Disposal17
$45.00
as hazardous waste
<$0.01
as solid waste
$0.02
as solid waste
$70.02
as solid waste
$3.00
as solid waste
Mercury Spill Training and
Equipment (see table below)
$649
5-Year Cost
V
$695
$13.76
$2,265
$2,511
CO
O
LO_
CO
Mercury Thermometer Spill Cleanup Costs
Hard Floor/
Mercury Spill Kit
$195
Early Detection
3 Hours of Staff Time
$45
Disposal of 5-gallon Bucket
$620
Total
$860
Hard Floor/
Mercury Spill Kit
$195
Late Detection
10 Hours of Staff Time
$150
Disposal of 5-gallon Bucket
$620
Total
$965
Carpeted/
Mercury Spill Kit
$195
Early Detection
10 Hours of Staff Time
$150
27 Sq. Ft Carpet Replacement
$48
Disposal of 55-gallon Drum
$1,000
Total
$1,393
Carpeted/
Mercury Spill Kit
$195
Late Detection
20 Hours of Staff Time
$300
90 Sq. Ft Carpet Replacement
$160
Disposal of 55-gallon Drum
$1,000
Total
$1,655
3 Unless noted, costs are from Holly J. Barron. HealthSystem Minnesota
Mercury Reduction "MnTAP Intern Project Report." 2000.
7 Varies by region; hazardous waste ($34 per pound or $895 to $1200 per
55-gallon drum); solid waste (approx. $0.03 per pound, or $68 per ton);
see www.epa.gov/epaoswer/non-hw/recycle/recmeas/docs/guide_b.pdt)
9 Purchase and disposal cost for mercury and liquid-in-glass thermometers
is for five thermometers (replaced once per year); digital and tympanic
thermometer is for one unit; dot matrix are single use and cost $10 per
100; liquid-in-glass thermometer purchase cost from Geratherm
0 Average taken from various medical suppliers
'Trainee (4 employeesx 0.25 hourx$15/hour);
trainer (0.25 hour x $20/hour)
" Assumes one 15 minute calibration takes place every 9 months over the
5 year period (15 min/calibration x $40/hour x 6.66 calibrations/5 years).
3 Average breakage data for four facilities.
4 Average provided by major SF Bay Area Medical Center
Average Number of Breakages/Year23= 3.4 per 100 beds
Average Cost/Spill24= $270
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Eliminating Mercury in Hospitals
Environmental Best Practices for Health Care Facilities
Thermometer
Efficacy
(
Thermometer Efficacy
1
Mercury IH
Digital _jf
Tympanic If
Dot Matrix H
Accuracy
(see below for
ASTM standards)
Requires some skill to
account for meniscus
in reading
Requires some skill to
account for meniscus
in reading
Digital display stan-
dardizes measure-
ments, eliminating
user error
Digital display stan-
dardizes measure-
ments, eliminating
user error
Easier to read than a
mercury column
Time Required For
Reading
Oral - 3 minutes
Rectal - 3 minutes
Axillary - 4 minutes
Oral - 3 minutes
Rectal - 3 minutes
Axillary - 4 minutes
Oral - 4 seconds
Rectal - 15 seconds
Axillary - 10 seconds
Ear - 1 second
Oral - 1 minute
Axillary - 3 minutes
Calibration
NA
NA
NA
612 months
612 months
Temperature
Range
94 to 108°F
94 to 108°F
84 to 108°F
Varies significantly
96 to 104.8°F
Battery
NA
NA
3 AA alkaline cells
good for 5,000 to
6,000 readings
3-volt lithium or
9-volt alkaline good
for 5,000 to 8,000
readings
NA
Other
Considerations
iH
Often not left in place long enough to obtain
accurate reading
Can be easily broken as a result of rectal
perforation, especially for neonates and
young children
Quick, accurate readings
Minimally invasive - works well with children
Requires probe covers for hospital use
Single use prevents
cross-contamination
Single use increases
waste generation
Ideal for isolation
patients
J
Medical thermometers are tested to voluntary standards set by the American Society for Testing and Materials (ASTM) and shown in following table.
There are non-mercury alternatives that meet these standards ask your vendor whether the non-mercury alternative you choose for your facility meets
the ASTM standards for its class.
Mercury in Glass - ASTM E667-86
Electronic - ASTM E-1112-86
Range
Max. error allowed:
Max. error allowed:
< 96.4°F
±0.4°F
±0.5°F
96.4° to 98.0°F
±0.3°F
±0.3°F
98.0° to 102.0 °F
±0.2°F
±0.2°F
< 102.0° to 106.0°F
±0.3°F
±0.3°F
> 106°F
±0.4°F
±0.5°F
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