US Environmental Protection Agency
Office of Pesticide Programs
Office of Pesticide Programs
Microbiology Laboratory
Environmental Science Center, Ft. Meade, MD
Standard Operating Procedure for
Use and Maintenance of Spectrophotometers
SOP Number: EQ-04-07
Date Revised: 09-15-17
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SOP No. EQ-04-07
Date Revised 09-15-17
Page 1 of 8
SOP Number
EQ-04-07
Title
Use and Maintenance of Spectrophotometers
Scope
This protocol describes the procedure for verifying the performance
of spectrophotometers.
Application
This protocol describes the procedure for determining the absorbance
and percent transmittance of microbial suspensions.
Approval Date
SOP Developer:
Print Name:
SOP Reviewer
Print Name:
Quality Assurance Unit
Print Name:
Branch Chief
Print Name:
Date SOP issued:
Controlled copy
number:
Date SOP withdrawn:
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SOP No. EQ-04-07
Date Revised 09-15-17
Page 2 of 8
TABLE OF CONTENTS
Contents Page Number
1.
DEFINITIONS
3
2.
HEALTH AND SAFETY
3
3.
PERSONNEL QUALIFICATIONS AND TRAINING
3
4.
INSTRUMENT CALIBRATION
3
5.
SAMPLE HANDLING AND STORAGE
3
6.
QUALITY CONTROL
4
7.
INTERFERENCES
4
8. NON-CONFORMING DATA
4
9.
DATA MANAGEMENT
4
10.
CAUTIONS
4
11.
SPECIAL APPARATUS AND MATERIALS
5
12.
PROCEDURE AND ANALYSIS
5
13.
DATA ANALYSIS/CALCULATIONS
8
14.
FORMS AND DATA SHEETS
8
15.
REFERENCES
8
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SOP No. EQ-04-07
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1. Definitions
Additional abbreviations/definitions are provided in the text.
1. Percent transmittance (%T). The ratio of the intensity of the light that
has passed through the sample to the intensity of the light when it
entered the sample (T = lout / Iin). The transmittance is displayed as a
percentage on an analog scale.
2. Absorbance (Abs), also referred to as optical density (OD). The
measure of the quantity of light that a sample neither transmits nor
reflects and is proportional to the concentration of a substance in a
solution. The absorbance scale is logarithmic. In turbid bacterial
cultures, the scatter of light is measured; this scatter is what the
spectrophotometer interprets as absorbance.
NOTE: To convert between the absorbance and transmittance scales,
use the equation: A = -log (%T/100). Values for both A and %T are
unitless as both are derived from a ratio between the incident light and
the transmitted light.
2. Health and Safety
1. Follow procedures specified in SOP MB-01, Laboratory Biosafety.
The Study Director and/or lead analyst should consult the Safety Data
Sheet for specific hazards associated with products.
2. Cap cuvettes containing microbial suspensions prior to removal from
the BSC. The use of a cuvette rack for transporting capped cuvettes
within the laboratory is recommended. For transporting microbial
suspensions in capped cuvettes between laboratories, place the
cultures in secondary containment.
3. Personnel
Qualifications and
Training
Refer to SOP ADM-04, OPP Microbiology Laboratory Training.
4. Instrument
Calibration
Use an ISO 17025 accredited vendor to certify the spectrophotometers on
an as-needed basis.
5. Sample Handling
and Storage
1. For sample readings, aliquot microbial suspensions into cuvettes in the
biological safety cabinet (BSC) and cap prior to removal from the
BSC. Cuvettes should remain capped at all times once removed from
the BSC.
2. Fill all blank and sample cuvettes at least half-full to a level just above
the window shoulder (23 mm). Once filled, cap the cuvette. Avoid
touching the cuvettes below the shoulder.
3. Never leave cuvettes containing microbial suspensions in the cell
holder once a reading has been taken.
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SOP No. EQ-04-07
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4. Check that no air bubbles are present in the cuvette; gently tap to
remove if necessary. Using a clean, dry, and lint free towel, gently
wipe the cuvette sides oriented in the optical path (indicated with an
arrow - see 11.3) and firmly position the cuvette in the sample holder.
6. Quality Control
1. For quality control purposes, the required information is documented
on the appropriate form(s) (see section 14).
2. Certification records are maintained in D217.
7. Interferences
1. The enclosure, the cell compartment, and all accessories must be kept
clean. If it becomes dirty, wipe it clean with a mild soap solution and
a soft cloth.
8. Non-conforming
Data
1. Management of non-conforming data will be consistent with SOP
ADM-07, Non-Conformance Reports.
2. For the Beckman DU 730, if any function does not pass or if any error
messages are displayed, refer to section 17, Troubleshooting in the
Operating Instructions (see 15.1) and, if necessary, contact the
manufacturer for assistance. Record corrective actions on the Systems
Check Record Form under "Comments." Remove the
spectrophotometer from service if troubleshooting does not resolve the
issue.
3. For the Denville® S800 Spectrawave, refer to the Error Messages
section of the user manual to troubleshoot if FAIL appears on the
instrument (see 15.2).
9. Data Management
Archive data consistent with SOP ADM-03, Records and Archives. The
calibration certificates are filed and maintained in a file cabinet in the file
room (D217). Only authorized personnel have access to D217. Archived
data is subject to OPP's official retention schedule contained in SOP
ADM-03, Records and Archives.
10. Cautions
1. Maintain an ambient temperature of 10-35°C for proper instrument
operation. Leave at least a 15 cm clearance at the top and on all sides
for air circulation. Keep the air vents under the instrument clean and
free of materials that might obstruct the air flow.
2. Allow the instrument to warm up for a minimum of 5 minutes before
taking any sample readings (for instrument verification, allow the
instrument to warm up for at least 1 hour).
3. During system startup and initialization for the Beckman DU 730, the
analyst must remain present during the entire system check of the
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SOP No. EQ-04-07
Date Revised 09-15-17
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instrument and must observe the check marks in order to verify that
the instrument has passed its system checks.
4. During system startup and initialization of the Denville® S800
Spectrawave, the unit will briefly display a "PASS" statement on the
machine. If the Denville® S800 Spectrawave does not pass, the word
"FAIL" will appear on the display together with a symbol and a
number.
5. Do not switch the instrument off and on in rapid succession; always
wait at least 5 seconds before switching the instrument on again.
6. Lenses are located on both sides of the sampling module. Wipe lenses
with a soft lint-free and oil-free cloth to clean. Do not use organic
solvents such as acetone to clean the lenses.
7. Due to its shorter optical path, do not use the Denville® S800
Spectrawave to measure the optical density of Mycobacterium bovis
(BCG) or Mycobacterium terrae.
11. Special Apparatus
and Materials
1. Beckman DU Series 730 Life Science Spectrophotometer: wavelength
range 190-1100 nm.
a. The Beckman DU 730 operates in both the visible and UV range.
Use cuvettes made of silica or quartz in the UV region (190-360
nm). Use glass or plastic cuvettes in the visible region (e.g., 650
nm). To accurately measure turbid samples like bacterial
cultures, a turbidity cell holder (part number A23623) is
installed.
2. The Denville® S800 Spectrawave operates in the visible region (330-
800 nm). The optical height is 15 mm; the minimum volume that can
be used is 0.7 mL in a semi-micro cuvette.
3. Cuvettes.
a. Semi-micro plastic disposable cuvettes: 12.5x12.5x45 mm,
capacity of 1.5-3 mL, 10 mm light path. A triangular arrow at
the top of each cuvette indicates the optical path orientation.
b. Optical glass cuvettes. 10 mm light path; used for
spectrophotometer standards.
12. Procedure and
Analysis
12.1 In-house
verification of
spectrophotometers
a. Check both spectrophotometers (when in use) on a quarterly
basis using spectrophotometer standards (e.g., In-Spec
Spectrophotometer standards and background solution) aliquoted
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SOP No. EQ-04-07
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into optical glass cuvettes.
b. Use three spectrophotometer reference standards (a 0.3, 0.5, and
0.8 absorbance standard) to verify the performance of the
Denville® S800 Spectrawave.
c. Use four spectrophotometer reference standards (a 0.3, 0.5, and
0.8 absorbance standard and a 20% transmittance standard) to
verify the performance of the Beckman DU 730.
d. Warm each instrument for at least 1 hour prior to verification
(refer to 15.3).
e. Do not shake, mix, or agitate the standards. Discard any used or
unused aliquoted standards.
f. Zero the instrument using the background solution to blank the
system at 650 nm.
g. Wipe both sides of the cuvette before and after putting the
background solution in the cuvette.
h. Exchange the contents in the sample cuvette with one reference
standard solution. Be sure to rinse the cuvette several times with
the standard.
i. Begin with the least concentrated standard solution. Position the
cuvette using the same orientation for each measurement. After
reading the least concentrated standard solution, exchange the
contents of the cuvette with the next standard following the same
procedure as in 4.2f.
j. Compare the data generated by the instrument with the certified
values provided with each standard. The acceptable tolerance for
each instrument is as follows:
Tolerance = Uncertainty + Instrument's Photometric Accuracy
Readings must be within the certified value for each standard
(rounded to the nearest hundredth) ± the tolerance.
k. The photometric accuracy for the Beckman DU 730 is ±0.005 A
at 0.0 to 0.5 A, 1% at 0.5 to 2.0 A.
1. The photometric accuracy for the Denville® S800 Spectrawave is
±0.003 A at 0.0 to 0.5 A (at 546 nm).
m. Clean optical glass cuvettes using alcohol and de-ionized water
after use.
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SOP No. EQ-04-07
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12.2 Beckman DU 730:
Self-Check
a. Close the cell compartment and turn on the instrument.
b. Each time the instrument is powered up, a series of diagnostic
tests is performed automatically to ensure operation of major
system components. This procedure, which takes two minutes,
checks the system, lamps, wavelength calibration, filter
adjustment and voltage. The instrument also contains programs
for checking photometric accuracy, photometric noise, stray
light, wavelength accuracy, lamp history, and printer check.
c. After each portion of the self-check, a check mark will appear
next to each diagnostic test.
NOTE: Analyst must be present during the instrument's self-
check (see section 10.3).
d. When the power-up diagnostics are complete, the Main Menu
appears. If any function does not pass or if any error messages
appear during the self-check, refer to the "Troubleshooting"
section of the manual (see ref. 15.1).
e. Record results of the system's self-check on the appropriate form
(see section 14).
12.3 Using the
Beckman DU 730
a. From the Main Menu, select User Programs on the touch
screen, select the desired program (e.g., Fixed Wavelength) and
touch Start to run the program.
b. Touch X to enter the desired wavelength (e.g., 650 nm).
c. Before taking measurements, blank the instrument using a
cuvette with a "blank" solution, such as the growth medium or
other appropriate background liquid.
d. Insert the blank cuvette into the cell holder and close the cell
compartment. Touch Blank to take the blank reading. When
done, the instrument enables the Read button.
e. Remove the blank and insert a sample cuvette into the cell holder
and close the cell compartment. Touch Read to take the sample
reading.
f. To toggle between absorbance and percent transmittance
readings, touch the Abs/%Trans button.
g. For multiple sample readings, it is advisable to take a blank
reading between samples.
h. Refer to the manual (see ref. 15.1) when using other programs.
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SOP No. EQ-04-07
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12.4 Denville® S800
Spectrawave -
Self-Check
a. Each time the instalment is powered up, a series of diagnostic
tests is performed automatically to ensure operation of major
system components including lamp performance and wavelength
calibration.
b. After the self-check, a "PASS" will briefly appear on the
instrument's display. If the instrument does not pass or if any
error messages appear during the self-check, refer to the
"Troubleshooting" section of the manual (see ref. 15.2).
c. Record results of the system's self-check on the appropriate form
(see section 14).
12.5 Using the
Denville® S800
Spectrawave
a. Using the arrow keys, highlight nm on the display and press the
red ^ button. Select the desired wavelength using the arrow
keys then press the red S button.
b. Before taking measurements, blank the instrument using a
cuvette with a "blank" solution, such as the growth medium or
other appropriate background liquid.
c. Insert the blank cuvette into the cell. Press the blue R button to
take the blank reading.
d. Remove the blank and insert a sample cuvette into the cell
holder. Press the green T button to take the sample reading.
e. To toggle between absorbance and percent transmittance
readings, use the arrows to highlight Abs/%T on the display and
then use the -w A keys to select absorbance or percent
transmittance.
13. Data Analysis/
Calculations
1. None
14. Forms and Data
Sheets
Test Sheets. Test sheets are stored separately from the SOP under the
following file names:
Spectrophotometer Systems Check Record EQ-04-07 F1 .docx
Spectrophotometer Calibration Verification EQ-04-07_F2.docx
15. References
1. Operating Instructions: Beckman DU Series 700 Spectrophotometer
User's Guide. Beckman Instructions A24014-AB, July 2007.
2. Denville® S800 Spectawave User Manual. Issue 02 - 03/2005.
3. Scanning Procedures for Photometric Standards. (2012). Retrieved
June 10, 2014, from httD://www.in-SDec.com/index.DhD?id=2170.
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