Documenting Your Laboratory's Commitment To Quality Patient
CARE: Complete Accurate Reproducible
Examinations [continued]
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the October 2006 issue |
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PERIPHERAL
VENOUS (Lower Extremities)
Representative
gray scale images with and without transverse transducer
compressions (figure 2):
- common
femoral vein including the saphenofemoral junction
- femoral
vein (formerly known as the superficial femoral vein)
- popliteal
vein
- Documentation
of the lack of vein compression must be included
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Figure
2. Venous image without and with compression
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Representative
spectral Doppler waveforms:
- common
femoral vein
- on
a unilateral study, a contralateral common femoral venous
spectral waveform must be documented
- femoral
vein (formerly known as the superficial femoral vein)
- popliteal
vein
- Documentation
of the lack of Doppler waveforms in the presence of suspected
thrombus must be included
ACCURATE
The
accuracy of examinations and final reports is largely dependent
upon the experience, training, knowledge and attention to detail
of both the technologist performing the exam and the interpreting
physician.
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TECHNIQUES
Assuring
that proper techniques are used in each type of examination
performed in the laboratory is another step in producing
high quality results. As with the required documentation,
the Standards include a variety of techniques to
be employed by the staff members performing the tests
and are included in Section 3 - Techniques and Documentation
of Examination Performance. Factors such as appropriate
Doppler angle and cursor alignment, optimization of equipment
settings and proper measurement of spectral waveforms
are included in the Standards. The ICAVL Standards
are written to address the practices required for quality
and standardization of vascular testing, but are not meant
to be a "how to" text resource explaining the
proper techniques and how they are achieved. The specifics
regarding how to best utilize these techniques lay with
staff experience, training, education and additional referencing
of published articles and textbooks (figure 3).
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Figure
3. Poorly optimized CW Doppler waveform
settings
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FINAL
REPORTS
A
very important factor directly impacting the accuracy of the
examination findings is how the interpreting physician reports
the results. The ICAVL Standards list the components
required for final reports in the Organization standards Section
4 - Examination Interpretation, Reports, and Records. As
with documenting incomplete exam hardcopy, case studies submitted
for accreditation often include final reports that are lacking
one or more components required by the Standards.
Many
report formats exist and the ICAVL does not require one specific
layout, but rather reviews the reports for content in compliance
with the Standards. Four elements that are most frequently
excluded from final reports submitted by applicant laboratories
include:
1.
Appropriate clinical indications leading to the examination
performed
2.
A report body that includes a brief description of the exam
performed and the specific exam findings (i.e., plaque description,
quality of exam, unusual findings)
3.
A separate succinct final impression that summarizes the exam
findings described within the body of the report
4.
A date of interpretation, physician signature or verification
DIAGNOSTIC
CRITERIA
For
every type of exam performed in the laboratory, there must be
a standardized set of diagnostic criteria used consistently
by all interpreting physicians. The standards for diagnostic
criteria can be found in the Testing standards, Section 4
- Diagnostic Criteria and Interpretation.
There
are several criteria that have been published for use in the
interpretation of vascular ultrasound testing. As with report
format, one particular criterion is not required by the ICAVL
Standards; however, the criteria must be reported accurately
in accordance with the diagnostic categories that have been
validated in the criteria's development.
It
has been well documented that there are various factors that
might affect the accuracy of the validated criteria ranges,
such as an occlusion of the contralateral carotid artery, the
presence of stents, or tortuous vessels. How these deviations
from the standard criteria are interpreted and reported should
be agreed upon by the interpreting physicians and a formal policy
implemented and followed by all interpreters to ensure consistency.
As well, there are times that the laboratory will find that
the criteria may need to be adjusted to give the most accurate
results for their individual laboratory and can do this through
further documented internal validation of the criteria.
If
a laboratory chooses to utilize secondary diagnostic criteria,
i.e. ratios or area reduction measurements, there should be
an algorithm used to specify how this secondary criterion is
utilized and if the two criteria indicate discrepant findings,
how they are weighted and what will be given primary consideration
in the final diagnosis.
QUALITY
ASSURANCE
Ongoing
quality assurance (QA) is integral in identifying where the
problems within the laboratory exist that can lead to unnecessary
additional testing and inappropriate patient care plans/treatment.
The general policy requirements for a quality assurance program
are located in the Organization standards, Section 6 - Quality
Assurance and Quality Control. Additionally, each area of
testing includes QA standards that are located in Section
6 - Quality Assurance.
There
are slight differences in the minimum number of correlations
required for each area of testing, as well as some alternative
methods of performing quality assurance for those areas of testing
where the previously accepted "gold standard" comparison
exams may be rarely performed, such as in the case of venous
duplex examination.
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