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Overview - Diagnostic Questions
Rad-Path Correlation.
This kind of question arises frequently
for most radiologists when they encounter an image demonstrating
an unusual finding that is not immediately familiar to them,
but for which they have a differential diagnosis. This knowledge
gap is often best filled by an article on rad-path correlation.
Unfortunatly this was not an area of interest for EBM physicans
when they worked on critical apprasial of literature. There
is, therefore, no relevant EBM literature on searching for,
or analysing, articles on Rad-Path correlation. It is an area
for further research in EBR. Because it is important to radiologists,
we have included it on this site.
In our experience, the journal ‘Radiographics’
is a very useful source of information. Failing that, a search
of the ‘RSNA
Index to the Imaging Literature’ can provide rapid
access to relevant literature. A wider search of primary resources
can be performed if a suitable article is not found. Image
databases maintained by organisations (Eurorad),
RSNA, Radiology
Central or others (Aunt
Minnie) may be helpful, although the quality of the results
becomes progressively less predictable. If you know what the
disease is, but want up-to-date information on its appearances
with a particular modality, either the RSNA
Index to the Imaging Literature or the Clinical
Queries section of PubMed can give quick ‘hits’.
The bottom line, at present, is that Rad-Path textbook resources
are still very valuable for many cases.
Comparison of imaging methods in a specific
clinical condition
This is a more classical type of evidence-based
question. In this situation, you need to find the best available
evidence about the superiority of one imaging method over
another in resolving clinical dilemmas or about the power
of imaging signs to reliably confirm or exclude suspected
disease processes. The search must therefore be wider than
that performed for a ‘rad-path’ correlation. Regrettably,
there is very little secondary evidence available for diagnostic
radiologists as yet. We will concentrate on search tips for
the primary literature. The APPRAISE
section of this site describes the hierarchy of evidence within
which individual retrievals are ranked.
Search Engines
Search engines can be classified as ‘raw’
or ‘filtered’, ‘free’ or ‘subscription-based.’
PubMed
is an example of a free site, largely used for ‘raw’
searching. This is analogous to older computing interfaces
such as DOS. It is very powerful, but getting good results
is dependent on a high level of operator skill. Brian Haynes, one of the leading 'Evidence-Based' practitioners and innovators, has researched and published what he considers to be "Optimal Search Strategies for retrieving scientifically strong studies of diagnosis from Medline", which you can download from the BMJ. Ovid
have produced and excellent search engine that is accessed
by subscription. It is (with a little training) easier to
use than PubMed and results are very comprehensive. The ‘filtered’
type of search is analogous to newer computing interfaces
such as Windows. The program designers have done a lot of
the work for you and users with little experience can get
decent results when looking for current evidence. Examples
of this are the Clinical
Queries section of PubMed (a free resource, designed by Brian Haynes) and the Knowledge
Finder (subscription) site. Knowledge Finder is definitely
worth a look if you are getting too much irrelevant material
on your PubMed searches. Its designers have applied fuzzy
logic, concept mapping, ‘up-front’ limits and author
search options with an important option for listing of retrieved
articles in order of relevance. It is the kind of site that
most practicing radiologists will find much more satisfactory
for use than PubMed. The drawback is that some constraints
are placed on the overall power of the search by this type
of system.
When to use which search engine?
In our experience to date, many ‘knowledge
gap’ questions arising in daily practice are readily
answered by a ‘filtered’ search. These usually return
a small number of highly relevant papers within a few seconds
and can, for example, be used to answer a few questions before
finishing a reporting session.
If the problem is one of Departmental
strategy / policy or if it is centered around an academic
exercise to be submitted for publication, a ‘filtered’
search alone is insufficient. It will likely exclude some
relevant citations, such that all of the best available evidence
will not be retrieved. However, when attempting a comprehensive
search, we find it useful to start at a filtered site to get
a few relevant papers. The ‘view citation’ function
in PubMed, which is on the DISPLAY pull-down menu with SUMMARY and ABSTRACT, lets us see what MeSH terms have been used to index
these. This information is helpful in building a good PICO
question for use in PubMed or OVID. Another useful starting point is a standard textbook of radiology. If you look in the relevant chapter, find the relevant section and check the references, they are often too old for current use. However, you can look them up on PubMed and (again using the 'citation' display function) find out what MeSH terms were used to index them. We find these tips reduce the time needed to design a satisfactory search.
Detail about the technical aspects of
a technique in a specific clinical condition.
Our experience to date has been that
the non-radiologic literature is typically light on technical
details. We suggest starting with the RSNA
Index to the Imaging Literature and proceeding to Knowledge
Finder as a starting strategy.
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