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Applying Trials and Systematic Reviews to Individual Patients
Paul GlasziouCentre for Evidence Based MedicineUniversity of Oxford
Overview
Why is applicability a problem? What are the issues? How can we improve?
• The “5-step” processCheck on the transferability Application to an individual
www.sph.uq.edu.au/CGP/training/CochraneMethodsGroup.html
The problem: The “Leaks” between research & practice
Aware Accept Target Doable Recall Agree Done
ValidResearch
Thomson R BMJ 1998;316:509-13
Variation in Guidelines: % of AF patients “needing” warfarin
The Trialpatients
The Trialreport
The actualpatients
The problem of applying trial results
Should Mr RM buy an electric toothbrush?
72 year old pensioner with Parkinson’s Disease• Has gingivitis and frequent caries
Trials in young healthy folk showing improvements in gingivitis scores but not caries.• Would the electric brush “work” for him?• What should he do?
What did you think?
Osteoarthritis N-of-1s
Comparison of• 1,000mg paracetamol tds• 400mg ibuprofen tds
Two weeks x 6• Outcome diary of pain and
stiffness of target joint
NSAID Paracetamol
Paracetamol NSAID
NSAID Paracetamol
Pair 1
Pair 2
Pair 3
N-of-1: overall & examples
0
2
4
6
8
AVERAGE PAIN
DRUG
PA
IN S
CO
RE
(ME
AN
+9
5%C
I)
Panadol Actiprofen0
2
4
6
8
AVERAGE PAIN
DRUG
PA
IN S
CO
RE
(ME
AN
+9
5%C
I)
Panadol Actiprofen
NSAID non-responder NSAID responder
Interventions: Levels of Evidence
N-of-1 Trial Systematic review of randomised trials A single randomised trial Controlled, non-randomised
• Parallel control• Historical control• Case-control
Case-series
Guyatt, JAMA, 2000
*Controlled Clinical Trials; 10: 151S-160S.
When n-of-1 not possible:The benefit-harm model (Lubsen, Tijssen*)
When does benefit outweigh harm? Assumptions
• Benefit (rate difference) proportional to event rate• Harm constant over event rate
Net benefit = benefit - harm
02468
0 10 20
Benefit
Harm
Transferability and applicability of results
A. TRANSFERABILITY (across groups)1. What are the benefits and harms?2. Is there predictable variation in the
effects?3. How does effect vary with predicted risk?
B. APPLICATION (to individual)4. What are the predicted absolute risk
reductions for individuals?5. Do the benefits outweigh the harms?
Questions so far?
1. What are the benefits and harms?
List all important outcomes • beneficial and harmful
Get best estimate (from meta-analysis)
Summarise in a “clinical balance sheet”
Antibiotics for Acute Otitis Media
For Pain(at 2-7 days)RRR = 28%
C Cates: www.nntonline.net
Clinical Balance Sheet
Outcome % inPlacebo
RRR ARR/100
comments
Pain <1 day 38% 0 0
Pain 2-7days 14% 28% 5 Greater if fever, vomiting
Mastoiditis 0 ? - 1 case in 2,250 (AB grp)
“Glue ear” 3M
26% - -
Adverse effect
11% 55% 5 Vomiting, rash, diarrhoea
All or some responders?
I. Everyone gets small benefit? II. A few get a larger benefit?
OK
Earache
Diarrhoea
2. Are there predictable variations in the effects?
Does effect vary by (PICO)• Patient features, e.g., comorbidity or disease
features, e.g., stage• Intervention features e.g.,
dose/intensity/timing?• Comparator, e.g., placebo, add-on, or active• Outcome measures, e.g., reliability, duration
But beware of artefactual causes• Differences in followup, compliance, measures ,
…
Effect Modifiers for AOM
P – impact greater if fever, vomiting?• Data from 1 trial (Little)
I – no difference between antibiotics O – outcome for pain varies with
time• No impact in 24 hours;
Subgroup Analysis
Does statin work in those with a stroke history (Hx)?
(Circulation. 2001;103:387-392.)
3. How does effect vary with predicted risk?
Is Relative Risk constant across low to high risk groups?• Relative Risk is most often constant• Need to check using:
PlotsHeterogeneity statistics
For biological effect &
transferabilityFor clinical
decision making
Impact of changing risk
BaselineRisk
RelativeRiskReduction
AbsoluteRiskReduction
Numberneeded toTreat
20% 75% 15% 7
8% 75% 6% 16
4% 75% 3% 33
1% 75% .75% 133
Trial patients
Typical patients
Rate versus rate plots
L’Abbe plot of trials of Warfarin in Atrial Fibrillation
Control group rate
Tre
atm
ent
gro
up
rat
e Line of equality
Constant relative reduction
Constant absolute risk reduction
Which risk measure is most constant?
Measure % varying with control group risk
Odds Ratio 13%
Relative Risk 14%
Risk Difference 31%
Analysis of the effect of control rate in 115 meta-analysis Schmid et al Stats in Med 1998: 1923-42.
Possible approaches to applying reviews and trials
1. Inclusion/exclusion criteria• For reviews: overlap or combination?
2. Subgroup analysis• Appropriate methods needed
3. Cross-design synthesis• Combining RCT and “database” evidence
4. 5-Steps of Transferability/Applicability• Benefits versus harms; predicted risk
Glasziou, Irwig BMJ 1995 O’Connell, Glasziou, Hill. NHMRC How to use the
evidence
Clinical Balance sheet From trial to Individual
TrialBalance Sheet
IndividualBalance Sheet
Stability and modifiersOf effects across groups(steps 2 and 3)
Individual featuresAnd risk & values(step 4 & 5)
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