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![Page 1: Factored stochastic tree modeling for medical decision making Gordon Hazen Northwestern University Rowland Chang Northwestern University James Pellissier.](https://reader031.fdocuments.us/reader031/viewer/2022031909/56649ce15503460f949ac44b/html5/thumbnails/1.jpg)
Factored stochastic tree modeling for medical decision making
Gordon HazenNorthwestern University
Rowland ChangNorthwestern University
James PellissierLoyola University/Merck Pharmaceuticals
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• What is a stochastic tree?– Basic concepts………………………………..
– Stochastic tree transformation and rollback….
– Approximating human survival……………….
– Factoring out mortality………………………..
• Factoring stochastic trees………………….• Discounting / Risk aversion……………….• Influence diagrams for stochastic models…• Our THA model…………………………...• The StoTree modeling environment……….• Cost-effectiveness for THA………………..
Outline of talk
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What is a stochastic tree?• A stochastic tree is
– A decision tree with stochastic nodes added
– A continuous-time Markov chain with chance and decision nodes added
– A multi-state DEALE model
– A continuous-time version of a Markov cycle tree
Stochastic Trees
Continuous-time MCs
Decision Trees Discrete-time MCs /
Markov cycle trees
DEALE
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…What is a stochastic tree?
me
pb ms
me
1 - pe
pe
pb
ms
me
.1 - pb
ms
Well
Stroke
Small Stroke Post Small Stroke
Big Stroke
Post Big Stroke
Stroke
Big Stroke
Dead
Dead
DeadDead
Matchar & Pauker (1986): Transient ischemic attacks in a man with coronary artery disease
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…What is a stochastic tree?
Roach et al. (1988): Prostate cancer in a man with asymptomatic HIV
m0+mc+ma
m0+mc+ma
rc
m0+ma
m0+mc
ra
ra
rc
m0
No Disease
Dead
Cancer
AIDS
AIDS & Cancer
AIDS & Cancer
Dead
Dead
Dead
Dead
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Markovcycletree
Die from other Causes Deado
Develop AIDS Cancer + AIDSWell Cancer recurs a
c No AIDS Cancer
Survive other a
o Develop AIDS AIDS
No cancer a
c No AIDS Well a
Die from other Causes Deado
Cancer Die from recurrent prostate cancer Deadc
Survive other Develop AIDS AIDS o Survive cancer a
c No AIDS Well a
Die from other Causes Deado
AIDS Die from AIDS Deada
Survive other Cancer recurs Cancer + AIDS o Survive AIDS c
a No cancer AIDS c
Die from other causes Deado
Cancer + AIDS Die from recurrent prostate cancer Deadc
Survive other Die from AIDS Dead o Survive cancer a
c Survive AIDS Cancer + AIDS a
Dead Dead
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Transforming stochastic trees
=
3
1
2
x y2
y1
y3
321
• Superposition / Decomposition
p3
p2
p1
x
y3
y1
y2
iip
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…Transforming stochastic trees
=
y2
y3
y1
• Eliminating self-transitions
2
3
1
y2
y3
y1
y2
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…Transforming stochastic trees
pbms(1-pe)
me+pbmspe
me+pbmspe
pb(1-pe)
1-pb
pb pems
me
Well
Stroke
Post Small Stroke
Dead
Dead
Dead
Post Big Stroke
Dead
Post Big Stroke
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Stochastic tree rollback
yy y
y y
y
)y(L)x(v)y(Lp
1)x(v)x(L
=
3
1
2
x y2
y1
y3
p3
p2
p1
x
y3
y1
y2
v(x) = Quality rate at x
L(x) = Mean quality-adjusted duration beginning at x
Recursive formula:
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Stochastic tree rollback
3.0779.481
ms = 0.05 /yr
pe = 0.38 7.894
pb = 0.6667
me = 0.065 /yr
m0 = 0.0111 /yrqPBS = 0.2qPSS = 0.8
pbms(1-pe)
pb(1-pe)
me+pbmspe
1-pb
pb pe
me
me+pbmspe
ms
Well
Stroke
Post Small Stroke
Dead
Dead
Dead
Post Big Stroke
Dead
Post Big Stroke
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Approximating human survival
0
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1
0 10 20 30 40
t (years)
P(T
> t
)
Exponential P(T > t)
WM Actual P(T > t)
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Coxian approximation to human mortality
60-year-old white female
Stg 1 0.29 0.01Stg 2 0.28 0.02Stg 3 0.3 0Stg 4 0.3 0Stg 5 0.3 0Stg 6 0.3 0Stg 7 0.18 0.118Stg 8 0.298
Stg 7
Stg 8 Stg 7
Stg 6
Stg 6
Stg 5
Stg 5
Stg 4
Stg 4
Stg 3
Stg 3
Stg 2
Stg 2
Stg 1
Stg 1
1 2 3 4
5 6 7 8
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Coxian approximation to human mortality
0
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1
0 10 20 30 40 50 60
t (Additional Years)
P(T
> t
)White FemaleAge 60
Coxian
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Factoring out mortality
1 - pe
pe
s
0
Well
Stroke
Post Stroke
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…Factoring out mortality
0
1
pe
1 - pe
s
Well
Stroke
Post Stroke
Background mortality
Stroke morbidity
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…Factoring out mortality
pe
1 - pe
s
Well
Stroke
Post Stroke
Background mortality
Stroke morbidity
1 2 3
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Equivalent product tree
W ell1
W e ll2
W e ll3
S troke1
S troke2
S troke3
P o s t s troke1
P o s t s troke2
P o s t s troke3
1
1
2
2
3
3
s
s
s
1
1
2
2p e
p e
p e
1 - p e
1 - p e
1 - p e
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Rollback with Coxian mortality
s
W ell
Stroke
Poststroke
pe
1 - pe
3 .6 4 02 .4 9 81 .2 4 9
2 .2 5 71 .5 4 90 .7 7 5
5 .2 9 75 .1 2 84 .9 4 4
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Factored stochastic trees
Cancer
AIDS
Background mortality
mcrc
No Disease Cancer Dead
mcrc
No Disease AIDS Dead
m0
Alive Dead
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…Factoring stochastic trees
Systemic embolism
Pulmonary embolism
Systemic hemorrhage
Tsevat et al. (1986): Warfarin for dilated cardiomyopathy
1 - SE Surv
SE Surv
SE Rate
1 - SE MorbP
SE MorbP
SE Surv
SE Rate
1 - SE Surv
No Embolism
Embolism
Survive
Long-Term Morbidity
Subsequent Embolism
No Embolism
LongTerm MorbidityDead
Dead
PE Surv
1 - PE Surv
PE Rate
No Embolism
Embolism
No Embolism
Dead
SH Rate
1 - SH Surv
SH SurvSH MorbP
1 - SH MorbP
SH Surv
1 - SH Surv
SH Rate
NoHemorrhage
Hemorrhage
SurviveLong-Term Morbidity
SubsequentHemorrhage
No Hemorrhage
Long-Term Morbidity
DeadDead
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Discounting / Risk aversion
)h(ut)x(v)h(uds)x(vhxut
0
t
)h(uedse)x(vhxu t)x(at
0
s)x(at
ix H i
i i
i ii
)x(a
)]H(u[E)x(v)]G(u[EG =
• Utility function yielding quality-adjusted duration
• Utility function yielding discounted quality-adjusted duration
• Rollback with discounting
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Modeling risk attitude
Dead
W ell Dead
c
p
1 - p
W ell Dead
~
Vaccine scenario: What chance p of immediate death would you take to reduce your ongoing mortality rate by a percentage c?
Undiscounted quality-adjusted duration forces: p = c
Discounted quality-adjusted duration allows p < c (risk aversion)
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Continuous-risk utility assessment
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Influence diagrams
THA vsConservativeManagement
Initial THAOutcome
ACRFunctional
Status
Initial THA OutcomeProbabilities
ConservativeManagement
THA
Death (0.0045)
Poor (0.06)
Fair (0.24)
Good (0.69)
III
II
III
IV
Dead
Initial THAOutcome
ACR Functional Status
Decision tree Influence diagram
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Influence diagrams with stochastic nodes
InfectionFailureCount
Infection RevisionOutcome Probabilities
Prosthesis Status
InfectionFailureRate
0 1 2 3
pISucc
pIFail
pIMortrInfection
Functioning Prosthesis
Infection Failure
Surgery
Functioning Prosthesis
Infection Failure
Death
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THA model
THA vsConservativeManagement
Initial THAOutcome
AsepticFailureCount
ACRFunctional
Status
RevisionCount
Identity ofLast
Surgery
InfectionFailureCount
AsepticFailureRate
InfectionFailureRate
Infection RevisionOutcome Probabilities
Natural ProgressionRate
OA Progression underConservative Management
Background Mortality
Initial THA OutcomeProbabilities
Quality ofLife
Prosthesis Statusafter THA
Aseptic RevisionOutcome Probabilities
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ACR functional status
Class Description
I Complete ability to carry on all usual duties without handicap
II Adequate for normal activities despite handicap of discomfort orlimited motion in the hip
III Limited only to little or none of duties of usual occupation or self-care
IV Incapacitated, largely or wholly bedridden or confined towheelchair, little or no self-care
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THA vs. Conservative Management
THA
Conserv Mgmt
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ACR Functional Status / Initial THA Outcome
pSuccess = 0.6925pFair = 0.243
pFailure = 0.06pSurgMort = 0.0045
qI = 1qII = 0.8
qIII = 0.5qIV = 0.3
Discount Rate = 3%
pSuccess
pFair
pFailure(Trigger Aseptic
Revision)
pSurgMort
Surgery
ACR Class III
ACR Class II
ACR Class I
Death
ACR Class IV
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Prosthesis Status After THA
Last Surgery rAseptic rInfectionInitial THA 0.01 0.002 /yr
A or I Revision 1 0.04 0.02 /yrA or I Revision 2 0.05 0.035 /yrA or I Revision 3 0.1 0.05 /yr
Current Aseptic Revisio pASucc pAFail pAMort pISucc pIFail pIMort
Rev 1 0.7015 0.2865 0.012 0.7692 0.2115 0.0193Rev 2 0.6363 0.3517 0.012Rev 3 0.8477 0.1403 0.012
pISucc
No Revision
pIMort
pIFailInfection Revision
rInfection
pAMort
pAFail
pASucc
Aseptic Revision
No Revision
rAseptic
Daily Living
Aseptic Failure
Daily Living
Daily Living
Aseptic Failure
Death
Infection Failure
Infection Failure
Death
Daily Living
Daily Living
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Last Surgery
Initial THA
Aseptic Revision
Infection Revision
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Conservative Management
rNatural = 3.297% /yr
rNaturalIII IV
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The StoTree modeling environment
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…StoTree modeling environment
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...StoTree modeling environment
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Rollback in the THA model
85-year-old white male4.09
3/11/99 4:54 Rollback4.089 279 parameters examined
48 product nodes examined
2.12
THA
Conserv Mgmt4.383
pSuccess = 0.6925pFair = 0.243
3.533 pFailure = 0.06pSurgMort = 0.0045
4.0894.089
qI = 1qII = 0.8
qIII = 0.5qIV = 0.3
Discount Rate = 3%
1.333
pSuccess
pFair
pFailure(Trigger Aseptic
Revision)
pSurgMort
Surgery
ACR Class III
ACR Class II
ACR Class I
Death
ACR Class IV
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Cost-effectiveness for THA85-year-old white male
-5770.33/11/99 5:01 Rollback
-20582 279 parameters examined48 product nodes examined
-20582
THA
Conserv Mgmt
-2648.7 pSuccess = 0.6925pFair = 0.243
pFailure = 0.06-2648.7 pSurgMort = 0.0045
-5770.3
-20582 Costs per case No THAPrimary
THA RevisionHospital -$ 17,000$ 20,000$
Physician -$ 5,000$ 5,000$ Rehabilitation -$ 3,000$ 3,000$
Total Per Case -$ 25,000$ 28,000$
Costs per yearMedical Per Yr III IV 775$ 775$
-158902 Custodial Per Yr IV 35,000$ 35,000$
Discount Rate = 3%
pSuccess
pFair
pFailure(Trigger Aseptic
Revision)
pSurgMort
Surgery
ACR Class III
ACR Class II
ACR Class I
Death
ACR Class IV
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THA Cost-Effectiveness ResultsWhite Male Age 85 White Female Age 60
THA Conserv THA Conserv
Mean Dctd Years in
ACR Class I 2.944 0 9.717 0
ACR Class II 1.384 0 5.078 0
ACR Class III 0.063 3.952 0.608 11.39
ACR Class IV 0.022 0.49 0.48 4.634
Mean Dctd Life Expectancy 4.413 4.442 15.883 16.024
Mean Dctd QALY 4.089 2.123 14.23 7.087
Mean Dctd Costs
Primary Surgery, Rehab $25,000 - $25,000 -
Revision Surgery, Rehab $4,929 - $12,284 -
Ongoing Medical $66 $3,442 $843 $12,421
Custodial $776 $17,140 $16,789 $162,175
Total $30,771 $20,582 $54,916 $174,596
Marginal cost $10,189 $(119,680)
Marginal effectiveness (QALY) 1.966 7.143
Marginal CE ratio $5,183 -