Proteinuria as a Surrogate Outcome in Chronic Kidney Disease
Andrew S. Levey, MDThomas Hostetter, MD
Co-ChairsMay 1-2, 2008
– Acknowledgements– Summarize the strength of evidence for
proteinuria as a surrogate outcome in CKD– Conclusions– Framing the issues– Mechanics of the conference
• Agenda• Format for presentations
Goals
Acknowledgements
A workshop co-sponsored by the National Kidney Foundation and U.S. Food and Drug Administration
Planning Committee: Daniel Cattran MD, Aaron Friedman MD, Federico Goodsaid PhD, Bertram Kasiske MD, Aliza Thompson MD, Greg Miller PhD, John Sedor MD, Katherine Tuttle, MD
NKF: Kerry Willis, Tom Manley, Heather McCown, Maggie Goldstein
FDA: Norman Stockbridge MD PhD, Shirley Murphy MD, ShaAvhree Buckman MD PhD, Cassandra Pusey, Doug Throckmorton MD
Summarizing the Strength of Evidence
What we will be doing:• Review of concepts• Review of background information• Review of primary data
What we will not be doing:• Systematic review• Meta-analysis• Guidelines• FDA Policy
1. Strengths and limitations of criteria for surrogacy2. Strengths and limitations of available data for
assessment of surrogacy3. Application to specific clinical circumstances/
therapeutic agents4. What more needs to be done: additional analyses of
existing data vs. additional studies
Possible Conclusions from Conference
Importance of Proteinuria
• Marker of kidney damage
• Clue to the diagnosis of CKD
• Risk factor for progression (causal in animal models)
• Modifier for efficacy of ACE inhibitor therapy in non-diabetic kidney disease
• Hypothesized marker of vascular permeability (“generalized endothelial dysfunction”)
• Risk factor for CVD at lower levels than defined as CKD
• Hypothesized surrogate outcome for kidney disease progression and CVD risk reduction
Bio
marker
Definitions
• Biomaker: a characteristic that is objectively measured and evaluated as an indicator of normal biologic processes, pathogenic processes, or pharmacologic responses to a therapeutic intervention. (Biomarkers Definitions Working Group. Clin Pharmacol Ther 2001; 69: 89-95.)
• Clinical end point: a direct measure of how a patient feels, functions or survives
• Intermediate Endpoint: a biomarker which is intermediate in the causal pathway between an intervention and a clinical endpoint
• Surrogate: a laboratory measurement or physical sign that is used in therapeutic trials as a substitute for a clinically meaningful end point … and is expected to predict the effect of the therapy (Temple R. JAMA 1999; 282: 790-795.)
Biomarkers
Surrogate Endpoints Intermediate
Endpoints
Relationships Among Biomarkers, Intermediate Endpoints
and Surrogate Endpoints
Conceptual Model for CKD
DeathDeathDeathDeath
ComplicationsComplicationsComplicationsComplications
NormalNormalNormalNormal IncreasedIncreasedriskrisk
IncreasedIncreasedriskrisk
KidneyKidneyfailurefailureKidneyKidneyfailurefailureDamageDamageDamageDamage GFRGFR GFRGFR
Operational Definition of CKD for Epidemiologic Studies and Public Health Programs
DeathDeathDeathDeath
ComplicationsComplicationsComplicationsComplications
NormalNormalNormalNormal IncreasedIncreasedriskrisk
IncreasedIncreasedriskrisk
KidneyKidneyfailurefailureKidneyKidneyfailurefailureDamageDamageDamageDamage GFRGFR GFRGFR
7.7 meGFR<60
eGFR<15 or dialysis
Urinealb/creat
>30
Stevens LA, Greene T, Levey AS. Clin J Am Soc Nephrol 1: 874–884, 2006
Criteria for SurrogacyDesai M, Stockbridge N, Temple R
The AAPS Journal 2006; 8 (1) Article 17(http://www.aapsj.org)
• Biologic plausibility - sometimes intuitive, sometimes supported by animal data or by favorable responses in extreme cases.
• Epidemiologic data - increases (or decreases) in the putative surrogate are correlated with unfavorable (or favorable) clinical outcomes.
• Clinical trials - changes in the putative surrogate resulting from at least 1 type of intervention, and preferably many types, working by different mechanisms, affect clinical outcomes in a predictable manner that is fully accounted for by the effect on the surrogate (Prentice).
Other issues
• Measurement– Which proteins?– How to collect the urine?– Measurement methods?– How to express the result?– Cut-off (threshold) values?
• Context– Which diseases and interventions?– What amount (baseline and change)?– How long?
Proteinuria and Other Markers ofChronic Kidney Disease:
A Position Statement of the NKF and NIDDKEknoyan G, Hostetter T, Bakris GL, Hebert L, Levey AS, Parving HH, Steffes MW, Toto R.
Am J Kidney Dis 42: 617-622, 2003
Albuminuria Measurement and Terminology• For screening, albumin preferred in adults, total protein in children.• Untimed samples, indexed to creatinine (random “spot” in adults,
first-morning preferred in children).• Report as mg/g; reference range <30 mg/g• Immunoassays for albumin have “sufficient precision.” There is a
need for standardization among laboratories.• For monitoring at high levels, can substitute total protein, report as
mg/g; reference range <200 mg/g.
Proteinuria and Other Markers ofChronic Kidney Disease:
A Position Statement of the NKF and NIDDKEknoyan G, Hostetter T, Bakris GL, Hebert L, Levey AS, Parving HH, Steffes MW, Toto R.
Am J Kidney Dis 42: 617-622, 2003
Albuminuria as a Surrogate Marker for Clinical Trials• Development of albuminuria in diabetes• Remission of nephrotic syndrome• Progression of CKD
Research recommendations• Compile data from existing RCTs to assess relationship of change
in proteinuria with clinical endpoints:– Baseline levels of albuminuria– Relative or absolute changes during follow-up– Specific kidney diseases
• New clinical trials, designed to assess • New markers of kidney damage
Agenda
Session 1 General concepts
Session 2 Early diabetic kidney disease (microalbuminuria)
Session 3 Nephrotic syndrome
Session 4 CKD progression (ACEI/ARB)
Session 5 CKD progression (others)
Clinical trials
Obser-vational studies
Baseline proteinuria vs. CKD progression X X
Early change in proteinuria (6-12 months) vs. later CKD progression (after early change)
X X
Effect of treatment on CKD progression (comparison of randomized groups) after adjustment for baseline and early change in proteinuria
X NA
Analyses
1. Strengths and limitations of criteria for surrogacy2. Strengths and limitations of available data for
assessment of surrogacy3. Application to specific clinical circumstances/
therapeutic agents4. What more needs to be done: additional analyses of
existing data vs. additional studies
Possible Conclusions from Conference
Rationale• Spot urine albumin to
creatinine ratio >30 mg/g (some consider sex-specific cut-off values)
• 2-3 times greater than the normal value
• Infrequent in general population
• Earliest marker of kidney damage due to diabetes, glomerular diseases, and hypertension
• Associated with adverse outcomes
0
0.05
0.1
0.15
0.2
0.25
0.3
Albumin Creatinine Ratio (mg/g)
Prop
ortio
n of
Pop
ulatio
n
Males
Females0.8
0.85
0.9
Albuminuria(“microalbuminuria”)
NHANES III
Simplified Classification of Chronic Kidney Disease by Diagnosis
Disease Major Types (Examples) Diabetic kidney
disease Type 1 and type 2 diabetes
Nondiabetic kidney
diseases
Glomerular diseases (autoimmune diseases, systemic infections, drugs, neoplasia)
Vascular diseases (large vessel disease, hypertension, microangiopathy)
Tubulointerstitial diseases (urinary tract infection, stones, obstruction, drug toxicity)
Cystic diseases (polycystic kidney disease)
Diseases in the transplant
Chronic rejection Drug toxicity (cyclosporine or tacrolimus) Recurrent diseases (glomerular diseases) Transplant glomerulopathy
Risk of Developing Clinical Proteinuria by Baseline Microalbuminuria (MA) in HOPE
Mann et al, J Am Soc Nephrol 14: 641-647, 2003
OR (95% CI)
MA+ MA- Unadjusted Adjusted1 Adjusted2
AllN=7674
16.7%(271/1619)
0.8%(46/6055)
26.3(19.1-36.1)
26.2(19.1-36.1)
17.5(12.6-24.4)
DMN=3223
22.8%(231/1013)
1.5%(33/2210)
19.5(13.4-28.3)
19.4(13.4-28.2)
18.2(12.4-26.7)
No DMN=4451
6.60%(40/606)
0.34%(13/3845)
20.8(11.1-39.2)
20.9(11.1-39.4)
16.7(8.6-32.4)
MA defined as >2 mg/mmol (22.6 mg/g). 1Adjusted for randomized group (ramipril vs. placebo). 2In all, adjusted for age, gender, smoking, hypertension, dyslipidemia, DM, abdominal obesity, and renal insufficiency. For DM, adjusted
for DM duration, use of oral hypoglycemic agents or insulin, and for glycated hemoglobin level.
NKF-K/DOQI Definition of CKD (2002)KDIGO Modifications (2004)
Structural or functional abnormalities of the kidneys for >3 months, as manifested by either:
1. Kidney damage, with or without decreased GFR, as defined by
• pathologic abnormalities• markers of kidney damage
– urinary abnormalities (albuminuria)– blood abnormalities (renal tubular syndromes)– imaging abnormalities
• kidney transplantation2. GFR <60 ml/min/1.73 m2, with or without kidney
damage
Example Slide 1(for observational studies and clinical trials)
Baseline
Participants (N)
Urine P-C ratio (mean, SD)
Six Months
Participants (N)
Early change (50% decline in Urine P-C ratio) (N)
Study End
Outcome (50% decline in eGFR, N)
Outcome (50% decline in eGFR after six months, N)
Example Slide 2 (for observational studies and clinical trials)
Regression of Outcome vs. Baseline HR (CI)
Baseline urine P-C ratio
Regression of Outcome vs. Baseline and Early Change HR (CI)
Baseline urine P-C ratio
50% decline in Urine P-C ratio
Note: If proteinuria is a surrogate marker of kidney disease progression,HR for baseline proteinuria will be >1.0 and HR for early change will be <1.0
Example Slide 3 (for clinical trials)
Regression of Outcome vs. Treatment HR (CI)
Treatment
Regression of Outcome vs. Treatment Adjusted for Baseline
HR (CI)
Treatment
Baseline urine P-C ratio
Regression of Outcome vs. Treatment Adjusted for Baseline and Early Change
HR (CI)
Treatment
Baseline urine P-C ratio
50% decline in urine P-C ratio
Note: If treatment is effective, HR for treatment will be <1.0. If proteinuria is a surrogate marker for treatment effect, HR for treatment effect will increase from <1.0 to closer to 1.0 in adjusted models.
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