effect of kidney disease on drug metabolism and transport vincent pichette md, phd, frcp(c), facp...
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Effect of Kidney Disease Effect of Kidney Disease on Drug Metabolism and on Drug Metabolism and
Transport Transport
Vincent Pichette MD, PhD, FRCP(c), Vincent Pichette MD, PhD, FRCP(c), FACPFACP
Associate Professor of Medicine and Associate Professor of Medicine and PharmacologyPharmacology
Université de Montréal Université de Montréal
Montréal, Québec, CanadaMontréal, Québec, Canada
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Prevalence of CKD in US Prevalence of CKD in US (JAMA 298:2047, 2007)(JAMA 298:2047, 2007)
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Prevalence of CKD in US Prevalence of CKD in US (JAMA 298:2047, 2007)(JAMA 298:2047, 2007)
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Repercussions of CRF on Repercussions of CRF on pharmacokinetics of drugspharmacokinetics of drugs
Despite the adjustment of dosage in Despite the adjustment of dosage in function of glomerular filtration, function of glomerular filtration, there is an accumulation of several there is an accumulation of several drugs that could only be explained drugs that could only be explained by a decrease in their nonrenal by a decrease in their nonrenal clearance.clearance.
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Repercussions of CRF on Repercussions of CRF on metabolic clearance of drugsmetabolic clearance of drugs
Clin Pharmacol Ther. 2003. 73(5) : 475-7.
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Repercussions of CRF on Repercussions of CRF on metabolic clearance of drugsmetabolic clearance of drugs
Clin Pharmacol Ther. 2003. 73(5) : 427-34.
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Repercussions of CRF on Repercussions of CRF on nonrenal clearance of drugs nonrenal clearance of drugs ((Clin Clin
Pharmacol Ther, in pressPharmacol Ther, in press))
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Method (5/6 Method (5/6 nephrectomy)nephrectomy)
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Repercussions of CRF on Repercussions of CRF on liver cytochrome P450 liver cytochrome P450
(JASN 12:326, 2001)(JASN 12:326, 2001)
a p < 0.001
Control CRF
Weigth (g) 310 10 308 23
Creatinine (umol/L) 57 3 154 12a
Urea (mmol/L) 5.6 0.7 26. 3.9a
Clearance (mL/min) 0.88 0.5 0.33 0.03a
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Alterations in liver Alterations in liver metabolic enzymes in CRF metabolic enzymes in CRF
ratsrats (Clin Pharmacol Ther, in press)(Clin Pharmacol Ther, in press)
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Alterations in intestinal Alterations in intestinal metabolic enzymes in CRF metabolic enzymes in CRF rats rats (Clin Pharmacol Ther, in press)(Clin Pharmacol Ther, in press)
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Alterations in liver Alterations in liver transporters in CRF rats transporters in CRF rats (Clin (Clin
Pharmacol Ther, in press)Pharmacol Ther, in press)
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Alterations in intestinal Alterations in intestinal transporters in CRF ratstransporters in CRF rats
(Clin Pharmacol Ther, in press)(Clin Pharmacol Ther, in press)
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Effect of CRF on hepatic Effect of CRF on hepatic UDP-glucuronyltransferases UDP-glucuronyltransferases
(DMD 34:621, 2006)(DMD 34:621, 2006)
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Mechanism of drug Mechanism of drug enzymes and transporters enzymes and transporters
down-regulation in CRFdown-regulation in CRF Circulating factors in uremiaCirculating factors in uremia
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Down-regulation of liver Down-regulation of liver P450: role of uremic P450: role of uremic
mediatorsmediators(BJP, 137:1039,2002)(BJP, 137:1039,2002)
0
20
40
60
80
100
120
2C6 2C11 2D 3A1 3A2
CYP450 isoforms
Sta
ndar
dize
d de
nsito
met
ry u
nits
* * **
2C6
2C11
2D
3A1
3A2
CRFCPF
0
20
40
60
80
100
120
2C6 2C11 2D 3A1 3A2
CYP450 isoforms
Sta
ndar
dize
d de
nsito
met
ry u
nits
* * **
2C6
2C11
2D
3A1
3A2
CRFCPF
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Down-regulation of liver Down-regulation of liver P450: role of uremic P450: role of uremic
mediatorsmediators(BJP, 144:1067, 2005)(BJP, 144:1067, 2005)
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Effect of CRF on hepatic N-Effect of CRF on hepatic N-acetyltransferases acetyltransferases (JASN, in (JASN, in
press)press)Is there a serum factor that could be responsible
for these changes?
0
50
100
150
NAT2 mRNA expression NAT2 protein expression
% C
TL
val
ue
CTL
CRF
**
*, p < 0.05
Is there a serum factor that could be responsible for these changes?
0
50
100
150
NAT2 mRNA expression NAT2 protein expression
% C
TL
val
ue
CTL
CRF
**
*, p < 0.05
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Liver drug transporters in Liver drug transporters in CRF CRF (DMD, 36:124, 2008)(DMD, 36:124, 2008)
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Intestinal drug Intestinal drug transporters in CRF transporters in CRF (JPET (JPET
320:978, 2007)320:978, 2007)
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Which circulating factor ?Which circulating factor ? Several uremic toxins accumulate in Several uremic toxins accumulate in
CRFCRF CRF is a state of chronic CRF is a state of chronic
inflammation : cytokinesinflammation : cytokines CRF is associated with numerous CRF is associated with numerous
metabolic disturbancesmetabolic disturbances Secondary hyperparathyroidism: Secondary hyperparathyroidism:
elevated parathyroid hormone (PTH)elevated parathyroid hormone (PTH)
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Does PTH depletion by Does PTH depletion by paratyroidectomy in CRF rats prevents paratyroidectomy in CRF rats prevents
the downregulation of P450 3A by the downregulation of P450 3A by uremic serum ?uremic serum ?
J Am Soc Nephrol. 17:3041, 2006
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Decrease drug liver Decrease drug liver uptake in CRFuptake in CRF
DMD 32:1239, 2004
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Effects of hemodialysisEffects of hemodialysis
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Down-regulation of liver Down-regulation of liver P450: role of uremic P450: role of uremic
mediatorsmediators(BJP, 144:1067, 2005)(BJP, 144:1067, 2005)
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Down-regulation of liver Down-regulation of liver P450: role of uremic P450: role of uremic
mediatorsmediators(BJP, 144:1067, 2005)(BJP, 144:1067, 2005)
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Down-regulation of liver Down-regulation of liver P450: role of uremic P450: role of uremic
mediators mediators (BJP, 144:1067, 2005)(BJP, 144:1067, 2005)
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Down-regulation of liver Down-regulation of liver P450: role of uremic P450: role of uremic
mediators mediators (BJP, 144:1067, 2005)(BJP, 144:1067, 2005)
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Effects of hemodialysisEffects of hemodialysis
(JASN 17:2363-2367, 2006)(JASN 17:2363-2367, 2006)
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Effects of hemodialysis Effects of hemodialysis (submitted)(submitted)
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ConclusionsConclusions
CRF interferes with the elimination of CRF interferes with the elimination of many drugs because of the reduction many drugs because of the reduction in GFR and tubular secretion and dose in GFR and tubular secretion and dose adjustment is made according to GFRadjustment is made according to GFR
Reduced drug metabolism and Reduced drug metabolism and transport should also be taken into transport should also be taken into accountaccount
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AcknowledgementsAcknowledgements
Francois LeblondFrancois Leblond Karine DesbiensKarine Desbiens Judith NaudJudith Naud Josée MichaudJosée Michaud Pierre DubéPierre Dubé Emilie SimardEmilie Simard Caroline BoisvertCaroline Boisvert Jessica HardingJessica Harding Mélina DaniMélina Dani Thomas D NolinThomas D Nolin Edith SimEdith Sim
• Canadian Institute of Health Research• Le Fond de la Recherche en Santé du Québec
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Impact of Renal Replacement Impact of Renal Replacement Therapy (RRT) on Drug Clearance Therapy (RRT) on Drug Clearance
William E. Smoyer, M.D.
Vice President and Director
Clinical and Translational Research
Nationwide Children’s Hospital
Ohio State University
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IntroductionIntroduction Dramatic Increase in the Use of Renal
Replacement Therapies (RRT) over the Last 10 Years Intermittent Therapies (Hemodialysis) Continuous Therapies (CRRT)
Marked Increase in the Variety of RRTs CVVH (Convective solute clearance) CVVHD (Diffusive solute clearance) CVVHDF (Convective + diffusive solute clearance) SLED (Slow low efficiency dialysis) EDD (Extended daily dialysis)
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IntroductionIntroduction
Each RRT Therapy Requires New Drug Dosing Knowledge to Optimize Pharmacotherapy
Few Data Available on Effective Drug Dosing using newer forms of RRT Growing challenge with respect to
pharmacotherapy Maximize drug efficacy Minimize drug toxicity
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Trends in RRT - 1Trends in RRT - 1 Growth in Continuous RRT (CRRT)
In 1999, 72% of American Nephrologists reported using CRRT
High Permeability Membranes Used Altered drug removal characteristics CRRT Drug Removal ≠ HD Drug Removal !
No Current FDA Guidance for Drug Manufacturers to Evaluate Drug Removal during CRRT
No Current FDA Guidance for RRT Device Manufacturers to Evaluate Drug Removal Characteristics
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Trends in RRT - 2Trends in RRT - 2 High Volume CRRT
U of M pediatric CRRT patients receive 2 L/1.73 m2/hr dialysate flow (Cr Cl = 33 mL/min/1.73 m2)
U of M adult CRRT patients receive 2 L/hr dialysate flow
35mL/kg/hr associated with better outcomes in adults
Ronco C et al ; Lancet 2000 Jul 1;356(9223):26-30. Some sepsis CRRT regimens recommend 6L/hr (96
mL/min) Almost no mention of drug removal in these sepsis CRRT
regimens
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Trends in RRT - 3Trends in RRT - 3 High Permeability Membranes
Larger drugs now removed e.g. Vancomycin (MW 1450 Daltons)
Non-Renal Indications Inborn Errors of Metabolism
Hyperammonemia / Metabolic acidosis Refractory Fluid Overload Congestive Heart Failure Intoxications Hyperosmolarity Prophylactic Contrast Dye Removal
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Trends in RRT - 4Trends in RRT - 4 Increased Pediatric Usage of RRT
Improved RRT equipment now available Better volumetric control Some pediatric-specific tubing & filters
Improved techniques for use in small children Pediatric/Neonatal RRT differs from Adult RRT
Large extracorporeal circuit volume (vs. adults) CRRT circuit often requires priming
5% Albumin / Blood
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Trends in RRT - 5Trends in RRT - 5 Hybrid RRT (primarily in adults)
SLED – Slow Low Efficiency Dialysis EDD – Extended Daily Dialysis Use a standard dialysis machine and run all day Drug removal much different than with standard
intermittent hemodialysis
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Current Dilemma:Current Dilemma: RRT Technology has surpassed FDA Guidance for
Drug Dosing Common use of newer RRT has created huge
knowledge deficits of how to dose drugs appropriately in patients undergoing newer types of RRT
CRRT drug dosing studies conducted for < 20% of drugs SLED/EDD dosing studies conducted for < 1% of drugs
CRRT has markedly different effects on drug clearance vs. IHD or PD
How are clinicians to dose drugs in these patients?
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Current FDA Guidance for IndustryCurrent FDA Guidance for Industry “Pharmacokinetics in Patients with Impaired
Renal Function – Study Design, Data Analysis, and Impact on Dosing and Labeling” (May 1998)
For drugs likely to be given to ESRD patients treated with dialysis: PK performed (both dialysis/nondialysis conditions) to
determine extent to which dialysis contributes to elimination of drug and active metabolites
Primary questions: Should dose be adjusted due to HD? If so, to what extent?
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Issues Related to “ESRD”Issues Related to “ESRD” Many patients receive RRT without ESRD Acute Kidney Injury (AKI)
Drug PK inherently different than during ESRD – Volume overload common in AKI
Large non-renal Cl differences in AKI vs. ESRD Vancomycin (Macias WL, et al. CPT 1991;50:688-94) Imipenem (Mueller BA, et al. AJKD 1993;21:172-9)
Key Unanswered Questions: Is studying clearance in ESRD enough any more? Since RRT now widely used in AKI, should it also be tested in this
setting?
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Issues Related to Issues Related to “Treated with Dialysis” - 1“Treated with Dialysis” - 11990’s
Low flux
Dialysis dose not quantified
Smaller surface area
CAPD
Membranes not biocompatible
2008High flux
Kt/V target 1.2
Larger surface area
CCPD
Membranes biocompatible
All dialysis changes since 1990s = in drug Cl.
Previously-established doses no longer applicable…
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Issues Related to Issues Related to “Treated with Dialysis” - 2“Treated with Dialysis” - 2
What are the current trends in RRT? Then: ESRD outpatient treatment thrice weekly Now: Nocturnal nightly home hemodialysis (HD) Now: Nocturnal every other nightly home HD
Even standard intermittent HD now uses Very different dialysate flows Very different dialyzers
Resultant drug clearance rates largely unknown Guidelines for drug dosing with contemporary forms of RRT
not available
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Issues Related to Issues Related to “Treated with Dialysis” - 3“Treated with Dialysis” - 3
Treatment of Acute Kidney Injury (AKI) Pre-1998: HD in ICU three times weekly Today: CRRT or daily IHD
Schiffl et al. (N Engl J Med. 2002;346:305-10 ) Decreased mortality with QD vs. QOD HD
Clark WR. et al. J Am Soc Nephrol. 1997;8(5):804-12. IHD requirements for AKI patients requires daily HD
Dosing in QD vs. QOD IHD inherently different Data in AKI not noted in 1998 FDA Guidance
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Issues Related to Issues Related to “Treated with Dialysis” - 4“Treated with Dialysis” - 4
Treatment of Acute Kidney Injury (AKI) >50% of inpatient RRT is not HD!
Continuous RRT (CRRT) Slow Low Efficiency Dialysis (SLED) Extended Daily Dialysis (EDD)
Drug dosing different for each of these forms of RRT CRRT now most common form of RRT in both pediatric and
adult ICU patients Very little data on drug dosing in CRRT Currently no FDA guidance for dosing in CRRT
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Patient Safety in CRRTPatient Safety in CRRT
Critically ill adult and pediatric patients currently vulnerable
Despite common use no CRRT dosing studies now required for labeling
No incentive for Pharmaceutical Mfrs to perform PK studies
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Suggested FDA Guidance ChangesSuggested FDA Guidance Changes Hemodialysis (HD)
1. All studies be conducted using a standardized “dose” of hemodialysis using a kT/Vurea of >1.2
2. Dialyzers of a prescribed surface area and ultrafiltration coefficient be used in all PK studies
3. Pediatric PK studies should be performed and used to develop pediatric drug dosing information
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Suggested FDA Guidance ChangesSuggested FDA Guidance Changes CRRT
1. Dosing guidance should be developed for drugs likely to be used in ICU setting
2. Dose of delivered CRRT for PK studies should be set at 35 mL/kg/hr (or 2000 mL/hr/1.73 m2)
3. PK studies should be performed with most commonly used hemodiafilters
4. Pediatric PK studies should be performed and used to develop pediatric drug dosing information
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SummarySummary Dramatic increase in use and types of RRT Resulted in huge knowledge deficits in
appropriate use of many drugs FDA Guidance for labeling now lags
available RRT technology and current medical practice Drug efficacy concerns Drug safety concerns
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Evaluation of Pharmaceutics in Patients with Impaired Renal
Function
Clinical Pharmacology Advisory Committee (CPAC)
March 19, 2008
John A. Wagner, M.D., Ph.D.
Merck & Co., Inc.
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Overview
Approach to renal insufficiency clinical studies Sitagliptin
Severe renal insufficiency and ESRD
Renal insufficiency and metabolism
Limitations
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Approach
Full vs Limited Full: typically mild, moderate,
severe, and ESRD on hemodialysis; and healthy concurrent control subjects
Limited: typically severe or ESRD on hemodialysis and healthy concurrent control subjects
Adaptive
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Other considerations
Dose Hypothesis Single dose vs. multiple dose Concurrent vs. historical controls Timing Geographic location Pharmacodynamics
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Sitagliptin Renal Insufficiency Study
Design: Open label, single dose
Subjects: 24 patients with renal insufficiency (6 mild, 6 moderate, 6 severe, and 6 end-stage renal disease (ESRD) on hemodialysis) as defined below, and 6 healthy concurrent control subjects
Dose: 50-mg
Analyte: Sitagliptin
Samples: Plasma up to 96 hr postdose; urine through 48 hr postdose
Degree of Renal Insufficiency
24-Hour Creatinine Clearance
Normal >80 mL/min/1.73 m2
Mild 50 to 80 mL/min/1.73 m2
Moderate 30 to 50 mL/min/1.73 m2
Severe <30 mL/min/1.73 m2
ESRD/hemodialysis Requiring hemodialysis
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Special design considerations for ESRD Period 1: 6 patients with ESRD requiring
hemodialysis received a single 50-mg oral dose of sitagliptin followed by 96 hours of plasma sampling for sitagliptin levels 48 hours prior to their normally scheduled hemodialysis session
Period 2: the same 6 patients enrolled in period 1 received a second 50-mg oral sitagliptin dose 4 hours prior to their normally scheduled hemodialysis session followed by 72 hours of plasma sampling for sitagliptin levels
The subsequent hemodialysis session initiated immediately following the 4-hour blood draw
Dialysate and plasma samples were collected at ½ hour intervals during dialysis
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Time (hr)0 12 24 36 48 60 72 84 96
Sita
glip
tin P
lasm
a C
once
ntra
tion
(nM
)
0
200
400
600
800
1000
Healthy Control Subjects Mild Renal Insufficiency Moderate Renal Insufficiency Severe Renal Insufficiency End Stage Renal Disease (48-hr Dialysis)
0 12 24 36 48 60 72 84 961
10
100
1000
Mean Sitagliptin Plasma Concentrations Following Administration of Single Oral Doses of 50-mg of Sitagliptin to Patients With Varying Degrees of Renal Insufficiency and Healthy Subjects (N=6)
Mean sitagliptin plasma concentrations increased with increasing degrees of renal insufficiency
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Sitagliptin Plasma AUC (Dose-Adjusted to 50 mg) Versus Creatinine Clearance Following Administration of Single Oral Doses of Sitagliptin to Patients With Varying Degrees of Renal Insufficiency and Healthy Control Subjects
The dotted lines indicate 0.5 and 2.0-fold the geometric mean dose adjusted (to 50-mg) AUC0‑ of the healthy control subjects
Based on the continuous analysis, sitagliptin AUC, Cmax and C24hr increased with decreasing creatinine clearance (CrCl)
Dos
e-A
djus
ted
(to 5
0 m
g) A
UC
(uM
.hr)
0
4
8
12
16
20
24
28
Creatinine Clearance (mL/min)10 30 50 70 90 110 130 150 170 190 210 230
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Clearance Versus Creatinine Clearance Following Administrationof Single Oral Doses of Sitagliptin 50 mg to Patients With Varying Degreesof Renal Insufficiency and Healthy Subjects
Sitagliptin renal clearance is proportional to creatinine clearance
Re
na
l Cle
ara
nce
(m
L/m
in)
0
100
200
300
400
500
600
700
800
900
C reatin ine C learance (m L/m in)0 50 100 150 200 250 300
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Mean Sitagliptin Plasma Concentrations Following Single Oral 50 mg Dosesof Sitagliptin to End Stage Renal Disease Patients UndergoingHemodialysis at 4 or 48 Hours Postdose
Hemodialysis removes sitagliptin by only a modest extent
Timing of hemodialysis in ESRD patients had modest effects on the sitagliptin plasma concentration profile
Sitagliptin can be administered without respect to the timing of hemodialysis in patients with ESRD
Time (hr)0 6 12 18 24 30 36 42 48 54 60 66 72
Sita
glip
tin P
lasm
a C
on
cen
tra
tion
(n
M)
0
100
200
300
400
500
600
700
Dialysis at 4-hr Postdose PredialyzerPostdialyzerDialysis at 48-hr Postdose
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Additional observations The dialysis clearance for the hemodialysis
initiated at 4 hours postdose was 241 mL/min
The fraction of the dose excreted unchanged in dialysis (i.e., removed into the dialysate) over the dialysis session was approximately 13.5% and 3.5% for hemodialysis at 4 hours and 48 hours postdose, respectively
In vitro plasma protein binding of sitagliptin was not meaningfully altered in uremic plasma from patients with renal insufficiency as compared to plasma from healthy concurrent controls
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Conclusions Mild renal insufficiency does not have a clinically
meaningful effect on sitagliptin pharmacokinetics No dose adjustment is required for individuals with a
creatinine clearance >50 mL/min/1.73 m2 Patients with moderate renal insufficiency have an
approximately 2-fold higher plasma drug exposure as compared to subjects with normal renal function
Patients with moderate renal insufficiency (i.e., creatinine clearance >30 mL/min/1.73 m2 but <50 mL/min/1.73 m2) should receive 1/2 of the usual clinical dose of sitagliptin
Patients with severe renal insufficiency and end stage renal disease (ESRD) requiring hemodialysis have an approximately 4-fold higher plasma drug exposure as compared to subjects with normal renal function
Patients with severe renal insufficiency (i.e., creatinine clearance < 30 mL/min/1.73 m2) or ESRD should receive 1/4th of the usual clinical dose of sitagliptin
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Severe Renal Insufficiency vs. ESRD:Mean Sitagliptin Plasma Concentrations Following Single Oral 50 mg Dosesof Sitagliptin to End Stage Renal Disease Patients UndergoingHemodialysis or Patients with Severe Renal Insufficiency
The sitagliptin plasma concentration profile was similar between patients with severe renal insufficiency and ESRD Patients undergoing dialysis
Time (hr)0 12 24 36 48 60 72 84 96
Sit
agli
ptin
Pla
sma
Con
cent
rati
on (
nM)
0
200
400
600
800
Severe renal insufficiencyESRD (Dialysis at 48 hours postdose)
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Severe Renal Insufficiency vs. ESRD:Drug A Severe Renal Insufficiency and ESRD Study
Design: Open label, single dose
Subjects: 16 female and male subjects (18-70 years)
– 6 patients with severe renal Insufficiency (creatinine CL <30 ml/min/1.73 m2)
– 6 patients with ESRD on hemodialysis
Dose: Single dose
Analytes: Drug A concentrations
Samples: Plasma up to 168 hr postdose
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Severe Renal Insufficiency vs. ESRD:Mean Drug A Plasma Concentrations Following Single Oral Dosesto End Stage Renal Disease Patients Undergoing Hemodialysis, Patients with Severe Renal Insufficiency, or Historical Controls
Drug A plasma concentration profiles were similar between patients with severe renal insufficiency and ESRD Patients undergoing dialysis
Drug A is not dialyzed to a significant degree (dialysis blood clearance = 0.3 mL/min)
Drug A plasma concentration rises during dialysis, suggesting a hemoconcentration effect
Mean (N=6) MK-0767 Plasma Concentrations Following Administration of a Single 5-mg Dose of MK-0767 to Patients with Severe Renal Insufficiency and to
End-Stage Renal Disease Patients on Hemodialysis (Protocol 015) Compared to Historical Data in Healthy YoungI and ElderlyII Subjects
Time (hr)
0 24 48 72 96 120 144 168
Mea
n P
lasm
a M
K-0
767
Con
cent
ratio
n (n
g/m
L)
0
100
200
300
400
500
IPooled 5 and 10 mg (scaled to 5 mg using nominal dose) data from Prot. 001, and 5 mg data from Prot. 010.IIPooled 10 mg data from elderly subjects (Prot. 003) scaled to 5 mg using nominal dose.
Young Men (PN001)IESRD - hemodialysis
CrCl < 30 mL/min/1.73 m2
Healthy Elderly (PN003)II
Young Men and Women (PN010)I
Dru
g
A
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Renal Insufficiency and Metabolism:Drug B Severe Renal Insufficiency Study
Design: Open label, single dose
Subjects: 16 female and male subjects (18-70 years)
– 8 patients with severe renal Insufficiency (creatinine CL <30 ml/min/1.73 m2)
– 8 healthy matched control subjects [race, gender, age (5 years), BMI (3.5 unit)]
Dose: Single
Analyte: Drug B
Samples: Plasma up to 360 hr postdose
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0
200
400
600
800
RenallyImpaired
Matched Healthy Controls
0
10
20
30
40
50
60
70
80
RenallyImpaired
AUC0-inf (nM-hr) Cmax (nM)
HealthyHistorical
HealthyHistorical
Matched Healthy Controls
Individual Drug B AUC0-inf and Cmax Following Single Dose in Severe Renal Insufficiency Patients and Healthy Subjects
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0
200
400
600
800
RenallyImpaired
Matched Healthy Controls
0
10
20
30
40
50
60
70
80
RenallyImpaired
AUC0-inf (nM-hr) Cmax (nM)
HealthyHistorical
HealthyHistorical
Matched Healthy Controls
Individual Drug B AUC0-inf and Cmax Following Single Dose in Severe Renal Insufficiency Patients and Healthy
Subjects(Current Study and Historical Data†)
†Pooled single dose data from 6 phase I studies, dose normalized
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Limitations
Interpretation Timing Limited numbers Recruitment, particularly of severe
renal insufficiency patients Assessment of safety and
tolerability Single dose vs. multiple dose Special populations