This document discusses pharmacokinetics in pregnancy. It begins with an overview of absorption, distribution, metabolism, and excretion (ADME) processes and how they are altered in pregnancy. It then examines specific changes to absorption, plasma volume expansion, protein binding, enzyme activity, renal clearance, and placental transport during pregnancy and postpartum. Key points include increased volume of distribution, decreased protein binding, induction of some enzyme systems, and increased renal clearance and placental transport of drugs. The implications of these changes for dosing of individual drugs like nelfinavir, caffeine, lamotrigine, and theophylline are reviewed based on pharmacokinetic studies. Placental transporters like P-
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<마더리스크라운드> Pharmacokinetics in pregnancy
1. Ji-Young Park, MD
Dept. of Clinical Pharmacology & Toxicology
Anam Hospital, Korea University College of Medicine
2. * = Pharmacokinetics (약동학) + Pharmacodynamics (약력학)
Absorption (흡수) Receptor at action site
Distribution (분포) second messengers
Metabolism (대사) (ATP, GTP…)
Excretion (소실) clinical effect
(BP ….)
3. PK
PD
ADME
Absorption – the process of getting drug into the body (not necessarily the systemic circ
ulation)
Distribution – the processes of distribution into and out of the tissues
Metabolism – the processes that change the drug to another molecule
Excretion – the processes that remove drug from the body
Collectively, these processes are referred to as ADME 3
5. Use of blood concentrations of drug in PK
study
작용부위(ACTION SITE)
“수용체(RCEPTOR)” 조직 (TISSUE RESERVOIR)
bound free free bound
SYSTEMIC
CIRCULATION
흡수(ABSORTPION) 유리약물(Free drug) 소실(EXCRETION)
bound
drug 대사물(metabolite)
대사 (BIOTRANSFORMATION)
5
6. Drug Concentration Concentration Pharmacological
Dose in plasma at effect site Effect
Analytical Hard to
Hard to
method measure
measure
(outcome)
(invasive)
Surrogate
marker
7. PK parameters Plasma Concentration (ng/mL) versus Time (h)
F (Bioavailability)
Cmax
Tmax
AUCall (AUClast), AUCinf
Clearance
Volume of distribution (Vd)
Half-life
Ke (Elimination Constant)
MRT (Mean Residence Time)
7
8.
9. *Absorption
Oral absorption and bioavailability
Elevation of progesterone
Reduced gastric emptying time
Reduced intestinal motility
Cmax의 감소와 Tmax의 증가 minimal effect on bioavailability
Increase in gastric pH
ionization of weak acid reduction in absorption of weak acid drugs
More critical problems: nausea and vomiting associated with pregnancy
10. * Distribution
Expansion of intravascular (plasma volume) and extra vascular (breasts,
uterus, peripheral edema) water content.
* 임산부의 1/3에서 edema를 경험 (ECF가 최대 8L까지 증가)
Total body water의 증가
hydrophilc drug에 대한 Vd의 증가 apparent dilution of drug concentrations
(compensation by changes in protein biding)
Volume of distribution
plasma volume (임신 6-8주부터 증가 32-34주까지) (약 1.2-1.3 L 증가) non-pregnant women
에 비해 40% 증가 cardiac output의 증가와 관련
Plasma albumin 농도 감소 dilutional effect of plasma volume
원인: albumin 합성의 감소 또는 clearance의 증가 Increased in drug effect by elevation of
free forms
α1-acid glycoprotein; relatively unchanged during pregnancy
Protein binding의 감소: free form 증가
Increase in body fat (약 4kg 증가) lipophilc drug에 대한 Vd의 증가
임상적 의의는 거의 없음.
11. Partially compensated respiratory alkalosis: protein binding에 영향
Organ blood flow의 증가
uterus, kidney, skin, and mammary gland
with compensatory decrease in skeletal muscle blood flow
Hepatic blood blow는 영향이 거의 없음 (but lower as a percentage of cardiac
output
12. * Metabolism
대체로 약물 대사능은 증가함
몇몇 hepatic cytochrome P450 enzyme induction
원인: estrogen/progesterone 약물대사의 증가
Cholinesterase activity: 임신시 감소
CYP2D6 activity: increased in pregnancy
13. * Nelfinavir & active metabolite (M8) Pharmacokinetics
pregnancy (open circles)
Post partum (solid circles)
In conclusion, there is an increased prevalence of
subtherapeutic plasma nelfinavir concentrations
during pregnancy. In addition, concentrations of
the active metabolite M8 are significantly reduced.
Heeswiik et al. CPT 2004
15. * Lamotrigine clearance in pregnancy
Phase II biotransformation by glucuronidation
Increased clearance in second and third trimesters ( > 65%)
May require dose adjustment
Rapid decrease in clearance in the first two weeks postpartum
Tran TA, et al. Neurology 2002; 59: 251-55.
17. * Theophylline clearance during pregnancy and postpartum
1.2
CLE
CLEARANCE (mL/min x kg)
1
0.8 CLNR
0.6
0.4
CLR
0.2
0
24-36 wks 36-38 wks 6-8 wks > 6 mo
PREGNANT POSTPARTUM
Frederiksen MC, et al. Clin Pharmacol Ther 1986;40:321-8.
18. * Placental transport
* Passive diffusion
* P-glycoprotein expressed on trophoblastic cells of placenta
* Active transport of P-gp substrates back to the mother
* Pore system
* Endocytosis
20. * P-gp deficient mdr1a and mdr1b (-/-) CF-1 mice
pronounced increase in fetal exposure to P-gp substrates
ABC (ATP-binding cassette) drug efflux transporter
syncytiotraophoblast
Schematic representation of the role of the major placental efflux drug transporters in
syncytiotrophoblast layer.
BCRP: Breast cancer-resistance protein; MRP: Multi-drug resistance-associated protein; P-gp: P-
glycoprotein
21.
22. * ABCG2 (BCRP) transporter
Western blot analysis of BCRP expression in
human placentas
Placental BCRP mRNA (left) and protein (right)
expression levels in various BCRP haplotypes
Kobayashi et al. DMD 2005
23. * Effect of gestational age
* Toxic insult by xenobiotics greater danger to fetus in early
pregnancy
* BCRP protein ↑ but not mRNA level with advancing gestational age
* Effect of maternal age
* Effect of genetic polymorphism
* Effect of hormones
* Progesterone and estrogen↓
24.
25. * leflunomide case
Mean plasma concentrations of A771726 after a single dose of 20 mg
leflunomide orally according to ABCG2 c.421C>A (a) and c.34G>A (b) genotypes
26. * Teratogens act with specificity
* Teratogens demonstrate a dose-response relationship
* PK aspect:
* drug level modulation: ADME
* role of transporter: modulation of transporter activity
* inhibitor or inducer
* genetic problems.