tissue-binding properties, and transporters. Depending on the plasma protein bind-
ing, drugs can have small Vd (e.g., heparin and warfarin) or large Vd (e.g.,
risedronate). A typical incremental decrease in albumin and increase in α1-acid
glycoprotein levels in elderly are unlikely to have large effects on drug distribution.
But transmembrane protein may alter with aging. Extracellular space of the central
nervous system (CNS), which is guarded by the blood-brain barrier (BBB) from
non-selective crossing of xenobiotics, is a special compartment from the pharmaco-
logical point of view. The BBB impairment can affect drug disruption process in the
CNS, which is generally associated with neurodegenerative disorders (memory loss
and cognition) among the elderly. Besides the morphological alterations of the
cellular elements (endothelial cells, astrocytes, pericytes, microglia, neuronal
elements), the BBB changes also occur at the molecular level (tight junction
proteins, adheres junction proteins, membrane transporters, basal lamina, extracel-
lular matrix), and these pathologies are the major contributors to the onset and
progression of neurological disorders. One of the most important transporters at
the BBB is the multidrug transport protein P-glycoprotein (P-gp), encoded by
MDR1/ABCB1 and belonging to the family of ATP binding cassette (ABC)
transporters. P-gp is highly expressed at the BBB vessel walls of the brain
capillaries, where it functions as an efflux pump to restrict the entry/distribution of
many different drug moieties from blood to the brain. van Assema et al. (2012) have
reported an age-associated decline in the expression and function of ABCB1
transporters at the BBB through PET studies. This evidence was further extended
by Bauer et al. (2017), confirming that an age-associated reduction occurring in
ABCB1 expression and function at the BBB leads to higher increase in the brain
distribution of ABCB1-selective substrates like (R)-[11C]-verapamil when ABCB1
is partially inhibited, viz., after the consumption of polyphenolic plant-derived fresh
foods. But this could result in an elevated risk of ABCB1-mediated drug-drug
interactions (DDIs) at the BBB in elderly persons, which may have important
adverse consequences for pharmacotherapy in patients of advanced age. Antidepres-
sant compounds need to penetrate the BBB to reach the site of action within the
brain; therefore, inhibition of P-gp transport proteins can have marked impact on the
efficacy of antidepressant drugs (O’Brian et al. 2011). Currently, CYP-450
genotyping pilot studies are being conducted to map clinical feasibility of
transport-protein genotyping. Thus, the ABCB1-guided antidepressant treatment
strategy is not a dream anymore (Zeier et al. 2018).
15.7
Metabolism
Metabolism involves the biodegradation of drug molecules, mainly by hepatic
cytochrome 450 coenzymes, to be transformed into more polar and water-soluble
compounds ready for clearance into the bile, feces, and kidney. Clearance (CL) is
defined as an elimination rate constant (ke) relating to the rate of elimination of a
drug from the body and/or the plasma clearance (Cpl). It determines the maintenance
dose required to keep optimal therapeutic drug concentration in the plasma.
15
The Importance of Drug Dose Adjustment in Elderly Patients with Special. . .
241