AI Article Synopsis
- The well-stirred model (WSM) is the most commonly used approach in pharmacokinetics for understanding how drugs are cleared by the liver due to its straightforward nature.
- Recently, some researchers claimed that Kirchhoff's electrical network laws provide an equivalent equation for hepatic clearance, suggesting it operates independently of traditional physiological models.
- This commentary disputes that claim, arguing that applying Kirchhoff's laws to organ clearance does not offer any new insights and may lead to misinterpretations and inaccuracies in understanding hepatic clearance mechanisms.
Article Abstract
Clearance concepts are extensively applied in drug development and drug therapy. The well-stirred model (WSM) of hepatic elimination is the most widely adopted physiologic model in pharmacokinetics owing to its simplicity. A common feature of this organ model is its use to relate hepatic clearance of a compound to the physiologic variables: organ blood flow rate, binding within blood, and hepatocellular metabolic and excretory activities. Recently, Kirchhoff's laws of electrical network have been applied to organ clearance (Pachter et al., 2022; Benet and Sodhi, 2023) with the claim that they yield the same equation for hepatic clearance as the WSM, and that the equation is independent of a mechanistic model. This commentary analyzes this claim and shows that implicit in the application of Kirchhoff's approaches are the same assumptions as those of the WSM. Concern is also expressed in the interpretation of permeability or transport parameters and related equations, as well as the inappropriateness of the corresponding equation defining hepatic clearance. There is no value, and some dangers, in applying Kirchhoff's electrical laws to organ clearance. SIGNIFICANCE STATEMENT: This commentary refutes this claim by Pachter et al. (2022), and Benet and Sodhi, (2023), who suggest that the well-stirred model (WSM) of hepatic elimination, the most widely applied physiologic model of hepatic clearance, provides the same equation as Kirchhoff's laws of electrical network that is independent of a physiologic model. A careful review shows that the claim is groundless and fraught with errors. We conclude that there is no place for the application of Kirchhoff's laws to organ clearance models.
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| http://dx.doi.org/10.1124/dmd.123.001300 | DOI Listing |
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