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Generalizations in linear pharmacokinetics using properties of certain classes of residence time distributions. II. Log-concave concentration-time curves following oral administration (1987)

Weiss, Michael

Springer

Journal of pharmacokinetics and pharmacodynamics 15 (1987), S. 57-74

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ISSN: 1573-8744

Keywords: Pharmacokinetics ; oral administration ; noncompartmental approach ; log-concavity ; dissolution profile ; reliability theory

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract The present approach enables a noncompartmental assessment of log-concave plasma concentration-time profiles following oral drug administration. Observed log-concavity corresponds to a nonparametric class of residence time distributions with the following properties: (1) The fractional rate of elimination kB(t) (failure rate of the distribution) increases monolonically until reaching the terminal exponential coefficient kB,Z.(2) The relative dispersion of body residence times CV B 2 (ratio of variance to the squared mean , VBRT/MBRT2,)acts as a shape parameter of the curve. The role of the input process in determining the shape of the concentration profile is discussed. In this connection evidence is provided for the importance of log-concave percent undissolved versus time plots, introducing the general concept of a time-varying fractional rate of dissolution. The governing factor for the appearance of log-concavity is the ratio of mean absorption time to mean disposition residence time (MAT/MDRT);this factor exceeds a particular threshold value which depends on the distributional properties of the drug. Generalizing previous approaches which are valid for first-order input processes, the “flipflop” phenomenon and the problem of “vanishing of exponential terms” are explained using fewer assumptions. Upper bounds for the elimination time (more than 90% eliminated) and the cutoff error in AUCdetermination are presented. The concept of logconcavity reveals general features of the pharmacokinetic behavior of oral dosage forms exhibiting a dominating influence of the absorption/dissolution process.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01062939

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Does the Dose-Solubility Ratio Affect the Mean Dissolution Time of Drugs? (1999)

Lánsky, Petr ; Weiss, Michael

Springer

Pharmaceutical research 16 (1999), S. 1470-1476

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ISSN: 1573-904X

Keywords: dissolution ; model ; fractional dissolution rate ; mean dissolution time ; relative dispersion

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract Purpose. To present a new model for describing drug dissolution. On the basis of the new model to characterize the dissolution profile by the distribution function of the random dissolution time of a drug molecule, which generalizes the classical first order model. Methods. Instead of assuming a constant fractional dissolution rate, as in the classical model, it is considered that the fractional dissolution rate is a decreasing function of the dissolved amount controlled by the dose-solubility ratio. The differential equation derived from this assumption is solved and the distribution measures (half-dissolution time, mean dissolution time, relative dispersion of the dissolution time, dissolution time density, and fractional dissolution rate) are calculated. Finally, instead of monotonically decreasing the fractional dissolution rate, a generalization resulting in zero dissolution rate at time origin is introduced. Results. The behavior of the model is divided into two regions defined by q, the ratio of the dose to the solubility level: q 〈 1 (complete dissolution of the dose, dissolution time) and q 〉 1 (saturation of the solution, saturation time). The singular case q = 1 is also treated and in this situation the mean as well as the relative dispersion of the dissolution time increase to infinity. The model was successfully fitted to data(l). Conclusions. This empirical model is descriptive without detailed physical reasoning behind its derivation. According to the model, the mean dissolution time is affected by the dose-solubility ratio. Although this prediction appears to be in accordance with preliminary application, further validation based on more suitable experimental data is required.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1018923714107

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Generalizations in linear pharmacokinetics using properties of certain classes of residence time distributions. I. Log-convex drug disposition curves (1986)

Weiss, Michael

Springer

Journal of pharmacokinetics and pharmacodynamics 14 (1986), S. 635-657

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ISSN: 1573-8744

Keywords: drug disposition curve ; log-convexity ; residence time distribution ; noncompartmental analysis ; time-varying volume of distribution ; terminal exponential phase ; reliability theory

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract Introducing the phenomenoiogical concept of a time-varying fractional rate of elimination kD(t)and applying the theory of lifetime distributions, implications of the log-convexity of drug disposition curves are examined and some important applications are described. Linear pharmacokinetic systems exhibiting a log-convex impulse response and satisfying the basic conditions underlying the noncompartmental approach have the following properties: (1) The time-varying volume of distribution V(t)increases, and consequently the fractional rate of elimination kD(t)=CL/V(t)decreases monotonically. (2) The concentration-time curve and the time course of total amount of drug in the body, respectively, have an exponential tail [where V(t)approaches the equilibrium value VZ].The relative dispersion of residence times (CV D 2 =VDRT/MDRT2)and the ratio Vss/VZ (V ss is the volume of distribution at steady state) act as measures of departure from pure monoexponential decay (one-compartment behaviour). The role of the latter parameters as shape parameters of the curve that characterize the distributional properties of drugs is discussed. Upper and lower bounds of the time course of drug amount in the body are derived using the parameters MDRTand CV D 2 or λz (terminal exponential coefficient), respectively. This approach is also employed to construct upper bounds on the fractional error in AUCdetermination by numerical integration that is due to curve truncation. The significance of the fractional elimination rate concept as a unifying approach in interspecies pharmacokinetic scaling is pointed out. Some applications of the results are demonstrated, using digoxin data from the literature.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01067968

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Distribution Kinetics of Diazepam, Lidocaine and Antipyrine in the Isolated Perfused Rat Hindlimb (1997)

Weiss, Michael ; Koester, Armin ; Wu, Zhen Yu ; [et al.]

Springer

Pharmaceutical research 14 (1997), S. 1640-1643

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ISSN: 1573-904X

Keywords: pharmacokinetics ; indicator dilution ; permeability ; dispersion ; model

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1012198922671

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