Method for establishing a dosage plan for thrombin inhibitors

Drug – bio-affecting and body treating compositions – Designated organic active ingredient containing – Peptide containing doai

Reexamination Certificate

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C514S012200, C514S056000, C530S324000, C530S380000, C530S381000, C435S039000

Reexamination Certificate

active

06489289

ABSTRACT:

The invention relates to a method for establishing a dosage plan for hirudins and/or oral thrombin inhibitors.
Thrombin plays an essential part as proteolytic enzyme in the coagulation of blood. Thrombin inhibitors are therefore interesting active substances for the treatment of disorders such as thrombosis. Particularly well known thrombin inhibitors are heparins, but also hirudin and hirudin derivatives, and oral thrombin inhibitors, the efficacy of these thrombin inhibitors being essentially determined by the blood or plasma levels of these compounds.
WO 93/16390 describes a method for determining hirudin and synthetic thrombin inhibitors in blood, in which a prothrombin intermediate, a compound which cleaves prothrombin to meizothrombin, a salt thereof or a mixture of these compounds and, where appropriate, buffers and/or other conventional additives are added to the blood or the blood component, and the time which elapses from the addition to the start of coagulation is measured.
The compound preferably used for cleaving prothrombin to meizothrombin is the snake venom ecarin. This method is therefore called the ecarin clotting test (“ECT”) hereinafter. In this case, the coagulation is initiated by ecarin, and the intermediates which are trapped by hirudin or other thrombin inhibitors (not by heparin) are formed. After a certain time, when the hirudin or the other thrombin inhibitors present in the blood are consumed, the blood sample coagulates. The amount of thrombin inhibitor in the blood can be determined from the time to coagulation by calibration plots. However, WO 93/16390 makes no statement about the question as to how the concentration of a thrombin inhibitor in the blood of a patient can be predicted and thus adjusted optimally.
Clin. Pharmacokinet. 1997 Feb. 32 (2), 145-172 describes pharmacokinetic optimization in the treatment of deep venous thromboses, especially on treatment with heparin, reference being made to the need for individual monitoring of the dosage and the difficulties associated with nonlinear pharmacokinetics.
Because of the great inter- and intraindividual variability of heparin or other anticoagulants (e.g. also PEG-hirudin), intensive monitoring and individualized therapy is necessary in order to optimize the individual benefit/risk ratio of the treatment. Problems on treatment with heparin are, for example:
inappropriate initial heparin dose,
long laboratory analysis times which impede rapid adjustment of the heparin dose,
incorrect dose adjustment.
It is an object of the present invention to provide a method with which it is possible to establish in a simple and rapid manner a dosage plan for hirudins and oral thrombin inhibitors which is optimal for the individual patient, so that the risk of overdosage with the danger of hemorrhage and of underdosage with the danger of thrombosis is distinctly reduced or is eliminated.
We have found that this object is achieved by
a) after giving a standard dose of the hirudin or of the oral thrombin inhibitor, determining the concentration of the hirudin or the oral thrombin inhibitor in the blood of the recipient using the ecarin clotting time test, and
b) establishing, from the ratio of the dose given in step a) to the measured ecarin clotting time, using a computer program, e.g. the statistics program package p-PHARM 1.4, SIMED, 1996, on the basis of a pharmacokinetic/pharmacodynamic model, the dosage of the hirudin or oral thrombin inhibitor to be given thereafter.
The novel method makes it possible in a surprisingly simple manner to develop optimal dosage plans individually for particular patients, it being possible to minimize the risk of underdosage (with the danger of inadequate thrombin inhibition) just as well as, in particular, the risk of overdosage (with the danger of hemorrhages).
The invention additionally relates to the use of hirudins or oral thrombin inhibitors for producing a drug for use in the prophylaxis and treatment of thromboembolic events in accordance with a treatment schedule which comprises the following steps:
a) giving a standard dose of the hirudin or of the oral thrombin inhibitor,
b) determining the ecarin clotting time and
c) giving a further dose of the hirudin or of the oral thrombin inhibitor which has been established by means of a computer program, e.g. a statistics program package p-PHARM 1.4, SIMED 1996, on the basis of a pharmacokinetic/pharmacodynamic model, from the ratio of the dose given in step a) to the ecarin clotting time determined in step b).
It has emerged that use of the ecarin time method (ECT) in conjunction with the corresponding patients' data in the novel method provides excellent information in particular on the probability of hemorrhages on treatment with hirudins and/or oral thrombin inhibitors.
The novel method has the following advantages, inter alia:
performance of model simulations as supporting measure in the planning of clinical studies and monitoring of patients,
identification and quantification of any dependencies of the pharmacokinetics/pharmacodynamics (pk/pd) on individual influencing factors (e.g. age, sex, renal excretion capacity, concurrent medication) to explain the variability in the observed drug effect within clinical studies,
reduction of the laboratory analyses required through consistent application of the possibilities of sparse data analysis methods,
increasing the rate of clinical development,
identification of risk factors and patients at risk.
The hirudins employed in the present method are preferably the natural hirudins, but also recombinant hirudins or hirudins covalently bonded to organic carriers, as described, for example, in EP 209 061, in U.S. Pat. No. 4,745,177, in EP 345 616, in EP 502 962 or in DE 38 05 540. Hirudin bonded to polyethylene glycol (EP 502 962 A) and recombinant hirudin as indicated in EP 345 616 are particularly preferably employed.
Oral thrombin inhibitors which can be used are low molecular weight organic compounds which have the necessary oral availability. Oral thrombin inhibitors of this type are described, for example, in WO 94/29336, EP 669 317, WO 95/23609, or WO 96/25426, which are incorporated herein by reference. The oral thrombin inhibitors which are particularly employed are those having as structural unit a phenyl or heterocyclic ring with an amidine group as substituent.
The ecarin clotting time is determined using the method described in WO 93/16390.
In conjunction with the data on the recipient, i.e. the patient to be treated, in particular the sex, the body weight, the age and the kidney function or the renal excretion capacity, it is possible to establish from the ratio of the initial standard dose given to the measured ecarin clotting time, which shows a high linear correlation with the blood plasma level reached by the thrombin inhibitor, by means of a population-based pharmacokinetic/pharmacodynamic (pk/pd) model, a dosage plan from which it is evident, in particular, what the probabilities of hemorrhage are as a function of further doses of the thrombin inhibitor, and the possible danger of thrombosis with an underdosage.
The novel method can be employed irrespective of the use form, i.e. the thrombin inhibitors can be administered as infusion or i.v. bolus or as subcutaneous injection or else orally. Combined use forms are also possible, and even preferred for certain indications, e.g. unstable angina pectoris or peripheral arterial occlusive disease.
The dosage plan is established in the novel method as follows: Based on investigations of the pharmacokinetics and pharmacodynamics of PEG-hirudin (on the basis of data from more than 300 people), a mathematical model (
FIG. 1
) which is suitable for predicting and for simulating the time course of the PEG-hirudin concentration in the plasma and of the ecarin clotting time with various routes of administration has been developed. It allows an a priori dose recommendation to be given for example on the basis of demographic data for the patient (essentially age, sex, weight, smoker
on-smoker, kidney function).
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