Compositions useful as fibrin sealants

Chemistry: natural resins or derivatives; peptides or proteins; – Proteins – i.e. – more than 100 amino acid residues – Blood proteins or globulins – e.g. – proteoglycans – platelet...

Reexamination Certificate

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C530S381000, C530S383000, C530S384000, C424S529000, C514S002600, C514S008100, C514S021800

Reexamination Certificate

active

06268483

ABSTRACT:

FIELD OF THE INVENTION
The invention relates to compositions of fibrin monomer and is more particularly concerned with concentrated fibrin monomer solutions containing other blood proteins or components wherein the fibrin monomer and the blood proteins or components are all autologous. Such compositions are useful, for example, as fibrin sealants.
BACKGROUND OF THE INVENTION
U.S. Pat. No. 5,750,657 to Edwardson et al. describes a completely novel method of preparing a fibrin sealant utilizing a fibrin monomer composition. Fibrin monomer, generated by pre-treatment of fibrinogen with a thrombin-like enzyme, is used in a nondynamic state. As it is applied to a patient in need thereof, the nondynamic conditions are reversed so that the monomer can polymerize to form a fibrin polymer which serves as a fibrin sealant.
One concern in applying a fibrin sealant has been fibrinolytic stability. It has been believed that fibrinolytic factors can prematurely break down a sealant clot so that desired effects are not provided. WO 93/05067 to Baxter International describes a sealant composition with greatly reduced plasminogen levels to help ensure better in vivo residence time or stability. The compositions of WO 93/05067 have preferably no more than 10 &mgr;g/ml of plasminogen.
It is also believed that pre-delivery concentrations of fibrin or fibrinogen need to be high for an effective fibrin sealant. For example, Immuno's marketed Tissucol has approximately 70-100 mg/mil of fibrinogen, Behringwerke's Beriplast has approximately 65-115 mg/ml of fibrinogen, Kaketsuken's Bolheal has approximately 80 mg/ml of fibrinogen and the Baxter sealant is believed to contain approximately 100 mg/ml of fibrinogen.
SUMMARY OF THE INVENTION
It has now been found that compositions containing substantial amounts of plasminogen and having relatively lower concentrations of fibrin or fibrinogen compared to the prior art provide useful fibrin sealants at least comparable to the prior art sealants. In accordance with the present invention it has been found that compositions containing from about 10 to about 30 mg/ml of fibrin monomer, about 10-40 &mgr;g/ml of prothrombin and about 100-200 &mgr;g/ml of plasminogen are extremely useful as fibrin sealants. Preferably, such compositions comprise autologous fibrin monomer, prothrombin and plasminogen and may include other autologous components. More preferably such compositions are the result of a process for concentrating a fibrin monomer solution wherein autologous components selected from one or more of plasminogen, prothrornbin, fibronectin, factor XIII, factor X and antithrombin III are coharvested in autologous form with the fibrin monomer.
DETAILED DESCRIPTION OF THE INVENTION
The novel compositions of the present invention have the advantage that they are preferably autologous compositions. As such, use of these compositions, e.g., as fibrin sealants reduces the potential for viral transmission when compared to pooled products. Because the present compositions include a form of fibrin monomer which is temporarily inhibited from polymerizing, e.g., by lowering the pH, they can be applied to a patient to form a sealant/fibrin polymer as set forth in U.S. Pat. No. 5,750,657 without the need for added exogenous thrombin. Upon application, such fibrin monomer can be converted back to a polymerizable form, e.g., by raising the pH back to neutral, so that a fibrin polymer sealant is formed. Although the compositions of the present invention can be prepared by any known/convenient means, it is preferred that methods in accordance with those in U.S. Pat. No. 5,750,657 are employed. Thus, a plasma fraction can be separated from whole blood and the plasma fraction can be treated with a thrombin-like enzyme (which can be thrombin), preferably batroxobin and more preferably in a derivatized form, e.g., biotinylated batroxobin, to form a fibrin I monomer which will immediately polymerize to an acid-soluble polymer. Dissolving the polymer, e.g., in an acid, provides a fibrin monomer solution. The low pH inhibits the fibrin from polymerizing and thus the fibrin monomer is considered nondynamic as referred to in the '657 patent. Such a method of producing a fibrin monomer solution generally provides that other blood factors/components are trapped within, or otherwise absorbed to, the polymer prior to dissolution. Typically, to use the fibrin monomer solution as one component of a fibrin sealant it is coadministered with a material to catalyze the polymerization of the fibrin monomer. For example, a pH 4 fibrin monomer solution can be coapplied with an alkaline buffer, e.g., a pH 10 buffer, to raise the pH of the fibrin monomer thereby creating an environment where the monomer will polymerize to form a fibrin polymer which is the sealant. Preferably, a source of calcium ions can be added. This is described in the '657 patent. Advantageously, when using the present compositions, the coharvested factor XIII and prothrombin, along with the calcium ions, provide that the factor XIII is activated, the prothrombin is converted to thrombin and the factor XIIIa, thrombin and calcium ions provide for the conversion of fibrin I polymer (or monomer) to fibrin II polymer, to crosslinked fibrin II polymer, i.e., a preferred sealant clot.
Thus, preferred compositions of the present invention comprise about 10-30 mg/ml of fibrin monomer (I, II or des BB) in solution with a low pH, i.e., pH 5 or less, buffer. Acetate buffer or any of the buffers set forth in U.S. Pat. No. 5,750,657 or other similar buffers are suitable. These preferred compositions further include 10-40 &mgr;g/ml of prothrombin and have plasminogen between 100 and 200 &mgr;g/ml (which is about 50 to 100% of the plasminogen present in normal plasma). Preferably these three components are autologous and more preferably they have been coharvested with the fibrin monomer. The present compositions may further include 5-100 &mgr;g/ml of activatable Factor XIII, 45-150 &mgr;g/ml of fibronectin, 2.0-7.0 &mgr;g/ml of Factor X and/or 50-200 &mgr;g/ml of antithrombin III.
TABLE 1 below in the Examples provides a comparison of an exemplary composition of this invention to the Tissucol (Immuno) and Beriplast (Behringwerke) compositions discussed above.
The present preferred compositions are part of a convenient, safe fibrin sealant system in that they are autologous and can be prepared to inherently contain other important factors, i.e., other than the fibrin itself, which provides for the desired conversion and crosslinkage of the fibrin I monomer to a crosslinked fibrin II polymer. Individual extraction and purification of components are necessary with prior art sealant products since they are pooled products. Coharvesting fibrin monomer and other blood components which are naturally carried through in the polymerization/solubilization preparation method described above is a simple way of providing extremely efficient sealant products with enhanced safety and which perform at least comparable to Beriplast and Tissucol. Also, when the novel compositions of the present invention are coapplied to a surgical site with an agent to render the fibrin monomer polymerizable (preferably pH 10 buffer solution; about 7:1 fibrin monomer solution: buffer) and a source of calcium ions, the resulting sealants have stability comparable to prior art sealant without the need for added antifibrinolytic stabilizers, i.e., aprotinin and/or without the need to remove plasminogen.
Using the process described below, compositions of the present invention can be prepared. Preferably, the process is carried out in devices such as those described in EP 654669, WO 96/16715, WO 96/16713 and WO 96/16714.


REFERENCES:
patent: 4442655 (1984-04-01), Stroetmann
patent: 5206140 (1993-04-01), Marder et al.
patent: 5585007 (1996-12-01), Antanavich et al.
patent: 5739288 (1998-04-01), Edwardson et al.
patent: 5750657 (1998-05-01), Edwardson et al.
patent: 5763410 (1998-06-01), Edwardson et al.
patent: 5763411 (1998-06-01), Edwardson et al.
patent:

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