FR3034992A1 - EX VIVO AUTOLOGUE PLASMATIC MEDIA PLASMINE RICH AND PROCESS FOR OBTAINING THE SAME - Google Patents

Abstract

The invention relates to an autologous plasmin-rich ex vivo plasma medium, characterized in that: it has an enzymatic activity, called plasmin activity, as measured by a para-nitroaniline release test greater than 0.1 μmol of para-nitroaniline released per minute and per milliliter (mL) of plasmin-rich autologous plasmatic ex vivo plasma medium, - it comprises a proportion of heterologous protein of less than 600 μg per milliliter (mL) of autologous ex vivo plasma medium rich in plasmin, said release test consisting in: ○ mixing in the plasma plasmin-rich autologous ex vivo plasma medium maintained at a temperature of 37 ° C. an S-2251 chromogenic substrate at an initial concentration in the plasmin-rich autologous ex vivo plasma medium of the order of 1 mM, then; ○ to evaluate the initial rate of release of para-nitroaniline per minute and per milliliter (mL) of plasmin-rich autologous ex vivo plasma medium following mixing.

Description

The invention relates to an autologous plasmin-rich autologous plasma ex vivo plasma medium, such an autologous plasmin-rich autologous plasmatic medium for use as a medicament and a plasma medium of this kind. BACKGROUND OF THE INVENTION ex vivo plasmin-rich autolog for its use as a drug for the treatment of vitreo-macular traction in ophthalmology. The invention also relates to a process for obtaining such an autologous plasmin-rich autologous plasma medium.

The treatment of macular holes in ophthalmology resulting from differential tangential traction constraints occurring between the vitreous body and the retina, requires releasing the retina from these constraints. Known treatments are mainly of a surgical nature and aim to mechanically separate the retina and the vitreous body.

In particular (WO 2004/052228) a composition comprising a truncated form of a plasmin comprising a catalytic domain of plasmin and the use of such truncated plasmin in a method for treating or preventing a visual disorder is known (WO 2004/052228). . Such truncated plasmin is a recombinant plasmin and can not be an autologous protein.

In addition, such a recombinant plasmin is complex in its manufacture. Its cost is high, so that alternative solutions to the use of a recombinant plasmin in a therapeutic treatment method are sought, with which, moreover, the inflammatory risks would be minimized.

Also known from WO 2010/125148 is an ophthalmic treatment composition obtained by adding urokinase to a plasma medium for the purpose of plasminogen conversion from a blood plasma to plasmin. Ophthalmic treatment employing such a composition elicits an immune response in the patient and describes the use of dexamethasone as an anti-inflammatory compound. An alternative to the use of such a composition is provided by the invention.

The invention therefore aims to overcome all these problems. To this end, the invention relates to an autologous plasmin-rich autologous plasma medium characterized in that it comprises a proportion of heterologous plasminogenase protein-less than 600 μg per milliliter (ml) of plasmatic medium, in that it exhibits an enzymatic activity, called plasmin activity, as measured by a para-nitroaniline release test, greater than 0.1 iumole of para-nitroaniline released per minute and per milliliter (mL ) of plasma medium, said release test consisting in: mixing in the plasma medium maintained at the temperature of 37 ° C an S-2251 chromogenic substrate of formula (I) below: NO2 at an initial concentration of order of 1 mM in the plasma medium, o evaluate after mixing an initial rate of release of paranitroaniline (in iumole of para-nitroaniline) per minute and per milliliter (mL) of rich autologous ex vivo plasma medium.in plasmin. Throughout the text, the following terminology is used: "Blood Plasma Medium" refers to any liquid medium substantially free of blood cells directly resulting from centrifugation of blood-particularly unconcagulated human-liquid blood, in conditions adapted to allow separation of blood cells (red blood cells, leukocytes, platelets) and blood plasma medium; The term "plasminogenase" refers to any enzyme having an enzymatic activity for converting plasminogen to plasmin by cleaving a peptide bond of plasminogen; 3034992 3 - the expression "at least substantially" indicates, in the usual way, that a structural characteristic - such as a value - or functional value, should not be taken as marking an abrupt discontinuity, which would not make sense physical, but covers not only this structure or function, but also slight variations of this structure or function which produce, in the technical context considered, an effect of the same nature, if not of the same degree; the term "heterologous" describes a biological substance originating from a living third organism and capable of being recognized by the immune system of a patient as being a foreign body capable of triggering an immune reaction. This definition extends to a "heterologous" plasma medium, that is to say a plasma medium comprising at least one compound capable of being recognized by the immune system of a patient as being a foreign body of a nature to trigger an immune reaction in said patient; the term "autologous" qualifies a compound and extends to a composition, in particular to a plasmin-rich ex vivo plasma medium, obtained from a plasma blood medium taken from a single patient, substantially free of material A third organism-derived biologic may be administered to the same patient, particularly intravenously, without inducing a significant immune and / or inflammatory reaction in this patient. An autologous plasmin rich ex vivo plasma medium is obtained from the blood of a single patient and is clean and intended for the exclusive treatment of this unique patient.

The invention relates to an autologous plasmin rich ex vivo plasma medium, ie a plasma medium extracted from the human or animal body, which is autologous, i.e., which is obtained from a plasma plasmatic medium of a single individual and administered to the same individual without irreversible supply of heterologous compound in the autologous plasmoly-rich autologous plasma blood medium. The plasmin-rich autologous ex vivo plasmatic medium is substantially free of substance-especially biological-heterologous substance. The autologous ex vivo plasma medium is rich in plasmin, ie whose plasmin activity is greater than a basal level of plasmin activity of the plasma blood medium from which the rich autologous ex vivo plasma medium has been obtained. in plasmin.

The S-2251 chromogenic substrate is a tri-peptide of the formula H-D-Val-Leu-Lys-pNA-2HCf and distributed by Chromogenix, Werfen France, Pre Saint Gervais, FRANCE. Advantageously and according to the invention, the plasmin activity is between 0.1 and 0.5 iumole of para-nitroaniline released per minute and per milliliter (ml) of plasmoly-rich autologous ex vivo plasma medium. Advantageously and according to the invention, the plasmin activity is of the order of 0.2 iumole of para-nitroaniline released per minute and per milliliter (mL) of plasmin-rich autologous plasma ex vivo plasma medium. Advantageously and according to the invention, the plasmin-rich autologous ex vivo plasma medium is substantially completely free of blood cells. Advantageously and according to one variant of the invention, the plasmin-rich autologous ex vivo plasma medium is substantially free of any anti-inflammatory compound such as, for example, dexamethasone.

The plasmin-rich autologous ex vivo plasmatic medium according to the invention is distinguished from: at least one blood in that it is free of blood cells, in particular functional blood cells; a blood plasma in vivo in that it is free of blood cells, in particular of functional blood cells; a blood plasma ex vivo at least by the fact that it is rich in plasmin, and; - Plasmin rich blood plasma of WO 2010/125148 at least in that it is substantially free of heterologous plasminogenase.

According to the invention, the plasmin activity of the plasmin-rich autologous ex vivo plasma medium is determined by measuring the initial hydrolysis rate at 37.degree. C. of the S-2251 chromogenic substrate and the appearance of the nitroaniline in autologous plasmin-rich autologous plasma medium by a method in which: in a measuring cup of a spectrophotometer, a volume (especially 0.4 ml) of autologous ex vivo plasma medium is mixed at 37.degree. rich in plasmin previously diluted 10 times in aqueous saline buffer and the same volume of a chromogenic substrate solution S-2251 in ultrapure water at a concentration of 2 mM so as to form a measuring medium in which the initial concentration of S-2251 chromogenic substrate is 1 mM, then; From the mixture, the absorbance (or optical density, OD) at 405 nm of the measuring medium maintained at a temperature of 37 ° C. is measured and recorded (for example continuously); from this record, the initial rate Vi of the reaction expressed in A-abs / min is evaluated, and the plasmin activity expressed in 15 U / ml of plasmin-rich autologous plasma ex vivo plasma medium is calculated according to the formula (II) below: Vi * Vm * no plasmin activity = s * L * Vp 'in which: - Vi is the initial velocity -or the first derivative at the origin, or the slope 20 at the origin- expressed in Aabs / Mill; - Vm is the total volume (in mL) of the measuring medium; - c is the molecular extinction coefficient of para-nitroaniline at 405 nm (10,000 M-1.cm-1); L is the length (in cm) of the optical path of the spectrophotometric measuring vessel, and; - Vp is the volume (in mL) of plasmin-rich autologous plasma ex vivo plasma medium introduced into the spectrophotometric measuring cell. If desired, the basal plasmin activity of a non-plasmin enriched plasma plasma medium is monitored by replacing in the above protocol the autologous rich plasma ex vivo plasmid (II) medium by the same volume of plasma plasmatic medium from which the ex vivo plasmin-rich autologous plasma medium is derived. The plasmin activity value of the plasmin-rich autologous plasma ex vivo plasma medium is deduced from the calculated basal plasmin activity value.

Advantageously and according to the invention, the proportion of protein-in particular heterologous plasminogenase is less than 400 μg, in particular less than 200 μg, preferably less than 100 μg, in particular less than 50 μg, more preferably less than 100 μg. 25 μg / ml (mL) of plasmin-rich autologous ex vivo plasma medium. Advantageously and according to the invention, the proportion of protein-in particular of heterologous plasminogenase is less than 10 μg / ml-in particular less than 5 μg / ml, preferably less than 2 μg / ml of autologous ex vivo plasma medium. rich in plasmin. This proportion of heterologous protein in the plasmin-rich autologous plasma ex vivo plasma medium is adapted to limit as much as possible - not to induce - immune and / or inflammatory reaction in the donor patient of the plasma plasma medium and recipient of the ex vivo plasma medium. autologous rich in plasmin. Advantageously and according to the invention, the plasmin-rich autologous plasma ex vivo plasma medium is at least substantially free of any microbial germ, in particular of any pathogenic microbial germ. Advantageously and according to the invention, the plasmin-rich autologous ex vivo plasma medium is sterile. The sterile nature of the plasmin-rich autologous plasma ex vivo plasma medium is determined by any suitable microbiological diagnostic means.

Advantageously and according to the invention, the plasmin-rich autologous ex vivo plasma medium is substantially pyrogen-free. The conditions for obtaining a pyrogen-free autologous plasmin ex vivo plasma medium are validated by measuring the body temperature of a rabbit injected with plasmin-rich autologous plasmatic ex vivo plasma medium obtained from a amount of plasma plasma medium of said rabbit. The absence of an increase in body temperature of the rabbit following the injection reflects the pyrogen-free ex vivo plasmatic environment ex vivo rich in plasmin and validates the conditions for obtaining it. The invention also extends to an autologous plasma-rich autologous plasma ex vivo medium according to the invention for use as a medicament. The invention is therefore directed to any therapeutic indication of an autologous plasmin rich ex vivo plasma medium according to the invention as a medicament. The invention relates to the first therapeutic indication of an autologous ex vivo plasmin-rich plasma medium according to the invention. The invention is also directed to any second therapeutic indication of an autologous plasmin-rich autologous plasma medium according to the invention as a medicament in a therapeutic treatment of a cardiovascular pathology or during a surgical procedure. The invention is also directed to any second therapeutic indication of an autologous plasmin-rich autologous plasma medium according to the invention as a medicament during an intra-vitreous surgical procedure of a treatment in ophthalmology. The invention also extends to an autologous plasma-rich ex vivo plasma medium according to the invention for its use as a medicament in a therapeutic treatment of a cardiovascular pathology or during a surgical procedure.

The invention also extends to a plasmin-rich autologous ex vivo plasma medium according to the invention for use as a medicament in a therapeutic vitreomacular traction therapy (TVM) in ophthalmology. The invention also extends to a therapeutic composition comprising a plasmin-rich autologous ex vivo plasma medium according to the invention and at least one excipient in a physiologically acceptable amount. The invention also extends to such a therapeutic composition: for its use as a medicament, for its use as a medicament in a therapeutic treatment of a cardiovascular pathology or during a surgical procedure, for its use as a medicament for ophthalmic treatment, - for use as a medicament for treatment of vitreomacular traction (TVM), - for use as a medicament in ophthalmic treatment in intra-vitreous ocular injection application or when surgical intervention to the eye. The invention also extends to a process for the preparation of an autologous plasmin-rich autologous plasma medium according to the invention. The invention also relates to a method for preparing a plasmin-rich autologous ex vivo plasma medium in which: - a plasma plasma medium comprising plasminogen from blood of a single individual is prepared; an enzymatic composition is chosen comprising at least one enzyme, referred to as plasminogenase, for converting plasminogen plasmin to the blood plasma medium comprising plasminogen, said plasminogenase being bound to a solid support, insoluble in aqueous solution; the enzymatic composition and the blood plasma medium are contacted for a time and under conditions selected to allow plasmin conversion of plasminogen of the blood plasma medium and the formation of a plasmin-rich ex vivo plasma medium, then; a separation is carried out by filtration of the enzymatic composition and of the plasma-rich ex vivo plasma medium, said separation being a filter filtration separation having a cut-off threshold substantially equal to 0.22 μm and adapted to form the plasma medium ex autologous rich in plasmin free of enzymatic composition. Advantageously and according to the invention, to prepare the blood plasma medium, blood is taken from the single patient and then separated - in particular by centrifugation or by fractionation in a microfluidic process - of the blood plasma medium and blood cells (platelets, red blood cells and leukocytes) under conditions capable of preventing blood clotting. Such a blood sample is made, for example by using a Vacutainer® sampling tube (BD Diagnostics, Le Pont de Claix, France) comprising an anticoagulant of the EDTA or sodium citrate type. The separation is then carried out. A separation step is carried out from the blood plasma medium and the blood cells (platelets, red blood cells and leucocytes) by centrifugation at 4000 rpm for 15 minutes. The supernatant blood plasma medium is removed, for example by aspiration. Advantageously and according to the invention, at least one plasminogenase-in particular each plasminogenase-is selected from the group consisting of serine endopeptidases-notably antithrombotic activity endopeptidases-of class EC 3.4.21 of the classification of enzymes. Advantageously and according to the invention, at least one plasminogenase - in particular each plasminogenase - is selected from the group consisting of a urokinase, a streptokinase, a nattokinase and a tissue plasminogen activator (t-PA). Advantageously and according to the invention, at least one plasminogenase is urokinase U0633 (Sigma-Aldrich, Lyon, France). Advantageously and according to the invention, said at least one plasminogenase is bound by at least one stable bond to the solid support when the enzymatic composition is immersed in the blood plasma medium. Advantageously and according to the invention, at least one stable bond is chosen to withstand contact with an aqueous salt solution of high ionic strength, in particular with an aqueous solution of 0.5M NaCl. Advantageously and according to the invention the enzymatic composition is formed of a solid-immobilized plasminogenase by a stable bond selected from the group consisting of a covalent bond, an ionic bond, a covalent coordination bond (or dative bond), and a hydrophobic interaction of van der Waals type. Such binding is termed a stable binding when it does not substantially allow release of plasminogenase into the blood plasma medium in which the enzyme composition is immersed at 37 ° C during conversion to plasmin plasminogen of the plasma blood medium.

Advantageously and according to the invention, said at least one plasminogenase is bound to the solid support by at least one covalent bond. Advantageously and according to the invention, the solid support of the enzymatic composition is chosen so that it can be immersed in the blood plasma medium and has dimensions adapted to allow a separation of the enzymatic composition and an autologous ex vivo plasma medium rich in plasmin obtained by action of the enzymatic composition on the blood plasma medium. Advantageously and according to the invention, the solid support of the enzymatic composition has dimensions adapted to allow a separation of the enzymatic composition and plasmin-rich autologous plasma ex vivo medium on a filter having a cutoff threshold substantially equal to 0, 22 ium. Advantageously and according to the invention, the solid support of the enzymatic composition is in the divided state and formed of particles having three dimensions extending in three orthogonal directions to one another, at least two of the three dimensions being greater than 0.22. ! am. Advantageously and according to the invention, the solid support is formed of a porous material having an average pore diameter of between 5 nm and 50 nm, preferably between 10 nm and 20 nm. Advantageously and according to the invention, the solid support, in particular the solid support in the divided state, is formed from a material chosen from the group consisting of polyglucosides and methacrylate polymers. Advantageously, the solid support can be formed from SEPABEADS® EC-HFA / S and GE Healthcare Epoxy-activated Sepharose ™ supports. Advantageously, the solid support in the divided state is formed of spherical particles with a mean diameter of between 100 .mu.m and 300 .mu.m. Advantageously and according to the invention, the plasmin-rich ex vivo plasma medium is separated from the enzymatic composition by filtration by means of a filter able to retain the enzyme composition and to form the autologous ex vivo plasma medium rich in plasmin. plasmin and substantially free from heterologous plasminogenase. Advantageously, the separation of plasmin-rich ex vivo plasma medium and of the enzyme composition is a sterilizing separation and for obtaining autologous plasmin-rich and sterile ex vivo plasma medium.

Advantageously and according to the invention, the solid support is formed of particles having three dimensions extending in three directions orthogonal to each other, at least two of the three dimensions being greater than 0.22 .mu.m. Advantageously and according to the invention, the contact time is greater than 5 min, in particular between 5 min and 60 min. Advantageously and according to the invention, the enzymatic composition and the blood plasma medium are placed in contact and maintained under agitation at a temperature of 37.degree. Advantageously and according to the invention, at least one stage of the process is carried out under a laminar flow hood. Advantageously and according to the invention, all the steps are carried out under a laminar flow hood. Advantageously and according to the invention, a sterile enzymatic composition is used and the plasma plasma medium comprising plasminogen is contacted with the sterile enzymatic composition in a hermetically sealed container. An autologous plasmin-rich autologous plasmatic medium is obtained which is sterile, substantially non-immunogenic and which is especially suitable for use in autologous injection in the context of any preventive or curative treatment of a pathology in which a transformation of plasminogenase autologous plasmin is required, for example in the treatment of a cardiovascular pathology or in the context of a surgical intervention, in particular during an intra-vitreous intervention of a treatment - in particular during a surgical intervention - vitreo-macular disorders in ophthalmology.

The invention also extends to an autologous plasmin-rich autologous ex vivo plasma medium obtainable by a method according to the invention. The invention also extends to an autologous plasmin-rich autologous ex vivo plasma medium obtained directly by a method according to the invention. The invention also relates to an autologous plasmin-rich aut-vivo plasma medium, such an autologous plasma-rich autologous ex-vivo plasma medium for use as a medicament, such plasmin-rich autologous ex-vivo plasma medium for its use. as a medicament for treating vitreo-macular disorders and a method for preparing such an autologous plasmin-rich autologous plasma medium characterized in combination by all or some of the characteristics mentioned above or hereinafter.

Other objects, features and advantages of the invention will appear on reading the following description and illustrative examples of the invention given for information only and not limiting. Plasminogenase immobilized on a solid support An enzymatic composition formed of a plasminogenase-in particular a urokinase-immobilized on a solid support is prepared by a process in which a solid material in the divided state is selected from the group consisting of porous hydrophilic materials. , in particular in the group consisting of porous hydrophilic materials having reactive graft and epoxy surface groups. For example, the solid material is selected from the group consisting of GE Healthcare Epoxy-activated Sepharose ™ material and SEPABEADS® EC-EP / S material (Resindion, Binasca, Italy). By way of example, the solid material is SEPABEADS® EC-HFA / S (Resindion, Binasca, Italy) formed of particles of average diameter between 100 and 300 μm. The particles of SEPABEADS® EC-HFA / S are formed of polymethacrylate and surface-functionalized with amino epoxide groups of formula (III) below: ## STR1 ## at least 75 pmoles of aminoepoxide group per gram of support in the dry state. The average porosity of the solid material is between 10 nm and 20 nm.

In a method of making such an enzyme composition, an amount of dry solid material is hydrated in the divided state in an aqueous hydration composition. The aqueous hydration composition can be, for example, osmosis water, water "for injection" (so-called PPI) or sterile physiological saline. For example, 0.2 g of dehydrated solid material - for example 0.2 g of SEPABEADS® EC-HFA / S in the dry state - is placed in 40 ml of PPI water for 1 hour at room temperature, then then performs three successive rinses of the hydrated support with 0.7 mL of sterile physiological saline pH 6.8.

The rinsed solid material is then contacted with 0.7 mL of an aqueous solution - e.g., sterile, pyrogen-free saline or sterile BSS (Bioaqua®, Balanced Salt Solution) intraocular irrigation solution. plasminogenase - for example urokinase or streptokinase, or nattokinase, or tissue plasminogen activator (t-PA) - comprising of the order of 2 units (2 U / mL) of plasminogenase activity per mL of aqueous solution. The solid material is maintained in contact with the plasminogenase for several hours to form the enzyme composition. The reaction liquid supernatant is removed, and the enzymatic composition thus obtained is then rinsed 3 times with 0.7 ml of a 1M NaCl solution in PPI water, or preferably sterile physiological saline. Preparation of an autologous plasmin-rich autologous plasmatic medium Sterile blood from a patient to be treated is sterilized in a sampling tube (BD Vacutainer®, BD Diagnostics, Le Pont de Claix, France) comprising an anticoagulant of EDTA type or sodium citrate. A step of separation of the blood cells and the blood plasma medium is carried out by centrifugation at 4000 rpm for 15 min. 0.7 ml of this blood plasma medium is sterilely placed with stirring at 37 ° C. and in contact with an aliquot of the order of 0.2 g of enzymatic composition obtained by a process described above and during a time ranging from 5 min to 60 min to convert plasminogen from the plasma blood medium to plasmin and form the plasmin-rich autologous plasmatic ex vivo plasma medium. A cut-off point of 0.22 .mu.l, the enzymatic composition (retentate) and the autologous plasmin rich ex vivo plasma medium (filtrate) and substantially free of urokinase are filtered off on a Millex PVDF filter (Millipore). An intraocular injection is then carried out of a volume, for example between 50% and 11% ILLEL, of plasmin-rich autologous plasmatic ex vivo plasma medium so as to release the stresses existing between the vitreous body and the plasma. retina. Determination of the Plasmin Activity of a Plasmmin-rich Autologous Ex Vivo Plasma Medium The enzymatic activity at 37 ° C. of plasmin (so-called plasmin activity) of the plasmin-rich autologous plasmatic ex vivo plasma medium obtained above was determined. a spectrophotometric monitoring of the release of paranitroaniline from the S-2251 substrate (HD-Val-Leu-Lys-pNA-2HCf, Chromogenix, Werfen France, Pré Saint Gervais, FRANCE) under the action of plasmin autologous ex vivo plasma medium rich in plasmin. To do this, a measuring medium at 37 ° C. is prepared in a spectrophotometric measuring cup by mixing 0.4 ml of plasmin-rich autologous ex vivo plasma medium diluted 10 times in a saline buffer ("Balanced salt solution"). ) and 0.4mL of a solution comprising S-2251 (H-DVal-Leu-Lys-pNA-2HCf, Chromogenix, Werfen France, Pré Saint Gervais, FRANCE) at the concentration of 2 mM, so that the initial concentration of S-2251 in the measuring medium of the order of 1 mM. From the mixing, the evolution of the absorbance (optical density, OD 405) at 405 nm of the measuring medium at 37 ° C for 5 minutes was measured. The slope at the origin of the evolution curve of the absorbance at 405 nm is evaluated, that is to say the initial speed Vi of the reaction expressed in A-abs / min. The plasmin activity of the plasmin-rich autologous plasma ex vivo plasma medium (expressed in U / mL of plasmin-rich autologous plasma ex vivo plasma medium) is given by formula (II): ## EQU1 ## Plasmin activity = vi. (II) E.L.Vp wherein: - Vi is the initial rate of the reaction expressed in Aabs Min; - Vm is the volume (in mL) of the measuring medium; 5 - c is the molecular extinction coefficient (in M-1 cm-1) of para-nitroaniline at 405 nm; L is the length (in cm) of the optical path of the spectrophotometric measurement vessel, and; Vp is the volume (in mL) of plasmin-rich autologous plasma ex vivo plasma medium introduced into the spectrophotometric measurement vessel. Plasmin activity (U / mL plasmin-rich autologous plasma ex vivo plasma medium) at 37 ° C from the plasmin-rich autologous plasma ex vivo plasma medium obtained after 15 min or 60 min of contact between the enzyme composition and the measured blood plasma medium in the presence of S-substrate 2251 is between 0.116 and 0.148 U / mL for a contact time of 15 min and between 0.200 and 0.218 U / mL for a contact time of 60 min. Determination of the amount of plasminogenase - in particular urokinase - of a plasmin-rich autologous ex vivo plasma medium The amount of plasminogenase of a plasmin-rich autologous plasma ex vivo plasma medium is determined by assay according to the enzyme immunoassay technique. ELISA using a primary antibody specific for plasminogenase (including an antibody directed against human urokinase-for example, ABcam rabbit antibody ab24121-) and a quantifiable secondary antibody (eg, a goat antibody directed against Rabbit IgG conjugated to HRP ("Horse Raddish Peroxidase") in the presence of Amplex®UltraRed A calibration curve is made from known amounts of plasminogenase in blood plasma medium. in the plasmin-rich autologous plasma ex vivo plasma medium obtained by bringing the enzymatic composition into contact with a blood plasma medium pe The temperature of 37 ° C measured by the enzyme immunoassay method "ELISA" is less than 30 ag per milliliter (mL) of plasmin-rich autologous plasma ex vivo plasma medium. EXAMPLE 1 - Preparation of immobilized urokinase 0.2 g of SEPABEADS® EC-HFA / S are hydrated in PPI water, then three successive rinses of the hydrated material are carried out with 0.7 ml of sterile physiological saline. pH 6.8. The thus rinsed support is brought into contact with 0.7 ml of a solution of plasminogenase (human Urokinase, U0633, Sigma-Aldrich, Lyon, France) in physiological saline, said solution having an enzymatic activity of 2 U / ml. The contact between the carrier and the enzyme is maintained for several hours. The liquid reaction supernatant is removed, followed by three successive rinses. An enzymatic composition formed of urokinase immobilized on a solid support in the divided state is obtained. The enzymatic activity of the enzymatic composition is of the order of 0.172 to 0.196 U / ml. The enzymatic composition makes it possible to convert plasminogen from a plasmatic blood medium to plasmin without supplying the plasmin-rich autologous plasma ex vivo medium. a significant amount of immunogenic protease.

Assay of free urokinase in plasmin-rich autologous plasma ex vivo plasma medium The enzyme immunoassay "ELISA" of the amount of free urokinase present in the plasmin-rich autologous plasma ex vivo plasma medium shows a proportion of free heterologous urokinase less than 20 μg / mL and on average of the order of 10.0 μg / mL

Claims (5)

CLAIMS1 / - Plasmid-rich autologous plasma ex vivo plasma medium characterized in that it comprises a proportion of heterologous protein of less than 600 μg per ml (ml) of plasma medium, in that it exhibits an enzymatic activity, known as plasmin activity, as measured by a para-nitroaniline release test, greater than 0.1 iumole of para-nitroaniline released per minute per milliliter (mL) of plasma medium, said release test consisting of: o mix in the plasma medium maintained at a temperature of 37 ° C an S-2251 chromogenic substrate of formula (I) below: NO2 at an initial concentration of about 1 mM in the plasma medium, o evaluate further to mix an initial rate of release of para-nitroaniline per minute and per milliliter (mL) of plasma medium. 2 / - Plasma medium according to claim 1, characterized in that the plasmin activity is between 0.1 and 0.5 iumole of para-nitroaniline released per minute and per milliliter (mL) of plasma medium. 3 / - Plasma medium according to one of claims 1 or 2, characterized in that the plasmin activity is of the order of 0.2 iumole of paranitro-aniline released per minute and per milliliter (mL) of plasma medium. 4 / - Medium according to one of claims 1 to 3, characterized in that it comprises a proportion of heterologous protein less than 400 iLt.g per 25 milliliter (mL) of plasma medium. The medium according to one of claims 1 to 4, characterized in that the proportion of heterologous protein is less than 10 μg per milliliter (mL) of plasmatic medium. 6 / - Medium according to one of claims 1 to 5, characterized in that it is sterile. 7 / - Medium according to one of claims 1 to 6, characterized in that it is pyrogen-free. 8 / - Medium according to one of claims 1 to 7 for its use as a drug. 9 / - Medium according to one of claims 1 to 8 for its use as a medicament in a therapeutic treatment of a cardiovascular pathology or during a surgical procedure. 10 / - Medium according to one of claims 1 to 9 for its use as a drug in a therapeutic treatment vitreo15 macular traction (TVM) in ophthalmology. 11 / - Composition comprising an autologous plasmin-rich autologous plasma ex vivo medium according to one of claims 1 to 10 and at least one excipient in a physiologically acceptable amount. 12 / - A process for the preparation of an autologous plasmoly-rich autologous plasma ex vivo medium according to one of claims 1 to 10, in which: a plasmatic blood medium comprising plasminogen is prepared from blood of a single individual ; an enzymatic composition is chosen comprising at least one enzyme, called plasminogenase, for plasminogen conversion of plasminogen of said blood plasma medium, said plasminogenase being bound to an insoluble solid support in aqueous solution and formed of a porous material; the enzymatic composition and said blood plasma medium are brought into contact during a period of contact and under conditions chosen to allow a plasmin conversion of the plasminogen of said blood plasma medium and the formation of an ex vivo plasmatic medium rich in plasmin, and then ; - Filtration of said ex vivo plasmin-rich plasma medium is carried out on a filter having a cut-off threshold of less than or equal to 0.22 Lam so as to obtain a filtrate constituting an autologous plasmatic ex vivo autolytic rich in sterile plasmin and free of enzymatic composition. 5 13 / - Method according to claim 12, characterized in that the contact time is greater than 5 min. 14 / - Method according to one of claims 12 or 13, characterized in that the enzymatic composition and said blood plasma medium is brought into contact with stirring and at a temperature of 37 ° C.