WO2021134180A1 - Method for cryopreserving blood coagulation factor viii intermediate product - Google Patents
Method for cryopreserving blood coagulation factor viii intermediate product Download PDFInfo
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- C07K1/14—Extraction; Separation; Purification
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K1/00—General methods for the preparation of peptides, i.e. processes for the organic chemical preparation of peptides or proteins of any length
- C07K1/14—Extraction; Separation; Purification
- C07K1/34—Extraction; Separation; Purification by filtration, ultrafiltration or reverse osmosis
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K1/00—General methods for the preparation of peptides, i.e. processes for the organic chemical preparation of peptides or proteins of any length
- C07K1/14—Extraction; Separation; Purification
- C07K1/36—Extraction; Separation; Purification by a combination of two or more processes of different types
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K14/00—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof
- C07K14/435—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from animals; from humans
- C07K14/745—Blood coagulation or fibrinolysis factors
- C07K14/755—Factors VIII, e.g. factor VIII C (AHF), factor VIII Ag (VWF)
Definitions
- the invention belongs to the technical field of blood products, and specifically relates to a method for freezing an intermediate product of coagulation factor VIII, and a preparation process of a coagulation factor VIII preparation containing a method for freezing an intermediate product of coagulation factor VIII.
- Coagulation factor VIII preparation (hereinafter referred to as FVIII preparation) is a special blood preparation for preventing and treating bleeding in patients with hemophilia A. Infusion of coagulation factor VIII preparations in patients with hemophilia A can directly supplement the FVIII level in their plasma, thereby treating or preventing bleeding and improving symptoms. Hemophilia A is a sex-associated genetic disease, and the incidence of hemophilia A in the population is about 1/5000. The clinical manifestations of joints, muscles, internal organs and deep tissues are spontaneous or difficult to stop bleeding after minor trauma. It often starts in childhood. Repeated joint bleeding leads to gradual joint dysfunction and disability in children.
- Coagulation factor replacement therapy is still the most effective hemostatic measure for acute bleeding in hemophilia.
- the principle of treatment is early, adequate, and full course of treatment.
- the dosage and duration of alternative treatment should consider the location of bleeding and the severity of bleeding.
- Acute bleeding should be treated as needed: genetically recombined FVIII preparations or virus-inactivated blood-derived FVIII preparations can be selected. Cryoprecipitate or fresh frozen plasma can be used for those who are unconditional. However, there is a risk of transfusion-transmitted viral infections. Children with hemophilia should try their best Avoid use.
- FVIII recombinant products The problem encountered in clinical use of FVIII recombinant products is: high-dose repeated use of genetically recombined high-purity FVIII, inhibitors, namely FVIII inhibitory antibodies, have a higher risk of production (SFDA.EMEA warns of the risk of recombinant human coagulation factor VIII producing antibodies. Pharmacovigilance Express, 2006, 3(3): 187), and FVIII inhibitory antibodies are difficult to clear automatically, which in turn causes uncontrolled bleeding, increased hospitalization rates, and joint damage, which ultimately leads to increased morbidity and mortality.
- Acid precipitation combined with column chromatography purification is one of the classic methods for preparing blood-derived FVIII. Its principle is: FVIII has low temperature insolubility, and about 50% of FVIII in plasma is precipitated with cryoprecipitation. Plasma cryoprecipitation is used as The raw material dissolving solution absorbs vitamin K-dependent coagulation factors through aluminum gel, breaking the coagulation chain, so that the manufacturing process FVIII is not activated and loses activity. According to the characteristics of the amino acid residues of the fibrinogen (Fg) protein molecule, it is slightly acidic. The pH condition precipitates and removes Fg, while most of FVIII remains in the supernatant.
- Fg fibrinogen
- the present invention provides a freezing storage method of the intermediate product of coagulation factor VIII, which helps to flexibly realize the large-scale production of FVIII preparations.
- the present invention is realized by adopting the following scheme:
- the present invention discloses a method for cryopreservation of an intermediate product of coagulation factor VIII.
- the intermediate product of coagulation factor VIII is optionally selected from the FVIII before the preparation of the original solution or before the ultrafiltration and concentration or after the ultrafiltration and concentration in the preparation process of the coagulation factor VIII preparation. Concentrate or FVIII chromatography eluent and their combination or deformation.
- FVIII intermediate product in the present invention specifically refers to FVIII chromatographic purification eluent. Further, FVIII heparin affinity chromatography purification eluent or FVIII anion chromatography purification eluent can be selected.
- the "FVIII intermediate product" in the present invention refers to the FVIII concentrate before the preparation of the stock solution, it is preferably the FVIII concentrate before the sterilization and filtration before the preparation of the stock solution; preferably the FVIII concentrate before the nanomembrane filtration before the preparation of the stock solution; FVIII concentrate before ultrafiltration before preparation of stock solution.
- the modification of the "FVIII intermediate product" of the present invention may be the FVIII concentrate after the FVIII purification eluate is dialyzed and/or the concentration of the buffer is adjusted.
- the “FVIII intermediate product” referred to in the present invention can also be the FVIII ultrafiltration concentrate obtained by ultrafiltration of the above FVIII concentrate.
- the "FVIII intermediate product” referred to in the present invention can also be the sample solution before the original solution is prepared after the concentration of the FVIII ultrafiltration concentrate is adjusted by the buffer.
- the modification of the "FVIII intermediate product" of the present invention may be the FVIII concentrated liquid after the FVIII chromatographic purification eluate is virus-inactivated.
- the modification of the "FVIII intermediate product" of the present invention may be a chromatographic purification eluent added with an FVIII active protective agent.
- the freezing rate of the intermediate product of coagulation factor VIII is not less than 1°C/min, and is stored under the condition of -15°C to -196°C.
- the freezing rate is 1°C/min to 10°C/min.
- the freezing rate is 1°C/min to 3°C/min.
- the freezing rate is 1.5°C/min to 3°C/min.
- the freezing rate is 1.5°C/min.
- the intermediate product of coagulation factor VIII is stored at -20°C to -80°C.
- the intermediate product of coagulation factor VIII is stored at -20°C to -55°C.
- the intermediate product of coagulation factor VIII is stored in liquid nitrogen or dry ice.
- the specific activity of the intermediate preparation of coagulation factor VIII is: ⁇ 1IU/mg or ⁇ 10IU/mg or ⁇ 50IU/mg or ⁇ 70IU/mg or ⁇ 100IU/mg or ⁇ 200IU/mg or ⁇ 1000IU/mg.
- the pH of the solution of the intermediate product of the coagulation factor VIII preparation is 6.5-7.5.
- the present invention provides a preparation process of a coagulation factor VIII preparation containing the freezing method of the above-mentioned intermediate product of the coagulation factor VIII preparation.
- the present invention provides a method for reducing the precipitation of impurities in blood coagulation factor VIII products.
- the method includes freezing the intermediate product of coagulation factor VIII according to the above freezing method during the preparation of the coagulation factor VIII product.
- the present invention provides a method for improving the long-term stability of blood coagulation factor VIII products.
- the method includes freezing the intermediate product of coagulation factor VIII according to the above freezing method during the preparation process of the blood coagulation factor VIII product.
- the present invention provides a product prepared according to the above method.
- the product is an FVIII preparation or a complex of FVIII and vWF.
- the FVIII intermediate product solution is frozen at a freezing rate of not less than 1°C/min, and frozen for a long time under the condition of -15°C to -196°C.
- the test results confirm that the FVIII intermediate product is frozen and stored by the method disclosed in the present invention, which can ensure that the FVIII activity remains unchanged while the specific activity is increased. Further, the FVIII intermediate product freezing storage method of the present invention can improve the stability of the FVIII intermediate product to a certain extent.
- the frozen blood coagulation factor VIII preparation intermediate product solution can be further used as the raw material for the preparation of the FVIII follow-up production process and the finished product to prepare qualified FVIII finished products that meet the requirements of the 2015 Chinese Pharmacopoeia.
- the results of the investigation of the stability of the FVIII finished product prove that the above-mentioned FVIII finished product is kept stable in 48 months under the condition of 2 ⁇ 8°C.
- the method for freezing storage of the intermediate product solution of the blood coagulation factor VIII preparation disclosed in the present invention Increased the flexibility of the FVIII production process, which is conducive to the expansion of production capacity and large-scale production of FVIII preparations.
- Figure 1 is a flow chart of the preparation process of FVIII finished product, and the shaded area is the process step that can be used to prepare the "factor VIII intermediate product" in the present invention.
- the protein solution will form small ice crystals and a relatively large ice-liquid interface surface area during the freezing process, which will increase the exposure of protein molecules to the ice-liquid interface, thereby increasing protein denaturation
- the risk of inactivation; and in the thawing process, the recrystallization of the protein solution further exposes the protein molecules exposed to the ice-liquid interface to large surface tension or mechanical shearing force, thereby exacerbating the damage (Effect of freezing and thawing rates on denaturation). of proteins in aqueous solutions, Biotechnology and Bioengineering, VOL.82, NO.6, JUNE 20, 2003).
- the preparation method of FVIII disclosed by Hualan Biological in patent CN107880112A is as follows: using plasma cryoprecipitate as raw material, dissolving with tromethamine solution and then precipitating with polyethylene glycol, S/D virus inactivation, ToyopearlDEAE 650M gel Column chromatography, ultrafiltration, semi-finished products and finished products are prepared to obtain FVIII finished products.
- patent CN107337727A is as follows: plasma cryoprecipitate is used as raw material, PEG precipitation and virus inactivation are carried out after dissolution to obtain the original stock solution, anion exchange chromatography to obtain the refined stock solution, ultrafiltration and dialysis Obtain purified liquid, freeze-dry, dry heat inactivation and packaging to obtain FVIII finished product.
- the production processes of FVIII preparations disclosed by the above-mentioned blood product companies do not include the step of freezing the FVIII intermediate products.
- the inventor has discovered through long-term mass production practice that under the production scale, through special control of the freezing storage conditions of FVIII intermediate products, the unexpected technical effect of FVIII activity recovery rate and specific activity recovery rate can be achieved without loss.
- the inventor unexpectedly observed that after the FVIII intermediate product solution was stored at room temperature, the degree of precipitation of foreign matter was reduced after cryopreservation.
- the FVIII intermediate product solution was further tested for the FVIII:C activity after being stored at room temperature for 24 hours. The size found that the loss of FVIII activity was slowed down, and the room temperature stability was significantly improved.
- the freezing storage method of FVIII intermediate product disclosed in the present invention has a freezing rate of not less than 1°C/min, preferably 1°C/min ⁇ 10°C/min, more preferably 1°C/min ⁇ 3°C/min, more preferably 1.5 °C/min ⁇ 3°C/min.
- the freezing temperature should at least keep the FVIII intermediate product in a completely frozen state.
- the FVIII intermediate product disclosed in the present invention is stored under the conditions of -15°C to -196°C after being frozen under the above conditions, preferably -20°C to -80°C, more preferably -20°C to -55°C.
- the FVIII intermediate product is frozen and stored using liquid nitrogen or dry ice.
- the frozen storage time of FVIII intermediate product can be 0-24 months or longer.
- the specific activity of FVIII intermediate product (IU/mg) is ⁇ 1IU/mg, in other cases, the specific activity of FVIII intermediate product (IU/mg) is ⁇ 10IU/mg or ⁇ 50IU/mg or ⁇ 70IU /mg or ⁇ 100IU/mg or ⁇ 200IU/mg or ⁇ 1000IU/mg.
- the pH of the solution of the FVIII preparation intermediate is 6.5-7.5.
- the buffer of the FVIII intermediate product may be a buffer containing one or more amino acids, and the buffer may be sodium citrate buffer, phosphate buffer, Tris buffer, and the like. Because the isoelectric point of FVIII and von Willebrand factor complex is 5.5-6.0, when the pH is 6.5-7.5, FVIII and von Willebrand factor complex are negatively charged, which is suitable for further purification of FVIII by anion chromatography; at the same time; The partial neutral conditions with a pH of 6.5-7.5 help protect the activity of FVIII.
- the freezing storage method of FVIII intermediate product disclosed in the present invention has a freezing effect that is less affected by other pre-process steps. After the frozen FVIII intermediate product is thawed, it is filtered, semi-finished product preparation, sterilization, sub-packaging, freeze-drying, dry heat inactivation and other process steps to prepare qualified FVIII preparations that meet the requirements of the 2015 Chinese Pharmacopoeia.
- the "FVIII preparation" referred to in the present invention can also be referred to as "anti-hemophilia globulin preparation".
- the "preparation process of FVIII preparation" referred to in the present invention refers to the entire production process of FVIII preparation.
- the freezing storage method of the FVIII intermediate product to be highlighted in the embodiment of the present invention can be a link in the overall production process of the FVIII preparation.
- the FVIII production process starts with cryoprecipitation of plasma, and is prepared by multiple steps of gel adsorption, virus inactivation, and chromatography to prepare the FVIII intermediate product.
- the FVIII intermediate product is further formulated and packaged to be freeze-dried or other viruses.
- the inactivation process is the finished product of FVIII preparation.
- a basic FVIII preparation process route is: preparing plasma cryoprecipitate; dissolving plasma cryoprecipitate to obtain a dissolving solution; pre-precipitating the dissolving solution by adjusting pH, and filtering the precipitated part to obtain the supernatant ; Adsorb the supernatant through a balanced gel; the supernatant obtained after the gel is adsorbed is subjected to the process steps of virus inactivation, chromatography, ultrafiltration, sterilization, etc., and is batched, sub-packaged, frozen Dry, dry heat virus inactivation and other steps finally make VIII finished product.
- an optional basic FVIII preparation process route is: preparing plasma cryoprecipitate; dissolving the plasma cryoprecipitate to obtain a dissolving solution; adsorbing the dissolving solution through a balanced gel; The supernatant is subjected to the process steps of virus inactivation, chromatography, ultrafiltration, sterilization, and the steps of batching, sub-packaging, lyophilization, and dry heat virus inactivation are finally made into a finished product VIII.
- an optional basic FVIII preparation process route is: preparing plasma cryoprecipitate; Tris buffer solution dissolving cryoprecipitate, after polyethylene glycol precipitation, 0.3% tributyl phosphate and 1% Tween 80 treatment
- the lipid enveloped virus was inactivated for 6 hours, and then purified by DEAE 650M chromatography. Most of the miscellaneous protein, tributyl phosphate and Tween80 flow through the flow-through fluid directly, and the eluate is the intermediate product of human coagulation factor VIII (reference document "Human coagulation factor VIII original solution production process scale-up feasibility study" published).
- the "FVIII intermediate product" referred to in the present invention refers to the FVIII concentrate before the preparation of the stock solution or before or after ultrafiltration and concentration, or the FVIII chromatographic purification eluent.
- the FVIII intermediate product referred to in the present invention specifically refers to the FVIII chromatography purification eluent
- the FVIII heparin affinity chromatography purification eluent or the FVIII anion chromatography purification eluent can be selected.
- the eluent is purified by FVIII anion chromatography. Because the isoelectric point of the complex of FVIII and von Willebrand factor is 5.5-6.0, when the pH is 6.5-7.5, the complex is negatively charged; meanwhile, neutral conditions can help protect the activity of FVIII, so anion chromatography is preferred Purify FVIII.
- anion chromatography media include but are not limited to: DEAE Sepharose A-50, TOYOPEARL DEAE-650M, DEAE 650, Q-sepharose-FF, DEAE-SAPHROSEFF, DEAE-FractogelTSK650M, DEAE SepharoseTSK650M, DEAESepharoseFF, CaptoDEAE, QsepharoseFF, CaptoQ and QSepharoseHP etc.
- an anion exchange chromatography membrane can be used instead of an anion exchange chromatography matrix.
- Commercially available anion exchange membranes include, but are not limited to, SartobindTM Q from Sartorius, MustangTM Q from Pall Technologies, and InterceptTM Q from Millipore.
- the "FVIII intermediate product" referred to in the present invention specifically refers to the FVIII concentrate before the preparation of the stock solution, it is preferably the FVIII concentrate before the sterilization and filtration before the preparation of the stock solution, and preferably the FVIII concentrate before the nanomembrane filtration before the preparation of the stock solution.
- the FVIII intermediate product can be prepared by plasma cryoprecipitation, followed by Al(OH) 3 gel adsorption, centrifugation to remove insoluble matter, and the supernatant is purified by DEAE Sephadex A-50 gel adsorption. FVIII chromatographic purification eluent.
- the FVIII intermediate product can be prepared by plasma cryoprecipitation, followed by acid precipitation, DEAE Sephadex A-50 gel adsorption, centrifugation to remove incompatible materials, and the supernatant can be purified by TOYOPEARL DEAE-650M gel adsorption. The obtained FVIII chromatographic purification eluent.
- the FVIII intermediate product can be prepared by plasma cryoprecipitation and then adsorbed with Al(OH)3 gel, centrifuged to remove incompatible materials, the supernatant is inactivated by S/D virus, DEAE Sephadex A- 50 FVIII chromatographic purification eluent obtained by gel adsorption purification.
- the FVIII intermediate product can be prepared by plasma cryoprecipitation and then dissolved in a neutral pH buffer and then used in Al(OH) 3 gel (W/V) for adsorption, centrifugation to remove incompatible materials, The supernatant was treated by S/D, and then purified by anion gel (Fractogel TMAE 650). The eluate was heated at 63°C for 10 hours under the protection of sugar and amino acids, and then subjected to the second anion gel column chromatography to remove the stabilizer. FVIII chromatographic purification eluent.
- the FVIII intermediate product may be a sample solution prepared by cryoprecipitating plasma and then using Al(OH)3 gel adsorption, glycine precipitation, NaCl precipitation, and buffer concentration adjustment before preparing the original solution.
- the FVIII intermediate product can be prepared by plasma cryoprecipitation and then fractionated with PEG, heparin affinity gel (such as Heparin 6 FF) FVIII chromatography purification eluent obtained by adsorption purification.
- heparin affinity gel such as Heparin 6 FF
- the "FVIII intermediate product” referred to in the present invention can also be the FVIII concentrate obtained by dialysis and/or buffer adjustment of the FVIII chromatographic purification eluent.
- the “FVIII intermediate product” referred to in the present invention can also be the FVIII ultrafiltration concentrate obtained by ultrafiltration of the above FVIII concentrate.
- the "FVIII intermediate product” referred to in the present invention can also be the sample solution before the original solution is prepared after the concentration of the FVIII ultrafiltration concentrate is adjusted by the buffer.
- a kind of "modification of FVIII intermediate product" referred to in the present invention can be FVIII concentrated liquid after FVIII chromatographic purification eluate has been inactivated by virus. It can also be the chromatographic purification eluent added with FVIII active protective agent.
- the FVIII activity protection agent can be selected from carbohydrates and amino acids.
- the "FVIII intermediate product" in this embodiment can also be the FVIII concentrate or FVIII chromatography purification wash obtained in the preparation of FVIII preparations before the preparation of the original solution or before the ultrafiltration and concentration or after the ultrafiltration and concentration. Deliquation is not exhaustive here.
- the inventors first investigated the change of FVIII:C activity recovery rate before and after FVIII chromatographic purification eluent liquid nitrogen quick freezing and low temperature (-196°C to -15°C) storage.
- FVIII Chromatography Purification Eluent Using plasma cryoprecipitate as raw material, after dissolving, the FVIII layer is prepared by acid precipitation, DEAESephadex A-50 gel adsorption, S/D virus inactivation, TOYOPEARL DEAE-650M gel column chromatography Analyze the purified eluate. Detect the FVIII:C activity size of the eluate from FVIII chromatography purification.
- the prepared FVIII chromatographic purification eluate was divided into multiple parallel samples, frozen in liquid nitrogen, and stored at -196°C, -80°C, -60°C, -40°C, -20°C, -15°C12 Months later, the room temperature water bath melted, and the activity of FVIII:C was detected, and the activity recovery rate was calculated.
- FVIII:C activity recovery rate The test results of FVIII:C activity recovery rate are shown in Table 1: FVIII chromatographic purification eluent liquid nitrogen is frozen and stored at low temperature (-196°C to -15°C) for 12 months without loss of activity.
- the inventors thawed the above 6 frozen FVIII purified eluate samples in a room temperature water bath and ultrafiltered them. After placing them at room temperature for 2 hours, there was unexpectedly no visible foreign matter precipitation (the visible foreign matter inspection method refers to the 2015 edition of the Chinese Pharmacopoeia). "get on). Previously, the inventors repeatedly observed that if the FVIII chromatographic purification eluate sample without cryopreservation is ultra-filtered, if it is placed at room temperature for 2 hours, the precipitation of visible foreign matter can be clearly observed with the naked eye.
- the inventor kept the above-mentioned sample at room temperature for 24 hours to detect the activity of FVIII:C to investigate the change of the recovery rate of FVIII:C activity.
- test results are shown in Table 2: Compared with the samples that have not been frozen and stored in low temperature with liquid nitrogen, after the FVIII purified eluate is stored at low temperature, the activity loss of 24 hours at room temperature is significantly reduced and the stability is improved.
- the inventors investigated the effects of different freezing conditions on the activity recovery rate of the FVIII purified eluent/FVIII ultrafiltration concentrate, the stability at room temperature, and the influence on the quality of the final FVIII product.
- FVIII Chromatography purification eluent preparation Using plasma cryoprecipitate as raw material, after dissolving, it is prepared by acid precipitation, DEAE Sephadex A-50 gel adsorption, S/D virus inactivation, TOYOPEARL DEAE-650M gel column chromatography to obtain FVIII Chromatographic purification of the eluent.
- FVIII Chromatographic Purification Eluent Freezing Freeze at a rate of 1°C/min, and store it at -30°C to -45°C for 12 months.
- FVIII Finished product preparation Thaw the frozen FVIII chromatographic purification eluate in a water bath at room temperature, ultrafiltration, sterile filtration of the thawed FVIII chromatographic purification eluate. After sterilization and filtration, it is prepared according to the specifications of the finished product, and 100mM glycine is added as a stabilizer. After packaging, freeze-drying, sealing and out of the cabinet, the freeze-dried product is inactivated by dry heat (100°C ⁇ 30min or 80°C ⁇ 72h) and then packaged to obtain the FVIII finished product.
- Ultrafiltration dialysate 50mmol/L sodium chloride, 20mmol/L sodium citrate, 1mmol/L calcium chloride, 7g/L albumin, 35g/L arginine hydrochloride; pH 7.0.
- FVIII chromatography purification eluent preparation using plasma cryoprecipitate as raw material, dissolving with tromethamine solution and then precipitating with polyethylene glycol, S/D virus inactivation, ToyopearlDEAE 650M gel column chromatography to prepare FVIII chromatography Purify the eluent.
- FVIII Chromatographic Purification Eluent Freezing Freeze at a rate of 10°C/min, and store it at -60°C to -45°C for 12 months.
- FVIII Finished product preparation Thaw the frozen FVIII chromatographic purification eluate in a water bath at room temperature, ultrafiltration, sterile filtration of the thawed FVIII chromatographic purification eluate. After sterilization and filtration, it is prepared according to the specifications of the finished product, and 10mM glycine is added as a stabilizer. After packaging, freeze-drying, sealing and out of the cabinet, the freeze-dried product is inactivated by dry heat (100°C ⁇ 30min or 80°C ⁇ 72h) and then packaged to obtain the FVIII finished product.
- Ultrafiltration dialysate 50mmol/L sodium chloride, 6mmol/L sodium citrate, 1mmol/L calcium chloride, 6.7g/L albumin, 35g/L arginine hydrochloride; pH 6.5.
- FVIII Chromatography Purification Eluent Using plasma cryoprecipitate as raw material, dissolving it, it is prepared by PEG precipitation, S/D virus inactivation, and ToyopearlDEAE 650M gel column chromatography to obtain FVIII chromatographic purification eluent.
- FVIII Chromatographic Purification Eluent Freezing Freeze at a rate of 1.5°C/min, and freeze on dry ice for 12 months.
- FVIII Finished product preparation Thaw the frozen FVIII chromatographic purification eluate in a water bath at room temperature, ultrafiltration, sterile filtration of the thawed FVIII chromatographic purification eluate. After sterilization and filtration, it is prepared according to the specifications of the finished product, and 20mM glycine is added as a stabilizer. After packaging, freeze-drying, sealing and out of the cabinet, the freeze-dried product is inactivated by dry heat (100°C ⁇ 30min or 80°C ⁇ 72h) and then packaged to obtain the FVIII finished product.
- the ultrafiltration dialysate is: 50mmol/L sodium chloride, 20mmol/L sodium citrate, 1mmol/L calcium chloride, 7g/L albumin, 35g/L arginine hydrochloride; pH 7.2.
- FVIII Chromatographic Purification Eluent Preparation After dissolving the plasma cryoprecipitate as the raw material, it is prepared by DEAE Sephadex A-50 gel adsorption, S/D virus inactivation, TOYOPEARL DEAE-650M gel column chromatography to obtain FVIII chromatographic purification Eluent.
- FVIII Chromatography Purification Eluent Freezing Freeze at a rate of 3°C/min, and after freezing at -20°C to -30°C for 12 months, melt the FVIII chromatography high-purity eluate in a water bath at room temperature.
- FVIII Finished product preparation Thaw the frozen FVIII chromatographic purification eluate in a water bath at room temperature, ultrafiltration, sterile filtration of the thawed FVIII chromatographic purification eluate. After sterilization and filtration, it is prepared according to the specifications of the finished product, and 200mM glycine is added as a stabilizer. After packaging, freeze-drying, sealing and out of the cabinet, the freeze-dried product is inactivated by dry heat (100°C ⁇ 30min or 80°C ⁇ 72h) and then packaged to obtain the FVIII finished product.
- Ultrafiltration dialysate 50mmol/L sodium chloride, 20mmol/L sodium citrate, 1mmol/L calcium chloride, 7g/L albumin, 35g/L arginine hydrochloride; pH 7.0.
- cryopreserved samples used in Examples 6 to 9 were taken from the ultrafiltration concentrates of the purified eluates in Examples 1 to 4FVIII.
- the preparation method of the ultrafiltration concentrate is as follows: the FVIII purified eluate is dialyzed and concentrated through an ultrafiltration membrane with a cut-off molecular weight of 10-30KD to obtain an FVIII ultrafiltration concentrate.
- the freezing conditions are the same as those in Examples 2-5, and the steps of dialysis concentration, sterilization, semi-finished product preparation, packaging, freeze-drying, and dry heat inactivation after batching are the same as those in Examples 2-5.
- the FVIII intermediate product FVIII:C value after ultrafiltration and concentration is as follows:
- cryopreservation fluid FVIII C 111IU/mL.
- Example 7 Cryopreservation conditions: Cryopreservation fluid FVIII: C 98IU/mL.
- Example 8 Cryopreservation conditions: cryopreservation fluid FVIII: C 73IU/mL.
- cryopreservation fluid FVIII C 52IU/mL.
- Comparative Example 1 The difference between Comparative Example 1 and Example 2 is that the FVIII chromatographic purification eluent prepared by TOYOPEARL DEAE-650M gel column chromatography directly enters the FVIII finished product step, excluding the FVIII chromatography purification eluent freezing step.
- the intermediate product of coagulation factor VIII of Examples 2-9 was frozen at a rate of 1°C/min and above, and after being stored at -20°C to -60°C for 12 months, the activity recovery rate did not decrease, and the FVIII:C activity was able to maintain.
- the intermediate product of coagulation factor VIII of Examples 2-9 was frozen at a rate of 1°C/min and above, and after being stored at -20°C to -60°C for 12 months, the specific activity recovery rate did not decrease, and the ratio of FVIII:C Activity is improved.
- the above test results show that the FVIII intermediate product freezing storage method of the present invention has basically no effect on the FVIII:C activity recovery rate and the specific activity recovery rate, and can ensure that the FVIII activity is maintained while the specific activity is increased.
- the FVIII purified eluent/FVIII ultrafiltration concentrated solution sample after freezing treatment in Examples 2-9 was thawed in a water bath at room temperature and ultrafiltered, and its FVIII:C activity was tested after being placed at room temperature for 24 hours.
- the FVIII purified eluate/FVIII ultrafiltration concentrated solution of Examples 2-9 that were not cryopreserved was ultrafiltered, and the FVIII:C activity was tested after being placed at room temperature for 24 hours. Compare the two test results, see Table 4 for details.
- test results show that after the FVIII purified eluent/FVIII ultrafiltration concentrate is frozen and stored in the methods of Examples 2-9, the activity loss of 24 hours at room temperature is significantly reduced, and the storage stability at room temperature is improved.
- the FVIII finished products prepared in Examples 2 to 9 meet the requirements of the 2015 edition of the Chinese Pharmacopoeia for FVIII preparations, especially the detection results of visible foreign bodies comply with the regulations of the Chinese Pharmacopoeia.
- the FVIII finished product obtained in Examples 2-9 and the finished product obtained in Comparative Example 1 have no difference in quality inspection results.
- the FVIII intermediate product is frozen and stored by the method disclosed in the present invention, and the FVIII activity is maintained and the specific activity is increased.
- the FVIII intermediate product freezing storage method of the present invention can improve the room temperature storage stability of the FVIII intermediate product to a certain extent.
- the intermediate product of coagulation factor VIII preparation frozen by the freezing storage process disclosed in the present invention can be used to prepare qualified FVIII finished products.
- the stability investigation data proves that the FVIII finished product prepared from the frozen FVIII intermediate product is kept stable under the condition of 2 ⁇ 8°C and has stable performance within 48 months.
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Abstract
The present invention relates to the field of blood products, and disclosed is a method for cryopreserving a blood coagulation factor VIII (FVIII) intermediate product. The blood coagulation FVIII intermediate product is taken from an FVIII concentrated solution or an FVIII chromatographic eluent before stock solution preparation or before ultrafiltration concentration or after ultrafiltration concentration in a preparation process of a blood coagulation FVIII preparation, and a combination or transformation thereof. Further disclosed in the present invention are use of the cryopreservation method in preparation of the blood coagulation FVIII preparation, reduction of impurity precipitation of a blood coagulation FVIII product, and improvement of long-term stability of the blood coagulation FVIII product, etc. The FVIII intermediate product is cryopreserved by means of the method of the present invention, so that it is ensured that the activity of FVIII is maintained or even improved, and the FVIII intermediate product can be prepared to a final product satisfying Chinese pharmacopoeia requirements by means of subsequent processes. The method for cryopreserving the blood coagulation FVIII intermediate product disclosed in the present invention improves the flexibility of an FVIII production process, and is favorable for productivity expansion and large-scale production of FVIII preparations.
Description
本发明属于血液制品技术领域,具体涉及凝血因子Ⅷ中间品的冻存方法,以及包含凝血因子Ⅷ中间品冻存方法的凝血因子Ⅷ制剂的制备工艺。The invention belongs to the technical field of blood products, and specifically relates to a method for freezing an intermediate product of coagulation factor VIII, and a preparation process of a coagulation factor VIII preparation containing a method for freezing an intermediate product of coagulation factor VIII.
凝血因子Ⅷ制剂(以下简称FⅧ制剂)是防治甲型血友病人出血的特效血液制剂。甲型血友病患者输注凝血因子Ⅷ制剂可以直接补充其血浆中的FⅧ水平,从而治疗或预防出血并改善症状。甲型血友病是一种伴性遗传疾病,人群中甲型血友病的发病率约1/5000。临床表现以关节、肌肉、内脏和深部组织自发性或轻微外伤后出血难止,常在儿童期起病,反复关节出血导致患儿逐渐出现关节活动障碍而残疾。甲型血友病患者由于凝血机制缺陷,受伤后流血不止,需要输用足量的FⅧ制剂。虽然FⅧ制剂止血效果显著,但是在体内不能持久,再次出血需要再次输注。如果采用为患者定期输注浓缩FⅧ的预防疗法,即使是重度血友病患者,也可以过上和正常人几乎一样的生活。因此,甲型血友病病人的总数虽然不多,但对FⅧ制剂的需求量却很大。Coagulation factor Ⅷ preparation (hereinafter referred to as FⅧ preparation) is a special blood preparation for preventing and treating bleeding in patients with hemophilia A. Infusion of coagulation factor Ⅷ preparations in patients with hemophilia A can directly supplement the FⅧ level in their plasma, thereby treating or preventing bleeding and improving symptoms. Hemophilia A is a sex-associated genetic disease, and the incidence of hemophilia A in the population is about 1/5000. The clinical manifestations of joints, muscles, internal organs and deep tissues are spontaneous or difficult to stop bleeding after minor trauma. It often starts in childhood. Repeated joint bleeding leads to gradual joint dysfunction and disability in children. Due to defects in the coagulation mechanism, patients with hemophilia A need to infuse enough FⅧ preparations for bleeding after injury. Although the FⅧ preparation has a significant hemostatic effect, it cannot last in the body, and re-infusion is required for re-bleeding. If the preventive therapy of concentrated FⅧ is used for patients with regular infusion, even patients with severe hemophilia can live almost the same life as normal people. Therefore, although the total number of patients with hemophilia A is small, the demand for FⅧ preparations is very large.
凝血因子替代治疗仍然是目前血友病最有效的急性出血的止血措施,治疗原则是早期、足量、足疗程。替代治疗剂量和疗程应考虑出血部位和出血严重程度。急性出血时要按需治疗:可选基因重组FⅧ制剂或者病毒灭活的血源性FⅧ制剂,无条件者可选用冷沉淀或新鲜冰冻血浆,但有输血传播病毒感染风险,儿童血友病应尽量避免使用。Coagulation factor replacement therapy is still the most effective hemostatic measure for acute bleeding in hemophilia. The principle of treatment is early, adequate, and full course of treatment. The dosage and duration of alternative treatment should consider the location of bleeding and the severity of bleeding. Acute bleeding should be treated as needed: genetically recombined FⅧ preparations or virus-inactivated blood-derived FⅧ preparations can be selected. Cryoprecipitate or fresh frozen plasma can be used for those who are unconditional. However, there is a risk of transfusion-transmitted viral infections. Children with hemophilia should try their best Avoid use.
临床使用FⅧ重组产品遇到的问题是:大剂量反复使用基因重组的高纯 FⅧ,抑制物即FⅧ抑制性抗体产生风险更高(SFDA.EMEA警告重组人凝血因子Ⅷ产生抗体的风险.药物警戒快讯,2006,3(3):187),而FⅧ抑制性抗体很难自动清除,进而造成非控制性出血、住院率提高以及关节损害等,最终导致发病率和死亡率升高。而相对基因重组的高纯FⅧ,反复使用血源性FⅧ后产生FⅧ抑制性抗体的程度要低,尤其对于儿童甲型血友病患者。因此对于需要长期输注FⅧ的甲型血友病患者来说,血源性FⅧ抑制性抗体安全性更高,同时价格更低,医药负担更轻。因此,存在进一步开发优化血浆来源的人FⅧ产品工艺路线的需求,以满足甲型血友病患者对预防/治疗用药的可及性和临床用药的选择性。The problem encountered in clinical use of FⅧ recombinant products is: high-dose repeated use of genetically recombined high-purity FⅧ, inhibitors, namely FⅧ inhibitory antibodies, have a higher risk of production (SFDA.EMEA warns of the risk of recombinant human coagulation factor Ⅷ producing antibodies. Pharmacovigilance Express, 2006, 3(3): 187), and FⅧ inhibitory antibodies are difficult to clear automatically, which in turn causes uncontrolled bleeding, increased hospitalization rates, and joint damage, which ultimately leads to increased morbidity and mortality. Compared with the high-purity FⅧ of genetic recombination, the degree of FⅧ inhibitory antibodies produced after repeated use of blood-derived FⅧ is lower, especially for children with hemophilia A. Therefore, for patients with hemophilia A who need long-term infusion of FⅧ, blood-derived FⅧ inhibitory antibodies are safer, cheaper, and have a lighter medical burden. Therefore, there is a need to further develop and optimize the process route of human FⅧ products derived from plasma to meet the availability of preventive/therapeutic medications and the selectivity of clinical medications for patients with hemophilia A.
酸沉淀法结合柱层析纯化法是制备血源性FⅧ的经典方法之一,其原理是:FⅧ具有低温不溶解性,血浆中约50%的FⅧ随冷沉淀而沉淀,以血浆冷沉淀为原料溶解液经铝凝胶吸附维生素K依赖性凝血因子,使凝血链打断,以使制造过程FⅧ不被激活而失去活性,根据纤维蛋白原(Fg)蛋白分子氨基酸残基特性,在偏酸性pH条件沉淀去除Fg,同时大部分FⅧ保留在上清液中。由于受前端纯化工艺步骤处理能力的限制,FⅧ制剂大规模生产存在困难。各血液制品企业面临的现实情况是,相比于静注人免疫球蛋白、人血白蛋白等产品,血液制品企业每批次血浆投浆量对应能获得的FⅧ成品产量有限,相比分装冻干等工艺步骤的处理能力,前端纯化工艺步骤比如原液除菌过滤前的工艺步骤的处理能力小很多。因此,FⅧ制剂的生产规模一定程度上受制于原料血浆冷沉淀制备规模和原液除菌过滤前中间品的制备规模,但是血液制品企业又无法简单地通过加大投浆量来解决上述问题。原因在于,FⅧ的生产线是基于人免疫球蛋白、人血白蛋白等重要血液制品的生产线开 发的,因此血液制品企业每批次投浆量对应能获得的FⅧ成品产量有限;对于血液制品企业来说,生产线建成后,每批次的投浆量也即固定,未经药品监督管理部门的批准,不能随意变更生产线。通常为了扩大产能,施以平行的方式以在相同的时间内以期获得更大产能,但是这对资金、组织和基础设施都提出了更高更大的要求。综上所述,不管血液制品企业生产规模是大是小,FⅧ制剂生产工艺前后端生产规模不匹配的矛盾总是存在。Acid precipitation combined with column chromatography purification is one of the classic methods for preparing blood-derived FⅧ. Its principle is: FⅧ has low temperature insolubility, and about 50% of FⅧ in plasma is precipitated with cryoprecipitation. Plasma cryoprecipitation is used as The raw material dissolving solution absorbs vitamin K-dependent coagulation factors through aluminum gel, breaking the coagulation chain, so that the manufacturing process FⅧ is not activated and loses activity. According to the characteristics of the amino acid residues of the fibrinogen (Fg) protein molecule, it is slightly acidic. The pH condition precipitates and removes Fg, while most of FⅧ remains in the supernatant. Due to the limitation of the processing capacity of the front-end purification process steps, the large-scale production of FⅧ preparations is difficult. The reality faced by blood product companies is that compared with intravenous human immunoglobulin, human albumin and other products, blood product companies have a limited amount of FⅧ finished products that can be obtained for each batch of plasma dosage. Compared with aliquoted freeze-dried The processing capacity of other process steps, the processing capacity of the front-end purification process steps such as the process steps before the sterilization and filtration of the stock solution is much smaller. Therefore, the production scale of FⅧ preparations is limited to a certain extent by the preparation scale of cryoprecipitation of raw plasma and the preparation scale of intermediate products before sterilization and filtration of the stock solution. However, blood product companies cannot simply increase the slurry dosage to solve the above problems. The reason is that the production line of FⅧ is developed based on the production lines of important blood products such as human immunoglobulin and human albumin. Therefore, the amount of FⅧ products that can be obtained for each batch of blood product companies is limited; for blood product companies Said that after the production line is completed, the volume of slurry for each batch is fixed, and the production line cannot be changed at will without the approval of the drug regulatory authority. Usually in order to expand production capacity, a parallel approach is used to obtain greater production capacity within the same time, but this puts higher and greater requirements on capital, organization and infrastructure. To sum up, regardless of the production scale of blood product companies, the contradiction between the front-end and back-end production scale of the FⅧ preparation production process always exists.
因此,一方面为了满足甲型血友病患者对预防/治疗用药的可及性和临床用药的选择性的需求,另一方面,为了解决血液制品企业扩大FⅧ产品产能难的问题,亟需开发利于大规模生产的、可灵活应用的FⅧ产品生产工艺。Therefore, on the one hand, in order to meet the needs of patients with hemophilia A for the availability of preventive/therapeutic drugs and the selectivity of clinical drugs, on the other hand, in order to solve the problem of blood product companies' difficulty in expanding the production capacity of FⅧ products, development FⅧ product production process that is conducive to large-scale production and can be flexibly applied.
发明内容Summary of the invention
为解决以上技术问题,本发明提供了一种凝血因子Ⅷ中间品的冻存方法,帮助灵活实现大规模生产FⅧ制剂。In order to solve the above technical problems, the present invention provides a freezing storage method of the intermediate product of coagulation factor VIII, which helps to flexibly realize the large-scale production of FVIII preparations.
本发明是采用如下方案实现的:The present invention is realized by adopting the following scheme:
一方面,本发明公开一种凝血因子Ⅷ中间品的冻存方法,所述凝血因子Ⅷ中间品任选自凝血因子Ⅷ制剂制备过程中原液制备前或超滤浓缩前或超滤浓缩后的FⅧ浓缩液或FⅧ层析洗脱液以及它们的组合或变形。On the one hand, the present invention discloses a method for cryopreservation of an intermediate product of coagulation factor Ⅷ. The intermediate product of coagulation factor VIII is optionally selected from the FⅧ before the preparation of the original solution or before the ultrafiltration and concentration or after the ultrafiltration and concentration in the preparation process of the coagulation factor VIII preparation. Concentrate or FⅧ chromatography eluent and their combination or deformation.
当本发明所述的“FⅧ中间品”特指FⅧ层析纯化洗脱液时。进一步地,可选FⅧ肝素亲和层析纯化洗脱液或FⅧ阴离子层析纯化洗脱液。When the "FⅧ intermediate product" in the present invention specifically refers to FⅧ chromatographic purification eluent. Further, FⅧ heparin affinity chromatography purification eluent or FⅧ anion chromatography purification eluent can be selected.
当本发明所述的“FⅧ中间品”特指原液制备前FⅧ浓缩液时,优选原液制备前的除菌过滤前的FⅧ浓缩液;优选原液制备前的纳米膜过滤前的FⅧ浓缩液;优选原液制备前的超滤前的FⅧ浓缩液。When the "FⅧ intermediate product" in the present invention refers to the FⅧ concentrate before the preparation of the stock solution, it is preferably the FⅧ concentrate before the sterilization and filtration before the preparation of the stock solution; preferably the FⅧ concentrate before the nanomembrane filtration before the preparation of the stock solution; FⅧ concentrate before ultrafiltration before preparation of stock solution.
在一种实施方式中,本发明所述的“FⅧ中间品”的变形,可以是FⅧ层 析纯化洗脱液经过透析和/或缓冲液调节浓度后的FⅧ浓缩液。进一步地,本发明所称“FⅧ中间品”还可以上述FⅧ浓缩液经超滤得到的FⅧ超滤浓缩液。进一步地,本发明所称“FⅧ中间品”还可以是上述FⅧ超滤浓缩液经缓冲液调节浓度后原液配制前的样品溶液。In one embodiment, the modification of the "FVIII intermediate product" of the present invention may be the FVIII concentrate after the FVIII purification eluate is dialyzed and/or the concentration of the buffer is adjusted. Furthermore, the “FⅧ intermediate product” referred to in the present invention can also be the FⅧ ultrafiltration concentrate obtained by ultrafiltration of the above FⅧ concentrate. Further, the "FⅧ intermediate product" referred to in the present invention can also be the sample solution before the original solution is prepared after the concentration of the FⅧ ultrafiltration concentrate is adjusted by the buffer.
在一种实施方式中,本发明所述的“FⅧ中间品”的变形,可以是FⅧ层析纯化洗脱液经过病毒灭活后的FⅧ浓缩液。In one embodiment, the modification of the "FⅧ intermediate product" of the present invention may be the FⅧ concentrated liquid after the FⅧ chromatographic purification eluate is virus-inactivated.
在一种实施方式中,本发明所述的“FⅧ中间品”的变形,可以是添加了FⅧ活性保护剂的层析纯化洗脱液。In one embodiment, the modification of the "FⅧ intermediate product" of the present invention may be a chromatographic purification eluent added with an FⅧ active protective agent.
进一步的,所述凝血因子Ⅷ中间品的冷冻速率不低于1℃/min,并在-15℃~-196℃的条件下储存。Further, the freezing rate of the intermediate product of coagulation factor VIII is not less than 1°C/min, and is stored under the condition of -15°C to -196°C.
进一步的,所述冷冻速率是1℃/min~10℃/min。Further, the freezing rate is 1°C/min to 10°C/min.
更进一步的,所述冷冻速率是1℃/min~3℃/min。Furthermore, the freezing rate is 1°C/min to 3°C/min.
更进一步的,所述冷冻速率是1.5℃/min~3℃/min。Furthermore, the freezing rate is 1.5°C/min to 3°C/min.
在一种具体地实施方式中,所述冷冻速率是1.5℃/min。In a specific embodiment, the freezing rate is 1.5°C/min.
进一步的,所述凝血因子Ⅷ中间品在-20℃~-80℃的条件下储存。Further, the intermediate product of coagulation factor VIII is stored at -20°C to -80°C.
更进一步的,所述凝血因子Ⅷ中间品在-20℃~-55℃的条件下储存。Furthermore, the intermediate product of coagulation factor VIII is stored at -20°C to -55°C.
进一步的,凝血因子Ⅷ中间品使用液氮或干冰储存。Furthermore, the intermediate product of coagulation factor VIII is stored in liquid nitrogen or dry ice.
上述凝血因子Ⅷ制剂中间品的比活性为:≥1IU/mg或≥10IU/mg或≥50IU/mg或≥70IU/mg或≥100IU/mg或≥200IU/mg或≥1000IU/mg。The specific activity of the intermediate preparation of coagulation factor VIII is: ≥1IU/mg or ≥10IU/mg or ≥50IU/mg or ≥70IU/mg or ≥100IU/mg or ≥200IU/mg or ≥1000IU/mg.
所述凝血因子Ⅷ制剂中间品的溶液的pH为6.5-7.5。The pH of the solution of the intermediate product of the coagulation factor VIII preparation is 6.5-7.5.
另一方面,本发明提供一种包含上述凝血因子Ⅷ制剂中间品的冻存方法的凝血因子Ⅷ制剂的制备工艺。On the other hand, the present invention provides a preparation process of a coagulation factor VIII preparation containing the freezing method of the above-mentioned intermediate product of the coagulation factor VIII preparation.
再一方面,本发明提供一种减少凝血因子Ⅷ制品杂质析出的方法,所述方法包括在凝血因子Ⅷ制品制备过程中,按上所述冻存方法对凝血因子Ⅷ中间品进行冻存。In another aspect, the present invention provides a method for reducing the precipitation of impurities in blood coagulation factor VIII products. The method includes freezing the intermediate product of coagulation factor VIII according to the above freezing method during the preparation of the coagulation factor VIII product.
再一方面,本发明提供一种提高凝血因子Ⅷ制品长期稳定性的方法,所述方法包括在凝血因子Ⅷ制品制备过程中,按上所述冻存方法对凝血因子Ⅷ中间品进行冻存。In another aspect, the present invention provides a method for improving the long-term stability of blood coagulation factor VIII products. The method includes freezing the intermediate product of coagulation factor VIII according to the above freezing method during the preparation process of the blood coagulation factor VIII product.
再一方面,本发明提供根据上述方法制备得到的产品。In another aspect, the present invention provides a product prepared according to the above method.
进一步的,所述产品是FⅧ制剂或FⅧ和vWF的复合物。Further, the product is an FⅧ preparation or a complex of FⅧ and vWF.
本发明取得的有益技术效果:The beneficial technical effects achieved by the present invention:
在本发明中,将FⅧ中间品溶液在不低于1℃/min的冻存速率冻结,并在-15℃~-196℃的条件下长期冻存。试验结果证实,FⅧ中间品经本发明公开的方法冻存处理,可以确保FⅧ活性维持不变而比活性提升。进一步地,本发明的FⅧ中间品冻存方法能一定程度上提高FⅧ中间品稳定性。In the present invention, the FⅧ intermediate product solution is frozen at a freezing rate of not less than 1°C/min, and frozen for a long time under the condition of -15°C to -196°C. The test results confirm that the FⅧ intermediate product is frozen and stored by the method disclosed in the present invention, which can ensure that the FⅧ activity remains unchanged while the specific activity is increased. Further, the FⅧ intermediate product freezing storage method of the present invention can improve the stability of the FⅧ intermediate product to a certain extent.
冻存后的凝血因子Ⅷ制剂中间品溶液可进一步作为FⅧ后续生产工艺原液及成品制备用原料,用于制备符合2015版《中国药典》要求的合格FⅧ成品。对FⅧ成品的稳定性考察结果证明:上述FⅧ成品在2~8℃条件下冷藏,48个月内性能稳定。The frozen blood coagulation factor Ⅷ preparation intermediate product solution can be further used as the raw material for the preparation of the FⅧ follow-up production process and the finished product to prepare qualified FⅧ finished products that meet the requirements of the 2015 Chinese Pharmacopoeia. The results of the investigation of the stability of the FⅧ finished product prove that the above-mentioned FⅧ finished product is kept stable in 48 months under the condition of 2~8℃.
综上所述,在保证FⅧ活性回收率和比活回收率不降低的前提下,在不牺牲FⅧ制剂长期保存稳定性的前提下,本发明公开的凝血因子Ⅷ制剂中间品溶液的冻存方法增加了FⅧ生产工艺的灵活性,利于扩大产能,大规模生产FⅧ制剂。In summary, under the premise of ensuring that the FⅧ activity recovery rate and specific activity recovery rate are not reduced, and without sacrificing the long-term storage stability of the FⅧ preparation, the method for freezing storage of the intermediate product solution of the blood coagulation factor Ⅷ preparation disclosed in the present invention Increased the flexibility of the FⅧ production process, which is conducive to the expansion of production capacity and large-scale production of FⅧ preparations.
图1为一种FⅧ成品制备工艺流程图,阴影区域为可制得本发明所称“凝血因子Ⅷ中间品”的工艺步骤。Figure 1 is a flow chart of the preparation process of FⅧ finished product, and the shaded area is the process step that can be used to prepare the "factor Ⅷ intermediate product" in the present invention.
为了使本发明的目的、技术方案及优点更加清楚明白,以下结合具体实施例,对本发明进行进一步详细说明。应当理解,此处所描述的具体实施例仅仅用以解释本发明,并不用于限定本发明。In order to make the objectives, technical solutions, and advantages of the present invention clearer, the following further describes the present invention in detail with reference to specific embodiments. It should be understood that the specific embodiments described here are only used to explain the present invention, but not used to limit the present invention.
如本领域技术人员普遍知晓的行业公知,血源FⅧ产品当前产业化生产采用的工艺或者进一步开发优化的工艺都是连续无间断进行的。因为血清中FⅧ含量甚微(0.05-0.1mg/L),而且体外极不稳定,FⅧ制剂或纯化中间品溶液在室温条件下活性损失非常严重,所以在工业化生产规模,FⅧ制剂的生产从原料血浆冷沉淀制备开始到病毒灭活结束,所有工序必须连续无间断进行,即便在实验室级别科学家们经常为了试验方便随时冻存各纯化阶段的蛋白质样品。而且储存不同批次的纯化中间产物并将不同批次的相当量的纯化中间产物合并进行后续FⅧ制剂生产的工艺设计是不被药品监管部门认可的,因为中间品冻存再融化会引起FⅧ活性降低(Stability of von Willebrand factor and factor VIII in canine cryoprecipitate under various conditions of storage.Stokol T et al.Res Vet Sci.(1995)),进而直接影响成品效价和质量。导致这一不利后果的可能的原因是:蛋白质溶液在冷冻过程中会形成小的冰晶和相对大的冰-液界面表面积,这会增加蛋白质分子暴露在冰-液界面的程度,从而增加蛋白质变性失活的风险;而在解冻过程中,蛋白溶液的再结晶进一步使暴露在冰-液界面的蛋白质分子面临大的表面张力或机械剪切力,从而加剧损害(Effect of freezing and thawing rates on denaturation of proteins in aqueous solutions,Biotechnology and Bioengineering,VOL.82,NO.6,JUNE 20,2003)。As is generally known in the industry by those skilled in the art, the current industrialized production of blood source FⅧ products or the further development and optimization of the process are continuous and uninterrupted. Because the content of FⅧ in serum is very small (0.05-0.1mg/L) and it is extremely unstable in vitro, the activity loss of FⅧ preparation or purified intermediate product solution is very serious at room temperature. Therefore, in the industrial production scale, the production of FⅧ preparation is from raw materials. From the beginning of plasma cryoprecipitate preparation to the end of virus inactivation, all processes must be carried out continuously and uninterrupted, even at the laboratory level, scientists often freeze protein samples at each purification stage at any time for the convenience of experiments. Moreover, the process design of storing different batches of purified intermediate products and combining a considerable amount of different batches of purified intermediate products for subsequent production of FⅧ preparations is not recognized by the drug regulatory authority, because the freezing and re-thawing of intermediate products will cause FⅧ activity Reduce (Stability of von Willebrand factor and factor VIII in canine cryoprecipitate under various conditions of storage. Stokol T et al. Res Vet Sci. (1995)), which directly affects the potency and quality of the finished product. The possible reason for this adverse consequence is: the protein solution will form small ice crystals and a relatively large ice-liquid interface surface area during the freezing process, which will increase the exposure of protein molecules to the ice-liquid interface, thereby increasing protein denaturation The risk of inactivation; and in the thawing process, the recrystallization of the protein solution further exposes the protein molecules exposed to the ice-liquid interface to large surface tension or mechanical shearing force, thereby exacerbating the damage (Effect of freezing and thawing rates on denaturation). of proteins in aqueous solutions, Biotechnology and Bioengineering, VOL.82, NO.6, JUNE 20, 2003).
进一步地,专利文献、其他科技文献以及本领域工具书(比如刘隽湘主编的《输血疗法与血液制剂》)中公开或记载的FⅧ产品的生产工艺中,均未见对FⅧ中间品进行冻存处理这一步骤的描述或介绍。比如国内血液制品公司泰邦在专利CN108218981A中公开了一种FⅧ的制备方法,具体方法如下:以血浆冷沉淀为原料,经溶解后经酸沉淀、DEAE Sephadex A-50凝胶吸附、S/D病毒灭活、TOYOPEARL DEAE-650M凝胶柱层析、超滤、半成品及成品制备得到FⅧ成品。再比如华兰生物在专利CN107880112A中公开的FⅧ的制备方法如下:以血浆冷沉淀为原料,用氨丁三醇溶液溶解后经聚乙二醇沉淀、S/D病毒灭活、ToyopearlDEAE 650M凝胶柱层析、超滤、半成品及成品制备得到FⅧ成品。武汉血液制品有限公司在专利CN107337727A中公开的FⅧ的制备方法如下:以血浆冷沉淀为原料,溶解后经PEG沉淀及病毒灭活得初提原液、阴离子交换层析得精提原液、超滤透析得纯化液、冻干、干热灭活及包装得到FⅧ成品。上述血液制品公司公开的FⅧ制剂的生产工艺均不包括对FⅧ中间品进行冻存处理的步骤。Furthermore, in the production process of FⅧ products disclosed or recorded in patent literature, other scientific literature and reference books in the field (such as "Blood Transfusion Therapy and Blood Preparations" edited by Liu Junxiang), there is no freezing of FⅧ intermediate products. Description or introduction of this step. For example, the domestic blood products company Taibang discloses a preparation method of FⅧ in patent CN108218981A. The specific method is as follows: plasma cryoprecipitate is used as raw material, dissolved and then subjected to acid precipitation, DEAE Sephadex A-50 gel adsorption, S/D virus Inactivation, TOYOPEARL DEAE-650M gel column chromatography, ultrafiltration, semi-finished products and finished products are prepared to obtain FⅧ finished products. For another example, the preparation method of FⅧ disclosed by Hualan Biological in patent CN107880112A is as follows: using plasma cryoprecipitate as raw material, dissolving with tromethamine solution and then precipitating with polyethylene glycol, S/D virus inactivation, ToyopearlDEAE 650M gel Column chromatography, ultrafiltration, semi-finished products and finished products are prepared to obtain FⅧ finished products. The preparation method of FⅧ disclosed by Wuhan Blood Products Co., Ltd. in patent CN107337727A is as follows: plasma cryoprecipitate is used as raw material, PEG precipitation and virus inactivation are carried out after dissolution to obtain the original stock solution, anion exchange chromatography to obtain the refined stock solution, ultrafiltration and dialysis Obtain purified liquid, freeze-dry, dry heat inactivation and packaging to obtain FⅧ finished product. The production processes of FⅧ preparations disclosed by the above-mentioned blood product companies do not include the step of freezing the FⅧ intermediate products.
发明人经过长期大量生产实践发现,生产规模下,通过对FⅧ中间品冻存条件的特殊控制,可以达到FⅧ活性回收率、比活回收率基本无损失的预料不到的技术效果。同时,发明人意外观察到,上述FⅧ中间品溶液经低温冻存处理后,室温存放可见异物析出程度降低,进一步检测经冻存处理的FⅧ中间品溶液在室温存放24小时后的FⅧ:C活性大小发现,FⅧ活性损失减缓,室温稳定性显著提高。The inventor has discovered through long-term mass production practice that under the production scale, through special control of the freezing storage conditions of FⅧ intermediate products, the unexpected technical effect of FⅧ activity recovery rate and specific activity recovery rate can be achieved without loss. At the same time, the inventor unexpectedly observed that after the FⅧ intermediate product solution was stored at room temperature, the degree of precipitation of foreign matter was reduced after cryopreservation. The FⅧ intermediate product solution was further tested for the FⅧ:C activity after being stored at room temperature for 24 hours. The size found that the loss of FⅧ activity was slowed down, and the room temperature stability was significantly improved.
本发明公开的FⅧ中间品的冻存方法,其冻存速率不低于1℃/min,优选1℃/min~10℃/min,较优选1℃/min~3℃/min,较优选1.5℃/min~3℃/min。当FⅧ中间品完全冻结后,冻存温度至少应能保持FⅧ中间品处于完全冻结状态。本发明公开的FⅧ中间品在上述条件下冻结后在-15℃~-196℃的条件下储存,优选-20℃~-80℃,较优选-20℃~-55℃。The freezing storage method of FⅧ intermediate product disclosed in the present invention has a freezing rate of not less than 1°C/min, preferably 1°C/min~10°C/min, more preferably 1°C/min~3°C/min, more preferably 1.5 ℃/min~3℃/min. When the FⅧ intermediate product is completely frozen, the freezing temperature should at least keep the FⅧ intermediate product in a completely frozen state. The FⅧ intermediate product disclosed in the present invention is stored under the conditions of -15°C to -196°C after being frozen under the above conditions, preferably -20°C to -80°C, more preferably -20°C to -55°C.
在一些具体的实施方式中,FⅧ中间品冻结后使用液氮或干冰储存。In some specific embodiments, the FVIII intermediate product is frozen and stored using liquid nitrogen or dry ice.
在一些实施例中,FⅧ中间品的冻存时间可以是0~24个月或更长。In some embodiments, the frozen storage time of FVIII intermediate product can be 0-24 months or longer.
在一些情况下,FⅧ中间品的比活性(IU/mg)≥1IU/mg,在另一些情况下,FⅧ中间品的比活性(IU/mg)≥10IU/mg或≥50IU/mg或≥70IU/mg或≥100IU/mg或≥200IU/mg或≥1000IU/mg。In some cases, the specific activity of FⅧ intermediate product (IU/mg) is ≥1IU/mg, in other cases, the specific activity of FⅧ intermediate product (IU/mg) is ≥10IU/mg or ≥50IU/mg or ≥70IU /mg or ≥100IU/mg or ≥200IU/mg or ≥1000IU/mg.
在一些实施例中,FⅧ制剂中间品的溶液的pH为6.5-7.5。在一些更具体地实施例中,FⅧ中间品的缓冲液可以是含一种或多种氨基酸的缓冲液,缓冲液任选枸橼酸钠缓冲液、磷酸缓冲液、Tris缓冲液等。因为FⅧ与血管性血友病因子复合物的等电点为5.5~6.0,当pH在6.5~7.5时FⅧ与血管性血友病因子复合物带负电,适合通过阴离子层析进一步精制FⅧ;同时pH为6.5-7.5的偏中性条件有助于保护FⅧ活性。In some embodiments, the pH of the solution of the FVIII preparation intermediate is 6.5-7.5. In some more specific embodiments, the buffer of the FVIII intermediate product may be a buffer containing one or more amino acids, and the buffer may be sodium citrate buffer, phosphate buffer, Tris buffer, and the like. Because the isoelectric point of FⅧ and von Willebrand factor complex is 5.5-6.0, when the pH is 6.5-7.5, FⅧ and von Willebrand factor complex are negatively charged, which is suitable for further purification of FⅧ by anion chromatography; at the same time; The partial neutral conditions with a pH of 6.5-7.5 help protect the activity of FⅧ.
进一步地,本发明公开的FⅧ中间品的冻存方法,其冻存效果受其他前序工艺步骤的影响较小。冻存后的FⅧ中间品融化后,再经过滤、半成品配制、除菌、分装、冻干、干热灭活等工艺步骤,可制备得到符合2015版《中国药典》规定的合格FⅧ制剂。Further, the freezing storage method of FVIII intermediate product disclosed in the present invention has a freezing effect that is less affected by other pre-process steps. After the frozen FⅧ intermediate product is thawed, it is filtered, semi-finished product preparation, sterilization, sub-packaging, freeze-drying, dry heat inactivation and other process steps to prepare qualified FⅧ preparations that meet the requirements of the 2015 Chinese Pharmacopoeia.
本发明所称的“FⅧ制剂”也可称之为“抗血友病球蛋白制剂”。The "FVIII preparation" referred to in the present invention can also be referred to as "anti-hemophilia globulin preparation".
本发明所称的“FⅧ制剂的制备工艺”为FⅧ制剂的整个生产工艺。本发 明实施例所要突出的FⅧ中间品的冻存方法可以是FⅧ制剂整体生产工艺中的一个环节。The "preparation process of FⅧ preparation" referred to in the present invention refers to the entire production process of FⅧ preparation. The freezing storage method of the FⅧ intermediate product to be highlighted in the embodiment of the present invention can be a link in the overall production process of the FⅧ preparation.
现有技术中,FⅧ生产工艺从血浆冷沉淀开始,经凝胶吸附、病毒灭活以及层析等多个步骤制得FⅧ中间产品,FⅧ中间产品进一步经配制分装后进行冻干或其他病毒灭活工艺即得FⅧ制剂成品。通常包括多个具体步骤:制备血浆冷沉淀,将冷沉淀溶解,得溶解液;将溶解液通过调节pH进行酸沉淀,并滤去沉淀部分,得上清液;将上清液进行凝胶吸附;将凝胶吸附后的流穿液进行病毒灭活、层析、超滤、除菌等工艺步骤,并经分批、分装、冻干、干热病毒灭活等步骤最终制得FⅧ成品。In the prior art, the FⅧ production process starts with cryoprecipitation of plasma, and is prepared by multiple steps of gel adsorption, virus inactivation, and chromatography to prepare the FⅧ intermediate product. The FⅧ intermediate product is further formulated and packaged to be freeze-dried or other viruses. The inactivation process is the finished product of FⅧ preparation. It usually includes several specific steps: preparing plasma cryoprecipitate, dissolving cryoprecipitate to obtain dissolving liquid; adjusting pH for acid precipitation of dissolving liquid, and filtering out the precipitated part to obtain supernatant liquid; subjecting supernatant liquid to gel adsorption ; The flow-through liquid after gel adsorption is subjected to the process steps of virus inactivation, chromatography, ultrafiltration, sterilization, and the final product FⅧ is obtained through the steps of batching, sub-packaging, freeze-drying, dry heat virus inactivation, etc. .
为实现本发明,一种基本的FⅧ制备工艺路线为:制备血浆冷沉淀;将血浆冷沉淀溶解,得溶解液;将溶解液通过调节pH进行预沉淀,并滤去沉淀部分,得上清液;将上清液通过平衡过的凝胶吸附;将凝胶吸附后得的上清液经进行病毒灭活、层析、超滤、除菌等工艺步骤,并经分批、分装、冻干,干热病毒灭活等步骤最终制得Ⅷ成品。In order to realize the present invention, a basic FⅧ preparation process route is: preparing plasma cryoprecipitate; dissolving plasma cryoprecipitate to obtain a dissolving solution; pre-precipitating the dissolving solution by adjusting pH, and filtering the precipitated part to obtain the supernatant ; Adsorb the supernatant through a balanced gel; the supernatant obtained after the gel is adsorbed is subjected to the process steps of virus inactivation, chromatography, ultrafiltration, sterilization, etc., and is batched, sub-packaged, frozen Dry, dry heat virus inactivation and other steps finally make Ⅷ finished product.
为实现本发明,一种可选基本的FⅧ制备工艺路线为:制备血浆冷沉淀;将血浆冷沉淀溶解,得溶解液;将溶解液通过平衡过的凝胶吸附;将凝胶吸附后得的上清液经进行病毒灭活、层析、超滤、除菌等工艺步骤,并经分批、分装、冻干,干热病毒灭活等步骤最终制得Ⅷ成品。In order to realize the present invention, an optional basic FⅧ preparation process route is: preparing plasma cryoprecipitate; dissolving the plasma cryoprecipitate to obtain a dissolving solution; adsorbing the dissolving solution through a balanced gel; The supernatant is subjected to the process steps of virus inactivation, chromatography, ultrafiltration, sterilization, and the steps of batching, sub-packaging, lyophilization, and dry heat virus inactivation are finally made into a finished product Ⅷ.
为实现本发明,一种可选的基本的FⅧ制备工艺路线为:制备血浆冷沉淀;Tris缓冲液溶解冷沉淀,经聚乙二醇沉淀后,0.3%磷酸三丁酯和1%Tween 80处理6h以灭活脂包膜病毒,然后经DEAE 650M层析纯化。绝大部分杂蛋白和磷酸三丁酯及Tween80随流穿液直接流穿,洗脱液即为人凝血因 子Ⅷ中间品(参考文献《人凝血因子Ⅷ原液生产工艺放大可行性研究》公开)。In order to realize the present invention, an optional basic FⅧ preparation process route is: preparing plasma cryoprecipitate; Tris buffer solution dissolving cryoprecipitate, after polyethylene glycol precipitation, 0.3% tributyl phosphate and 1% Tween 80 treatment The lipid enveloped virus was inactivated for 6 hours, and then purified by DEAE 650M chromatography. Most of the miscellaneous protein, tributyl phosphate and Tween80 flow through the flow-through fluid directly, and the eluate is the intermediate product of human coagulation factor Ⅷ (reference document "Human coagulation factor Ⅷ original solution production process scale-up feasibility study" published).
除非特别说明,如图1所示,本发明所称的“FⅧ中间品”是指原液制备前或超滤浓缩前或超滤浓缩后的FⅧ浓缩液,或FⅧ层析纯化洗脱液。Unless otherwise specified, as shown in Figure 1, the "FⅧ intermediate product" referred to in the present invention refers to the FⅧ concentrate before the preparation of the stock solution or before or after ultrafiltration and concentration, or the FⅧ chromatographic purification eluent.
当本发明所称的“FⅧ中间品”特指FⅧ层析纯化洗脱液时,可选FⅧ肝素亲和层析纯化洗脱液或FⅧ阴离子层析纯化洗脱液。优选FⅧ阴离子层析纯化洗脱液。因为FⅧ与血管性血友病因子复合物的等电点为5.5~6.0,当pH在6.5~7.5时复合物带负电;同时偏中性条件有助于保护FⅧ活性,所以较优选阴离子层析纯化FⅧ。通常的可选的阴离子层析介质包括不限于:DEAE Sephadex A-50、TOYOPEARL DEAE-650M、DEAE 650、Q-sepharose-FF、DEAE-SAPHROSEFF、DEAE-FractogelTSK650M、DEAE SepharoseTSK650M、DEAESepharoseFF、CaptoDEAE、QsepharoseFF、CaptoQ及QSepharoseHP等。如果需要的话,可以使用阴离子交换层析膜替代阴离子交换色谱基质。市售的阴离子交换膜包含,但不限于,来自Sartorius的SartobindTM Q,来自Pall Technologies的MustangTM Q,来自Millipore的InterceptTM Q。When the "FⅧ intermediate product" referred to in the present invention specifically refers to the FⅧ chromatography purification eluent, the FⅧ heparin affinity chromatography purification eluent or the FⅧ anion chromatography purification eluent can be selected. Preferably, the eluent is purified by FVIII anion chromatography. Because the isoelectric point of the complex of FⅧ and von Willebrand factor is 5.5-6.0, when the pH is 6.5-7.5, the complex is negatively charged; meanwhile, neutral conditions can help protect the activity of FⅧ, so anion chromatography is preferred Purify FⅧ. Common optional anion chromatography media include but are not limited to: DEAE Sepharose A-50, TOYOPEARL DEAE-650M, DEAE 650, Q-sepharose-FF, DEAE-SAPHROSEFF, DEAE-FractogelTSK650M, DEAE SepharoseTSK650M, DEAESepharoseFF, CaptoDEAE, QsepharoseFF, CaptoQ and QSepharoseHP etc. If necessary, an anion exchange chromatography membrane can be used instead of an anion exchange chromatography matrix. Commercially available anion exchange membranes include, but are not limited to, SartobindTM Q from Sartorius, MustangTM Q from Pall Technologies, and InterceptTM Q from Millipore.
当本发明所称的“FⅧ中间品”特指原液制备前FⅧ浓缩液时,优选原液制备前的除菌过滤前的FⅧ浓缩液,优选原液制备前的纳米膜过滤前的FⅧ浓缩液。When the "FⅧ intermediate product" referred to in the present invention specifically refers to the FⅧ concentrate before the preparation of the stock solution, it is preferably the FⅧ concentrate before the sterilization and filtration before the preparation of the stock solution, and preferably the FⅧ concentrate before the nanomembrane filtration before the preparation of the stock solution.
在一种实施方式中,所述FⅧ中间品可以是通过血浆冷沉淀制备并随后用Al(OH)
3凝胶吸附、离心去除不容物上清液经DEAE Sephadex A-50凝胶吸附纯化得到的FⅧ层析纯化洗脱液。
In one embodiment, the FⅧ intermediate product can be prepared by plasma cryoprecipitation, followed by Al(OH) 3 gel adsorption, centrifugation to remove insoluble matter, and the supernatant is purified by DEAE Sephadex A-50 gel adsorption. FⅧ chromatographic purification eluent.
在一种实施方式中,所述FⅧ中间品可以是通过血浆冷沉淀制备并随后通过酸沉淀、DEAE Sephadex A-50凝胶吸附、离心去除不容物上清液经 TOYOPEARL DEAE-650M凝胶吸附纯化得到的FⅧ层析纯化洗脱液。In one embodiment, the FⅧ intermediate product can be prepared by plasma cryoprecipitation, followed by acid precipitation, DEAE Sephadex A-50 gel adsorption, centrifugation to remove incompatible materials, and the supernatant can be purified by TOYOPEARL DEAE-650M gel adsorption. The obtained FVIII chromatographic purification eluent.
在一种实施方式中,所述FⅧ中间品可以是通过血浆冷沉淀制备并随后用Al(OH)3凝胶吸附、离心去除不容物上清液经S/D病毒灭活、DEAE Sephadex A-50凝胶吸附纯化得到的FⅧ层析纯化洗脱液。In one embodiment, the FⅧ intermediate product can be prepared by plasma cryoprecipitation and then adsorbed with Al(OH)3 gel, centrifuged to remove incompatible materials, the supernatant is inactivated by S/D virus, DEAE Sephadex A- 50 FⅧ chromatographic purification eluent obtained by gel adsorption purification.
在一种实施方式中,所述FⅧ中间品可以是通过血浆冷沉淀制备并随后用中性pH缓冲液溶解后用的Al(OH)
3凝胶(W/V)吸附、离心去除不容物、上清液经S/D处理、再经阴离子凝胶(Fractogel TMAE 650)吸附纯化、洗脱液在糖和氨基酸保护下63℃加热10hr再次经第二次阴离子凝胶柱层析去除稳定剂所得FⅧ层析纯化洗脱液。
In one embodiment, the FⅧ intermediate product can be prepared by plasma cryoprecipitation and then dissolved in a neutral pH buffer and then used in Al(OH) 3 gel (W/V) for adsorption, centrifugation to remove incompatible materials, The supernatant was treated by S/D, and then purified by anion gel (Fractogel TMAE 650). The eluate was heated at 63°C for 10 hours under the protection of sugar and amino acids, and then subjected to the second anion gel column chromatography to remove the stabilizer. FⅧ chromatographic purification eluent.
在一种实施方式中,所述FⅧ中间品可以是通过血浆冷沉淀制备并随后用Al(OH)3凝胶吸附、甘氨酸沉淀、NaCl沉淀、缓冲液调节浓度后原液配制前的样品溶液。In one embodiment, the FVIII intermediate product may be a sample solution prepared by cryoprecipitating plasma and then using Al(OH)3 gel adsorption, glycine precipitation, NaCl precipitation, and buffer concentration adjustment before preparing the original solution.
在一种实施方式中,所述FⅧ中间品可以是通过血浆冷沉淀制备并随后用PEG分级沉淀、肝素亲和凝胶(比如Heparin
6 FF)吸附纯化得到的FⅧ层析纯化洗脱液。
In one embodiment, the FⅧ intermediate product can be prepared by plasma cryoprecipitation and then fractionated with PEG, heparin affinity gel (such as Heparin 6 FF) FⅧ chromatography purification eluent obtained by adsorption purification.
进一步的,本发明所称“FⅧ中间品”还可以是上述FⅧ层析纯化洗脱液经过透析和/或缓冲液调节浓度后的FⅧ浓缩液。进一步地,本发明所称“FⅧ中间品”还可以上述FⅧ浓缩液经超滤得到的FⅧ超滤浓缩液。进一步地,本发明所称“FⅧ中间品”还可以是上述FⅧ超滤浓缩液经缓冲液调节浓度后原液配制前的样品溶液。Further, the "FVIII intermediate product" referred to in the present invention can also be the FVIII concentrate obtained by dialysis and/or buffer adjustment of the FVIII chromatographic purification eluent. Furthermore, the “FⅧ intermediate product” referred to in the present invention can also be the FⅧ ultrafiltration concentrate obtained by ultrafiltration of the above FⅧ concentrate. Further, the "FⅧ intermediate product" referred to in the present invention can also be the sample solution before the original solution is prepared after the concentration of the FⅧ ultrafiltration concentrate is adjusted by the buffer.
一种本发明所称的“FⅧ中间品的变形”可以是FⅧ层析纯化洗脱液经过病毒灭活后的FⅧ浓缩液。也可以是添加了FⅧ活性保护剂的层析纯化洗 脱液。所述的FⅧ活性保护剂任选糖类、氨基酸类。A kind of "modification of FⅧ intermediate product" referred to in the present invention can be FⅧ concentrated liquid after FⅧ chromatographic purification eluate has been inactivated by virus. It can also be the chromatographic purification eluent added with FVIII active protective agent. The FⅧ activity protection agent can be selected from carbohydrates and amino acids.
本实施例中所述“FⅧ中间品”还可以是其他可以实现FⅧ制剂制备的工艺路线中所得到的原液制备前或超滤浓缩前或超滤浓缩后的FⅧ浓缩液或FⅧ层析纯化洗脱液,在此不一一穷举。The "FⅧ intermediate product" in this embodiment can also be the FⅧ concentrate or FⅧ chromatography purification wash obtained in the preparation of FⅧ preparations before the preparation of the original solution or before the ultrafiltration and concentration or after the ultrafiltration and concentration. Deliquation is not exhaustive here.
以下结合具体的实施例对FⅧ中间品的冻存方法加以说明。The following describes the freezing storage method of FⅧ intermediate products in combination with specific examples.
实施例1Example 1
发明人首先考察了FⅧ层析纯化洗脱液液氮速冻、低温(-196℃至-15℃)储存前后FⅧ:C活性回收率的变化。The inventors first investigated the change of FⅧ:C activity recovery rate before and after FⅧ chromatographic purification eluent liquid nitrogen quick freezing and low temperature (-196℃ to -15℃) storage.
FⅧ层析纯化洗脱液制备:以血浆冷沉淀为原料,溶解后经酸沉淀、DEAESephadex A-50凝胶吸附、S/D病毒灭活、TOYOPEARL DEAE-650M凝胶柱层析制备得到FⅧ层析纯化洗脱液。检测FⅧ层析纯化洗脱液的FⅧ:C活性大小。Preparation of FⅧ Chromatography Purification Eluent: Using plasma cryoprecipitate as raw material, after dissolving, the FⅧ layer is prepared by acid precipitation, DEAESephadex A-50 gel adsorption, S/D virus inactivation, TOYOPEARL DEAE-650M gel column chromatography Analyze the purified eluate. Detect the FⅧ:C activity size of the eluate from FⅧ chromatography purification.
将制得的FⅧ层析纯化洗脱液分成多个平行样品在液氮中冻结,并分别在-196℃、-80℃、-60℃、-40℃、-20℃、-15℃储存12个月后,室温水浴融化,检测FⅧ:C活性大小,计算活性回收率。The prepared FⅧ chromatographic purification eluate was divided into multiple parallel samples, frozen in liquid nitrogen, and stored at -196℃, -80℃, -60℃, -40℃, -20℃, -15℃12 Months later, the room temperature water bath melted, and the activity of FⅧ:C was detected, and the activity recovery rate was calculated.
FⅧ:C活性回收率检测结果如表1所示:FⅧ层析纯化洗脱液液氮冻结后低温(-196℃至-15℃)保存12个月,活性无损失。The test results of FⅧ:C activity recovery rate are shown in Table 1: FⅧ chromatographic purification eluent liquid nitrogen is frozen and stored at low temperature (-196°C to -15°C) for 12 months without loss of activity.
表1实施例1 FⅧ纯化洗脱液冻存前后FⅧ:C活性回收率Table 1 Example 1 FⅧ purification eluate before and after cryopreservation FⅧ:C activity recovery rate
发明人将上述6个经过冻存的FⅧ纯化洗脱液样品室温水浴融化后超滤,室温放置2小时后,肉眼观察意外发现无可见异物析出(可见异物检查法参考2015版2015版《中国药典》进行)。而此前,发明人多次试验观察到,不经冻存处理的FⅧ层析纯化洗脱液样品超滤后如果在室温放置2个小时,可肉眼明显地观察到可见异物析出。The inventors thawed the above 6 frozen FⅧ purified eluate samples in a room temperature water bath and ultrafiltered them. After placing them at room temperature for 2 hours, there was unexpectedly no visible foreign matter precipitation (the visible foreign matter inspection method refers to the 2015 edition of the Chinese Pharmacopoeia). "get on). Previously, the inventors repeatedly observed that if the FⅧ chromatographic purification eluate sample without cryopreservation is ultra-filtered, if it is placed at room temperature for 2 hours, the precipitation of visible foreign matter can be clearly observed with the naked eye.
进一步地,发明人将上述样品继续在室温放置至24个小时,检测FⅧ:C活性大小,以考察FⅧ:C活性回收率的变化。Furthermore, the inventor kept the above-mentioned sample at room temperature for 24 hours to detect the activity of FⅧ:C to investigate the change of the recovery rate of FⅧ:C activity.
检测结果如表2显示:与未经液氮冷冻低温储存的样品相比,FⅧ纯化洗脱液经低温冻存处理后,室温存放24小活性损失显著降低,稳定性提高。The test results are shown in Table 2: Compared with the samples that have not been frozen and stored in low temperature with liquid nitrogen, after the FⅧ purified eluate is stored at low temperature, the activity loss of 24 hours at room temperature is significantly reduced and the stability is improved.
表2实施例1 FⅧ纯化洗脱液低温冻存后室温放置24小时活性回收率Table 2 Example 1 Activity recovery rate of FⅧ purified eluate after cryopreservation at room temperature for 24 hours
进一步地,发明人考察了不同冷冻条件对FⅧ纯化洗脱液/FⅧ超滤浓缩液活性回收率、室温条件下的稳定性的影响以及对最终制得的FⅧ成品质量的影响。Further, the inventors investigated the effects of different freezing conditions on the activity recovery rate of the FⅧ purified eluent/FⅧ ultrafiltration concentrate, the stability at room temperature, and the influence on the quality of the final FⅧ product.
实施例2Example 2
FⅧ层析纯化洗脱液制备:以血浆冷沉淀为原料,溶解后经酸沉淀、DEAE Sephadex A-50凝胶吸附、S/D病毒灭活、TOYOPEARL DEAE-650M凝胶柱层析制备得到FⅧ层析纯化洗脱液。检测FⅧ层析纯化洗脱液的蛋白含量及FⅧ:C活性大小,计算得到FⅧ层析纯化洗脱液的比活性为(IU/mg)=257IU/mg。FⅧ Chromatography purification eluent preparation: Using plasma cryoprecipitate as raw material, after dissolving, it is prepared by acid precipitation, DEAE Sephadex A-50 gel adsorption, S/D virus inactivation, TOYOPEARL DEAE-650M gel column chromatography to obtain FⅧ Chromatographic purification of the eluent. The protein content and FⅧ:C activity of FⅧ chromatographic purification eluate were detected, and the specific activity of FⅧ chromatographic purification eluate was calculated to be (IU/mg)=257IU/mg.
FⅧ层析纯化洗脱液冻存:以1℃/min的速率冻结,并在-30℃~-45℃冻存12个月。FⅧ Chromatographic Purification Eluent Freezing: Freeze at a rate of 1°C/min, and store it at -30°C to -45°C for 12 months.
FⅧ成品制备:室温水浴融化冻存的FⅧ层析纯化洗脱液,将融化后的FⅧ层析纯化洗脱液超滤、除菌过滤。除菌过滤后按成品规格配制,并加入稳定剂100mM的甘氨酸。分装、冻干,密封出柜,冻干制品干热灭活(100℃×30min或80℃×72h)后包即得FⅧ成品。FⅧ Finished product preparation: Thaw the frozen FⅧ chromatographic purification eluate in a water bath at room temperature, ultrafiltration, sterile filtration of the thawed FⅧ chromatographic purification eluate. After sterilization and filtration, it is prepared according to the specifications of the finished product, and 100mM glycine is added as a stabilizer. After packaging, freeze-drying, sealing and out of the cabinet, the freeze-dried product is inactivated by dry heat (100℃×30min or 80℃×72h) and then packaged to obtain the FⅧ finished product.
超滤透析液为:50mmol/L氯化钠,20mmol/L枸橼酸钠,1mmol/L氯化钙,7g/L白蛋白,35g/L盐酸精氨酸;pH 7.0。Ultrafiltration dialysate: 50mmol/L sodium chloride, 20mmol/L sodium citrate, 1mmol/L calcium chloride, 7g/L albumin, 35g/L arginine hydrochloride; pH 7.0.
实施例3Example 3
FⅧ层析纯化洗脱液制备:以血浆冷沉淀为原料,用氨丁三醇溶液溶解后经聚乙二醇沉淀、S/D病毒灭活、ToyopearlDEAE 650M凝胶柱层析制备得到FⅧ层析纯化洗脱液。检测FⅧ层析纯化洗脱液的蛋白含量及FⅧ:C活性大小,计算得到FⅧ层析纯化洗脱液的比活性为(IU/mg)=151IU/mg。FⅧ chromatography purification eluent preparation: using plasma cryoprecipitate as raw material, dissolving with tromethamine solution and then precipitating with polyethylene glycol, S/D virus inactivation, ToyopearlDEAE 650M gel column chromatography to prepare FⅧ chromatography Purify the eluent. The protein content and FⅧ:C activity of FⅧ chromatographic purification eluate were detected, and the specific activity of FⅧ chromatographic purification eluate was calculated to be (IU/mg)=151IU/mg.
FⅧ层析纯化洗脱液冻存:以10℃/min的速率冻结,并在-60℃~-45℃冻存12个月。FⅧ Chromatographic Purification Eluent Freezing: Freeze at a rate of 10°C/min, and store it at -60°C to -45°C for 12 months.
FⅧ成品制备:室温水浴融化冻存的FⅧ层析纯化洗脱液,将融化后的FⅧ层析纯化洗脱液超滤、除菌过滤。除菌过滤后按成品规格配制,并加入稳定剂10mM的甘氨酸。分装、冻干,密封出柜,冻干制品干热灭活(100℃×30min或80℃×72h)后包即得FⅧ成品。FⅧ Finished product preparation: Thaw the frozen FⅧ chromatographic purification eluate in a water bath at room temperature, ultrafiltration, sterile filtration of the thawed FⅧ chromatographic purification eluate. After sterilization and filtration, it is prepared according to the specifications of the finished product, and 10mM glycine is added as a stabilizer. After packaging, freeze-drying, sealing and out of the cabinet, the freeze-dried product is inactivated by dry heat (100℃×30min or 80℃×72h) and then packaged to obtain the FⅧ finished product.
超滤透析液为:50mmol/L氯化钠,6mmol/L枸橼酸钠,1mmol/L氯化钙,6.7g/L白蛋白,35g/L盐酸精氨酸;pH 6.5。Ultrafiltration dialysate: 50mmol/L sodium chloride, 6mmol/L sodium citrate, 1mmol/L calcium chloride, 6.7g/L albumin, 35g/L arginine hydrochloride; pH 6.5.
实施例4Example 4
FⅧ层析纯化洗脱液制备:以血浆冷沉淀为原料,溶解后经PEG沉淀、S/D病毒灭活、ToyopearlDEAE 650M凝胶柱层析制备得到FⅧ层析纯化洗脱液。检测FⅧ层析纯化洗脱液的蛋白含量及FⅧ:C活性大小,计算得到FⅧ层析纯化洗脱液的比活性为(IU/mg)=85IU/mg。Preparation of FⅧ Chromatography Purification Eluent: Using plasma cryoprecipitate as raw material, dissolving it, it is prepared by PEG precipitation, S/D virus inactivation, and ToyopearlDEAE 650M gel column chromatography to obtain FⅧ chromatographic purification eluent. The protein content and FⅧ:C activity of FⅧ chromatographic purification eluate were detected, and the specific activity of FⅧ chromatographic purification eluate was calculated to be (IU/mg)=85IU/mg.
FⅧ层析纯化洗脱液冻存:以1.5℃/min的速率冻结,干冰冻存12个月。FⅧ Chromatographic Purification Eluent Freezing: Freeze at a rate of 1.5°C/min, and freeze on dry ice for 12 months.
FⅧ成品制备:室温水浴融化冻存的FⅧ层析纯化洗脱液,将融化后的FⅧ层析纯化洗脱液超滤、除菌过滤。除菌过滤后按成品规格配制,并加入稳定剂20mM的甘氨酸。分装、冻干,密封出柜,冻干制品干热灭活(100℃×30min或80℃×72h)后包即得FⅧ成品。FⅧ Finished product preparation: Thaw the frozen FⅧ chromatographic purification eluate in a water bath at room temperature, ultrafiltration, sterile filtration of the thawed FⅧ chromatographic purification eluate. After sterilization and filtration, it is prepared according to the specifications of the finished product, and 20mM glycine is added as a stabilizer. After packaging, freeze-drying, sealing and out of the cabinet, the freeze-dried product is inactivated by dry heat (100℃×30min or 80℃×72h) and then packaged to obtain the FⅧ finished product.
超滤透析液为:50mmol/L氯化钠,20mmol/L枸橼酸钠,1mmol/L氯化钙,7g/L白蛋白,35g/L盐酸精氨酸;pH 7.2。The ultrafiltration dialysate is: 50mmol/L sodium chloride, 20mmol/L sodium citrate, 1mmol/L calcium chloride, 7g/L albumin, 35g/L arginine hydrochloride; pH 7.2.
实施例5Example 5
FⅧ层析纯化洗脱液制备:以血浆冷沉淀为原料溶解后,经DEAE Sephadex A-50凝胶吸附、S/D病毒灭活、TOYOPEARL DEAE-650M凝胶柱层析制备得到FⅧ层析纯化洗脱液。检测FⅧ层析纯化洗脱液的蛋白含量及FⅧ:C活性大小,计算得到FⅧ层析纯化洗脱液的比活性为(IU/mg)=54IU/mg。FⅧ Chromatographic Purification Eluent Preparation: After dissolving the plasma cryoprecipitate as the raw material, it is prepared by DEAE Sephadex A-50 gel adsorption, S/D virus inactivation, TOYOPEARL DEAE-650M gel column chromatography to obtain FⅧ chromatographic purification Eluent. The protein content and FⅧ:C activity of the FⅧ chromatographic purification eluate were detected, and the specific activity of the FⅧ chromatographic purification eluate was calculated to be (IU/mg)=54IU/mg.
FⅧ层析纯化洗脱液冻存:以3℃/min的速率冻结,并在-20℃~-30℃冻存12个月后,室温水浴融化FⅧ层析高纯度洗脱液。FⅧ Chromatography Purification Eluent Freezing: Freeze at a rate of 3°C/min, and after freezing at -20°C to -30°C for 12 months, melt the FⅧ chromatography high-purity eluate in a water bath at room temperature.
FⅧ成品制备:室温水浴融化冻存的FⅧ层析纯化洗脱液,将融化后的FⅧ层析纯化洗脱液超滤、除菌过滤。除菌过滤后按成品规格配制,并加入稳定剂200mM的甘氨酸。分装、冻干,密封出柜,冻干制品干热灭活(100℃ ×30min或80℃×72h)后包即得FⅧ成品。FⅧ Finished product preparation: Thaw the frozen FⅧ chromatographic purification eluate in a water bath at room temperature, ultrafiltration, sterile filtration of the thawed FⅧ chromatographic purification eluate. After sterilization and filtration, it is prepared according to the specifications of the finished product, and 200mM glycine is added as a stabilizer. After packaging, freeze-drying, sealing and out of the cabinet, the freeze-dried product is inactivated by dry heat (100℃×30min or 80℃×72h) and then packaged to obtain the FⅧ finished product.
超滤透析液为:50mmol/L氯化钠,20mmol/L枸橼酸钠,1mmol/L氯化钙,7g/L白蛋白,35g/L盐酸精氨酸;pH 7.0。Ultrafiltration dialysate: 50mmol/L sodium chloride, 20mmol/L sodium citrate, 1mmol/L calcium chloride, 7g/L albumin, 35g/L arginine hydrochloride; pH 7.0.
实施例6~9Examples 6-9
实施例6~9的所采用的冻存样品分别取自实施例1~4FⅧ纯化洗脱液的超滤浓缩液。超滤浓缩液的制取方法为,将FⅧ纯化洗脱液经过截流分子量10~30KD超滤膜透析浓缩,得到FⅧ超滤浓缩液。The cryopreserved samples used in Examples 6 to 9 were taken from the ultrafiltration concentrates of the purified eluates in Examples 1 to 4FⅧ. The preparation method of the ultrafiltration concentrate is as follows: the FⅧ purified eluate is dialyzed and concentrated through an ultrafiltration membrane with a cut-off molecular weight of 10-30KD to obtain an FⅧ ultrafiltration concentrate.
其冻存条件同实施例2~5,及合批后的透析浓缩、除菌、半成品配制、分装、冻干、干热灭活步骤同实施例2~5。The freezing conditions are the same as those in Examples 2-5, and the steps of dialysis concentration, sterilization, semi-finished product preparation, packaging, freeze-drying, and dry heat inactivation after batching are the same as those in Examples 2-5.
超滤浓缩后的FⅧ中间品FⅧ:C值如下:The FⅧ intermediate product FⅧ:C value after ultrafiltration and concentration is as follows:
实施例6冻存条件:冻存液FⅧ:C 111IU/mL。Example 6 Cryopreservation conditions: cryopreservation fluid FⅧ: C 111IU/mL.
实施例7冻存条件:冻存液FⅧ:C 98IU/mL。Example 7 Cryopreservation conditions: Cryopreservation fluid FⅧ: C 98IU/mL.
实施例8冻存条件:冻存液FⅧ:C 73IU/mL。Example 8 Cryopreservation conditions: cryopreservation fluid FⅧ: C 73IU/mL.
实施例9冻存条件:冻存液FⅧ:C 52IU/mL。Example 9 Cryopreservation conditions: cryopreservation fluid FⅧ: C 52IU/mL.
对比例1Comparative example 1
对比例1与实施例2的区别在于:TOYOPEARL DEAE-650M凝胶柱层析制备得到FⅧ层析纯化洗脱液后直接进入FⅧ成品步骤,不包括FⅧ层析纯化洗脱液冻存步骤。The difference between Comparative Example 1 and Example 2 is that the FⅧ chromatographic purification eluent prepared by TOYOPEARL DEAE-650M gel column chromatography directly enters the FⅧ finished product step, excluding the FⅧ chromatography purification eluent freezing step.
其他工艺FⅧ纯化工艺和成品制备工艺参考实施例2,制备FⅧ成品。Other processes FⅧ purification process and finished product preparation process refer to Example 2 to prepare FⅧ finished product.
以下为实施例2~9 FⅧ中间品冻存前后及制备得到的成品的各项指标对比。The following are the comparisons of various indexes of the finished products before and after the freezing storage of the intermediate products in Examples 2-9 FⅧ and the prepared products.
1、不同冷冻条件对FⅧ纯化洗脱液/FⅧ超滤浓缩液活性回收率的影响1. The effect of different freezing conditions on the activity recovery rate of FⅧ purified eluate/FⅧ ultrafiltration concentrate
检测实施例2~9FⅧ纯化洗脱液/FⅧ超滤浓缩液冻存前后蛋白浓度及FⅧ:C活性,计算活性回收率及比活回收率。检测结果见表3。The protein concentration and FⅧ:C activity of FⅧ purified eluate/FⅧ ultrafiltration concentrated liquid before and after cryopreservation in Examples 2-9 were tested, and the activity recovery rate and specific activity recovery rate were calculated. The test results are shown in Table 3.
试验结果表明:The results showed that:
实施例2~9的凝血因子Ⅷ中间品以1℃/min及以上的速率冻结,并在-20℃~-60℃冻存12个月后,活性回收率未见降低,FⅧ:C活性得以维持。The intermediate product of coagulation factor VIII of Examples 2-9 was frozen at a rate of 1°C/min and above, and after being stored at -20°C to -60°C for 12 months, the activity recovery rate did not decrease, and the FⅧ:C activity was able to maintain.
实施例2~9的凝血因子Ⅷ中间品以1℃/min及以上的速率冻结,并在-20℃~-60℃冻存12个月后,比活回收率未见降低,FⅧ:C比活性得到提升。The intermediate product of coagulation factor VIII of Examples 2-9 was frozen at a rate of 1°C/min and above, and after being stored at -20°C to -60°C for 12 months, the specific activity recovery rate did not decrease, and the ratio of FⅧ:C Activity is improved.
以上试验结果表明:本发明的FⅧ中间品冻存方法对FⅧ:C活性回收率、比活回收率基本无影响,可以确保FⅧ活性维持而比活性提升。The above test results show that the FⅧ intermediate product freezing storage method of the present invention has basically no effect on the FⅧ:C activity recovery rate and the specific activity recovery rate, and can ensure that the FⅧ activity is maintained while the specific activity is increased.
表3实施例2~9FⅧ纯化洗脱液/FⅧ超滤浓缩液冻存前后活性回收率及比活回收率Table 3 Example 2-9 FⅧ purification eluate/FⅧ ultrafiltration concentrate before and after the activity recovery rate and specific activity recovery rate
2、不同冷冻条件对FⅧ纯化洗脱液/FⅧ超滤浓缩液室温条件下的稳定性影响2. The influence of different freezing conditions on the stability of FⅧ purified eluent/FⅧ ultrafiltration concentrate at room temperature
将实施例2~9经过冻存处理后的FⅧ纯化洗脱液/FⅧ超滤浓缩液样品室温水浴融化后超滤,室温放置24小时后检测其FⅧ:C活性。同时,将实施例2~9未经过冻存处理的FⅧ纯化洗脱液/FⅧ超滤浓缩液超滤,室温放置24小时后检测其FⅧ:C活性。对比两组试验结果,具体见表4。The FⅧ purified eluent/FⅧ ultrafiltration concentrated solution sample after freezing treatment in Examples 2-9 was thawed in a water bath at room temperature and ultrafiltered, and its FⅧ:C activity was tested after being placed at room temperature for 24 hours. At the same time, the FⅧ purified eluate/FⅧ ultrafiltration concentrated solution of Examples 2-9 that were not cryopreserved was ultrafiltered, and the FⅧ:C activity was tested after being placed at room temperature for 24 hours. Compare the two test results, see Table 4 for details.
试验结果表明:FⅧ纯化洗脱液/FⅧ超滤浓缩液经实施例2~9的方法冻存处理后,室温存放24小活性损失显著降低,室温存放稳定性提高。The test results show that after the FⅧ purified eluent/FⅧ ultrafiltration concentrate is frozen and stored in the methods of Examples 2-9, the activity loss of 24 hours at room temperature is significantly reduced, and the storage stability at room temperature is improved.
表4实施例2~9低温冻存处理对FⅧ纯化洗脱液室温存放活性回收率影响Table 4 Example 2-9 Low-temperature cryopreservation treatment affects the activity recovery rate of FⅧ purified eluate stored at room temperature
3、不同冷冻条件对FⅧ纯化洗脱液/FⅧ超滤浓缩液最终制得的FⅧ成品质量的影响3. The effect of different freezing conditions on the quality of the final FⅧ product obtained from FⅧ purified eluent/FⅧ ultrafiltration concentrate
按2015版《中国药典》的规定,全检实施例2~9制得的FⅧ成品的各项指标,尤其关注检测可见异物。检测结果见表5。According to the provisions of the 2015 edition of the Chinese Pharmacopoeia, all indicators of the FⅧ finished products prepared in Examples 2-9 were fully inspected, with special attention to the detection of visible foreign bodies. The test results are shown in Table 5.
检测结果表明:The test results show that:
实施例2~9制得的FⅧ成品符合2015版《中国药典》对FⅧ制剂的各项规定,尤其是可见异物检测结果符合《中国药典》规定。实施例2~9所得FⅧ成品与对比例1所得成品质量检测结果无差异。The FⅧ finished products prepared in Examples 2 to 9 meet the requirements of the 2015 edition of the Chinese Pharmacopoeia for FⅧ preparations, especially the detection results of visible foreign bodies comply with the regulations of the Chinese Pharmacopoeia. The FⅧ finished product obtained in Examples 2-9 and the finished product obtained in Comparative Example 1 have no difference in quality inspection results.
以上检测结果进一步证明:本发明冻存方法处理的FⅧ纯化洗脱液/FⅧ超滤浓缩液可以作为FⅧ后续生产工艺原液及成品制备用原料。The above test results further prove that the FⅧ purified eluate/FⅧ ultrafiltration concentrate processed by the freezing storage method of the present invention can be used as the raw material for the preparation of the FⅧ follow-up production process and the finished product.
表5实施例2~9制得的FⅧ成品主要质量指标检测结果Table 5 Test results of main quality indicators of FⅧ finished products prepared in Examples 2-9
4、实施例2~9制得的FⅧ成品长期稳定性考察4. Investigation on the long-term stability of FⅧ finished products prepared in Examples 2-9
将实施例2~9制得的FⅧ成品在2~8℃条件下冷藏48个月,并按2015版《中国药典》的规定,全检FⅧ成品的各项指标。检测结果见表6。The FⅧ finished products prepared in Examples 2-9 were refrigerated at 2-8°C for 48 months, and all indicators of the FⅧ finished products were fully inspected according to the provisions of the 2015 Chinese Pharmacopoeia. The test results are shown in Table 6.
检测结果显示:用经过冻存的FⅧ纯化洗脱液/FⅧ超滤浓缩液制备得到的FⅧ成品在2~8℃条件下冷藏,48个月内性能稳定。实施例2~9所得FⅧ成品可异物合格率优于对比例1。The test results show that the FⅧ finished product prepared with the frozen FⅧ purified eluent/FⅧ ultrafiltration concentrate is stored under the condition of 2~8℃, and its performance is stable within 48 months. The qualified rate of foreign matter in FⅧ finished products obtained in Examples 2-9 is better than that of Comparative Example 1.
实施例2~9所得FⅧ成品与对比例1所得成品质量检测结果无差异。The FⅧ finished product obtained in Examples 2-9 and the finished product obtained in Comparative Example 1 have no difference in quality inspection results.
表6实施例2~9制得的FⅧ成品长期保存稳定性Table 6 Long-term storage stability of FⅧ finished products prepared in Examples 2-9
以上试验结果证明:The above test results prove:
FⅧ中间品经本发明公开的方法冻存处理,FⅧ活性维持而比活性提升。同时本发明的FⅧ中间品冻存方法能一定程度上提高FⅧ中间品室温存放稳定性。The FⅧ intermediate product is frozen and stored by the method disclosed in the present invention, and the FⅧ activity is maintained and the specific activity is increased. At the same time, the FⅧ intermediate product freezing storage method of the present invention can improve the room temperature storage stability of the FⅧ intermediate product to a certain extent.
用本发明公开的冻存工艺冻存后的凝血因子Ⅷ制剂中间品可用于制备合格的FⅧ成品。稳定性考察数据证明用经过冻存的FⅧ中间品制备得到的FⅧ成品在2~8℃条件下冷藏,48个月内性能稳定。The intermediate product of coagulation factor Ⅷ preparation frozen by the freezing storage process disclosed in the present invention can be used to prepare qualified FⅧ finished products. The stability investigation data proves that the FⅧ finished product prepared from the frozen FⅧ intermediate product is kept stable under the condition of 2~8℃ and has stable performance within 48 months.
以上内容仅仅为本发明的较佳实施例,对于本领域的普通技术人员,依照本发明的思路,在具体实施例方式及其应用范围上均会有所改变之处,本说明书内容不应理解为对本发明的限制。The above content is only the preferred embodiments of the present invention. For those of ordinary skill in the art, in accordance with the ideas of the present invention, there will be changes in the specific embodiments and the scope of application. The content of this specification should not be understood. To limit the present invention.
Claims (10)
- 一种凝血因子Ⅷ中间品的冻存方法,其特征在于,所述凝血因子Ⅷ中间品任选凝血因子Ⅷ制剂制备过程中原液制备前或超滤浓缩前或超滤浓缩后的FⅧ浓缩液或FⅧ层析洗脱液以及它们的组合或变形进行冻存。A method for freezing an intermediate product of coagulation factor Ⅷ, characterized in that the intermediate product of coagulation factor Ⅷ is optionally the FⅧ concentrate before the preparation of the original solution or before the ultrafiltration concentration or after the ultrafiltration concentration during the preparation process of the coagulation factor VIII preparation. FⅧ chromatography eluate and their combination or deformation are frozen.
- 根据权利要求1所述的凝血因子Ⅷ中间品的冻存方法,其特征在于,所述凝血因子Ⅷ中间品的冷冻速率不低于1℃/min,并在-15℃~-196℃的条件下储存。The freezing storage method of the intermediate product of coagulation factor VIII according to claim 1, characterized in that the freezing rate of the intermediate product of coagulation factor VIII is not less than 1°C/min, and the temperature is between -15°C and -196°C. Next store.
- 根据权利要求2所述的凝血因子Ⅷ中间品的冻存方法,其特征在于,所述冷冻速率是1℃/min~10℃/min;The freezing storage method of the intermediate product of coagulation factor VIII according to claim 2, wherein the freezing rate is 1°C/min-10°C/min;优选的,所述冷冻速率是1℃/min~3℃/min;Preferably, the freezing rate is 1°C/min to 3°C/min;优选的,所述冷冻速率是1.5℃/min~3℃/min。Preferably, the freezing rate is 1.5°C/min to 3°C/min.
- 根据权利要求2所述的凝血因子Ⅷ中间品的冻存方法,其特征在于,所述凝血因子Ⅷ中间品在-20℃~-80℃的条件下储存;The cryopreservation method of the intermediate product of coagulation factor VIII according to claim 2, wherein the intermediate product of coagulation factor VIII is stored at -20°C to -80°C;优选的,所述凝血因子Ⅷ中间品在-20℃~-55℃的条件下储存;Preferably, the intermediate product of coagulation factor VIII is stored at -20°C to -55°C;优选的,所述凝血因子Ⅷ中间品使用液氮或干冰储存。Preferably, the intermediate product of coagulation factor VIII is stored using liquid nitrogen or dry ice.
- 根据权利要求1~4任一所述的凝血因子Ⅷ中间品的冻存方法,其特征在于,所述凝血因子Ⅷ中间品的比活性为:≥1IU/mg或≥10IU/mg或≥50IU/mg或≥70IU/mg或≥100IU/mg或≥200IU/mg或≥1000IU/mg。The cryopreservation method of the intermediate product of coagulation factor VIII according to any one of claims 1 to 4, wherein the specific activity of the intermediate product of coagulation factor VIII is: ≥1IU/mg or ≥10IU/mg or ≥50IU/ mg or ≥70IU/mg or ≥100IU/mg or ≥200IU/mg or ≥1000IU/mg.
- 根据权利要求1~4任一所述的凝血因子Ⅷ中间品的冻存方法,其特征在于,所述凝血因子Ⅷ中间品的溶液的pH为6.5-7.5。The cryopreservation method of the intermediate product of coagulation factor VIII according to any one of claims 1 to 4, wherein the pH of the solution of the intermediate product of coagulation factor VIII is 6.5-7.5.
- 一种包含权利要求1~6任一所述的凝血因子Ⅷ中间品的冻存方法的凝血因子Ⅷ制剂的制备工艺。A preparation process of a coagulation factor VIII preparation comprising the freezing storage method of the coagulation factor VIII intermediate product according to any one of claims 1 to 6.
- 一种减少凝血因子Ⅷ制品杂质析出的方法,其特征在于,在凝血因 子Ⅷ制品制备过程中,根据权利要求1~6任一所述的冻存方法对凝血因子Ⅷ中间品进行冻存。A method for reducing the precipitation of impurities in blood coagulation factor VIII products, which is characterized in that the intermediate product of coagulation factor VIII is frozen according to the freezing storage method of any one of claims 1 to 6 during the preparation process of the coagulation factor VIII products.
- 一种提高凝血因子Ⅷ制品长期稳定性的方法,其特征在于,在凝血因子Ⅷ制品制备过程中,根据权利要求1~6任一所述的冻存方法对凝血因子Ⅷ中间品进行冻存。A method for improving the long-term stability of coagulation factor VIII products, characterized in that, during the preparation process of coagulation factor VIII products, the intermediate product of coagulation factor VIII is cryopreserved according to the cryopreservation method of any one of claims 1 to 6.
- 由权利要求1-9的方法制备的产品。A product prepared by the method of claims 1-9.
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Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104231073A (en) * | 2014-09-25 | 2014-12-24 | 广东双林生物制药有限公司 | Preparation method of human coagulation factor VIII |
WO2015143696A1 (en) * | 2014-03-28 | 2015-10-01 | 成都蓉生药业有限责任公司 | Method for preparing cryoprecipitate and method for preparing blood coagulation factor viii preparation with the cryoprecipitate |
CN105294858A (en) * | 2015-12-05 | 2016-02-03 | 上海洲跃生物科技有限公司 | Method for preparing freeze-dried human blood coagulation factor VIII |
CN105348382A (en) * | 2015-12-05 | 2016-02-24 | 上海洲跃生物科技有限公司 | Method for preparing high-purity human coagulation factor VIII |
CN107337727A (en) * | 2017-08-03 | 2017-11-10 | 国药集团武汉血液制品有限公司 | A kind of haematogenous human blood coagulation factors VIII preparation method |
CN108976297A (en) * | 2018-08-08 | 2018-12-11 | 广东双林生物制药有限公司 | A kind of preparation method of cryoprecipitate and its application in human blood coagulation factors VIII production |
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CN102228683B (en) * | 2011-06-21 | 2013-03-13 | 南岳生物制药有限公司 | Method for preparing freeze-dried human blood coagulation factor VIII |
CN107226859B (en) * | 2017-08-10 | 2020-11-24 | 博雅生物制药集团股份有限公司 | Preparation method of human blood coagulation factor VIII |
CN107880112B (en) * | 2017-12-28 | 2021-05-14 | 华兰生物工程股份有限公司 | Preparation method of human blood coagulation factor VIII and human blood coagulation factor VIII product |
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Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2015143696A1 (en) * | 2014-03-28 | 2015-10-01 | 成都蓉生药业有限责任公司 | Method for preparing cryoprecipitate and method for preparing blood coagulation factor viii preparation with the cryoprecipitate |
CN104231073A (en) * | 2014-09-25 | 2014-12-24 | 广东双林生物制药有限公司 | Preparation method of human coagulation factor VIII |
CN105294858A (en) * | 2015-12-05 | 2016-02-03 | 上海洲跃生物科技有限公司 | Method for preparing freeze-dried human blood coagulation factor VIII |
CN105348382A (en) * | 2015-12-05 | 2016-02-24 | 上海洲跃生物科技有限公司 | Method for preparing high-purity human coagulation factor VIII |
CN107337727A (en) * | 2017-08-03 | 2017-11-10 | 国药集团武汉血液制品有限公司 | A kind of haematogenous human blood coagulation factors VIII preparation method |
CN108976297A (en) * | 2018-08-08 | 2018-12-11 | 广东双林生物制药有限公司 | A kind of preparation method of cryoprecipitate and its application in human blood coagulation factors VIII production |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113563457A (en) * | 2021-08-20 | 2021-10-29 | 华兰生物工程股份有限公司 | Method for simultaneously preparing human fibrinogen, blood coagulation factor VIII and plasminogen |
CN113563457B (en) * | 2021-08-20 | 2023-02-24 | 华兰生物工程股份有限公司 | Method for simultaneously preparing human fibrinogen, blood coagulation factor VIII and plasminogen |
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