WO2008028956A1 - Vaccine - Google Patents
Vaccine Download PDFInfo
- Publication number
- WO2008028956A1 WO2008028956A1 PCT/EP2007/059390 EP2007059390W WO2008028956A1 WO 2008028956 A1 WO2008028956 A1 WO 2008028956A1 EP 2007059390 W EP2007059390 W EP 2007059390W WO 2008028956 A1 WO2008028956 A1 WO 2008028956A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- vaccine
- antigen units
- antigen
- ipv
- dose
- Prior art date
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Definitions
- the present invention relates to the field of vaccines for protecting against polio, and in particular to combination vaccines for protecting against polio, diphtheria, tetanus, and pertussis diseases.
- Combination vaccines which provide protection against multiple pathogens
- the well-documented phenomenon of antigenic competition (or interference) complicates the development of multi- component vaccines.
- Antigenic interference refers to the observation that administering multiple antigens often results in a diminished response to certain antigens relative to the immune response observed when such antigens are administered individually.
- Combination vaccines are known which can prevent Bordetella pertussis, Clostridium tetani, Corynebacterium diphtheriae, and optionally inactivated poliovirus (IPV), and/or Hepatitis B virus, and/or Haemophilus type B infection (see for instance WO 93/24148, WO97/00697 and WO2000/030678).
- IPV inactivated poliovirus
- the present invention provides various reduced-dose IPV vaccines (which may only have IPV components or may have IPV components combined with other antigens). Accordingly, in one aspect the present invention provides an IPV vaccine of the invention comprising inactivated poliovirus type 1 at a dose greater than 10 D- antigen units and less than 20 D-antigen units, e.g. 11, 12, 13, 14, 15, 16, 17, 18 or 19 D-antigen units.
- the present invention provides an IPV vaccine of the invention comprising inactivated poliovirus type 3 at a dose of 8-20 D-antigen units, e.g. 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19 or 20 D-antigen units.
- the present invention provides an IPV vaccine of the invention comprising inactivated poliovirus type 2 at a dose of 2-4 D-antigen units, e.g. 2, 3 or 4 D-antigen units.
- the present invention provides an IPV vaccine of the invention further comprising diphtheria toxoid and/or tetanus toxoid and/or a pertussis vaccine in the form of killed whole-cell Pw vaccine or acellular pertussis antigens.
- the present invention provides an IPV vaccine of the invention which is a thiomersal free DTP-IPV combination vaccine comprising inactivated poliovirus type 1 at a dose between 10 and 36 D-antigen units.
- the present invention provides a thiomersal free DTP- IPV combination vaccine of the invention comprising inactivated poliovirus type 2 at a dose of 2-7 D-antigen units, e.g. 5, 6 or 7 D-antigen units.
- the present invention provides a thiomersal free DTP- IPV combination vaccine of the invention comprising inactivated poliovirus type 3 at a dose of 8-29 D-antigen units, e.g. 21, 22, 23, 24, 25, 26, 27, 28 or 29 D-antigen units.
- the vaccines of the present invention may also comprise one or more antigens selected from the group consisting of: Hepatitis B surface antigen, Haemophilus influenzae b antigen(s), Neisseria meningitidis A antigen(s), Neisseria meningitidis C antigen(s), Neisseria meningitidis W antigen(s), Neisseria meningitidis Y antigen(s), Neisseria meningitidis B bleb or antigen(s), Hepatitis A antigen(s) and Salmonella typhi antigen(s), in particular capsular saccharide antigens from said bacteria.
- Methods of making the vaccines of the invention are also provided.
- D-antigen units also referred to as "international units” or IU: The D antigenic form of the poliovirus induces protective neutralising antibodies.
- D antigen units referred to herein are the measured total D antigen units of each unadsorbed bulk IPV antigen type prior to formulation of the final vaccine which are added in each human dose of formulated vaccine (typically 0.5mL final volume).
- Reliable methods of measuring D-antigen units are well known in the art and are published, for instance, by the European Pharmacopoeia. For instance, D-antigen units may be measured using the ELISA test as described in Example 1 ("D-antigen quantification by ELISA") below.
- European Pharmacopoeia provides a test sample (European Pharmacopoeia Biological Reference Preparation - available from Ph. Eur. Secretariat, e.g. Code P 216 0000) for standardisation of such methods between manufacturers (Pharmeuropa Special Issue, Bio 96-2). Thus the D-antigen unit value is well understood in the art.
- dose herein is typically one administration of the vaccine of the invention, which is typically one injection.
- a typical human dose is 0.5mL. Of course various doses may be administered in a vaccine administration schedule.
- IPV inactivated polio virus type 1 (e.g. Mahoney, as preferably used, or Brunhilde as marketed by Statens Serum Institut under the name of DiTeKiPoI), type 2 (e.g. MEF-I), or type 3 (e.g. Saukett), or a combination of either two or all three of these types.
- polio virus type 1 e.g. Mahoney, as preferably used, or Brunhilde as marketed by Statens Serum Institut under the name of DiTeKiPoI
- type 2 e.g. MEF-I
- type 3 e.g. Saukett
- An example of a full (or standard) dose (40-8-32 D antigen units of IPV types 1, 2 and 3 respectively) IPV vaccine for the purposes of this invention could be Poliorix® (GSK Biologicals S. A.).
- X% of a standard dose of IPV is present in a vaccine of the invention it is meant D-antigen units equating to X% of 40, 8, and/or 32 D-antigen units of IPV types 1, 2 and/or 3 respectively (as measured in each bulk IPV antigen type) are formulated within each dose of said vaccine.
- LPS lipopolysaccharide
- LOS lipooligosaccharide
- saccharide throughout this specification may indicate polysaccharide or oligosaccharide and includes both.
- the capsular saccharide antigen may be a full length polysaccharide or it may be extended to bacterial 'sized- saccharides' and Oligosaccharides' (which naturally have a low number of repeat units, or which are polysaccharides reduced in size for manageability, but are still capable of inducing a protective immune response in a host) which are well known in the vaccine art (see for instance EP 497525).
- nucleic acid herein can comprise single or double stranded deoxyribonucleic acid (DNA) or single or double stranded ribonucleic acid (RNA) or a mixture thereof.
- component(s) from a pathogen or “component(s) affording protection to such a pathogen” within the vaccines of the invention herein is intended to mean one or more antigen(s) from that pathogen.
- IPV potency of reduced dose IPV of the formulations "Method of production 3" was examined in vivo in comparison with reference formulation (Poliorix formulation and DTPaIPVHB). RP of IPV was measured at doses 100%, 50%, 25% and 12.5% of standard IPV dose (40/8/32 D-antigen units for types 1/2/3).
- FIG. 1 Evolution of the Relative Potency (RP) of DTPwSF-HB-IPV formulation flow-sheet.
- the potency of reduced dose IPV for both formulations "Method of production 3" and “Method of production 4" was examined in vivo in comparison with reference formulations (Poliorix formulation and DTPaIPVHB).
- RP was measured for both "Method of production 3" and "Method of production 4" at 25% of the standard IPV dose (40/8/32 D-antigen units for types 1/2/3) in comparison to a placebo with 25% of IPV alone.
- the present invention provides a vaccine (e.g. a combination vaccine) comprising antigens from poliovirus (IPV) and optionally Corynebacterium diphtheriae (D), Clostridium tetani (T), Bordetella pertussis (P) or Hepatitis B.
- a vaccine e.g. a combination vaccine
- IPV poliovirus
- D Corynebacterium diphtheriae
- T Clostridium tetani
- P Bordetella pertussis
- Hepatitis B e.g. a combination vaccine
- the antigens of the invention IPV vaccine components
- Vaccines of the invention may be comprised of IPV type 1 or IPV type 2 or IPV type 3, or IPV types 1 and 2, or IPV types 1 and 3, or IPV types 2 and 3, or IPV types 1, 2 and 3.
- IPV inactivated poliovirus
- IPV should comprise types 1, 2 and 3 as is common in the vaccine art, and may be the SaIk polio vaccine which is inactivated with formaldehyde (see for example, Sutter et al, 2000, Pediatr. Clin. North Am. 47:287; Zimmerman & Spann 1999, Am Fam Physician 59:113; SaIk et al., 1954, Official Monthly Publication of the American Public Health Association 44(5):563; Hennesen, 1981, Develop. Biol. Standard 47:139; Budowsky, 1991, Adv. Virus Res. 39:255).
- the IPV is not adsorbed (e.g. before mixing with other components if present).
- the IPV component(s) of the invention may be adsorbed onto an aluminium salt such as aluminium hydroxide (e.g. before or after mixing with other components if present).
- the IPV component(s) of the invention may be adsorbed onto an aluminium salt such as aluminium phosphate.
- the IPV component(s) may be adsorbed onto a mixture of both aluminium hydroxide and aluminium phosphate. If adsorbed, one or more IPV components may be adsorbed separately or together as a mixture. IPV may be stabilised by a particular drying process as described in WO2004/039417.
- Poliovirus may be grown in cell culture.
- the cell culture may be a VERO cell line or PMKC, which is a continuous cell line derived from monkey kidney.
- VERO cells can conveniently be cultured microcarriers.
- Culture of the VERO cells before and during viral infection may involve the use of bovine-derived material, such as calf serum, and this material should be obtained from sources which are free from bovine spongiform encephalitis (BSE). Culture may also involve materials such as lactalbumin hydro lysate.
- virions may be purified using techniques such as ultrafiltration, diafiltration, and chromatography. Prior to administration to patients, the viruses must be inactivated, and this can be achieved by treatment with formaldehyde.
- Viruses may be grown, purified and inactivated individually, and then combined to give a concentrate bulk mixture for IPV vaccine use or for addition to the adsorbed diphtheria and tetanus antigen and pertussis components for DTPw-IPV or DTPa-IPV comprising vaccines.
- Antigens in vaccines of the invention will be present in "immunologically effective amounts" i.e. the administration of that amount to an individual, either in a single dose or as part of a series, is effective for treatment or prevention of disease.
- Dosage treatment may be a single dose schedule or a multiple dose schedule (e.g. including booster doses).
- Standard doses of polio vaccines today tend to contain 40 D antigen units of inactivated poliovirus type 1, 8 D antigen units of inactivated poliovirus type 2 and 32 D antigen units of inactivated poliovirus type 3 (e.g. Infanrix-IPVTM).
- an IPV vaccine dose of the present invention may comprise between 10 and 36 D-antigen units of IPV type 1 (e.g. 11-32, 12-28, 13-24, 14-20 or 15-19 D-antigen units).
- an IPV vaccine dose of the present invention may comprise IPV type 1 at a dose of 10-20 D-antigen units or a dose greater than 10 D-antigen units and less than 20 D-antigen units.
- a vaccine dose of the present invention may comprise 26-49%, 30-45%, 33-40%, 35-37%, or approximately or exactly one third of a standard 40 D-antigen unit dose of IPV type 1 (equivalent to approximately 10.4-19.6, 12-18, 13.2-16, 14-14.8 or 13.3 D-antigen units).
- an IPV vaccine dose of the present invention may comprise 11-32 D- antigen units, 12-28 D-antigen units, 13-24 D-antigen units or 14-20 D-antigen units of IPV type 1.
- an IPV vaccine dose of the present invention may comprise 10- 19.5 D-antigen units, 12-19 D-antigen units, 14-18.5 D-antigen units, or 15-17 D- antigen units; for instance around or exactly 16 D-antigen units of IPV type 1.
- the vaccines of the present invention may comprise less than 4 D-antigen units, 2-4 D-antigen units (equivalent to 25-50% of a standard 8 D-antigen unit dose) or around or exactly 3 D-antigen units of IPV type 2 (equivalent to 37.5% of a standard 8 D-antigen unit dose).
- the vaccine of the present invention may comprise approximately or exactly one third of a standard 8 D-antigen unit dose of IPV type 2 (equivalent to approximately 2.7 D-antigen units).
- the vaccines of the present invention may comprise 2-7 D-antigen units of IPV type 2.
- an IPV vaccine dose of the present invention may comprise 3-6 D-antigen units, or 4-5 D-antigen units of IPV type 2.
- an IPV vaccine dose of the present invention may comprise 2-
- the vaccines of the present invention may comprise 8- 20 D-antigen units, more than 8 and less than 20 D-antigen units, 9-19 D-antigen units, 10-18 D-antigen units, 11-17 D-antigen units, 12-16 D-antigen units, or 13-15 D-antigen units; for instance around or exactly 14 D-antigen units of IPV type 3 (equivalent to 25-62.5%, 28.125-59.375%, 31.25-46.875% or 43.75% of a standard 32 D-antigen unit dose).
- the vaccine of the present invention may comprise approximately or exactly one third of a standard 32 D-antigen unit dose of IPV type 3 (equivalent to approximately 10.7 D-antigen units).
- an IPV vaccine dose of the present invention may comprise 8-29 D-antigen units, 9-26 D-antigen units, 10-23 D-antigen units, 11-20 D- antigen units, 12-17 D-antigen units, or 13-14 D-antigen units of IPV type 3.
- an IPV vaccine dose of the present invention may comprise 8- 19.5 D-antigen units, 9-19 D-antigen units, 10-18.5 D-antigen units, 11-18 D-antigen units, 12-17.5 D-antigen units, 13-17 D-antigen units, or 14-16 D-antigen units; for instance around or exactly 15 D-antigen units.
- DTP vaccines are well known vaccines to prevent or treat diphtheria, tetanus and B. pertussis disease.
- the vaccines of the invention may comprise diphtheria, tetanus and/or pertussis component(s).
- the diphtheria antigen is typically a diphtheria toxoid.
- the preparation of diphtheria toxoids (DT) is well documented. Any suitable diphtheria toxoid may be used.
- DT may be produced by purification of the toxin from a culture of Corynebacterium diphtheriae followed by chemical detoxification, but is alternatively made by purification of a recombinant, or genetically detoxified analogue of the toxin (for example, CRM 197, or other mutants as described in US 4,709,017, US 5,843,711, US 5,601,827, and US 5,917,017).
- DT is present at an amount of 5-50, 7-30Lf or approximately or exactly 7.5Lf or 25Lf per 0.5mL dose.
- DT is present at a low dose of less than 5Lf, or 1-4Lf or approximately or exactly 2Lf per 0.5mL dose.
- the diphtheria toxoid of the invention may be adsorbed onto an aluminium salt such as aluminium hydroxide.
- the diphtheria toxoid of the invention may be adsorbed onto an aluminium salt such as aluminium phosphate.
- the diphtheria toxoid may be adsorbed onto a mixture of both aluminium hydroxide and aluminium phosphate.
- the tetanus antigen of the invention is typically a tetanus toxoid. Methods of preparing tetanus toxoids (TT) are well known in the art.
- TT is produced by purification of the toxin from a culture of Clostridium tetani followed by chemical detoxification, but is alternatively made by purification of a recombinant, or genetically detoxified analogue of the toxin (for example, as described in EP 209281). Any suitable tetanus toxoid may be used. 'Tetanus toxoid' may encompass immunogenic fragments of the full-length protein (for instance Fragment C - see EP 478602). In one embodiment TT is present at an amount of 2.5-30Lf, 3-20 Lf, 5-15Lf or exactly or approximately 10Lf per 0.5mL dose.
- the tetanus toxoid of the invention may be adsorbed onto an aluminium salt such as aluminium hydroxide.
- the tetanus toxoid of the invention may be adsorbed onto an aluminium salt such as aluminium phosphate.
- the tetanus toxoid may be adsorbed onto a mixture of both aluminium hydroxide and aluminium phosphate.
- the pertussis component of the invention may be either acellular (Pa) where purified pertussis antigens are used or whole-cell (Pw) where killed whole cell pertussis is used as the pertussis component. Pw may be inactivated by several known methods, including mercury free methods.
- Such methods may include heat (e.g. 55- 65 0 C or 56-6O 0 C, for 5-60 minutes or for 10-30 minutes, e.g. 6O 0 C for 30 minutes), formaldehyde (e.g. 0.1% at 37°, 24 hours), glutaraldehyde (e.g. 0.05% at room temperature, 10 minutes), acetone-I (e.g. three treatments at room temperature) or acetone-II (e.g. three treatments at room temperature and fourth treatment at 37 0 C) inactivation (see for example Gupta et ah, 1987, J. Biol. Stand. 15:87; Gupta et ah, 1986, Vaccine, 4:185).
- heat e.g. 55- 65 0 C or 56-6O 0 C, for 5-60 minutes or for 10-30 minutes, e.g. 6O 0 C for 30 minutes
- formaldehyde e.g. 0.1% at 37°, 24 hours
- Pw killed, whole-cell Bordetella pertussis
- Methods of preparing killed, whole-cell Bordetella pertussis (Pw) suitable for this invention are disclosed in WO 93/24148, as are suitable formulation methods for producing DT-TT-Pw-HepB vaccines.
- Thiomersal has been used in the past in the preparation of killed whole-cell Bordetella pertussis (see below). However, in one embodiment it is not used in the formulation process of the vaccines of the present invention.
- IOU or around or exactly 20 IOU is typically used.
- Acellular Pa vaccines are also well known, and may comprise 2 or more antigens from: pertussis toxoid (PT), filamentous haemagglutinin (FHA), pertactin (PRN), agglutinogens 2 & 3.
- the Pa vaccine comprises PT, FHA and PRN.
- Kits or vaccines of the invention may comprise PT detoxified by a well known method of formaldehyde treatment or by means of mutations (PT derivative). Substitutions of residues within the Sl subunit of the protein have been found to result in a protein which retains its immunological and protective properties of the PT, but with reduced or no toxicity (EP 322533).
- the detoxifying mutations discussed in the claims of EP322533 are examples of the DT detoxified mutants of the present invention. Such mutants may be used at doses lower than 20-25 ⁇ g. In one embodiment PT is used at an amount of 2-50 ⁇ g, 5-40 ⁇ g, 10-30 ⁇ g or exactly or approximately 25 ⁇ g per 0.5mL dose. In another embodiment PT is used at an amount of exactly or approximately 2.5 or 8 ⁇ g per 0.5mL dose.
- FHA is used at an amount of 2-50 ⁇ g, 5-40 ⁇ g, 10-30 ⁇ g or exactly or approximately 25 ⁇ g per 0.5mL dose. In another embodiment FHA is used at an amount of exactly or approximately 2.5 or 8 ⁇ g per 0.5mL dose.
- PRN is used at an amount of 0.5-20 ⁇ g, 0.8-15 ⁇ g, 2-10 ⁇ g or exactly or approximately 8 ⁇ g per 0.5mL dose. In another embodiment PRN is used at an amount of exactly or around 0.8 or 2.5 ⁇ g per 0.5mL.
- the pertussis component of the invention may be adsorbed onto an aluminium salt such as aluminium hydroxide. In another embodiment, the pertussis component of the invention may be adsorbed onto an aluminium salt such as aluminium phosphate. In a further embodiment the pertussis component may be adsorbed onto a mixture of both aluminium hydroxide and aluminium phosphate. For instance in one embodiment at least PRN is adsorbed onto aluminium hydroxide with PT/FHA adsorbed onto aluminium hydroxide, aluminium phosphate or a mixture of both.
- DTPw or DTPa can additionally comprise one or more antigens selected from the group consisting of: Hepatitis B surface antigen, Haemophilus influenzae b antigen(s), Neisseria meningitidis A antigen(s), Neisseria meningitidis C antigen(s), Neisseria meningitidis W- 135 antigen(s), Neisseria meningitidis Y antigen(s), Neisseria meningitidis B bleb or purified antigen(s), Hepatitis A antigen(s), Salmonella typhi antigen(s) and RTS, S.
- the capsular saccharide or LOS antigens of these pathogens may be used.
- Antigens will typically be present at a concentration of at least 1 ⁇ g/mL each, for instance l-20 ⁇ g/mL, 2-15 ⁇ g/mL, 2.5-10 ⁇ g/mL, 3-8 ⁇ g/mL, or 4-6 ⁇ g/mL. In general, the concentration of any antigen will be sufficient to elicit an immune response against that antigen. It is preferred that the protective efficacy of individual antigens is not removed by combining them, although actual immunogenicity (e.g. ELISA titres) may be reduced.
- the further antigen(s) may in one embodiment of the invention be adsorbed onto an aluminium salt such as aluminium hydroxide.
- the further antigens of the invention may be adsorbed onto an aluminium salt such as aluminium phosphate.
- the further antigens may be adsorbed onto a mixture of both aluminium hydroxide and aluminium phosphate, or may be unadsorbed.
- compositions of the invention may be conjugated to a carrier protein comprising T helper epitopes in order to enhance immunogenicity.
- the invention may also comprise free "carrier proteins".
- nucleic acid encoding the antigen may be used. Protein components of the compositions of the invention may thus be replaced by nucleic acid (for instance DNA, which may be in the form of a plasmid) that encodes the protein.
- compositions of the invention may comprise proteins which mimic saccharide antigens e.g. mimotopes or anti-idiotype antibodies. These may replace individual saccharide components, or may supplement them.
- Hepatitis B surface antigen (HBsAg) is well documented. See for example, Hartford et al., 1983, Develop. Biol. Standard 54:125, Gregg et ah, 1987, Biotechnology 5:479, EP0226846, EP0299108. It may be prepared as follows. One method involves purifying the antigen in particulate form from the plasma of chronic hepatitis B carriers, as large quantities of HBsAg are synthesised in the liver and released into the blood stream during an HBV infection. Another method involves expressing the protein by recombinant DNA methods. The HBsAg may be prepared by expression in the Saccharomyces cerevisiae yeast, pichia, insect cells (e.g.
- the HBsAg may be inserted into a plasmid, and its expression from the plasmid may be controlled by a promoter such as the "GAPDH" promoter (from the glyceraldehyde-3 -phosphate dehydrogenase gene).
- the yeast may be cultured in a synthetic medium.
- HBsAg can then be purified by a process involving steps such as precipitation, ion exchange chromatography, and ultrafiltration. After purification, HBsAg may be subjected to dialysis (e.g. with cysteine).
- the HBsAg may be used in a particulate form.
- Hepatitis B surface antigen or "HBsAg” includes any HBsAg antigen or fragment thereof displaying the antigenicity of HBV surface antigen. It will be understood that in addition to the 226 amino acid sequence of the HBsAg S antigen (see Tiollais et al., 1985, Nature 317:489 and references therein) HBsAg as herein described may, if desired, contain all or part of a pre-S sequence as described in the above references and in EP0278940.
- the HBsAg may comprise a polypeptide comprising an amino acid sequence comprising residues 133-145 followed by residues 175-400 of the L-protein of HBsAg relative to the open reading frame on a Hepatitis B virus of ad serotype (this polypeptide is referred to as L*; see EP0414374).
- HBsAg within the scope of the invention may also include the preSl-preS2 -S polypeptide described in EPO 198474 (Endotronics) or analogues thereof such as those described in EP0304578 (McCormick and Jones)
- HBsAg as herein described can also refer to mutants, for example the "escape mutant" described in WO 91/14703 or EP0511855A1, especially HBsAg wherein the amino acid substitution at position 145 is to arginine from glycine.
- the HBsAg may be in particle form.
- the particles may comprise for example S protein alone or may be composite particles, for example L*, S) where L* is as defined above and S denotes the S-protein of HBsAg.
- the said particle is advantageously in the form in which it is expressed in yeast.
- HBsAg is the antigen used in EngerixBTM
- HBsAg is present at an amount of 5-20 ⁇ g, 8-15 ⁇ g or approximately or exactly lO ⁇ g per 0.5mL dose.
- Hepatitis B surface antigen may be adsorbed onto aluminium phosphate, which may be done before mixing with the other components (described in WO93/24148).
- the Hepatitis B component should be substantially thiomersal free (method of preparation of HBsAg without thiomersal has been previously published in EP 1307473).
- Haemophilus influenzae b antigen(s) Haemophilus influenzae b antigen(s)
- Vaccines comprising antigens from Haemophilus influenzae type B have been described in WO97/00697.
- the vaccines of the invention may use any suitable Haemophilus influenzae type B antigen.
- the antigen may be capsular saccharide (PRP) from Haemophilus influenzae type B conjugated to a carrier protein (Hib).
- PRP capsular saccharide
- Hib carrier protein
- the saccharide is a polymer of ribose, ribitol and phosphate.
- the Hib antigen may optionally be adsorbed onto aluminium phosphate as described in WO97/00697, or may be unadsorbed as described in WO02/00249 or may not have undergone a specific process of adsorption.
- Hib may be conjugated to any carrier which can provide at least one T-helper epitope (examples of which are described below), and may be tetanus toxoid, diphtheria toxoid, CRM- 197 (diphtheria toxin mutant) or Protein D.
- Hib may be lyophilised and may be reconstituted extemporaneously (e.g. with diluent, optionally comprising other antigenic components of the vaccines of the invention).
- Hib is present at an amount of 5-20 ⁇ g, 8-15 ⁇ g or approximately or exactly lO ⁇ g saccharide per 0.5mL dose.
- Hib is present at a low dose (e.g. l-6 ⁇ g, 2-4 ⁇ g or around or exactly 2.5 ⁇ g saccharide) as described in WO 02/00249.
- a low dose e.g. l-6 ⁇ g, 2-4 ⁇ g or around or exactly 2.5 ⁇ g saccharide
- the vaccines of the invention may further comprise a capsular saccharide of a bacterium selected from the group consisting of N. meningitidis type A (MenA, optionally conjugated to a carrier protein), N. meningitidis type C (MenC, optionally conjugated to a carrier protein), N. meningitidis type W- 135 (MenW, optionally conjugated to a carrier protein), and N. meningitidis type Y (MenY, optionally conjugated to a carrier protein).
- a capsular saccharide of a bacterium selected from the group consisting of N. meningitidis type A (MenA, optionally conjugated to a carrier protein), N. meningitidis type C (MenC, optionally conjugated to a carrier protein), N. meningitidis type W- 135 (MenW, optionally conjugated to a carrier protein), and N. meningitidis type Y (MenY, optionally conjug
- the vaccines of the invention may comprise one or more antigens from the different strains of N. meningitidis, which may be used alone or in any combination of two, three or four components as detailed below:
- the Neisseria meningitidis component(s) of the invention may be adsorbed onto an aluminium salt such as aluminium hydroxide. In another embodiment, the Neisseria meningitidis component(s) of the invention may be adsorbed onto an aluminium salt such as aluminium phosphate. In a further embodiment the Neisseria meningitidis component(s) may be adsorbed onto a mixture of both aluminium hydroxide and aluminium phosphate. In one embodiment the
- Neisseria meningitidis component(s) may be unadsorbed onto an adjuvant, e.g. an aluminium adjuvant salt.
- an adjuvant e.g. an aluminium adjuvant salt.
- the vaccines of the invention may also comprise a MenB component such as an outer membrane vesicle or bleb as described in WO01/09350, WO03/105890, WO04/014417, or WO04/014418 or a conjugated MenB capsular saccharide (or derivative thereof) antigen (e.g. see WO 96/40239) or a free or conjugated L2 or L3 or L2 and L3 meningococcal LOS (as per WO 2004/014417).
- the MenB component(s) of the invention may be adsorbed onto an aluminium salt such as aluminium hydroxide.
- the MenB component(s) of the invention may be adsorbed onto an aluminium salt such as aluminium phosphate.
- the MenB component(s) may be adsorbed onto a mixture of both aluminium hydroxide and aluminium phosphate.
- the MenB component(s) may be unadsorbed onto an adjuvant, e.g. an aluminium adjuvant salt.
- Salmonella typhi antigen(s) Salmonella typhi antigen(s)
- the vaccines of the invention may further comprise the Vi saccharide from Salmonella typhi, which may be the registered product Typherix®, described in EPl 107787, or a conjugate thereof (e.g. with a carrier protein as described herein).
- the conjugation process may be carried out as described in WO 2007/000343.
- the Vi saccharide(s) of the invention may be adsorbed onto an aluminium salt such as aluminium hydroxide.
- the Vi saccharide(s) of the invention may be adsorbed onto an aluminium salt such as aluminium phosphate.
- the Vi saccharide(s) may be adsorbed onto a mixture of both aluminium hydroxide and aluminium phosphate.
- the Vi saccharide(s) may be unadsorbed onto an adjuvant, e.g. an aluminium adjuvant salt.
- the component affording protection against Hepatitis A may be a killed attenuated Hepatitis A vaccine, for example the product known as HavrixTM (Registered Trade Mark of Glaxo SmithKline Biologicals S. A.) which is a killed attenuated vaccine derived from the HM- 175 strain of Hepatitis A virus (HAV) (see "Inactivated Candidate Vaccines for Hepatitis A" by F. E. Andre et al., 1980, Prog. Med. Virol. 37:72 and the product monograph "Havrix" published by SmithKline Beecham Biologicals 1991). Flehmig et al. (1990, Prog. Med Virol.
- HAV antigen refers to any antigen capable of stimulating neutralising antibody to HAV in humans.
- the HAV antigen comprises inactivated attenuated virus particles, or in another embodiment it may be a HAV capsid or HAV viral protein, which may conveniently be obtained by recombinant DNA technology.
- the Hepatitis A component of the invention may be adsorbed onto an aluminium salt such as aluminium hydroxide.
- the Hepatitis A component of the invention may be adsorbed onto an aluminium salt such as aluminium phosphate.
- the Hepatitis A component may be adsorbed onto a mixture of both aluminium hydroxide and aluminium phosphate.
- the vaccines of the invention may further comprise Malarial antigen(s).
- the Malarial antigen may be RTS, S (hybrid protein between CS and HBsAg - described in US 6,306,625 and EP 0614465).
- RTS,S may be used in the vaccines of the invention in place of HBsAg.
- Other Malarial antigens may also be used in the vaccines of the invention, including CS protein, RTS, TRAP, 16kD protein of B 2992, AMA-I, MSPl, optionally including CpG (WO2006/029887, WO98/05355, WO01/00231).
- the Malarial antigen(s) of the invention may be adsorbed onto an aluminium salt such as aluminium hydroxide.
- the Malarial antigen(s) of the invention may be adsorbed onto an aluminium salt such as aluminium phosphate.
- the Malarial antigen(s) may be adsorbed onto a mixture of both aluminium hydroxide and aluminium phosphate.
- the Malarial antigen is adjuvanted with an oil-in-water emulsion and/or lipid A derivative (such as MPL) and or sterol (such as cholesterol) and/or tocol (such as ⁇ -tocopherol)
- an adjuvant e.g. an aluminium adjuvant salt.
- Bacterial capsular saccharide conjugates of the invention may comprise any carrier peptide, polypeptide or protein comprising at least one T-helper epitope.
- the carrier protein(s) used may be selected from the group consisting of: tetanus toxoid, diphtheria toxoid, CRM 197, recombinant diphtheria toxin (as described in any of US 4,709,017, WO 93/25210, WO 95/33481, or WO 00/48638), pneumolysin (optionally chemically detoxified, or a detoxified mutant) from S. pneumoniae (see e.g. WO 2004/081515 and references referred to therein), OMPC from N.
- meningitidis EP 0372501
- protein D protein D
- Other carriers may include synthetic peptides (EP 0378881; EP 0427347), heat shock proteins (WO 93/17712; WO 94/03208), pertussis proteins (WO 98/58668; EP 0471177), cytokines (WO 91/01146), lymphokines (WO 91/01146), hormones (WO 91/01146), growth factors (WO 91/01146), artificial proteins comprising multiple human CD4 + T cell epitopes from various pathogen-derived antigens (Falugi et ah, 2001, Eur. J. Immunol.
- pneumococcal surface protein PspA WO 02/091998)
- iron uptake proteins WO 01/72337
- toxin A or B from C. difficile WO 00/61761
- pneumococcal PhtD WO 00/37105
- pneumococcal PhtDE e.g. WO 01/98334 & WO 03/054007
- PhtX PhtX
- Saccharides may all be on the same carrier, particularly all saccharides from a particular organism, for instance MenA, MenC, MenW and MenY saccharides may all be conjugated to TT, DT or CRM- 197.
- the saccharide antigens contained therein ('n' antigens) are conjugated to more than one carrier.
- (n-1) of the saccharides could be carried (separately) on one type of carrier, and 1 on a different carrier, or (n-2) on one, and 2 on two different carriers, etc.
- 1, 2 or all four could be conjugated to different carriers).
- Protein D may be used for various (2, 3, 4 or more) saccharides in a composition without a marked carrier suppression effect.
- Hib may be present as a TT, DT or CRM 197 conjugate
- MenA, MenC, MenY and MenW may be either TT, DT, CRM197 or PD conjugates.
- Vi may be present as a TT, DT or CRM 197 conjugate.
- Protein D is a useful carrier as it provides a further antigen which can provide protection against H. influenzae.
- all saccharides are conjugated to the same carrier protein.
- Vi may be conjugated to a carrier protein for instance by a method using carbodiimide (e.g. EDAC) condensation chemistry (given that the Vi repeat subunit comprises carboxylic acid groups).
- carbodiimide e.g. EDAC
- EDAC carbodiimide
- Conjugation may be used in conjunction with free carrier protein(s).
- the unconjugated form is no more than 5% of the total amount of the carrier protein in the composition as a whole, or in another embodiment is present at less than 2% by weight.
- the saccharide may be linked to the carrier protein by any known method (for example, by Likhite, U.S. Patent 4,372,945 and by Armor et al., U.S. Patent 4,474,757), with any suitable linker where necessary.
- the saccharide will typically be activated or functionalised prior to conjugation. Activation may involve, for example, cyanylating agents such as CDAP (1-cyano-dimethylaminopyridinium tetrafluoroborate) (WO 95/08348 & WO 96/29094).
- CDAP 1-cyano-dimethylaminopyridinium tetrafluoroborate
- the cyanilation reaction can be performed under relatively mild conditions, which avoids hydrolysis of the alkaline sensitive saccharides. This synthesis allows direct coupling to a carrier protein.
- Other suitable techniques use carbodiimides, hydrazides, active esters, norborane, p-nitrobenzoic acid, N- hydroxys
- Linkages via a linker group may be made using any known procedure, for example, the procedures described in US 4,882,317 and US 4,695,624.
- One type of linkage involves reductive amination of the saccharide, coupling the resulting amino group with one end of an adipic acid linker group (EP 0477508, Porro et al, 1985, MoI. Immunol. 22:907, EP 0208375), and then coupling a protein to the other end of the adipic acid linker group.
- Other linkers include B-propionamido (WO 00/10599), nitrophenyl-ethylamine (Gever et al., 1979, Med. Microbiol. Immunol.
- Direct linkages to the protein may comprise oxidation of the saccharide followed by reductive amination with the protein, as described in, for example US 4,761,283 and US 4,356,170 or a direct CDAP reaction.
- a vaccine comprises a given saccharide in both free and conjugated forms
- the unconjugated form is no more than 20% by weight of the total amount of that saccharide in the composition as a whole (e.g. ⁇ 15%, ⁇ 10%, ⁇ 5%, ⁇ 2%, ⁇ 1%).
- each dose will comprise 0.1-100 ⁇ g of saccharide, in another embodiment each dose will comprise 0.1-50 ⁇ g, in a further embodiment each dose will comprise 0.1-10 ⁇ g, in yet another embodiment each dose will comprise 1 to 5 ⁇ g.
- the vaccines of the invention may include a pharmaceutically acceptable excipient such as a suitable adjuvant.
- suitable adjuvants include an aluminium salt such as aluminium hydroxide or aluminium phosphate, but may also be a salt of calcium, iron or zinc, or may be an insoluble suspension of acylated tyrosine, or acylated sugars, or may be cationically or anionically derivatised saccharides, polyphosphazenes, biodegradable microspheres, monophosphoryl lipid A (MPL), lipid A derivatives (e.g.
- MPL monophosphoryl lipid A
- Human immunomodulators suitable for use as adjuvants in the invention include cytokines such as interleukins (e.g. IL-I, IL-2, IL-4, IL-5, IL-6, IL-7, IL-12, etc), macrophage colony stimulating factor (M-CSF), tumour necrosis factor (TNF), granulocyte, macrophage colony stimulating factor (GM-CSF) may also be used as adjuvants.
- the adjuvant composition of the formulations induces an immune response predominantly of the THl type. High levels of THl-type cytokines (e.g.
- IFN- ⁇ , TNF ⁇ , IL-2 and IL-12 tend to favour the induction of cell mediated immune responses to an administered antigen.
- the level of THl-type cytokines will increase to a greater extent than the level of TH2-type cytokines.
- the levels of these cytokines may be readily assessed using standard assays. For a review of the families of cytokines, see Mosmann and Coffman, 1989, Ann. Rev. Immunol. 7:145.
- suitable adjuvant systems which promote a predominantly THl response include, derivatives of lipid A (e.g. of reduced toxicity), Monophosphoryl lipid A (MPL) or a derivative thereof, particularly 3-de-O-acylated monophosphoryl lipid A (3D-MPL), and a combination of monophosphoryl lipid A, optionally 3-de-O- acylated monophosphoryl lipid A together with an aluminium salt.
- An enhanced system involves the combination of a monophosphoryl lipid A and a saponin derivative, particularly the combination of QS21 and 3D-MPL as disclosed in WO 94/00153, or a less reactogenic composition where the QS21 is quenched with cholesterol as disclosed in WO 96/33739.
- a particularly potent adjuvant formulation involving QS21, 3D-MPL and tocopherol in an oil in water emulsion is described in WO 95/17210.
- the vaccine may additionally comprise a saponin, which may be QS21.
- the formulation may also comprise an oil in water emulsion and tocopherol (WO 95/17210).
- Unmethylated CpG containing oligonucleotides (WO 96/02555) are also preferential inducers of a THl response and are suitable for use in the present invention.
- the vaccines of the invention may also comprise combinations of aspects of one or more of the adjuvants of the invention identified above.
- any adjuvant of the invention can be adsorbed by or combined with IPV component of the invention.
- IPV component of the invention When referring to aluminium hydroxide or aluminium phosphate, reference is made to all aluminium hydroxide and or aluminium phosphate adjuvants as described by Hem and White (Pharm Biotechnol. 1995;6:249-276).
- aluminium phosphate may also be referred to as aluminium hydroxyphosphate.
- aluminium phosphate has a negative charge at a pH of 7.4.
- the isoelectric point (pi) of aluminium phosphate is 5-7, or 6-7 or around or exactly 5.
- aluminium phosphate has a molar phosphate : aluminium ratio of 0.3-0.9, or 0.3-0.6, or 0.8-0.9.
- aluminium hydroxide has a positive charge at a pH of 7.4.
- the pi of aluminium hydroxide is 8-11, 9-11, 10-11 or around or exactly 11.
- the total aluminium content is 200-1000 ⁇ g, 300-900 ⁇ g, 400-800 ⁇ g,
- Al + content may be from a mixture of aluminium hydroxide and aluminium phosphate in the following ratio: 1 :8-8:1, 1 :4-4:1, 3:8-8:3, 1 :2-2:1 or 1 :1 of aluminium phosphate: aluminium hydroxide. In one embodiment a ratio of 12:1-4:1, 11 : 1-5:1, 10:1-6:1, 9:1-7:1 or 8:1 of aluminium phosphate: aluminium hydroxide is used.
- aluminium is provided by preadsorbed antigens before mixture to form a combination vaccine
- some aluminium may be added in free form during formulation of the combination vaccine of the invention, e.g. before the pH adjustment step described herein.
- free aluminium content per 0.5 mL dose may be 0-300 ⁇ g, 50-250 ⁇ g, 75-200 ⁇ g, 100-150 ⁇ g or around or exactly 115 ⁇ g of Al 3+ .
- Free Al 3+ may be all Al(OH) 3 or all AlPO 4 , or a mixture of Al(OH) 3 and A1PO4 in the following ratio (w:w A1 3+ :A1 3+ ): 1 :1-1 :6, 1 :1.1-1 :5, 1 :1.2-1 :4, 1 :1.3-1 :3, 1 :1.4- 1 :2, e.g. 23/92 or 69/46 or 6:1-1 :1, 5:1-1.1 : 1, 4:1-1.2:1, 3:1-1.3:1, 2:1-1.4:1, e.g. 46/69 or 92/23.
- certain components of the vaccines of the invention may be not expressly adsorbed onto adjuvant, in particular aluminium salts.
- IPV may be unadsorbed or adsorbed onto Al(0H)3 or a mixture of Al(OH) 3 and AlPO 4 .
- DT may be adsorbed onto Al(OH) 3 or AlPO 4
- TT may be adsorbed onto Al(OH) 3 or AlPO 4
- Pw may be adsorbed onto or mixed with AlPO 4
- PRN may be adsorbed onto Al(OH) 3
- FHA may be adsorbed onto Al(OH) 3
- PT may be adsorbed onto Al(OH) 3
- HB may be adsorbed onto AlPO 4
- Hib may be adsorbed onto AIPO4 or unadsorbed
- Men ACWY may be adsorbed onto Al(OH) 3 or AIPO4 or unadsorbed
- MenB component may be adsorbed onto Al(OH) 3 or AIPO4 or unadsorbed
- Vi may be adsorbed onto Al(OH) 3 or AIPO 4 or unadsorbed
- HepA may be adsorbed onto Al(OH) 3 Or AlPO 4 .
- Antigens which are preadsorbed onto an aluminium salt can be preadsorbed individually prior to mixing.
- a mix of antigens may be preadsorbed prior to mixing with further adjuvants.
- IPV may be adsorbed separately or as a mixture of IPV types 1, 2 and 3 or when mixed with adsorbed D and T components.
- adsorbed antigen is for example taken to mean greater than 20%, 30%, 40%, 50%, 60%, 70%, 80%, or 90% adsorbed.
- aluminium phosphate and "aluminium hydroxide” as used herein includes all forms of aluminium hydroxide or aluminium phosphate which are suitable for adjuvanting vaccines.
- aluminium phosphate can be a precipitate of insoluble aluminium phosphate (amorphous, semi-crystalline or crystalline), which can be optionally but not exclusively prepared by mixing soluble aluminium salts and phosphoric acid salts.
- Alkyl phosphate can be a precipitate of insoluble aluminium phosphate (amorphous, semi-crystalline or crystalline) aluminium hydroxide, which can be optionally but not exclusively prepared by neutralising a solution of aluminium salts.
- Vaccines of the invention will typically, in addition to the antigenic and adjuvant components mentioned above, comprise one or more "pharmaceutically acceptable carriers or excipients", which include any excipient that does not itself induce the production of antibodies harmful to the individual receiving the composition.
- Suitable excipients are typically large, slowly metabolised macromolecules such as proteins, saccharides, polylactic acids, polyglycolic acids, polymeric amino acids, amino acid copolymers, sucrose (Paoletti et ah, 2001, Vaccine, 19:2118), trehalose (WO 00/56365), lactose and lipid aggregates (such as oil droplets or liposomes).
- Such carriers are well known to those of ordinary skill in the art.
- the vaccines may also contain diluents, such as water, saline, glycerol, etc. Additionally, auxiliary substances, such as wetting or emulsifying agents, pH buffering substances, and the like, may be present. Sterile pyrogen-free, phosphate buffered physiologic saline is a typical carrier. A thorough discussion of pharmaceutically acceptable excipients is available in reference Gennaro, 2000, Remington: The Science and Practice of Pharmacy, 20 th edition, ISBN:0683306472.
- compositions of the invention may be lyophilised or in aqueous form, i.e. solutions or suspensions. Liquid formulations of this type allow the compositions to be administered direct from their packaged form, without the need for reconstitution in an aqueous medium, and are thus ideal for injection.
- Compositions may be presented in vials, or they may be presented in ready filled syringes. The syringes may be supplied with or without needles.
- a syringe will include a single dose of the composition, whereas a vial may include a single dose or multiple doses (e.g. 2 doses).
- the dose is for human.
- the dose is for an adult, adolescent, toddler, infant or less than one year old human and may be administered by injection.
- Liquid vaccines of the invention are also suitable for reconstituting other vaccines from a lyophilised form.
- the invention provides a kit, which may comprise two vials, or may comprise one ready-filled syringe and one vial, with the contents of the syringe being used to reconstitute the contents of the vial prior to injection.
- Vaccines of the invention may be packaged in unit dose form or in multiple dose form (e.g. 2 doses). For multiple dose forms, vials are preferred to pre-filled syringes. Effective dosage volumes can be routinely established, but a typical human dose of the composition for injection has a volume of 0.5mL.
- vaccines of the invention have a pH of between 6.0 and 8.0, in another embodiment vaccines of the invention have a pH of between 6.3 and 6.9, e.g. 6.6+0.2. Vaccines may be buffered at this pH. Stable pH may be maintained by the use of a buffer. If a composition comprises an aluminium hydroxide salt, a histidine buffer may be used (WO03/009869). The composition should be sterile and/or pyrogen free.
- compositions of the invention may be isotonic with respect to humans.
- Vaccines of the invention may include an antimicrobial, particularly when packaged in a multiple dose format. Thiomersal should be avoided as this leads to loss of potency of the IPV component.
- Other antimicrobials may be used, such as 2- phenoxyethanol or parabens (methyl, ethyl, propyl parabens).
- Any preservative is preferably present at low levels. Preservative may be added exogenously and/or may be a component of the bulk antigens which are mixed to form the composition (e.g. present as a preservative in pertussis antigens).
- vaccines of the invention are thiomersal free or substantially thiomersal free.
- thiomersal free or “substantially thiomersal free” it is meant that there is not enough thiomersal present in the final formulation to negatively impact the potency of the IPV component.
- Thiomersal content in the final vaccine should be less than 0.025 ⁇ g/ ⁇ g protein, 0.02 ⁇ g/ ⁇ g protein, O.Ol ⁇ g/ ⁇ g protein or O.OOl ⁇ g/ ⁇ g protein, for instance O ⁇ g/ ⁇ g protein.
- thiomersal is not added nor used in the purification of any component. See for instance EP1307473 for Hepatitis B and see above for Pw processes where killing is achieved not in the presence of thiomersal.
- Vaccines of the invention may comprise detergent e.g. a Tween (polysorbate), such as Tween 80. Detergents are generally present at low levels e.g. ⁇ 0.01%. Vaccines of the invention may include sodium salts (e.g. sodium chloride) to give tonicity.
- the composition may comprise sodium chloride.
- the concentration of sodium chloride in the composition of the invention is in the range of 0.1 to 100 mg/mL (e.g. l-50mg/mL, 2-20mg/mL, 5-15mg/mL) and in a further embodiment the concentration of sodium chloride is 10 ⁇ 2mg/mL NaCl e.g. about 9mg/mL.
- Vaccines of the invention will generally include a buffer.
- a phosphate or histidine buffer is typical.
- Vaccines of the invention may include free phosphate ions in solution (e.g. by the use of a phosphate buffer) in order to favour non-adsorption of antigens.
- the concentration of free phosphate ions in the composition of the invention is in one embodiment between 0.1 and 10.OmM, or in another embodiment between 1 and 5mM, or in a further embodiment about 2.5mM.
- the vaccines of the invention are formulated as a vaccine for in vivo administration to the host in such a way that the individual components of the composition are formulated such that the immunogenicity of individual components is not substantially impaired by other individual components of the composition.
- substantially impaired it is meant that upon immunisation, an antibody titre against each component is obtained which is more than 60%, 70%, 80% or 90%, or 95-100% of the titre obtained when the antigen is administered in isolation.
- no (significantly) detrimental effect occurs to the further components (in terms of protective efficacy) in the combination as compared to their administration in isolation.
- the vaccines of the invention are formulated as a vaccine for in vivo administration to the host, such that they confer an antibody titre superior to the criterion for seroprotection for each antigenic component for an acceptable percentage of human subjects. This is an important test in the assessment of a vaccine's efficacy throughout the population. Antigens with an associated antibody titre above which a host is considered to be seroconverted against the antigen are well known, and such titres are published by organisations such as WHO.
- more than 80% of a statistically significant sample of subjects is seroconverted, in another embodiment more than 90% of a statistically significant sample of subjects is seroconverted, in a further embodiment more than 93% of a statistically significant sample of subjects is seroconverted and in yet another embodiment 96-100% of a statistically significant sample of subjects is seroconverted.
- the amount of antigen in each vaccine dose is selected as an amount which induces an immunoprotective response without significant, adverse side effects in typical vaccines. Such amount will vary depending on which specific immunogens are employed. Generally it is expected that each dose will comprise l-1000 ⁇ g of total immunogen, or l-100 ⁇ g, or l-40 ⁇ g, or l-5 ⁇ g. An optimal amount for a particular vaccine can be ascertained by studies involving observation of antibody titres and other responses in subjects.
- a primary vaccination course may include 2-3 doses of vaccine, given one to two months apart, e.g. following the WHO recommendations for DTP immunisation (i.e. in first year of life). Booster doses may follow in the second and/or subsequent year(s) of life.
- the assay for the IPV quantitative evaluation of the vaccine potency of the IPV containing vaccines of the invention should be carried out using a single dose of vaccine and should be done by determining the ratio of test vaccine geometric mean titre (GMT) to reference vaccine GMT and is reported as the relative response (RR) or relative potency (RP).
- GTT test vaccine geometric mean titre
- RR relative response
- RP relative potency
- Reference GMT may be the GMT obtained with any IPV vaccine comprising 40-8-32 D-antigen units of IPV types 1-2-3 respectively, and may be the GMT obtained with the known vaccine Poliorix®.
- the RP test is carried out by as follows:
- the potency of poliovirus Types 1, 2 and 3 is determined on rats by seroneutralisation : Groups of 10 healthy rats (Sprague-Dawley (OFA) or any beforehand validated strain) are inoculated intramuscularly with dilutions (1/1.25; 1/3.125; 1/7.81) of the test samples or reference material in phosphate buffer saline. If necessary, the dilution range may be extended to 4 dilutions by inoculating undiluted vaccine and the three previous mentioned dilutions. Ten rats inoculated with the diluent are used as negative controls. Rats are observed once a week to detect any abnormal reaction.
- each animal is deeply anesthetized, and bled and the serum is collected to be analysed by seroneutralisation test.
- seroneutralisation test sera are inactivated by incubation at 56°C for 30 minutes in a water bath. Three dilution series of the sera, one for each polio type, are prepared in microplates using the appropriate dilution medium. Plates are stored at
- CCID50 is added to the sera dilutions.
- the three virus suspensions are diluted taking into account their respective titers. The final dilution is called 'working dilution'. Each working dilution is added to the corresponding microplates. Plates are then sealed and incubated at 37°C ⁇ 1°C for 16 hours. Hep-2 cells are then added and microplates are incubated at 37°C ⁇ 1°C for 7 days.
- the cytopathogenic effect (CPE) of the virus is read using an inverted microscope after Coomassie blue coloration. The presence of anti-poliomyelitis antibodies inhibits the growth of the virus and the appearance of the corresponding CPE.
- the anti-polio virus titers (type 1, 2 and 3) correspond to the reciprocal of the last dilution without any CPE.
- animals with neutralising antibodies are recorded and the antibodies titer of each serum sample is determined for the different type of poliovirus.
- the neutralizing antibody titer is expressed as the Iog2 of the inverse of the highest dilution of the serum sample that totally inhibits the cytopathic effect of poliovirus on Hep-2 cells.
- the geometric mean titer per dilution (GMT) and per virus type is also determined for each group of rats.
- Vaccines of the invention can be packaged in various types of container e.g. in vials, in syringes, etc.
- a multidose vial will typically comprise a re-sealable plastic port through which a sterile needle can be inserted to remove a dose of vaccine, which reseals once the needle has been removed.
- the vaccine may be supplied in various containers (e.g. 2 or 3).
- the contents of the containers may be mixed extemporaneously before administering to a host in a single injection or may be administered concomitantly at different sites.
- the dose of the vaccine or each vaccine if a kit is administered concomitantly (in two or more containers) will typically be 0.5mL.
- kits comprising two multi-valent vaccines for conferring protection in a host against disease caused by poliovirus, Bordetella pertussis, Clostridium tetani, Corynebacterium diphtheriae and optionally one or more of Hepatitis B, Haemophilus influenza type B, Neisseria meningitidis type A, Neisseria meningitidis type C, Neisseria meningitidis type W, Neisseria meningitidis type Y, Neisseria meningitidis type B, Salmonella typhi, Hepatitis A or Malaria.
- the kit comprises a first container comprising:
- IPV Inactivated polio virus
- Hepatitis B surface antigen HepB or HB
- (2B) (a) a conjugate of a carrier protein and the capsular saccharide of H. influenzae type B ( ⁇ ib), and
- the kit may optionally comprise a third container comprising:
- the containers may in either case additionally comprise HepA antigen(s) and/or MenB antigen(s) and/or RTS, S and/or Streptococcus pneumonia antigen(s). In either case, the same antigen should not be present in both containers.
- the first container has in addition to components a), b), c), d) also e), f), g), e)+f), e)+g), f)+g) or e)+f)+g).
- the vaccine of the first container may be liquid and the vaccine of the second container may be either liquid or lyophilised (e.g. in the presence of a known stabilising excipient such as sucrose or trehalose).
- kits of the kit can be packaged separately or, optionally, packed together.
- the kit is provided with a list of instructions for administration of the vaccines in the two or more containers.
- a container in a kit contains a certain saccharide conjugate
- the same conjugate is not present in the other containers of the kit.
- kits provided in the above way may advantageously present the various antigens to a host's immune system in an optimal manner.
- the kit may provide a medical practitioner with an optimal method of immunising a host with one or more of the following advantages: protective efficacy for all antigens, minimal reactogenicity, minimal carrier suppression interference, minimal adjuvant/antigen interference, or minimal antigen/antigen interference.
- protective efficacy for all antigens minimal reactogenicity
- minimal carrier suppression interference minimal adjuvant/antigen interference
- minimal antigen/antigen interference minimal antigen/antigen interference.
- these goals may be achieved with the minimum number (two) administrations, optionally occurring at the same visit to the practitioner.
- the vaccines of the first and second containers are administered concomitantly at different sites (as described below under
- the present invention also provides a method for producing a vaccine formulation comprising the step of mixing the components of the vaccine together with a pharmaceutically acceptable excipient.
- a vaccine as herein described for use in a medicament for the treatment or prevention of diseases caused by infection by poliovirus and optionally Bordetella pertussis, Clostridium tetani, Corynebacterium diphtheriae, Hepatitis B virus, Haemophilus influenzae, Neisseria meningitidis type A, Neisseria meningitidis type C, Neisseria meningitidis type W, Neisseria meningitidis type Y, Salmonella typhi or Hepatitis A.
- each vaccine dose is selected as an amount which induces an immunoprotective response without significant, adverse side effects in typical vaccines. Such amount will vary depending upon which specific immunogen is employed and how it is presented.
- each dose will comprise 0.1-100 ⁇ g of saccharide, in another embodiment each dose will comprise 0.1-50 ⁇ g, in a further embodiment each dose will comprise 0.1-10 ⁇ g, in yet another embodiment each dose will comprise 1 to 5 ⁇ g saccharide.
- the content of protein antigens in the vaccine will be in the range l-100 ⁇ g, in another embodiment the content of the protein antigens in the vaccines will be in the range 5-50 ⁇ g, in a further embodiment the content of the protein antigens in the vaccines will be in the range 5 - 25 ⁇ g.
- Vaccine preparation is generally described in Vaccine Design ["The subunit and adjuvant approach” (eds Powell M.F. & Newman M.J.) (1995) Plenum Press New York].
- Encapsulation within liposomes is described by Fullerton, US Patent 4,235,877. Conjugation of proteins to macromolecules is disclosed, for example by Likhite, US Patent 4,372,945 and by Armor et al, US Patent 4,474,757.
- Use of Quil A is disclosed by Dalsgaard et al., 1977, Acta Vet Scand. 18:349.
- 3D-MPL is available from Ribi immunochem, USA and is disclosed in British Patent Application No. 2220211 and US Patent 4,912,094.
- QS21 is disclosed in US Patent 5,057,540.
- a multi-valent vaccine comprising inactivated poliovirus (IPV) of the invention and optionally killed whole-cell Bordetella pertussis (Pw), tetanus toxoid (TT), diphtheria toxoid (DT), a conjugate of a carrier protein and the capsular saccharide of H. influenzae type B ( ⁇ ib - optionally conjugated to TT, DT or CRM 197), wherein the amount of conjugate per 0.5 mL dose of bulk vaccine is 1-8 ⁇ g, and the immunogenicity of the conjugate is equivalent or improved over such compositions comprising larger amounts of conjugate.
- Hepatitis B surface antigen may also be included.
- the amount of conjugate per 0.5 mL dose of bulk vaccine is less than 10 ⁇ g (of saccharide in the conjugate), in another embodiment the amount of conjugate is 1-7, in another embodiment the amount of conjugate is 2-6 ⁇ g, or in a further embodiment about 2.5, 3, 4 or 5 ⁇ g.
- DTPw components can be combined separately before adding the adsorbed HBsAg or other components.
- a method of making vaccines of the invention comprising the step of mixing IPV type 1 , IPV type 2 and/or IPV type 3 with a pharmaceutically acceptable excipient.
- a typical process for preparing bulk vaccine of the invention with further antigens will add the IPV components to a mixture of the D and T components, i.e. the DT components are mixed with the IPV components. This order of mixing allows the ionic strength and/or pH of the composition to be adjusted (e.g. pH ⁇ 7) prior to the addition of the Pa or Pw components.
- HB pre-adsorbed onto AlPO 4 is added first if included in the composition, followed by the addition of DT pre-adsorbed onto Al(OH) 3 or AlPO 4 , followed by the addition of TT pre- adsorbed onto Al(OH) 3 or AlPO 4 , followed by the addition of IPV optionally pre- adsorbed onto Al(OH) 3 , prior to pH adjustment to e.g. pH5.9-7.2, or pH6-7, or pH6.2- 6.8, or pH6.4-6.6, and then the addition of Pw pre-adsorbed onto AlPO 4 .
- Hib, Vi, MenA, MenC, MenW, Men Y, MenB and/or HepA antigens may be added at any point in this process.
- Hib, Vi, MenA, MenC, MenW, Men Y, MenB and/or HepA antigens are added prior to pH adjustment.
- one or more antigens of the invention are adsorbed onto aluminium phosphate or aluminium hydroxide or a mixture of both.
- the antigens of the invention are mixed with a pharmaceutically acceptable excipient and/or adjuvant(s).
- the vaccine composition of the invention may be prepared in the following order: preadsorbed HBsAg is added, followed by preadsorbed Diphtheria toxoid, followed by preadsorbed tetanus toxoid and IPV, the pH is then adjusted to approximately 6.5 prior to adding preadsorbed Pw.
- the vaccine composition of the invention may be prepared in the following order: preadsorbed tetanus toxoid is added, followed by IPV, followed by preadsorbed HBsAg, followed by preadsorbed Diphtheria toxoid, the pH is then adjusted to approximately 6.5 prior to adding preadsorbed Pw.
- the combined vaccine compositions according to any aspect of the invention can be prepared as follows: The IPV, DTPw, HepB, MenA, MenC, MenW, MenY, MenB, Vi, Hepatitis A or other components are pre-adsorbed onto a suitable adjuvant, especially aluminium hydroxide or aluminium phosphate or a mixture of both. After allowing time for complete and stable adsorption of the respective components, the different components are combined under appropriate conditions.
- the Hib, Vi, MenA, MenC, MenW and/or MenY conjugate(s) may or may not be adsorbed onto aluminium adjuvant salt before being mixed with the DTPw vaccine.
- vaccines of the invention are prepared at between 15 0 C and 3O 0 C (e.g. between 19 0 C and 27 0 C, or at 23+4 0 C).
- the invention provides a method for raising an immune response in a mammal, comprising the step of administering an effective amount of a vaccine of the invention.
- the vaccines can be administered prophylactically (i.e. to prevent infection).
- the immune response is preferably protective and preferably involves antibodies.
- the method may raise a booster response.
- the mammal is a human.
- the human is preferably a child (e.g. a toddler of infant) or a teenager; where the vaccine is for therapeutic use, the human is preferably an adult.
- a vaccine intended for children may also be administered to adults e.g. to assess safety, dosage, immunogenicity, etc.
- the vaccine preparations of the present invention may be used to protect or treat a mammal susceptible to infection, by means of administering said vaccine directly to a patient.
- Direct delivery may be accomplished by parenteral administration (intramuscularly, intraperitoneally, intradermally, subcutaneously, intravenously, or to the interstitial space of a tissue); or by rectal, oral, vaginal, topical, transdermal, intranasal, ocular, aural, pulmonary or other mucosal administration.
- administration is by intramuscular injection to the thigh or the upper arm. Injection may be via a needle (e.g.
- compositions of the invention may be prepared in various forms.
- the compositions may be prepared as injectables, either as liquid solutions or suspensions.
- the composition may be prepared for pulmonary administration e.g. as an inhaler, using a fine powder or spray.
- the composition may be prepared as a suppository or pessary.
- the composition may be prepared for nasal, aural or ocular administration e.g. as spray, drops, gel or powder (see e.g.
- the vaccines of the first and second (and third where applicable) containers are administered concomitantly at different sites, and in an alternative embodiment the inventors envision that the contents of the first and second containers may be mixed (optionally extemporaneously) before administration as a single vaccine.
- the invention may be used to elicit systemic and/or mucosal immunity.
- One way of checking the efficacy of therapeutic treatment involves monitoring bacterial infection after administration of the composition of the invention.
- One way of checking efficacy of prophylactic treatment involves monitoring immune responses against the antigens after administration of the composition. Immunogenicity of compositions of the invention can be determined by administering them to test subjects (e.g. children 12-16 months age, or animal models - WO 01/30390) and then determining standard immunological parameters. These immune responses will generally be determined around 4 weeks after administration of the composition, and compared to values determined before administration of the composition. Rather than assessing actual protective efficacy in patients, standard animal and in vitro models and correlates of protection for assessing the efficacy of DTP vaccines are well known.
- the antigens are adsorbed by addition of aluminium salt prior to formulation except IPV which is added without adsorption.
- IPV aluminium salt
- DTPW SF Hepatitis B surface antigen : DTPW SF -HB as a reference (DTPW SF means that it is a thiomersal free formulation), formulated with the production method 1 (table 5).
- IPV aluminium salts
- buffers of the others antigens As IPV is the only antigen in this placebo, there is no competition for adsorption.
- IPV is completely adsorbed.
- This vaccine is formulated with the production method 5 (table 5).
- the vaccines formulated with production method 2, 3, 4 and 5 were produced with an
- HBsAg, D and T are adsorbed separately on AlPO 4 , AlPO 4 and Al(0H)3 respectively.
- the three antigens are sequentially added to a suspension containing water, NaCl and free AlPO 4 .
- the mixture is stirred for 60- 75 min.
- the pH is adjusted to 6.5 before addition of adsorbed Pw.
- the three adsorbed antigens are sequentially added to a suspension containing water, NaCl and free AlPO 4 .
- the mixture is stirred for 60-75 min before IPV addition.
- the pH is adjusted to 6.5 before addition of Pw antigens.
- T antigen is adsorbed on Al(OH) 3 .
- Preadsorbed T antigen is added to a suspension containing water and NaCl, followed by IPV types 1, 2 and 3. The mixture is stirred for 60-75 minutes before addition of free AlPO 4 .
- Preadsorbed HBsAg is then added, followed by preadsorbed D antigen, and the mixture is then stirred for an additional 60-75 minutes.
- the pH is adjusted to 6.5 before addition of Pw antigens.
- the method of production 3 was eventually selected due to ease of manufacture as this protocol only involved one stirring step. During the process of manufacturing the vaccine, thiomersal is not used, and is not added to the final vaccine product.
- the D-antigen content is the values targeted for the dilution of the concentrated inactivated polio bulk during the formulation Table 6.
- the potency of the vaccine was determined by a seroneutralisation test after intramuscular inoculation of rats (Sprague-Dawley (OFA) or any beforehand validated strain). Groups of 10 na ⁇ ve healthy rats were inoculated intramuscularly (0.5 mL) with dilutions of the test samples, reference material in phosphate buffer saline, or diluent (phosphate buffer saline). The ten rats inoculated with the diluent were used as negative controls. Twenty to twenty-two days after the inoculation (immunisation period), each animal was deeply anesthetized prior to blood collection by cardiac puncture. Blood samples were centrifuged (at approximately 800 g), and serums were analysed.
- Sera were inactivated by incubation at 56°C for 30 minutes.
- a predetermined amount of virus was added to the sera dilutions.
- the three virus suspensions were diluted taking into account their respective titers. The final dilution is called 'working dilution'.
- Each working dilution was added to the corresponding microplates. Plates were then sealed and incubated at 37°C ⁇ 1°C for 16 hours. Hep-2 cells were then added and microplates were incubated at 37°C ⁇ 1°C for 7 days.
- the cytopathogenic effect (CPE) of the virus was read using an inverted microscope after Coomassie blue colouration.
- anti-poliomyelitis antibodies inhibits the growth of the virus and the appearance of the corresponding CPE.
- the anti-polio virus titers (type 1, 2 and 3) correspond to the reciprocal of the last dilution without any CPE.
- mice with neutralising antibodies are recorded and the antibodies titer of each serum sample is determined for the different type of poliovirus.
- the neutralizing antibody titer is expressed as the Iog2 of the inverse of the highest dilution of the serum sample that totally inhibits the cytopathic effect of poliovirus on Hep-2 cells.
- the geometric mean titer per dilution (GMT) and per virus type is then determined for each group of rats.
- the vaccine dilution and subsequently the amount of D-antigen which induced neutralising antibodies in 50 % of the rats (ED50) was also calculated by probit analysis.
- the ED50 was expressed in D-antigen units.
- the relative potency defined as the ratio of two equivalent dose responses in a multi-dose test was measured.
- the potency of the test vaccine is calculated by parallel line assay as described in Finney, 1978 (Statistical Method in Biological Assay, Charles Griffin & Company Ltd, London, 1978).
- the determination of the potency Polio by ELISA is performed in one or two steps depending on whether measurement is being carried out on bulk unadsorbed IPV vs formulated vaccines respectively:
- the three poliovirus antigens are quantified by ELISA as described below.
- D-antigen quantification by ELISA Microtiter plates are coated with specific rabbit anti-polio virus (type 1, 2 or 3) IgG, diluted with carbonate/bicarbonate buffer (pH 9.6), and incubated overnight at 4° C. After washing, the saturating solution (phosphate buffer saline w/o Ca and Mg + 1 % BSA) is added. Blanks (PBS) and serial dilutions of vaccine samples and in-house unadsorbed standard are added in duplicate.
- the in house trivalent standard preparation contains calibrated type 1, 2 and 3 antigens.
- the calibrator is the European Pharmacopoeia Biological reference (EPBRP).
- the microtiter plates are incubated during lh30 at 37°C and washed.
- Rabbit anti-polio virus (type 1, 2 or 3) IgG conjugated to peroxydase, diluted with phosphate buffer (w/o Ca and Mg + Tween 20) containing BSA, is added.
- the substrate solution containing the tetramethylbenzidine dissolved in dimethyl sulfoxyde (DMSO) and diluted in acetate buffer containing 0.003% H 2 O 2 , is added, followed by a 15-30 minutes incubation in the dark.
- the blocking solution containing H 2 SO 4 , is then added.
- the optical density (O. D.) of each well is read using a photometer set at 450 nm with a reference at 620 nm.
- the D-antigen concentration in test samples is calculated from the standard curve obtained by plotting the O. D. values against the standard antigen concentrations.
- any unadsorbed IPV antigen may be detected by the completeness method:
- the microtiter plates are incubated during lh30 at 37°C and washed.
- Rabbit anti-polio virus (type 1, 2 or 3) IgG conjugated to peroxydase, diluted with phosphate buffer (w/o Ca and Mg + Tween 20) containing BSA, is added.
- the substrate solution containing the tetramethylbenzidine dissolved in dimethyl sulfoxyde (DMSO) and diluted in acetate buffer containing 0.003% H 2 O 2 , is added, followed by a 15-30 minutes incubation in the dark.
- the blocking solution containing H 2 SO 4 , is then added.
- the optical density (O. D.) of each well is read using a photometer set at 450 nm with a reference at 620 nm.
- the completeness is considered positive (antigen in the supernatant) if the mean OD of sample is higher than the mean OD values of blanks + 3 standard deviations and if the mean OD of sample is higher than 0.1.
- the antigen content is measured by ELISA method as described in the second step of the Potency Polio Type 1, 2 and 3 by ELISA.
- IOU Cell concentration
- the opacity of Single Strain Suspension is then determined by applying the "assigned opacity" equation as follows:
- the DTPW SF -HB-IPV formulation (100% IPV) presents IPV potencies better than the reference Poliorix and similar or better than the reference DTPaHBIPV.
- the potency is measured by in vitro and in vivo methods described above.
- the potency by Elisa of reduced dose IPV for both formulations of methods of production 3 and 4 was examined in vitro and compared with reference DTPaIPVHB as shown in Table 9. Two batches for each formulation were tested for method of production 3.
- the percentage of recovery was calculated with regard to the antigen content taken from IPV bulk for each formulation (e.g. 40/8/32 for 100% IPV containing formulation; 20/8/16 for 50 % IPV containing formulation; 10/4/8 for 25 % IPV containing formulation; 5/2/4 for 12.5 IPV containing formulation) VB62122
- Table 9 show that the adsorption completeness is similar for all IPV doses.
- the Type 1 and Type 3 are strongly desorbed (17% - 74%) while the Type 2 stay well adsorbed.
- the three types are well adsorbed for the placebo formulation for all the IPV doses.
- the adsorption is similar as for DTPaIPVHB reference vaccine.
- Figure 1 shows that the IPV potency of DTPwSF-HB-IP V with 100% IPV is slightly greater than the potency of IPV in DTPaHBIPV.
- the IPV potency of DTPwSF-HB- IPV 50% from the formulation of method of production 3 can be seen to be similar to DTPaHBIPV 100%.
- the IPV potency for DTPwSF-HB-IPV 25% of method of production 3 is slightly lower than for Poliorix®. It was also found that 12.5% of the IPV dose was not sufficient to obtain a good IPV potency.
- FIG. 2 shows that the IPV potency is similar for the formulation of method of production 3 and the formulation of method of production 4. It is also shown that there is a trend of better potency for the placebo than for DTPwSF-HB-IPV.
- the Preservative Efficacy Test allows the demonstration of the antimicrobial activity of the tested vaccine.
- the test consists in:
- the PET testing procedure is described in the European Pharmacopoeia (5.1.3) and in the USP ( ⁇ 51>). According to these guidelines, the antimicrobial activity is evaluated by comparing the reduction in the number of viable micro-organisms with the criteria mentioned in the following table (Table 7)
- Relative potency of IPV was measured as described in Example 1 to determine the effects the Hib component may have on IPV potency and to evaluate the stability of IPV over time at different IPV doses.
- the vaccines investigated were DTPwHBIPV(40-8-32), DTPwHBIPV with reconstituted Hib and stored for 8 months, DTPwHBIPV(20-4-16), DTPwHBIPV(20-4-16) with reconstituted Hib and stored for 8 months, DTPwHBIPV(20-4-16) and stored for 8 months, DTPwHBIPV(10-2-8) and DTPwHBIPV(10-2-8) with reconstituted Hib and stored for 8 months.
- Example 4 Effect of A1PO4/A1(OH)3 ratio on the visual aspect, the adsorption of D and T and the potency of IPV
- the formulations DTPW SF -HB-IPV usually contains 630 ⁇ g Aluminium: 560 ⁇ g Al 3+ as A1PO4, 70 ⁇ g A13+ as Al(0H)3. Aluminium salts are used to adsorb D, T, Pw and HBsAg. 115 ⁇ g Al 3+ of free AlPO 4 is added during the formulation.
- Formulations were performed with the same production method and a dose-range for IPV between 0 and 100% of the regular IPV dose.
- IPV adsorption was followed.
- the stability of the adsorption was followed by a treatment of 21 days at 25°C.
- the increase of the Al(0H)3 content in the formulations allows an adsorption improvement for D, T and IPV.
- Each IPV type is adsorbed. Desorption of the Type 3 occurs 21 days at 25 0 C.
- DTPaHBIPV, Tetravac and Poliorix give similar results, inferior to the DTPw-HB-IPV formulations (except for the type 2 for which all the formulations are equivalent).
- the co-primary objectives will be assessed in sequential manner: i.e. the second and third objectives will be assessed only if the preceding one has been met.
- ⁇ S To demonstrate the non-inferiority of the DTPw-HB V-IPV(standard dose)/Hib vaccine to the IPV vaccine co-administered with the DTPw-HBV/Hib vaccine in terms of antibody response to the three poliovirus types, one month after the primary vaccination course.
- DTPw-HB V-IPV/Hib candidate vaccine in terms of response to all vaccine antigens in comparison with the DTPw-HBV/Hib and IPV vaccines co-administered.
- the DTPw-HBV-IPV formulation combines diphtheria toxoid, tetanus toxoid, three Bordetella pertussis strains, the purified major surface antigen (HBsAg) of the Hepatitis B virus (HBV) and the inactivated polio virus (IPV). These antigens, except IPV, were first pre-adsorbed on aluminium salt before being mixed with aluminium salt, sodium chloride buffer and water for injection.
- the diphtheria purified concentrate was adsorbed on aluminium phosphate in a ratio of 15 Lf Diphtheria toxoid / 0.15 mg Ab+.
- the two components were stirred for 15 up to 45 minutes at room temperature.
- the pH was adjusted to pH 5.1 ⁇ 0.1, followed by stirring for 15 up to 45 minutes.
- the mix was stored for one week at 37°C.
- the adsorbed concentrate was stored at +2°C -+8°C for at least 7 days before final formulation of DTPw-HB-IPV vaccine.
- Figure 1 hereafter highlights the adsorption manufacturing process of the pre-adsorbed Diphtheria bulk.
- the purified tetanus concentrate was adsorbed on aluminium hydroxide in a ratio of 3.25 Lf/ 0.07 mg Al 3+ .
- the two components were stirred for 15 up to 20 minutes.
- the pH was adjusted at pH 6.1 ⁇ 0.1.
- the mix was stored under stirring for 16 up to 24 hours at room temperature.
- a sodium chloride solution of 1500 mM of nominal concentration was added (ad 150 mM). After stirring of 15 up to 45 minutes at room temperature, the pH was adjusted to 6.1 ⁇ 0.1.
- the adsorbed concentrate was stored at +2°C -+8°C for at least 14 days before final formulation of DTPw-HBV-IPV vaccine.
- the sterile purified HBsAg bulk was mixed with a sterile suspension of aluminium phosphate in order to obtain a suspension which contains per 10 ⁇ g HBsAg, 0.2 mg Al 3+ (as aluminium phosphate), 150 mM NaCl in a final volume of about 50 ⁇ l.
- the A1P04 solution was transferred aseptically into a sterile vessel.
- the solution was stirred for 5 to 10 minutes and the pH was adjusted to 6.5 +/- 0.1 with IM HCl or 0.5M NaOH directly in the vessel.
- the solution was stirred for 15-20 minutes.
- the pH was checked (6.5 +/- 0.1) and adjusted if necessary.
- the pertussis pooled harvest (PPH) was mixed for a minimum of 15 minutes prior to use and then the PPH was added into the sterile vessel containing the AIPO4. The suspension was stirred for minimuml5 minutes at room temperature and could be stored overnight at room temperature. If the product was stored overnight at room temperature, it had to be resuspended for minimum 30 minutes before distribution. Samples were taken for testing. The Pw adsorbed bulk was distributed into sterile glass bottles and stored at 2-8°C. Flow chart of Pw adsorption
- the sodium chloride solution and water were mixed for injections in order to achieve a final concentration of 150 mM NaCl.
- HEF diphtheria and tetanus concentrates were added in order to obtain a final concentration of 10 ⁇ g of HBsAg, 7.5 Lf diphtheria toxoid and 3.25 Lf tetanus toxoid per 0.5 ml dose.
- Indication/populations Primary immunization of healthy infants in the first week of life against diphtheria, tetatus, pertussis, hepatitis B, poliomyelitis and Haemophilus influenzae type b diseases.
- the vaccine is constituted of two parts: a liquid part (DTPa-HB-IPV) and a freeze dried part (Hib).
- D, T, PT, FHA, PRN and HBsAg are preliminary pre-adsorbed. Water and NaCl are blended with the different antigens. The mixture is stirred to homogenize and pH is adjusted. The final composition of the DTPa-HB-IPV part of the vaccine is presented in the table hereafter.
- composition for one 0.5mL human dose of DTPa-HBV-IPV Hib is pre-adsorbed.
- the Hib pre-adsorbed is mixed with sucrose or lactose prior to freeze drying.
- the Hib amount will be 2.5 or 5 or lO ⁇ g per human dose.
- Aluminium content will be from 30 to 120 ⁇ g Al 3+ as AlPO 4 per human dose.
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Abstract
Description
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Priority Applications (21)
Application Number | Priority Date | Filing Date | Title |
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ES07803333.9T ES2365557T5 (en) | 2006-09-07 | 2007-09-07 | Inactivated Poliovirus Combination Vaccines |
CN200780041465.XA CN101534855B (en) | 2006-09-07 | 2007-09-07 | Vaccine |
US12/440,054 US8945582B2 (en) | 2006-09-07 | 2007-09-07 | Vaccine |
MX2009002560A MX2009002560A (en) | 2006-09-07 | 2007-09-07 | Vaccine. |
SI200730635T SI2066344T1 (en) | 2006-09-07 | 2007-09-07 | Inactivated Poliovirus combination vaccine |
JP2009527147A JP5814507B2 (en) | 2006-09-07 | 2007-09-07 | vaccine |
CA002662051A CA2662051A1 (en) | 2006-09-07 | 2007-09-07 | Vaccine |
BRPI0716518A BRPI0716518B8 (en) | 2006-09-07 | 2007-09-07 | ipv vaccine and its use |
PL07803333T PL2066344T3 (en) | 2006-09-07 | 2007-09-07 | Inactivated Poliovirus combination vaccine |
UAA200901646A UA95810C2 (en) | 2006-09-07 | 2007-09-07 | Inactivated poliovirus vaccine |
AT07803333T ATE511398T1 (en) | 2006-09-07 | 2007-09-07 | INACTIVATED POLIOVIRUS MIXED VACCINE |
DK07803333.9T DK2066344T3 (en) | 2006-09-07 | 2007-09-07 | Inactivated Poliovirus combination vaccine |
NZ575272A NZ575272A (en) | 2006-09-07 | 2007-09-07 | Inactivated poliovirus type 1, diptheria toxoid, tetanus toxoid and killed whole-cell Bordetella pertussis vaccine |
AU2007293672A AU2007293672B2 (en) | 2006-09-07 | 2007-09-07 | Vaccine |
EP07803333.9A EP2066344B2 (en) | 2006-09-07 | 2007-09-07 | Inactivated Poliovirus combination vaccine |
UAA200901962A UA97376C2 (en) | 2006-09-07 | 2007-09-07 | Vaccine |
EA200900288A EA015964B1 (en) | 2006-09-07 | 2007-09-07 | Vaccine |
NO20090865A NO20090865L (en) | 2006-09-07 | 2009-02-25 | Vaccine |
IL197272A IL197272A (en) | 2006-09-07 | 2009-02-26 | Ip vaccine for immunizing a human and uses thereof in the manufacture of a medicament for the prevention of disease caused by poliovirus, clostridium tetani, corynebacterium diphtheria and bordetella pertussis |
HK09106864.1A HK1129563A1 (en) | 2006-09-07 | 2009-07-24 | Inactivated poliovirus combination vaccine |
HR20110431T HRP20110431T1 (en) | 2006-09-07 | 2011-06-09 | Inactivated poliovirus combination vaccine |
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GBGB0617602.8A GB0617602D0 (en) | 2006-09-07 | 2006-09-07 | Vaccine |
GB0617602.8 | 2006-09-07 | ||
GB0625593A GB0625593D0 (en) | 2006-12-21 | 2006-12-21 | Vaccine |
GB0625593.9 | 2006-12-21 |
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WO2008028956A1 true WO2008028956A1 (en) | 2008-03-13 |
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PCT/EP2007/059391 WO2008028957A2 (en) | 2006-09-07 | 2007-09-07 | Vaccine |
PCT/EP2007/059390 WO2008028956A1 (en) | 2006-09-07 | 2007-09-07 | Vaccine |
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PCT/EP2007/059391 WO2008028957A2 (en) | 2006-09-07 | 2007-09-07 | Vaccine |
Country Status (26)
Country | Link |
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US (3) | US8956625B2 (en) |
EP (3) | EP2491947A3 (en) |
JP (5) | JP5814507B2 (en) |
KR (2) | KR20090058552A (en) |
CN (2) | CN103585624A (en) |
AT (1) | ATE511398T1 (en) |
AU (2) | AU2007293673B2 (en) |
BR (2) | BRPI0716519A2 (en) |
CA (2) | CA2662051A1 (en) |
CO (2) | CO6160335A2 (en) |
CR (2) | CR10669A (en) |
CY (2) | CY1111680T1 (en) |
DK (2) | DK2066344T3 (en) |
EA (2) | EA015964B1 (en) |
ES (1) | ES2387582T3 (en) |
HK (1) | HK1129563A1 (en) |
HR (2) | HRP20110431T1 (en) |
IL (2) | IL197272A (en) |
MA (2) | MA30715B1 (en) |
MX (2) | MX2009002561A (en) |
NO (2) | NO20090865L (en) |
NZ (2) | NZ575272A (en) |
PL (2) | PL2097102T3 (en) |
PT (2) | PT2097102E (en) |
SI (2) | SI2097102T1 (en) |
WO (2) | WO2008028957A2 (en) |
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