WO2006128937A2 - Nanoparticulas que comprenden quitosano y ciclodextrina - Google Patents
Nanoparticulas que comprenden quitosano y ciclodextrina Download PDFInfo
- Publication number
- WO2006128937A2 WO2006128937A2 PCT/ES2006/000322 ES2006000322W WO2006128937A2 WO 2006128937 A2 WO2006128937 A2 WO 2006128937A2 ES 2006000322 W ES2006000322 W ES 2006000322W WO 2006128937 A2 WO2006128937 A2 WO 2006128937A2
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- WIPO (PCT)
- Prior art keywords
- cyclodextrin
- chitosan
- nanoparticles
- biologically active
- active molecule
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Classifications
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K9/00—Medicinal preparations characterised by special physical form
- A61K9/48—Preparations in capsules, e.g. of gelatin, of chocolate
- A61K9/50—Microcapsules having a gas, liquid or semi-solid filling; Solid microparticles or pellets surrounded by a distinct coating layer, e.g. coated microspheres, coated drug crystals
- A61K9/51—Nanocapsules; Nanoparticles
- A61K9/5107—Excipients; Inactive ingredients
- A61K9/513—Organic macromolecular compounds; Dendrimers
- A61K9/5161—Polysaccharides, e.g. alginate, chitosan, cellulose derivatives; Cyclodextrin
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K9/00—Medicinal preparations characterised by special physical form
- A61K9/48—Preparations in capsules, e.g. of gelatin, of chocolate
- A61K9/50—Microcapsules having a gas, liquid or semi-solid filling; Solid microparticles or pellets surrounded by a distinct coating layer, e.g. coated microspheres, coated drug crystals
- A61K9/51—Nanocapsules; Nanoparticles
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K47/00—Medicinal preparations characterised by the non-active ingredients used, e.g. carriers or inert additives; Targeting or modifying agents chemically bound to the active ingredient
- A61K47/30—Macromolecular organic or inorganic compounds, e.g. inorganic polyphosphates
- A61K47/36—Polysaccharides; Derivatives thereof, e.g. gums, starch, alginate, dextrin, hyaluronic acid, chitosan, inulin, agar or pectin
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K47/00—Medicinal preparations characterised by the non-active ingredients used, e.g. carriers or inert additives; Targeting or modifying agents chemically bound to the active ingredient
- A61K47/30—Macromolecular organic or inorganic compounds, e.g. inorganic polyphosphates
- A61K47/36—Polysaccharides; Derivatives thereof, e.g. gums, starch, alginate, dextrin, hyaluronic acid, chitosan, inulin, agar or pectin
- A61K47/40—Cyclodextrins; Derivatives thereof
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K9/00—Medicinal preparations characterised by special physical form
- A61K9/0012—Galenical forms characterised by the site of application
- A61K9/0043—Nose
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K9/00—Medicinal preparations characterised by special physical form
- A61K9/14—Particulate form, e.g. powders, Processes for size reducing of pure drugs or the resulting products, Pure drug nanoparticles
- A61K9/16—Agglomerates; Granulates; Microbeadlets ; Microspheres; Pellets; Solid products obtained by spray drying, spray freeze drying, spray congealing,(multiple) emulsion solvent evaporation or extraction
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B82—NANOTECHNOLOGY
- B82Y—SPECIFIC USES OR APPLICATIONS OF NANOSTRUCTURES; MEASUREMENT OR ANALYSIS OF NANOSTRUCTURES; MANUFACTURE OR TREATMENT OF NANOSTRUCTURES
- B82Y5/00—Nanobiotechnology or nanomedicine, e.g. protein engineering or drug delivery
Definitions
- the present invention is directed to nanoparticulate systems for the release of biologically active molecules. Specifically, it is directed to nanoparticulate systems, consisting of a mixture of the chitosan polymer and a cyclodextrin in which a biologically active molecule can be located, as well as procedures for obtaining it.
- Polymeric nanoparticles are being given special attention due to their interest in improving stability and promoting the transport and controlled release of drugs to certain regions of the body, overcoming the problems associated with the limited permeability of epithelial barriers.
- chitosan has received great attention in recent years due to its properties as a mucoadhesive (CM. Lehr, JA Bouwstra, EH Schacht, and HE Junginger, Int. J. Pharm., 1992, 78, 43- 48) and absorption promoter (P. Artursson, T. Lindmark, SS Davis, and L. Illum, Pharm. Res., 1994, 11, 1358-1361).
- Chitosan As a material of acceptable toxicological profile (SB Rao and CP Sharma, J. Biomed. Mater. Res., 1997, 34, 21-28), which has already been approved by the FDA as an additive in animal feed (JD McCurdy, Advances in Chitin and Chitosan, Elsevier Applied Science, London, 1992, pp. 757-764).
- Chitosan [ ⁇ (l-4) 2-amino 2-deoxy- ⁇ -D-Glucan] is a naturally occurring polysaccharide from the deacetylation of chitin.
- the chitosans used as a food supplement or for medical applications are random polymers of acetylated and deacetylated monomers.
- Chitosan nanoparticles have been widely studied as vehicles for the transmucosal administration of a large number of therapeutic molecules (AM De Campos, Y. Diebold, El Carvalho, A. Sánchez, and MJ Alonso, Pharm. Res., 2004, 21, 803-810; R. Femandez-Urrusuno, P. Calvo, C. Remu ⁇ án-López, JL Vila-Jato, and MJ Alonso, Pharm. Res., 1999, 16, 1576-1581; A. Prokov, E. Kozlov, GW Newman, and MJ Newman, Biotechnology and bioengineering, 2002, 78, 459-466; A. ViIa, A. Sánchez, K.
- cyclodextrins are known as complex agents before poorly soluble molecules and as vehicles for the administration of active ingredients.
- chemically modified cyclodextrins are currently the most widely used in pharmaceutical technology due to their greater chemical versatility.
- the replacement of hydroxyls with methyl, hydroxypropyl or carboxymethyl groups gives the molecules greater water solubility and better toxicity characteristics.
- Other cyclodextrins allow the complexes to have reduced solubility (used for the formulation of sustained release systems) or temperature dependent solubility.
- cyclodextrin complexing has been shown to be able to reduce the degradation kinetics of certain labile drugs, or the tendency to form inactive aggregates of peptides such as insulin.
- certain cyclodextrins have the ability to promote the absorption of drugs because they produce slight disruptions in cell membranes by complexing their lipids.
- US5843347, US5840341 and US5639473 describe polymer compositions in solution, in macroscopic particles or microparticles.
- the methods described for the formation of particles such as extrusion (US5843347) or the formation of water-in-oil emulsions (US5639473) do not allow obtaining particles smaller than several micrometers in size.
- WO9961062 refers to the preparation of polymeric microparticles with cyclodextrins, where cyclodextrins have the function of protecting the drug from possible unfavorable interactions with the polymer matrix.
- US6630169 patent describes the formation of microstructures as vehicles of vaccines by transmucosal routes.
- US5639473 refers to the modification by crosslinking with disulfide groups of hydrophilic polymers (such as chitosan) or oligosaccharides (such as cyclodextrins).
- hydrophilic polymers such as chitosan
- oligosaccharides such as cyclodextrins
- WO03027169 describes the formation of hydrophilic polymer derivatives with covalently linked cyclodextrins and their usefulness for the formation of pharmaceutical systems (including micro- and nanoparticles).
- a preparation method is described which includes emulsion cross-linking of the matrix poly- or oligosaccharides to give rise to ether type bonds between these molecules.
- US5700459 and US6649192 describe methods for the formation of chitosan nanoparticles for pharmaceutical applications.
- the nanoparticles are formed by the interaction of a polycation (such as chitosan) with a polyanion (such as tripolyphosphate).
- a polycation such as chitosan
- a polyanion such as tripolyphosphate
- US5700459 mentions the possible use of cyclodextrins (aminocyclodextrins) as a substitute for another potential polycation such as chitosan.
- WO9704747 proposes the encapsulation of drugs or drug-cyclodextrin complexes in nanometric hydrogel matrices that can be subsequently coated by liposomes and / or mucoadhesion adjuvants.
- the proposed method requires precipitation of the polymer from an organic phase in an aqueous phase, and the cyclodextrin drugs are added in the aqueous phase where the polymer precipitates, and not in conjunction with it. This factor in the procedure can lead to poorly encapsulations of certain drugs.
- microencapsulation techniques aimed at the formation of microparticles generally differ from nanotechnologies applied to the formation of nanoparticles.
- WO 9804244 describes the formation of chitosan nanoparticles.
- a system consisting of chitosan nanoparticles and a cyclodextrin, allows an effective association of biologically active molecules, as well as their subsequent release in a suitable biological environment.
- These nanoparticles have an improved ability to encapsulate or associate hydrophobic drugs with respect to chitosan nanoparticles without cyclodextrin.
- cyclodextrins provide new characteristics to the nanoparticulate system such as better protection of the associated biologically active molecule as well as greater absorption promoting power especially for those poorly permeable molecules.
- nanoparticles present in the system of the invention is its high stability in cell culture media and, more significantly, in simulated intestinal fluids, where it has been shown that the nanoparticles do not vary their physical properties. chemical for at least four hours. This property makes these systems suitable for your use by different routes of administration and, particularly, for oral administration, allowing the drug to be released in the appropriate biological environment. Likewise, through release studies with different drugs, it has been shown that nanoparticles allow the active substance to be released at a gradual and controlled rate.
- an object of the present invention is directed to a system comprising nanoparticles for the release of a biologically active molecule, where the nanoparticles comprise a) at least 40% by weight of chitosan or a derivative thereof and b) less than one 60% by weight of a cyclodextrin or a derivative thereof, where both components a) and b) are mixed without covalent bonds.
- the nanoparticles can also comprise an ionic crosslinking agent that allows the chitosan to gel in the form of nanometric structures.
- a second aspect of the present invention relates to a nanoparticulate system as previously defined which further comprises a biologically active molecule.
- the invention is directed to a pharmaceutical composition
- a pharmaceutical composition comprising a nanoparticulate system as defined previously and a biologically active molecule capable of preventing, alleviating or curing diseases.
- peptides, proteins or polysaccharides that are not considered active biological molecules "per se” but can contribute to the effectiveness of the administration system can be found trapped in the nano structure.
- composition or vaccine is for mucosal administration.
- the invention is directed to a cosmetic composition comprising a nanoparticulate system as defined above.
- Another aspect of the invention is a method of obtaining a system for the release of a biologically active molecule as defined, comprising: a. preparation of a chitosan solution or a derivative thereof in aqueous medium or in a mixture of water with a polar solvent; b. preparation of a solution of a cyclodextrin or a derivative thereof in aqueous medium or in a mixture of water with a polar solvent and, optionally a crosslinking agent; and c. mixing, with stirring, the solutions of steps a) and b) so that the chitosan-cyclodextrin nanoparticles are spontaneously obtained. or optionally: a.
- the biologically active molecule can be incorporated directly into the solutions of steps a) or b), however, in a variant of the process the active molecule can be dissolved prior to the addition to phases a) or b) in aqueous medium or in a mixture of water and a polar solvent.
- a final aspect of the invention is directed to the use of a system as previously described for the preparation of a medicament for gene therapy.
- Figure 1 TEM images of chitosan- (hydroxypropyl- ⁇ -cyclodextrin) formulations. Formulations prepared with 25 mM hydroxypropyl- ⁇ -cyclodextrin and 2 mg / mL tripolyphosphate (left image) or 1.25 mg / mL (right image).
- Figure 2 SEM image of chitosan- (hydroxypropyl- ⁇ -cyclodextrin) formulations. Formulation prepared from 25 mM cyclodextrin and 2 mg / mL tripolyphosphate.
- CS chitosan
- SBE-CD sulfobutylether-cyclodextrin
- CM-CD carboxymethyl-cyclodextrin
- TPP sodium tripolyphosphate
- HBSS Hanks offset salt solution.
- (•) CS / CM-CD / TPP 4 / 4.5 / 0.25.
- CS chitosan;
- SBE-CD sulfobutyleter- ⁇ -cyclodextrin;
- CM-CD carboxymethyl- ⁇ -cyclodextrin;
- TPP sodium tripolyphosphate.
- CS / CM-CD / TPP 4/3 / 0.5;
- CS chitosan; CM-CD: carboxymethyl- ⁇ -cyclodextrin; TPP: sodium tripolyphosphate.
- FIG. 6 Triclosan and furosemide drug release profile from chitosan- (hydroxypropylcyclodextrin) formulations.
- Formulations: TRIC HPaCD (formulation of triclosan with hydroxypropyl- ⁇ -cyclodextrin), TRIC HP ⁇ CD (formulation of triclosan with hydroxypropyl- ⁇ -cyclodextrin), FUR HPaCD (formulation of furosemide with hydroxypropyl- ⁇ -cyclodextrin), FUR HP ⁇ CD (formulation of furosemide with hydroxypropyl- ⁇ -cyclodextrin) (Means ⁇ Desv. Est, n 3).
- Figure 7 Chitosan-sulfobutylcyclodextrin nanoparticle agarose GeI. Lines: (1) molecular weight marker, (2) DNA in solution, (3) nanoparticles without DNA, (4) nanoparticles with DNA, (5) nanoparticles with DNA degraded with chitosanase. Incubation time 30 minutes.
- Figure 8 Fluorescence images of cells transfected with 1 ⁇ g of plasmid pGFP in chitosan-sulfobutylcyclodextrin nanoparticles. Transfection levels achieved at 48 h.
- Figure 9 Stability of fluorescein-cyclodextrin-labeled chitosan nanoparticles in trehalose (5%).
- O FI-CS / SBE-CD 4/4;
- D FI-CS / CM-CD 4/6.
- FI-CS fluorescein-labeled chitosan;
- SBE-CD sulfobutyleter- ⁇ -cyclodextrin;
- CM-CD carboxymethyl- ⁇ -cyclodextrin;
- TPP sodium tripolyphosphate.
- the system of the present invention comprises nanoparticles that are dispersed in an aqueous medium, wherein said nanoparticles have a structure comprising chitosan and cyclodextrin, in which a biologically active molecule can be incorporated. This structure is held together by electrostatic interactions between both components, without covalent bonds between them.
- the nanoparticles can also comprise an ionic crosslinking agent that allows the cross-linking of the chitosan by ionotropic gelation favoring the spontaneous formation of the nanoparticles.
- nanoparticle means a structure formed by the electrostatic interaction between the chitosan and the cyclodextrin, where said structure can also be crosslinked when a polyanionic salt that acts as a crosslinking agent is added to the system.
- the resulting electrostatic interaction between the different components of the nanoparticles, and optionally cross-linking the chitosan by the addition of a crosslinking agent generates characteristic, independent and observable physical entities, whose average size is less than 1 ⁇ m, that is, an average size between 1 and 999 nm.
- average size is meant the average diameter of the population of nanoparticles comprising chitosan and cyclodextrin, which move together in the aqueous medium.
- the average size of these systems can be measured by standard procedures known to the person skilled in the art, and which are described, for example, in the experimental part below.
- the nanoparticles described in the present invention are characterized by having an average particle size of less than 1 ⁇ m, preferably having an average size between 1 and 999 nm, preferably between 10 and 800 nm.
- the average particle size is mainly influenced by the proportion of chitosan with respect to cyclodextrin, by the degree of deacetylation of chitosan and also by the conditions of particle formation (chitosan concentration, decyclodextrin concentration, crosslinking agent concentration , when there is, and relationship between them).
- the nanoparticles can present an electric charge (measured by the Z potential, using CLK as a dilution medium) whose magnitude can vary from 0 mV to + 60 mV, depending on the variables mentioned.
- the positive charge of the nanoparticles may be of interest to favor their interaction with biological surfaces, and in particular with the mucous surfaces that are negatively charged.
- the neutral charge may be more suitable for parenteral administration.
- the system comprising nanoparticles for the release of a biologically active molecule that has been defined above has a chitosan content in the mixture greater than 40% by weight, preferably between at least 40% and 95.5% by weight.
- the content of cyclodextrin in the mixture is less than 60% by weight, preferably between 0.5% and less than 60% by weight.
- Chitosan is a naturally occurring polymer derived from chitin (poly-N-acetyl-D-glucosamine), where an important part of the N-acetyl groups have been removed by hydrolysis.
- the degree of deacetylation is preferably in a range between 30 and 95%, more preferably between 50 and 95%, indicating that between 5% and 50% of the amino groups are acetylated. It therefore presents an aminopolysaccharide structure and cationic character. It includes the repetition of monomer units of formula (I):
- n is an integer, and also m units where the amino group is acetylated.
- the sum of n + m represents the degree of polymerization, that is, the number of monomer units in the chitosan chain.
- the chitosan used to obtain the nanocapsules of the present invention has a molecular weight between 1 and 2000 kDa, preferably between 5 and 500 kDa, more preferably between 5 and 200 kDa.
- Examples of commercial chitosans that can be used are UPG 1 13, UP CL 213 and UP CLl 13 which can be obtained from NovaMatrix, Drammen, Norway.
- the number of monomer units comprising the chitosan used in obtaining the nanoparticles is between 5 and 5000 monomers, preferably between 60 and 600 monomers.
- a derivative thereof can also be used, which is understood as a chitosan in which one or more hydroxyl groups and / or one or more amino groups have been modified, in order to increase the solubility of the chitosan or increase the Adhesive character thereof.
- These derivatives include, among others, acetylated, alkylated or sulphonated chitosans, thiolated derivatives, as described in Roberts, Chitin Chemistiy, Macmillan, 1992, 166.
- a derivative is selected from 0-alkyetres, O- acylesters, trimethylchitosan, chitosans modified with polyethylene glycol, etc.
- Cyclodextrins structurally consist of 6, 7 or 8 units of D-glucopyranosyl linked by ⁇ (1-4) glycosidic bonds, denominating ⁇ ⁇ or ⁇ , respectively.
- the most stable three-dimensional configuration of these oligosaccharides is a toroid in which the primary and secondary hydroxyl groups are presented to the solvent. In this conformation, the cavity formed within this toroid presents a high hydrophobia, responsible together with Van der Waals forces and hydrogen bridges for the formation of inclusion complexes between cyclodextrins and drugs.
- cyclodextrin derivative is meant a cyclodextrin or mixtures thereof in which the hydrogen (s) of a part or of all hydroxyl groups of positions 2-, 3- and 6- of glucose is / n substituted / s by Another functional group (s) is such as a dihydroxyalkyl group, a saccharide residue, a hydroxyalkyl group, a sulfonate group, a sulfoalkyl group, an alkyl group, an alkanoyl group, an acetyl group or a benzoyl group.
- cyclodextrin or its derivatives employed in the present invention may be commercially available or may be synthesized by a method known per se.
- Examples of cyclodextrin and its derivatives comprise natural cyclodextrins (alpha, beta or.
- the cyclodextrin is hydroxypropyl- ⁇ -cyclodextrin, hydroxypropyl- ⁇ -cyclodextrin, sulfobutylethyl- ⁇ -cyclodextrin or mixtures thereof. Any of them can be used in the systems of the invention.
- the average degree of substitution (GS) refers to the average number of hydroxyls substituted per unit of cyclodextrin
- the degree of molar substitution (SM) refers to the number of hydroxyl groups per unit of anhydroglucose.
- the cyclodextrins used have an average degree of substitution ranging from 4.2 to 7, although the application of cyclodextrins whose GS is outside that range is also possible.
- the nanoparticle system of the invention is characterized in that it has been formed by spontaneous precipitation of the nanoparticles after mixing a polycationic phase, comprising the chitosan, and optionally the cyclodextrin, with a polyanionic phase, which may be formed by a cyclodextrin or by a crosslinking agent or by a combination of both. It is significant that both phases are aqueous, avoiding or minimizing the use of organic solvents in the preparation of the systems of the invention.
- the crosslinking agent is an anionic salt that allows the cross-linking of chitosan, favoring the spontaneous formation of nanoparticles.
- the crosslinking agent is a polyphosphate salt, the use of sodium tripolyphosphate (TPP) being preferred.
- the cyclodextrin When the cyclodextrin is anionic, it can constitute the polyanionic phase on its own and the presence of TPP is not necessary, since the nanoparticles are formed by the electrostatic interaction between the negatively charged cyclodextrins and the positively charged chitosan.
- the addition of TPP in addition to anionic cyclodextrin can, in some cases, change the cross-linking density and favor the stability of the nanoparticles.
- cyclodextrins that do not have an anionic charge (no charge or positive charge) it is necessary to incorporate the TPP in the polyanionic phase to crosslink the chitosan and allow the formation of nanoparticles.
- Chitosan-cyclodextrin nanoparticles are systems that have a high capacity to associate bioactive molecules. This association capacity depends on the type of molecule incorporated as well as the indicated formulation parameters. In the present invention this type of nanoparticles is particularly directed to associate hydrophobic active molecules and hydrophobic and hydrophilic active molecules, which are not very permeable. Therefore, a second aspect of the present invention is a nanoparticulate system as previously defined which also comprises a biologically active molecule. 00322
- biologically active molecule refers to any substance that is used in the treatment, cure, prevention or diagnosis of a disease or that is used to improve the physical and mental well-being of humans and animals.
- biologically active molecules can include from low molecular weight drugs to polysaccharide-like molecules, proteins, peptides, lipids and nucleic acid-based molecules and combinations thereof.
- the biologically active molecules are the drugs class II (non-permeable water soluble), class III (permeable hydrophobic) and preferably class IV (non permeable hydrophobic) according to the FDA definition.
- class II molecules Danazol; Ketoconazole; mefenamic acid; Nisoldipine; Nifedipine; Nicardipine; Felodipine, Atovaquone, Griseofulvin, Troglitazone, Glibenclamide, Carbamazepine; Class III: Acyclovir; Neomycin B; Captopril; Enalaprilat; Alendronate, Atenolol, Cimetidine, Ranitidine; Class IV: Chlorothiazide; Furosemide; Tobramycin, Cefuroxime, Itraconazole, Cyclosporine.
- the biologically active molecule is triclosan. In another preferred embodiment the biologically active molecule is furosemide. In another particular embodiment, the biologically active molecules are peptide, polysaccharide, protein or nucleic acid-based macromolecules (oligonucleotides, DNA, siRNA).
- the biologically active molecule is insulin. In another preferred embodiment, the biologically active molecule is heparin. In another preferred embodiment the biologically active molecule is DNA.
- a vaccine comprising the previously defined nano-linked system and an antigen.
- the administration of an antigen by the system consisting of the nanoparticles allows to achieve an immune response.
- the vaccine can comprise a protein, polysaccharide or it can be a DNA vaccine.
- a DNA vaccine is a DNA molecule that encodes the expression of an antigen that will result in an immune response.
- the association of the biologically active molecule can occur by combined processes comprising non-covalent interactions between the active molecule and the polymer or the association of the active molecule to a cyclodextrin forming an inclusion complex and the non-covalent interaction of this complex with the matrix.
- Another object of the present invention is a pharmaceutical composition
- a pharmaceutical composition comprising the previously defined nanoparticulate system and a biologically active molecule capable of preventing, alleviating or curing diseases.
- pharmaceutical compositions include any liquid (nanoparticle suspension) or solid composition (lyophilized or atomized nanoparticles forming a powder that can be used to make granules, tablets or capsules) for administration either orally, orally, sublingually, or in liquid or semi-solid form for administration by transdermal, ocular, nasal, vaginal or parenteral route.
- non-parenteral pathways the contact of the nanoparticles with the skin or mucous membranes can be improved by giving the particles a significant positive charge, which will favor their interaction with the aforementioned negatively charged surfaces.
- parenteral routes more specifically for intravenous administration, these systems offer the possibility of modulating the in vivo distribution of associated drugs or molecules.
- the pharmaceutical composition is administered mucosally.
- the positive charge presented by the chitosan-cyclodextrin mixture provides better absorption of drugs on the mucosal surface through its interaction with the mucosa and the surfaces of epithelial cells that are negatively charged.
- the proportion of active ingredient incorporated into the nanoparticles can be up to 40% by weight with respect to the total weight of the system. However, the appropriate proportion will depend in each case on the active ingredient to be incorporated, on the indication to which it is directed and on the release efficiency.
- the nanoparticulate systems of the present invention can also incorporate cosmetically active molecules that have no therapeutic effect but give rise to cosmetic compositions.
- These cosmetic compositions include any liquid composition (nanoparticle suspension) or emulsion for topical administration.
- the cosmetically active molecules that can be incorporated into the nanoparticles are anti-acne, antifungal, antioxidant, deodorant, antiperspirant, anti-dandruff, skin bleaches, bronzers, UV light absorbers, enzymes, cosmetic biocides, among others.
- Another aspect of the present invention relates to a process for the preparation of chitosan-cyclodextrin nanoparticles as previously defined, which comprises: a) preparation of a chitosan solution or a derivative thereof in aqueous medium or in a mixture of water with a polar solvent; b) preparation of a cyclodextrin solution or a derivative thereof in aqueous medium or in a mixture of water with a polar solvent and, optionally a crosslinking agent; and c) mixing, with stirring, the solutions of steps a) and b) so that the chitosan-cyclodextrin nanoparticles are spontaneously obtained, or optionally: a.
- non-toxic solvents can be used, among others, acetonitrile, alcohols and acetone.
- the aqueous medium used may contain salts of different nature.
- the mass ratio chitosan / cyclodextrin / resulting crosslinking agent is between 4/4/1 and 4/80/1.
- the use of higher chitosan ratios against cyclodextrin or crosslinking agent is also possible depending on the type of cyclodextrin used.
- neutral cyclodextrins such as HP ⁇ CD
- the presence of cyclodextrin does not seem to affect the process of formation of the nanoparticles.
- the biologically active molecule can be incorporated directly into the solutions of steps a) or b), so that chitosan-cyclodextrin nanoparticles containing the biologically active molecule are spontaneously obtained.
- the molecule in a variant of the process can be dissolved at a previous stage in an aqueous phase or in a mixture of aqueous phase and polar solvent and incorporate it into phases a) or b) before the preparation of the particles (step c )).
- higher concentrations are achieved if the dissolution of the active molecule is carried out in the phase with the cyclodextrin.
- the process for making the chitosan-cyclodextrin nanoparticles can also comprise an additional step, in which said nanoparticles are lyophilized. From a pharmaceutical point of view it is important to be able to dispose of the nanoparticles in lyophilized form since this improves their stability during storage and reduces the volume of the product to be handled.
- Chitosan-cyclodextrin nanoparticles can be lyophilized in the presence of a cryoprotectant, such as glucose, sucrose or trehalose, at a concentration ranging from 1 to 5% by weight.
- a cryoprotectant such as glucose, sucrose or trehalose
- the system of the present invention has proven to be a highly effective vehicle for interacting with epithelial cells and promoting the transfection of a polynucleotide in a cell.
- the nanoparticles comprised in the system can incorporate into the cell genetic material such as a nucleic acid based molecule, an oligonucleotide, siRNA or a polynucleotide, preferably a DNA plasmid encoding a protein of interest, which allows the system to be potentially suitable for use in gene therapy.
- the DNA plasmid is pEGFP.
- nanoparticulate system of the invention in the preparation of a medicament for gene therapy.
- it comprises a polynucleotide comprising a gene capable of expressing functionally in the cells of the patient to be treated.
- some examples of diseases that can be treated using the system of the invention are macular degeneration with antisense against VEGF, bulbous epidermolysis and cystic fibrosis. It can also be used in wound healing with transient transformation schemes.
- the system and compositions of the invention which contain synthetic or natural polynucleotides, allow their use for transfection of target cells, preferably neoplastic or "normal" mammalian cells, as well as cells mother or cell lines. It also constitutes a useful tool for the genetic manipulation of cells.
- the invention is also directed to the use of the system of the invention for the genetic manipulation of cells. Preferably, it is used for nucleic acid release in vitro or ex vivo. Such release is directed to target cells comprising: eukaryotic cells, such as mammalian cells, cell lines, and can lead to cell transfection or transformation in vitro or ex vivo. Therefore, the invention also relates to a cell transfection kit eukaryotes, comprising the system of the invention and suitable diluents and / or buffers for cell washing.
- the physicochemical properties of formulations of different composition and different ratio of polymers have been characterized using the techniques of photonic correlation spectroscopy (PCS) and laser-Doppler anemometry.
- PCS photonic correlation spectroscopy
- the morphology of the nanoparticles was studied by transmission electron microscopy (TEM) and scanning electron microscopy (SEM).
- TEM transmission electron microscopy
- SEM scanning electron microscopy
- the composition of the prepared nanoparticles was studied through the use of elementary analysis techniques. This study evidenced the presence of chitosan-cyclodextrin mixtures in the nanoparticle matrices.
- the size of the nanoparticles was determined by photonic correlation spectroscopy (PCS).
- PCS photonic correlation spectroscopy
- the nanoparticles were isolated by centrifugation at 16000xg and resuspended in water.
- the size of the resulting particles and their polydispersion were characterized by photonic correlation spectroscopy (PCS), the zeta potential by doppler laser anemometry and the production yield by weighing the dried sample residue of isolated nanoparticles. Results are shown in table 2.
- Figure 1 shows the morphology of particles prepared from 25 mM HP ⁇ CD analyzed by TEM and SEM respectively, confirming the formation of spherical nanoparticles.
- Figure 1 shows the morphology of particles prepared from 25 mM HP ⁇ CD analyzed by TEM.
- Chitosan nanoparticles with two types of cyclodextrin were prepared by mixing an aqueous solution of sulfobutylether- ⁇ -cyclodextrin (SBE-CD) or carboxymethyl- ⁇ -cyclodextrin (CM-CD) with a low aqueous chitosan (CS) solution magnetic stirring in the presence of the TPP crosslinking agent so that the relationship between the different components is:
- HBSS Hanks solution
- Example 5 Stability of chitosan and cyclodextrin nanoparticles in simulated intestinal fluid.
- Chitosan and carboxymethyl- ⁇ -CD nanoparticles were prepared as described in example 4 by ionic gelation, in the presence and absence of TPP.
- the nanoparticles showed stability for more than 4 hours, as shown in Figure 4, so they are configured as suitable systems for different routes of administration.
- Example 6 Evaluation of insulin encapsulation capacity in chitosan and cyclodextrin nanoparticles.
- Chitosan and carboxymethyl- ⁇ -CD nanoparticles were prepared as described in example 4 or 5 using different concentrations of cyclodextrin and TPP and, in some cases, incorporating a 0.24% insulin concentration into the initial aqueous solutions. Subsequently the nanoparticles were isolated by centrifugation. Table 4 shows the physical-chemical characteristics of nanoparticles loaded or not with insulin.
- the size of the fallen nanopaiticles ranges between 430 and 635 nm, said size being up to twice as large as when the nanopaiticles are not dropped with insulin.
- table 5 shows the capacity of the insulin to fall in nanopaiticles. It is observed that insulin can be incorporated very efficiently to nanopaiticles, presenting association efficiencies of May to 85%.
- Example 7 Evaluation of the solubility of triclosan, the encapsulation efficiency and its charge in nanoparticles depending on the type and concentration of cyclodextrin.
- Chitosan-cyclodextrin nanoparticles were obtained according to the method set forth in Example 2, only by adding to the initial solutions an amount of the triclosan drug sufficient to supersaturate the solution.
- Table 6 shows the solubility achieved for triclosan in the initial solutions used for particle formation, the encapsulation efficiency of triclosan in the nanoparticles and the triclosan loading achieved in these nanoparticles.
- the encapsulation efficiency refers to the percentage of drug that is trapped in the chitosan-cyclodextrin system with respect to the amount of drug added in the nanoparticle preparation process.
- the drug load is determined indirectly from the calculation of the non-encapsulated drug that remains dissolved in the suspension medium of the nanoparticles. The difference between this value and the theoretical content of the drug is taken as the amount of drug loaded in the nanoparticles.
- the percentage of drug loading that appears in the table is the percentage referred to the amount of drug encapsulated in 100 mg of nanoparticle.
- Chitosan-cyclodext ⁇ na nanoparticles were prepared according to the method set forth in Example 3, but adding to the initial solutions an amount of the furosemide drug sufficient to sobiesatuiai the solution The drug not dissolved by the cyclodext ⁇ na-polymer mixture was discarded in the process of filtration (through 0 45 ⁇ m) that is carried out prior to the crosslinking of the polymer (see example 3).
- Chitosan-cyclodextrin nanoparticles are made with triclosan and furosemide.
- the process described in example 7 (formulations with 25 mM HPCD ⁇ or ⁇ ) was followed and for the formulation of furosemide, the method described in example 8 (formulations with 25 mM HPCD ⁇ or ⁇ ).
- the nanoparticles were isolated and resuspended in an acetate buffer (pH 6.0, low ionic strength). The nanoparticles were incubated in this medium under horizontal agitation (100 rpm) at 37 0 C.
- Chitosan-sulfobutylcyclodextrin nanoparticles with DNA were formulated with an agarose electrophoresis gel prior to isolation.
- As controls were included plasmid in solution, formulation without plasmid and formulation with plasmid degraded with chitosanase (Chitosanase-RD, Pias Co, Japan). The results are shown in Figure 7.
- a nanoparticle formulation was prepared as described in Example 1 1.
- the formulation was isolated by centrifugation (16000xg, 30 min) and resuspended in a pH 6.0 buffer of low ionic strength.
- An amount of formulation such that it contained 1 or 2 ⁇ g of DNA was incubated with cell cultures.
- the results of cell transfection achieved are shown in Figure 8.
- the fluorescence image shows the cell colonies expressing the green fluorescent protein as a consequence of the transfection by the nanoparticle-pGFP system.
- the vehicle-free plasmid showed no ability to transfect the cells, that is, no fluorescent cell colonies were observed.
- a suspension of these nanoparticles (on which their stability was previously evaluated in a 5% w / w trehalose transport medium, figure 9), was administered intranasally to fully awake rats. After a predetermined time (specifically 10 min after administration) the rats were sacrificed by cervical dislocation and the nasal mucosa was fixed with paraformaldehyde, excision was performed and subsequently observed with a confocal microscope (CLSM, Zeiss 501, Jena, Germany ) at 488 nm. The images observed showed that these nanoparticles had an important interaction with the nasal mucosa.
- CLSM confocal microscope
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Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US11/916,283 US20080220030A1 (en) | 2005-06-02 | 2006-06-01 | Nanoparticles Comprising Chitosan and Cyclodextrin |
JP2008514129A JP5191884B2 (ja) | 2005-06-02 | 2006-06-01 | キトサンおよびシクロデキストリンを含んでなるナノ粒子 |
BRPI0613234-0A BRPI0613234A2 (pt) | 2005-06-02 | 2006-06-01 | sistema que inclui nanopartìculas para a libertação de moléculas biologicamente ativas, composição farmacêutica, composição cosmética, vacina, procedimento para obtenção de um sistema para a libertação controlada de molécula biologicamente ativa, procedimento para a obtenção de nanopartìculas e utilização de um sistema |
AU2006254128A AU2006254128A1 (en) | 2005-06-02 | 2006-06-01 | Nanoparticles comprising chitosan and cyclodextrin |
CN2006800208889A CN101217947B (zh) | 2005-06-02 | 2006-06-01 | 包含壳聚糖和环糊精的纳米颗粒 |
EP06778444A EP1891943A2 (en) | 2005-06-02 | 2006-06-01 | Nanoparticles comprising chitosan and cyclodextrin |
CA002610403A CA2610403A1 (en) | 2005-06-02 | 2006-06-01 | Nanoparticles comprising chitosan and cyclodextrin |
IL187696A IL187696A0 (en) | 2005-06-02 | 2007-11-27 | Nanoparticles comprising chitosan and cyclodextrin |
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ES200501331A ES2277743B2 (es) | 2005-06-02 | 2005-06-02 | Nanoparticulas que comprenden quitosano y ciclodextrina. |
ESP200501331 | 2005-06-02 |
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US (1) | US20080220030A1 (es) |
EP (1) | EP1891943A2 (es) |
JP (1) | JP5191884B2 (es) |
KR (1) | KR20080019014A (es) |
CN (1) | CN101217947B (es) |
AU (1) | AU2006254128A1 (es) |
BR (1) | BRPI0613234A2 (es) |
CA (1) | CA2610403A1 (es) |
ES (1) | ES2277743B2 (es) |
IL (1) | IL187696A0 (es) |
WO (1) | WO2006128937A2 (es) |
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Also Published As
Publication number | Publication date |
---|---|
ES2277743A1 (es) | 2007-07-16 |
JP5191884B2 (ja) | 2013-05-08 |
KR20080019014A (ko) | 2008-02-29 |
BRPI0613234A2 (pt) | 2010-12-28 |
AU2006254128A1 (en) | 2006-12-07 |
IL187696A0 (en) | 2008-08-07 |
JP2008542342A (ja) | 2008-11-27 |
ES2277743B2 (es) | 2008-12-16 |
CN101217947B (zh) | 2012-04-25 |
CA2610403A1 (en) | 2006-12-07 |
CN101217947A (zh) | 2008-07-09 |
WO2006128937A3 (es) | 2007-02-15 |
US20080220030A1 (en) | 2008-09-11 |
EP1891943A2 (en) | 2008-02-27 |
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