CN1942171A

CN1942171A - Liquids containing suspended glass particles

Info

Publication number: CN1942171A
Application number: CNA2005800110373A
Authority: CN
Inventors: 布鲁斯·约瑟夫·罗泽
Original assignee: Cambridge Biostability Ltd
Current assignee: Cambridge Biostability Ltd
Priority date: 2004-04-13
Filing date: 2005-04-13
Publication date: 2007-04-04
Anticipated expiration: 2025-04-13
Also published as: ES2339783T3; GB0408199D0; ZA200609158B; DK1750668T3; RU2006137275A; MXPA06011895A; PT1750668E; GB0504501D0; GB2413075B; DE602005019398D1; RU2363447C2; GB2413075A; ATE457717T1; CN1942171B

Abstract

Present proposals to use perfluorocarbons as a medium to suspend glass particles presents the problem of aggregation of the particles within the suspending medium. Overcoming this problem requires careful particle sizing and density matching techniques. An additional disadvantage of the large scale use of perfluorocarbons is their contribution to global warming. The inventor has realised that by replacing perfluorocarbons with the more environmentally friendly fluorinated ethers such as hydrofluoroethers or hydrofluoropolyethers a long lasting suspension of glass particles can be achieved without the need for such rigorous particle sizing or density matching processes.

Description

The liquid that contains suspended glass particles

The present invention relates to a kind of preparation, it comprises the active component that is deposited in the particle that is suspended in the glassy or unbodied material in the liquid.

Well-known is that saccharifying glass (sugar glass) has some ability organic, biological, phytological and protein material of preservation, and there is lot of documents to be devoted to propose to use this specific character of saccharifying glass to remove preservation medicine, particularly vaccine in theory.Other glassy mass have demonstrated similar preservation effect.

Because the most frequently used acceptable vaccine administration method is the drug administration by injection that passes through that has proposed, for example having been proposed in patent specification WO 02/32402 (Roser) suspends in a kind of liquid (perfluocarbon is perfluorodecalin for example) contains the water-soluble glass shape particle of vaccine to produce a kind of injectable preparation.It is highly stable and be considered to be used for medicine and medical usage is safe because of them to propose perfluocarbon.In patent specification PCT WO02/32402, also propose by in saccharifying glass (density about 1.5), adding the density that calcium phosphate (density about 2.7 to 2.8) increases this glassy mass, so that the Particle Density value that produces is matched with this density of liquid value 1.97, it is suspended in the liquid; Thereby keep them to be in suspended state.

Above-mentioned technology has shown huge hope, but the stability completely of perfluocarbon means that they will be stored in the troposphere lastingly, and if a large amount of the use, may in fact cause global warming.In addition, hydrophilic glassy microsphere particles has shown slight accumulative tendency in perfluocarbon, and perfluocarbon is strong hydrophobic.

According to the present invention, a kind of preparation is provided, it comprises the active component that is deposited in the glassy or unbodied particle, this particle suspension is in liquid, and wherein at least a component comprises the material of hydrogen fluorine ether, perfluor ether, hydrogen fluorine amine, perfluamine, hydrogen fluorine thioether, perfluor thioether, hydrogen perfluoroalkyl polyether, PFPE or following general formula:

R1-X-R2 or

R1-X-(CF2Y) n (CF2CF2Z) m-R2 or

R1-[(X-CF-R2)n-(X-CF2)m]OR3

Wherein X, Y and Z are defined as O (oxygen), ether, NR3 (N=nitrogen), amine or S (sulfur); And each R1, R2 and R3 are defined as nonfluorinated, partially fluorinated or fluorinated alkyl, cycloalkyl, aryl or aralkyl or organo-functional group, halogen group or cyano group fully.

Preferably, hydrogen fluorine ether or hydrogen perfluoroalkyl polyether are considered to ideal, therefore, provide a kind of preparation, and it is included in the active component in the glassy or unbodied particle, and this particle suspension is in the liquid that contains hydrogen fluorine ether or hydrogen perfluoroalkyl polyether.

The inventor finds, when blended glassy particle is added in hydrogen fluorine ether or the hydrogen perfluoroalkyl polyether, their shockingly disperse easily to form cream, even after this suspension has been placed some times, and glassy particle all seldom or not have a sign of luming.

The inventor has been developed now should theory: glassy particle has water-wetted surface, and the previous perfluocarbon that uses was strong hydrophobic.Because this reason is thought now and used in the early stage in the test of perfluocarbon, it is the result that they are ostracised by the hydrophobic property of perfluocarbon that glassy particle has the tendency of together luming.The fluorinated ether performance a bit more resembles the detergent of this particle, promotes this dispersion of nano-particles.

Many fluorinated ether classes at present during operation technique as anesthetis via inhalation.The use of a large amount of relatively during operation technique (going up to 200 grams) has shown the hypotoxicity of this group.

In addition, their density also is complementary with the density of the glassy mass that uses in above-mentioned preparation ideally.For example, with reference to the regulation that is limited in 3M:

HFE 7500 has 1.61 density,

HFE 7200 has 1.43 density, and

HFE 7100 has 1.52 density.

These values as one man are similar to the density of saccharifying glass: about 1.5.

Use another benefit of the present invention to be, when fluorinated ether is exposed to strong ultraviolet radiation and for example is present in stratosphere, be unsettled, and under normal condition, be high stability.This has been avoided relevant to perfluocarbon the known problem that causes damaging " greenhouse " effect when being released into atmosphere after use.

Yet to be fluorinated ether inexpensive relatively and be easy to obtain being higher than 98% high-purity for another advantage of the present invention.This is than the PFC class, and the latter's a exemplary can obtain only about 55% purity.

Because fluorinated ether and glassy mass have so good coupling, it has become and may take the method for new density matching.Past is by using additive formulate glass shape thing to mate its density to liquid PFC.Yet the suitable density that needn't reach as required of becoming is now forced the selection of glassy mass.The invention enables might go to select ideal glassy/the active component compositions; And then fluorinated ether may mix with a small amount of PFC class or other liquid phases that add, so that density of liquid and Particle Density are complementary.Even practicable employing is deposited in the ready-made compositions of the active component in the glassy mass; It is ground into particle also then is suspended in it in a kind of liquid that is complementary with Particle Density.

Particle and density of liquid are not to equate.Yet they should be very approaching, makes the influence of Brownian movement or other thermodynamics keep particle to be in suspended state.

With reference to above, disperse so effectively in fluorinated ether and other liquid because found particle, it is so eager that the as far as possible little needs that suspend with maintenance of particle have not been resembled over.The expert improves dry spray technique, and its past is thought for obtaining small particle diameter required by the inventor, be unwanted now, although the drying process with atomizing of normal business remains a kind of possible technology of preparation particle.Yet, for example lyophilization or grinding of alternative approach also applicatory now.It only needs the particle should be enough little of to allow to pass through hypodermic syringe.

Prospect the present invention, it will be applied to the preparation that the protein of vaccine, treatment or other pass the medication that patient skin injects usually.Yet other purposes of the present invention also are possible, for example: be used for medicinal liquid, its after efflorescence by oral or inhalation.Also possible is, has non-medical usage of the present invention, and it generally is applicable to any situation of the compositions that is desirably in preservation bioactive substance in the glass solid and need exists with liquid form.

Now describe into a kind of method of the present invention.

Obtain aseptic, big quantity of fluid Hepatitis B virus vaccine and aluminium hydroxide adjuvant from Panacea Biotech of Delhi.Itself and aseptic colloid calcium phosphate suspension and Raffinose solution obtain 10 microgram vaccines of the single adult's dosage in 50 milligrams of total solids with suitable mixed.The ratio of calculating calcium phosphate and Raffinose is the solid glass shape particle of hydrogen fluorine ether HFE 7,500 density matching of 1.61 kg/liter to provide with density.With the magnetic stirring apparatus continuous stirring time, this suspension by two flow nozzles with the nozzle air current injection of the speed of 2 milliliters of per minutes with 2.5 kilograms/hour.The droplet that obtains is used per hour 30 kilograms heated air stream drying in the chamber of GEANiro SD Micro aerosol apparatus.Keep feed flow rates constant by regulating inlet temperature, remain on 90 ℃ to regulate outlet temperature.Product is collected in the aseptic bottle, and is transferred in the laminar flow fume hood with 100 classification air-flows.Aseptic HFE7,500 by the speed adding with 1 milliliter in per 100 milligrams of powder, and stirs 10 minutes with this microsphere of abundant dispersion in the frequency sweep ultra sonic bath.In this laminar flow fume hood, liquid is disperseed to enter in the 2 milliliters aseptic serum phial by the volume with 0.6 milliliter, seals with the neoprene stopper jam-pack and with aluminium lid.This vaccine phial is used to be based upon the vitro stability research of this vaccine under the different storage temperatures.

Claims

1. preparation, it comprises the active component that is deposited in glassy or the amorphous particle, described particle is suspended in the liquid, and wherein at least a component comprises the material of hydrogen fluorine ether, perfluor ether, hydrogen fluorine amine, perfluamine, hydrogen fluorine thioether, perfluor thioether, hydrogen perfluoroalkyl polyether, PFPE or following general formula:

R1-X-R2 or

R1-X-(CF2Y) n (CF2CF2Z) m-R2 or

R1-[(X-CF-R2)n-(X-CF2)m]OR3

2. preparation according to claim 1, wherein said particle contains saccharifying glass or glassy mass, its be sugar, metal carboxylate, aminoacid and or the mixture of calcium phosphate, or the combination in any of these materials.

3. preparation according to claim 1 and 2, the density that wherein said particle has itself and described density of liquid are complementary, and described density of liquid extremely approaches described particle will keep the density that suspends under normal condition.

4. according to the described preparation of aforementioned each claim, wherein said liquid contains the different component described in the claim 1, and it is mixed in proportion the density that needs to obtain.

5. according to the described preparation of aforementioned each claim, wherein said liquid contains perfluocarbon, and it mixes with component described in one or more claim 1.

6. according to the described preparation of aforementioned each claim, wherein said active component is a vaccine.

7. according to the described preparation of aforementioned each claim, wherein said particle makes by spray drying.

8. according to each described preparation in the claim 1 to 6, wherein said particle makes by lyophilization.

9. according to each described preparation in the claim 1 to 6, wherein said particle makes by grinding.

10. method for preparing according to claim 4 or 5 described preparations, it comprises selects liquid and with the described step of they and described mix particles, described liquid is the density for the matching properties that obtains described needs.

11. a preparation, it comprises the active component that is deposited in the glassy or unbodied particle, and described particle is suspended in the liquid that contains hydrogen fluorine ether.