Drug – bio-affecting and body treating compositions – Preparations characterized by special physical form – Particulate form
Reexamination Certificate
1999-11-30
2003-04-01
Page, Thurman K. (Department: 1615)
Drug, bio-affecting and body treating compositions
Preparations characterized by special physical form
Particulate form
C424S489000, C427S213330
Reexamination Certificate
active
06541034
ABSTRACT:
The invention concerns a matrix material according to the preamble of claim
1
and a process for its preparation. A process for the preparation of a solid dispersion of solids such as pharmaceutical substances or taste vectors in the form of powders, or of liquid substances such as flavors, pharmaceutical substances as well as liquid concentrates or extracts in sugar has for instance been described in the Austrian patent document AT-PS-359978. Here the substances to be encapsulated are added to a mixture of several sugars under inert gas, which yields a dispersion of the substance to be protected in the sugar medium that subsequently is brought in contact with a chilled medium.
In practical applications it has now been found, however, that depending on the ratios of, for instance, mannitol, sorbitol, and glucose, or of the sugars cited in the above AT-PS, such as erythritol, mannitol, sorbitol, fructose or glucose, either a crystallization of the sugar matrix does as yet come about or the product becomes too elastic for further processing, and particularly for the required grinding, when higher quantities of fructose or glucose are employed, so that the mass gums up in the mill. Moreover, when fructose or glucose are used, discolorations can also occur, particularly when these are used in combination with alkalies, as for instance in combination with an effervescent base material when the matrix components come in contact with the alkaline effervescent components such as sodium bicarbonate or sodium carbonate.
It was the task set for the invention, therefore, on one hand to eliminate the disadvantages mentioned above and find an improved composition for a suspension of liquid components such as flavors, and also to better encapsulate solid components and optimize the process. Surprisingly, this has been successfully achieved for the first time by the characteristics cited in the specification of claim
1
. Even small amounts of a weak acid can produce the desired effect. It is preferred, however, to employ gluconic acid delta-lactone. Advantageous further developments of the invention are described in the specifications of the dependent claims.
It was an additional aim to better protect the sensitive substances, on one hand against oxidation and on the other hand against saponification, which is of particular importance for flavors. Surprisingly, the use of gluconic acid delta-lactone or similar esters in a joint melt with the sugar alcohols has proven its worth, not only in preventing a possible crystallization but also in impeding the influence of oxidation and of the conditions for a saponification of sensitive active substances or liquid taste vectors. On one hand these are adapted to prevent the crystallization of mannitol or mannitol-sorbitol mixtures to a particularly high degree; on the other hand they give off minor quantities of gluconic acid when the temperature is slightly raised, so that the product is maintained at weakly acidic pH values. This therefore counteracts a saponification of sensitive substances when these are in contact with alkalies, and thus promotes stability. In addition an antioxidant such as tocopherol acetate (Vitamin E acetate) can be added to the matrix material in order to incorporate into the matrix additional protection for the active substances or flavors that are sensitive against air oxygen. Relatively small amounts will suffice for this purpose, such as 0.01 to 0.005%.
Contrary to a melt in which glucose or fructose are used together with mannitol and sorbitol, the melt according to the invention does not become as elastic and can subsequently readily be ground without gumming up the mill. This has positive aspects also for the production process, since the melt upon discharge need not be brought in contact with a medium so strongly chilled in order to solidify. It is thus no longer required that the temperature of the chilled metal surface have a maximum value of 10° C. and preferably of 0° C. Rather, slight cooling with water to 12-18° C. secures a satisfactory solidification of the melt within a corresponding period of time, so that the droplets suspended in the melt will uniformly solidify within the melt and no separation will occur. Aerosil® in an amount of 0.2 to 1% can also be added to the melt in order to attain better processability during subsequent grinding.
In a melt with sorbitol and mannitol, relatively high ratios of gluconic acid delta-lactone can be employed, such as 15 or even up to 35 wt. % referred to the finished melt. A mixture of mannitol, sorbitol, and gluconic acid delta-lactone has been found to be particularly advantageous for the desired properties, with a relatively small amount of sorbitol of about 1 to 10% for 100 parts by weight of the melt, while mannitol can be employed in amounts of 50-80%.
The matrix material may also contain a small amount of a pharmaceutically admitted—and preferably weak—acid, such as lactic acid or malic acid, which can further check the risk of saponification by the alkaline components of an effervescent system that might be present.
When using gluconic acid delta-lactone in the processing one must take into account, however, that this may already decompose to gluconic acid while being brought to melt at higher temperatures. This is prevented by first melting mannitol and sorbitol at 190° C., and adding the gluconic acid delta-lactone only during cooling of this melt, while the heat of melting required to melt the gluconic acid delta-lactone is withdrawn from the molten mannitol-sorbitol mixture. One thus arrives at a precisely predetermined cooling to 150° C.
As already mentioned, one can add to the melt Aerosil® in an amount of 0.2 to 0.8 wt. % prior to pouring the melt, in order to prevent a later gumming up in the mill.
This mass becomes highly viscous already at 135° C., so that liquid substances are introduced with the aid of high shear forces in a temperature range of preferably 150 and 146° C. A special arrangement is used to keep the mixture at this temperature. Subsequently the mixture is poured onto a turning conveyor belt made of teflonized textile and having a total length of about 20 to 40 m. The upper part of the belt is supported by a water-cooled metal surface at 12-15° C. After 10 to 20 m the product has sufficiently solidified so that it can then be comminuted by an impact device and fed to subsequent grinding.
The dry flavors thus produced have the advantage of remaining stable for many years, since the oil droplets enclosed within the particles are completely closed off from the air and hence are protected against oxidation or other external effects. Moreover, small amounts of gluconic acid are formed, as already mentioned as well, during the gentle melting of gluconic acid delta-lactone, so that an optimum pH situation is also present in the solid noncrystalline melt, and the matrix is readily maintained at slightly acidic pH. This provides additional protection against saponification.
When this process is used, an inert gas atmosphere need not be created, since the operations are extremely rapid and unbroken.
Below some examples are provided:
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Gergely Gerhard
Gergely Irmgard
Gergely Thomas
Gergely Gerhard
Oliff & Berridg,e PLC
Page Thurman K.
Tran S.
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