DE4111939C2 - - Google Patents

Description

The invention relates to a parenterally administrable, heat-sterilizable O / W emulsion of an X-ray contrast medium based on iodinated fatty acid esters, which are suitable Concentration, if necessary after appropriate dilution, advantageous in X-ray diagnostics, for example in lymphography.

There are already various X-ray contrast medium emulsions, especially those based on iodinated fatty acid esters, proposed and for use in X-ray diagnostics recommended because they were found to be for parenteral, especially intravenous administration own. However, the emulsions that have become known correspond not all requirements in the required or desired dimensions, for example they often do not have any sufficiently high absorption capacity for X-rays on. A particular problem has arisen in the application such emulsions emphasized their low stability,  with the disadvantageous consequence that they do not or only difficult to sterilize or do not store long enough to let. Therefore, there have always been efforts, emulsions of X-ray contrast media, especially with regard to to improve their stability and clinical applicability.

In DE-PS 26 02 907 aqueous emulsions are iodized Glycerin fatty acid esters with a content of 50 to 60% by weight of an iodinated glycerol fatty acid ester with one Alkyl chain length of the fatty acids of at least 10 carbon atoms, 2 to 10% by weight of a polyoxyethylene sorbitan fatty acid ester as an emulsifier and the rest of bidistilled water described, the emulsion obtained because of its instability at higher temperatures only with γ rays can be sterilized.

M. Vermess et al. describe in J. Comput. Assist. Tomogr. 3 (1979), pages 25 to 31 iodine-containing fat emulsions in different compositions. The best proven emulsion contained 53% by volume of an iodinated fatty acid ethyl ester of poppy seed oil (as ethiodol in the trade), 10% Alcohol, 0.45% soy lecithin and a phosphate buffer Adjustment to pH 7. About 55% of the oil was in the form of particles with a diameter of 1 to 3 µm. According to the Authors must have the particle sizes in the emulsion within a range of 2 to 4 µm, if you have a sufficient high absorption capacity for X-rays in the Liver wants to get through the emulsions. As J. Reinick et al. in Radiology 162 (1987), pages 43 to 47, however, this emulsion is not stable and is larger It is difficult to produce quantities. It also causes this Emulsion undesirable side effects such as fever, so that the patients had to be treated with steroids.  

From US-PS 44 04 182 is the preparation of an emulsion of an iodinated fatty acid ethyl ester of poppy oil (trade name Ethiodol) with lecithin as an emulsifier, where the emulsion is prepared in such a way that 30 to 35% by volume the fat parts have a diameter of 2 to 3 µm to have. The emulsion is filtered by membrane filters sterilized because the emulsion is not heat stable and therefore sterilization in an autoclave is not accessible.

Finally, EP-A-02 94 534 describes an iodine-containing emulsion for use as an X-ray contrast medium. Starting from a or more iodinated lipids, e.g. B. iodinated fatty acid esters of poppy oil, cottonseed oil, soybean oil u. Like., which in an aqueous phase is emulsified by means of emulsifiers, this emulsion is characterized by a content of 0.1 to 5% by weight of one or more amino acids, fatty acids or their salts and / or fat-soluble vitamins and / or urea and optionally one or more pharmacologically acceptable oils or fats, these Additives contribute to the improved stability of the emulsion should. Furthermore, the emulsion is said to contain the iodinated lipids an amount of 2.5 to 65% by volume and with a particle diameter contain less than 0.5 µm. The emulsions described are so stable that they are sterilized in an autoclave can be.

For the rest, it is expressly referred to in EP-A-02 94 534 based on a series of printed publications extensively discussed prior art.

On the one hand, the cited prior art shows that emulsions in which a substantial part of the dispersed Phase a particle size in the range of 2 to 4 microns has a significantly better X-ray absorption, e.g. B. in the liver and spleen, and thus do their job as  X-ray contrast media perform better than corresponding emulsions with significantly smaller particle sizes, e.g. More colorful 0.75 µm, such as E. Grimes et al. in Journal of Pharmaceutical Science 68 (1979), pages 52 to 56. On the other hand, EP-A-02 94 534, column 4, lines 45 to 47, shows that to achieve stable, heat-sterilizable X-ray contrast medium emulsions have a particle size of dispersed iodinated fatty acid esters of less than 0.5 µm must be present.

Because of this state of the art, it was previously obvious not possible to produce X-ray contrast medium emulsions, which has the advantages of an extraordinarily stable and therefore by autoclaving at temperatures around 121 ° C sterilizable emulsion with the advantages of a combine good x-ray absorption, although for a long time an urgent need for a satisfactory There was a solution to this problem.

The present invention is therefore based on the object improved x-ray contrast medium emulsions on the basis to create organic iodine compounds that are well tolerated for the patient both a very good absorption of X-rays as well as excellent emulsion stability have, so that the emulsions a good Have storage stability and at temperatures of 120 up to 121 ° C over a sufficiently long period in the autoclave let sterilize.

According to the invention, this object is achieved by parenteral administrable, heat-sterilizable O / W emulsion of a X-ray contrast medium with an inner phase of one or several suitable oil-soluble iodinated fatty acid esters, optionally together with one or more highly refined Glyceride oils, one or more emulsifiers and optionally  Co-emulsifiers and an outer phase from distilled Water with isotonic additives that are labeled is by a content of a physiologically acceptable Buffer from 0.2 to 5 mmol / l sodium hydroxide solution and 2 to 10 mmol / l Disodium hydrogen phosphate and / or disodium glycerophosphates, each based on the volume of finished Emulsion, and in that the inner phase iodized Fatty acid esters with an average droplet diameter of has at least 0.6 µm.

It was surprisingly found that the invention O / W emulsion through a small but defined addition of the proposed physiologically compatible buffer system receives excellent stability so that it sterilized in an autoclave at 121 ° C for about 15 to 20 minutes can be, and that after the sterilization process by suitable choice of the ratio of phosphate buffer to sodium hydroxide solution and the total amount of the buffer is an appropriate one average particle size is achieved without the build up the emulsion is noticeably affected, and that bottled under nitrogen, they have excellent storage stability owns, which ensures the safe handling of these Contrast agent emulsions essential in parenteral applications is facilitated. At the same time, the invention X-ray contrast medium emulsion has a very good absorption of x-rays on so that they are in x-ray diagnostics can be used advantageously.

X-ray contrast media containing iodine are used in the invention O / W emulsions known per se, commercially available parenterally administrable oil-soluble organic iodine compounds used in X-ray imaging positive contrasts of organs sufficiently strong provide, namely iodinated fatty acid esters, especially fatty acid glycerides, especially fatty acid triglycerides, such as Fatty acid ethyl ester of iodized poppy oil, the under the trade name  Lipiodol UF is available, also iodized soybean oil, Cottonseed oil, peanut oil, iodized fish oils and the like. Like. The iodized Fatty acid esters are usually used in an amount of 5 to 40 wt .-%, based on the finished emulsion, used.

If appropriate, the emulsion according to the invention can also be a or several non-iodinated, highly refined, in parenteral Dietary glyceride oils contain, such as e.g. B. soybean oil, safflower oil, medium-chain triglycerides and. the like Through their addition, the density of the oil droplets can be considered internal phase in the emulsion is reduced and thereby Sedimentation are hindered.

Furthermore, one or contain several emulsifiers, those for a parenteral Use required purity. Such Emulsifiers are known and commercially available. Prefers naturally occurring emulsifiers, especially lecithins, e.g. B. from soybeans, particularly preferably egg lecithins, used for the purpose of the invention. You can suitable ratios of those present in the lecithins Phospholipid fractions by special refining known per se and fractionation processes are discontinued. The use of egg lecithins is very particularly preferred with a phosphatidylcholine content <75% and a cephaline content <15%. The use of high purity is also possible Fractions of soy lecithin.

Furthermore, the emulsion according to the invention can optionally contain suitable co-emulsifiers, in particular the Alkali salts of long chain fatty acids, such as. B. the palmitic acid, Oleic acid or stearic acid are suitable.  

The amounts of lecithins are usually in the range of 0.4 to 35 g / l finished emulsion according to the invention, the amounts on co-emulsifiers, e.g. B. of alkali salts of fatty acids, in generally in the range of 0.2 to 1 g / l finished emulsion.

The outer phase of the emulsion according to the invention contains distilled water or highly purified water from injectable Quality (aqua ad injectabilia) and isotonization additives, with the help of the outer phase of the invention Emulsion isotonic with human blood is set. Are suitable as isotonization additives particularly physiologically compatible polyols, such as glycerol, Sorbitol or xylitol. Glycerol is particularly preferred for this used. The isotonic additives become the emulsion added in the amounts necessary for isotonization, for example in the case of glycerol 25 g / l on the finished emulsion.

The excellent heat and storage stability of the emulsion is the addition of a proposed by the invention physiologically compatible buffers made of sodium hydroxide solution in one appropriate concentration, e.g. B. a 1 N sodium hydroxide solution, and Disodium hydrogen phosphate and / or disodium glycerophosphates causes that are also physiologically compatible and a heat sterilization process at 121 ° C over one Period of 15 to 20 minutes without significant decomposition can be subjected. The glycerophosphates mentioned are used in commercially available parenteral infusion solutions and usually represent a mixture of α- and β-glycerophosphate. However, the individual Sub-fractions of these mixtures are used.  

It is understood that the proposed buffer system is made of Sodium hydroxide solution and phosphate in one for the desired effect sufficient amount must be present in the emulsion. It was found that the desired stability effects in the Emulsion occur when the emulsion is 2 to 10 mmol / l, preferably 3 to 8 mmol / l disodium hydrogen phosphate and / or disodium glycerophosphates and 0.2 to 5 mmol / l, preferably 0.5 to 3 mmol / l sodium hydroxide solution, each based on the volume of the finished emulsion. Appropriate Experiments have shown that by varying the Ratio of phosphate buffer and sodium hydroxide solution and their Total amount in the emulsion a desired average particle size can specifically adjust the inner phase, whereby the respective ratio and the total amount of the buffer system empirically within the limits given above must be determined.

Tests have shown that without impairing the excellent Heat and storage stability of the invention Emulsion especially good x-ray contrast effects with a Emulsion can be achieved, the inner phase of which iodized Fatty acid esters with an average droplet diameter of contains at least 0.6 µm. An emulsion according to the invention, where the iodinated fatty acid ester droplets as inner Phase with an average diameter in the range of 0.6 up to 4 µm is preferred. An emulsion in which the iodinated fatty acid ester droplets have an average diameter have in the range of 0.8 to 2.5 microns particularly preferred because it is characterized by a special good x-ray contrast effect with excellent heat and Storage stability distinguished.  

The emulsion according to the invention is produced in the way known in principle from DE-PS 37 22 540, see especially column 13/14, being throughout the manufacturing process and if necessary the subsequent one Storage of the finished emulsion is ensured that the Components and mixtures obtained as well as the finished Emulsion are kept constantly under a nitrogen atmosphere. The individual process steps can be briefly as follows describe:

First, the required amounts of lecithin are taken constant stirring in an appropriate amount of aqua ad injectabilia, which is tempered to approx. 55 to 60 ° C and then the mixture for a while, e.g. B. 15 to 20 minutes. continued stirring.

In parallel, appropriate amounts of glycerol and sodium oleate with constant stirring in a second corresponding Amount of aqua ad injectabilia, which is also 55 to Is 60 ° C, entered and solved. The received Solution is then passed under a nitrogen pressure suitable membrane filter, for example with a pore size of 0.2 µm, filtered and the filtrate into the prepared Given water / lecithin mixture, the temperature maintained at 55 to 60 ° C.

A measured appropriate amount of iodinated fatty acid esters, for example fatty acid ethyl ester of iodinated Poppy seed oil is heated to 50 to 60 ° C and through a nylon membrane filter with a pore size of z. B. 0.2 microns filtered and the filtrate directly into the prepared aqueous mixture from lecithin, glycerin and sodium oleate with constant Stirring, for example using a mechanical high-frequency device (Ultra-Turrax) together with an agitator, given, forming a raw emulsion. After more complete  The crude emulsion formed is added by adding the iodized oil continued to emulsify for a while to obtain an appropriate pre-emulsion to obtain. The entire mix is constantly kept at 55 to 65 ° C and blanketed with nitrogen.

The emulsion obtained is in a closed system in a suitable 2-stage homogenizer in a first Stage at 400 bar and in a second stage at 100 bar further emulsified, the temperature between 50 and 60 ° C. is held. After performing high pressure homogenization the emulsion is transferred to a storage tank. There the emulsion is then diluted to a suitable one Concentration with the addition of the appropriate amounts Phosphate buffer and sodium hydroxide solution. The emulsion is on cooled about 10 to 15 ° C. After that, the Emulsion under a protective nitrogen atmosphere, which then adheres to heat sterilization in a rotary autoclave at 121 ° C for 15 min. long connects.

The emulsions according to the invention have to be filled be protected from light and oxygen, which is why the filling is carried out under nitrogen. After The filled amounts of emulsion are sterilized at +4 and stored at 21 ° C. After a storage period of 14 and Corresponding investigations showed that the Emulsion has not changed during this time.

The invention is further illustrated by the following examples explained.

Example 1

There was an O / W emulsion of an X-ray contrast medium according to the invention manufactured as follows:

First, 231 ml of distilled water for injections placed in a nitrogen-gassed container  and heated to 55-60 ° C and during the following Process stages also kept at this temperature. The Water was gassed with nitrogen until the oxygen content had dropped below 0.1 mg / l. After that 16 g egg lecithin while nitrogen gasification is continued in about 2 minutes with constant stirring in the water entered and with the high-frequency device running (Ultra-Turrax) and stirrer comminuted and continued stirring for 15 minutes.

In parallel, 75 ml of distilled water for injections in a second container filled with nitrogen heated to a temperature of 55 to 60 ° C and during the further process stages kept at this temperature. The water was again so long with nitrogen fumigated until the oxygen content dropped below 0.1 mg / l was. Then 25 g of glycerol (100%) and 0.3 g Sodium oleate added to the water and slowly added Stirring dissolved. The solution obtained, 55 to 60 ° C warm was carried out under nitrogen pressure within 10 min 0.2 µm membrane filter in the prepared water / lecithin Given mixture.

200 g of a fatty acid ethyl ester of iodized poppy oil were placed in a container Nitrogen fumigation heated to 50 to 60 ° C and by a Nylon membrane filter with a pore size of 0.2 µm within from 20 to 25 minutes directly into the prepared aqueous Mixture of lecithin, glycerin and sodium oleate under constant Stir given, the mixture simultaneously through a mechanical high frequency device (Ultra-Turrax) while running fine generator (G6) and coarse generator (G2) treated has been. After complete addition of the X-ray contrast medium the raw emulsion formed was further emulsified for 25 minutes. During the preparation of the raw emulsion, this was  kept at a temperature in the range of 55 to 65 ° C and constantly blanketed with nitrogen.

After switching off the mechanical high-frequency device the raw emulsion with gentle stirring through a membrane filter with an average pore size of 40 µm under a nitrogen pressure of approx. 0.5 bar in one for the production of fat emulsions suitable 2-stage homogenizer given and there in the first stage at 400 bar and homogenized in the second stage at 100 bar. The required homogenization pressure was with hot distillate reached by a by-pass. Subsequently, the Emulsion switched.

During the homogenization the temperature was approx. 60 ° C. The emulsion formed was placed in a storage tank which was covered with nitrogen. Here they were left Rest the emulsion with occasional slow stirring.

The emulsion was then subjected to 2 further homogenization steps subjected, the temperature in turn at about Was kept 60 ° C. After the 4th homogenization step the emulsion cooled as much as possible and into a Given, the 500 ml oxygen-free cooled to 12 ° C distilled water and 0.89 g disodium hydrogen phosphate × 2 H₂O contained. During the run-in of 4 times homogenized emulsion in the template was no further gassed with nitrogen, but only overlaid. Under occasional slow stirring the emulsion continued cooled to 8 to 9 ° C. After reaching this temperature the stirrer was switched off.  

The pH of the emulsion was checked. Deviations from specified target value (pH value from 10.0 to 10.2) corrected by adding 2.2 ml of 1N sodium hydroxide solution. The Emulsion obtained was in a cooling tank under a nitrogen atmosphere stored and before filling through a membrane filter filtered with a pore size of 2 to 8 microns, wherein the filling pressure was a maximum of 0.5 bar. The bottling took place under nitrogen protective gas in glass infusion bottles (quality class II), during the filling with nitrogen was fumigated so that the oxygen content in the glass bottles was less than 0.1 mg / l. After bottling, the Bottles closed and crimped with hollow stoppers.

The emulsions according to the invention must be used during production and storage protected from light and oxygen will.

The emulsion filled into the glass infusion bottles became then in a rotary autoclave at 121 ° C for 15 minutes heat sterilized. The emulsion had before sterilization a pH of 10.0 and one after sterilization pH of 7.1. The density of the emulsion was before and after sterilization 1,046. The osmolality of the emulsion was 278 mosm / l.

Optical inspection showed that the emulsion obtained the usual before and after sterilization Criteria of a parenterally applicable O / W emulsion met.

Furthermore, the particle size distribution in the emulsion before sterilization by dynamic light scattering and after sterilization with Determined using the Coulter method.

The following results were obtained:  

Table 1

After sterilization, the filled emulsion was pre-filled Protected from light at + 4 ° and 21 ° C. Random samples showed that the emulsion after a storage time of 14 and 35 days was unchanged and that partially sedimented droplets are redispersed unchanged could by shaking the bottles gently.

Examples 2 to 9

There were further O / W emulsions of an X-ray contrast agent in the manner described in detail in Example 1 prepared the composition described below have and only in the below Distinguish the type and amount of the buffer system. For comparison purposes Example 2 was an emulsion without Buffer system manufactured, which of course cannot be heat sterilized was, and their particle size distribution in determined not sterilized state, while in the Emulsions of Examples 3 to 9 after sterilization in Rotary autoclave 15 min at 121 ° C the particle size distribution was measured.

The emulsions described in Examples 2 to 9 had the following composition per 1000 ml:

16 g egg lecithin E 80
25 g glycerin (100%)
0.3 g sodium oleate
193.5 g fatty acid ethyl ester of iodized poppy oil (Lipiodol UF)
820 ml dist. water

The emulsions of this composition were added after the 4th Homogenizing step and the subsequent cooling of the Emulsions to about 12 ° C following buffer systems in the specified Quantities added:

Example 2: no buffer system
Example 3: 5 mmol / l Na₂HPO₄ × 2 H₂O + 0.68 mmol / l NaOH
Example 4: 5 mmol / l Na₂HPO₄ × 2 H₂O + 1.2 mmol / l NaOH
Example 5: 5 mmol / l Na₂HPO₄ × 2 H₂O + 1.5 mmol / l NaOH
Example 6: 5 mmol / l Na₂HPO₄ × 2 H₂O + 2.2 mmol / l NaOH
Example 7: 5 mmol / l sodium glycerophosphate + 1.1 mmol / l NaOH
Example 8: 5 mmol / l sodium glycerophosphate + 1.38 mmol / l NaOH
Example 9: 5 mmol / l sodium glycerophosphate + 2.13 mmol / l NaOH.

The emulsions obtained were found to be optical Check all as OK. In the table below Compilation (Table 2) are the pH values before and after sterilization (example 2 only before Sterilization) and the particle size distribution by the Coulter method, for the emulsion of Example 2 in the non-sterile state and for the emulsions of Examples 3 to 9 after the respective buffer has been added and sterilization and as a measure of the stabilization of the Emulsions indicated the respective zeta potential.

The results of Table 2 show very clearly how the particle size distribution under otherwise identical manufacturing conditions after adding the buffer system and subsequent Sterilization at 121 ° C of smaller particles (see example 2) for larger particles (see Examples 3 to 9) shifts very clearly. The zeta potential indicates that the added buffer system has the desired effect would have.  

Table 2

Claims (4)

1. Parenterally administrable, heat-sterilizable O / W emulsion of an X-ray contrast medium with an inner phase composed of one or more suitable oil-soluble iodinated fatty acid esters, optionally together with one or more highly refined glyceride oils, one or more emulsifiers and optionally coemulsifiers and an outer phase composed of distilled water Isotonization additives, characterized by a content of a physiologically compatible buffer of 0.2 to 5 mmol / l sodium hydroxide solution and 2 to 10 mmol / l disodium hydrogen phosphate and / or disodium glycerophosphates, each based on the volume of the finished emulsion, and in that the inner phase has the iodinated fatty acid ester with an average droplet diameter of at least 0.6 µm. 2. Emulsion according to claim 1, characterized in that they 0.5 to 3 mmol / l sodium hydroxide solution and 3 to 8 mmol / l disodium hydrogen phosphate and / or Disodium glycerophosphates, each based on the volume of the finished emulsion, contains. 3. Emulsion according to claim 1 or 2, characterized in that the inner phase iodized fatty acid ester droplets with an average diameter in the range of 0.6 to 4.0 µm. 4. Emulsion according to one of claims 1 to 3, characterized characterized in that the iodinated fatty acid ester droplets an average diameter in the range of 0.8 to 2.5 microns having.