Gamma sterilizable culture medium for the identification of yeasts and fungi

Abstract

Gamma sterilizable culture medium for the selectively identification of yeasts and fungi with an addition of ciprofloxacin and, if necessary streptomycin or other antibiotics.

Description

[0001] The present invention relates to a gamma sterilizable culture medium for the identification of yeasts and fungi. The media for selectively identifying yeasts and fungi contain antibiotics such as penicillin and streptomycin or chloramphenicol and chlortetracycline (Air Quality Monographs, Vol.2, Elsevier Press 1994) to prevent the concurrent growth of bacteria. The addition of these antibiotics as well as a series of other antibiotics to a Sabouraud medium is described by McFaddin in Media for Isolation-Cultivation-Identification-Maintenance of Medical Bacteria, Williams & Wilkins, 1985.

[0002] In DP 19602345.9-41 is described the addition of sterile filtrated yeast extract to media, which can be additionally γ-sterilized and retain the growth characteristics of non-γ-sterilized media.

[0003] In the pharmaceuticals industry are sought γ-sterilized media for use in clean room areas and isolators. These clean room areas must be monitored for microbial contamination, and the product (that is, the microbiological nutrient medium) itself, with which this monitoring is carried out, should not introduce any contamination, but be sterile. The microbiological media are not completely sterile after autoclaving and filling into, for example, Petri dishes or other agar carriers, but have contamination rates in the order of magnitude of 0.1 to approx. 1%. Only as a result of an additional γ-sterilization (or β-sterilization) with high-energy radiation are killed the residual existing contaminations and a sterile product is obtained. However, many antibiotics are destroyed as a result of the γ-sterilization, so that afterward in selective media for yeasts and fungi whose selectivity is based on the addition of antibiotics, this selectivity no longer exists. In this way, for example, the antibacterial effect of chloramphenicol and chlortetracycline is completely destroyed as a result of a γ-radiation with 25 kGray and the antibacterial effect of the only still weakly effective penicillin is essentially reduced.

[0004] It is the object of the invention to find selective antibiotic additives, which inhibit the growth of concomitant flora also after a γsterilization without having a negative influence on the growth of yeasts and fungi.

[0005] This object is attained in accordance with the invention by adding ciprofloxacin or a combination of ciprofloxacin and streptomycin or, if necessary, a combination of ciprofloxacin and other antibiotics to the culture medium for the identification of yeasts and fungi. The range of the ciprofloxacin concentration lies therefore between 2 mg/l and 200 mg/l.

EXAMPLE 1

[0006] To a Sabouraud dextrose agar with a pH of 0.7 (Emmons Modification Difco Manual) are added after autoclaving 50 mg/l of ciprofloxacin and 50 mg of streptomycin in sterile-filtered form. Also 100 ml of a solution or raw, not autoclaved yeast extract, which was sterile-filtered at ambient temperature, are also added. The yeast extract is used with a suspension of 25 g/liter (2.5 g/l 00 ml) of yeast extract for sterile filtration as described in DP 196345.9. The agar is poured into Petri dishes or flexible plastic carriers (Biotest Surface Pathogen Indicator OKI or Biotest Aerial Pathogen Indicator LKI) and then γ-irradiated with 15-25 kGray.

EXAMPLE 2

[0007] To a Sabouraud dextrose agar with a pH of 7.0 (Emmons Modification, Difco Manual) are added 50 mg/l ciprofloxacin and the medium including the ciprofloxacin is autoclaved. After autoclaving is added a sterile-filtered yeast extract like in Example 1. Filling and γ-irradiation take place as in Example 1.

EXAMPLE 3

[0008] To a Sabouraud dextrose agar, like in Example 1, are added 50 mg/l of penicillin V and 50 mg/l of streptomycin (instead of ciprofloxacin and streptomycin) in sterile-filtered form. Filling and γ-irradiation take place as in Example 1.

EXAMPLE 4

[0009] To a Sabouraud dextrose agar, like in Example 1, are added 50 mg/l of chloramphenicol and 50 mg/l of chlortetracycline (instead of ciprofloxacin and streptomycin) in sterile-filtered form. Filling and γ-irradiation take place as in Example 1.

EXAMPLE 5

[0010] To a Sabouraud dextrose agar, like in Example 1, are added 15 mg/l of chloramphenicol and 15 mg/l of gentamycin (instead of ciprofloxacin and streptomycin) in sterile-filtered form. Filling and γ-irradiation take place as in Example 1.

EXAMPLE 6

[0011] A Rose Bengal agar of Difco is prepared according to the Difco Manual and 50 mg/l of sterile-filtered chloramphenicol are added. The filling takes place as in Example 1, but no additional γ-sterilization follows.

EXAMPLE 7

[0012] A Rose Bengal agar of Difco is prepared according to the Difco Manual and 50 mg/l of sterile-filtered streptomycin are added. The filling takes place as in Example 1, but no additional γ-sterilization follows.

EXAMPLE 8

[0013] A Sabouraud (Emmons Modification, Difco) is autoclaved according to the Difco Manual. Thereafter are added 50 mg/l of chloramphenicol and 50 mg/l of chlortetracycline. The medium is filled into plastic carriers (Biotest LKI), but is not γ-sterilized.

[0014] The culture media produced according to the preceding examples were examined as to their effectiveness against bacteria, yeasts and fungi. The results are summarized in Table 1. As can be seen therein, gram-positive pathogens (B. subtilis, S. aureus) are well inhibited by the medium 8, of the gram-negative pathogens (E. coli, P. aeruginosa), P. aeruginosa is inhibited only incompletely by medium 8, the medium according to the invention of Example 1 inhibits completely all the bacterial test pathogens, while the medium according to Example 4 (corresponds to Example 8, but in Example 4 with additional γ-irradiation) does no longer show an inhibition of any of the bacterial test pathogens.

[0015] On a selective nutrient medium for the growth of yeasts and fungi should grow only yeasts and fungi, but no bacteria. By means of the antibiotics in the unirradiated media according to Examples 5-8 are inhibited bacteria (except P. aeruginosa); fungi and yeasts show a good growth in Example 8, while in Example 6 and 7 Rose Bengal (prevents “spreading” in fungi and acts somewhat antibiotic) not all the fungi grow well. After γ-irradiation, only the media with ciprofloxacin according to Examples 1 and 2 still have the desired properties (no bacterial growth also with high injected pathogen counts, good growth of fungi and yeasts also with low pathogen counts). After the γ-irradiation (Examples 3-5), the media without ciprofloxacin have lost the desired properties and the bacterial flora are throughly intermingled. These desired properties are furthermore stable for a period of 7 months in the media containing ciprofloxacin, while even the unirradiated media according to Example 8 start losing their inhibiting effect on bacteria already after 3 months.

[0016] In further test series were examined the culture media according to Example 1, 4 and 8 as to their effectiveness as selective identification medium.

[0017] Aerial pathogen indicator strips (agar strips LKI of Biotest) are filled with medium according to Example 1 and Example 8. Thereafter, ten measurements per day are taken in one room on 5 consecutive days by using two aerial pathogen collection devices of the RCS Highflow type of Biotest. The measuring devices are mounted parallel at a 1 m distance and provided in a device with agar strips LKI with medium according to Example 8, the other with agar strips LKI with medium according to Example 1. At the same time, 600 l of air are collected for each. Thereafter, the position of the two devices is exchanged for the second measurement, etc. up to the tenth measurement. The strips are incubated at 22.5° C.±2.5° C. and the grown colonies are evaluated after three days. The colonies that do not show a typical fungus appearance are subjected to a gram staining and are microscopically evaluated to differentiate possible bacteria or yeast colonies. The yeasts are apportioned with the fungi, the bacteria are counted and collected separately.

[0018] The media according to Examples 1, 4 and 8 are also filled into Biotest Contact Slides. On unclean surfaces are carried out parallel imitations with these contact slides by using a surface pressure of 500 g per contact slide (use of a 500 g weight for weighing down the contact slide).

[0019] An evaluation similar to the aerial pathogen indicator strips is carried out after an incubation for three days at 22.5° C.±2.5° C.

[0020] The results which are summarized in Table 2 show that in the aerial pathogen measurements the medium 1 as well as the medium 8 prevent the growth of the bacterial concomitant flora. This is to be expected since mainly gram-positive pathogens occur as aerial pathogens, gram-negative pathogens are rarely isolated from the air (usually only under special conditions such as in animal pens, refuse separation plants, does it come to an isolation of gram-negative pathogens from the air).

[0021] Accordingly, with the medium according to the Example 1 in accordance with the invention, despite the γ-radiation after imitation, only fungi without bacterial contaminants are isolated as desired, while on the medium 8 numerous bacteria colonies are still thoroughly intermingled, and in the γ-irradiated version of medium 9 (this the medium of Example 4) the bacteria even grow predominantly. Therefore, the medium according to Example 1 γ-irradiated in accordance with the invention shows the same good yield of yeasts and fungi as a non-γ-irradiated standard medium on Sabouraud basis (Example 8) and a clearly better result than a non-γ-irradiated Rose Bengal medium according to Examples 6 and 7.

[0022] However, all the γ-irradiated Sabouraud media with standard antibiotics according to Examples 3-5 no longer inhibit the bacterial concomitant flora and are no longer selective. Only the use in accordance with the invention of ciprofloxacin, if necessary in combination with other antibiotics (Examples 1 and 2) inhibits also after γ-irradiation the concomitant flora with a simultaneously undiminished good growth of yeasts and fungi.

	Growth on Agar according to:
		Example	Example	Example	Example		Example	Example	Example
	Pathogen	1	2	3	4	Example 5	6	7	8
Bacteria	E. coli ATCC8739	no	no	good	good	growth	inhibited	inhibited	inhibited
Inoculation		growth	growth	growth	growth
104	B. subtllis	no	no	good	good	growth	inhibited	inhibited	inhibited
pathogens	ATCC6633	growth	growth	growth	growth
and 103	S. aureus	no	no	good	good	growth	inhibited	inhibited	inhibited
pathogens	ATCC6538	growth	growth	growth	growth
	P. aeruginosa	no	no	good	good	growth	growth*	growth*	growth*
	ATCC9027	growth	growth	growth	growth
Yeasts	C. albicans	good	good	good	good	good	good	good	good
10-100	ATCC10231	growth	growth	growth	growth	growth	growth	growth	growth
pathogens	S. cerevisia	good	good	good	good	good	little	little	good
	ATC9763	growth	growth	growth	growth	growth	growth	growth	growth
Fungi	A. niger	good	good	good	good	good	growth	growth	good
Inoculation	ATCC9642	growth	growth	growth	growth	growth			growth
10-100	C. herbarum	growth	growth	growth	growth	growth	inhibited	inhibited	growth
pathogens	DSMG3422
	F. roseum	good	good	good	good	good	inhibited	inhibited	good
	DSM3019	growth	growth	growth	growth	growth			growth
	M. racemosum	good	good	good	good	good	good	good	good
	ATCC42647	growth	growth	growth	growth	growth	growth	growth	growth
	P. chrysogenum	good	good	good	good	good	good	good	good
	ATCC10106	growth	growth	growth	growth	growth	growth	growth	growth
	S. chartarum	growth	growth	growth	growth	growth	inhibited	inhibited	inhibited
	ATCC16026
	γ-irradiation	yes 25	yes 25	yes 25	yes 25	yes 25	no	no	no
		kGray	kGray	kGray	kGray	kGray
	Antibiotics used	cipro-	cipro-	penicillin	chloram-	chloram	chloram-	strepto-	chloram-
		floxacin +	floxacin	V +	phenicol	phenicol	phenicol +	mycin +	phenicol
		strepto-		strepto-	+	+	Rose	Rosa	+
		mycin		mycin	chlortetra-	gentamycin	Bengal	Bengal	chlortetra-
					cycline				cycline
*Inoculation 103 inhibited growth at 105. After 3 months storage also growth of 103.

[0023]

TABLE 2
Type of Measurement	Medium according to Example 8	Medium according to Example 1	Medium according to Example 4
5 × 10 measurements with 600 l each	Overall 4022 fungi on 50 strips	Overall 4384 fungi on 50 strips	Not carried out
of air in parallel mounted RCS	(= 100% yield)	(= 109% yield with reference to
Highflow aerial pathogen collectors of	On average 80 per agar strip	the medium according to Ex. 8) on
Biotest	No bacterial contaminations	average 88 per agar strip
		No bacterial contaminations
3 × 10 surface imitation of unclean	Overall 1587 fungi	Overall 1692 fungi	Overall 1076 fungi
surfaces parallel with medium	+ 117 bacterial colonies	+ 0 bacterial colonies	+ 1468 bacterial colonies
according to Example 8 and Example
1 filled into Biotest Contact Slides

Claims

1. A gamma sterilizable culture medium for selectively identifying yeasts and fungi comprising an addition of ciprofloxacin.

2. Culture medium according to claim 1, wherein the concentration of ciprofloxacin in the medium amounts to 2 mg/l to 200 mg/l.

3. Culture medium according to claim 1, which additionally contains at least one other antibiotic besides ciprofloxacin.

4. Culture medium according to claim 3, wherein said other antibiotic is streptomycin.

5. Culture medium according to claim 2, which additionally contains at least one other antibiotic besides ciprofloxacin.

6. Culture medium according to claim 5, wherein said other antibiotic is streptomycin.

7. A gamma sterilized culture medium for selectively identifying yeasts and fungi comprising an addition of ciprofloxacin.

8. Culture medium according to claim 7, wherein the concentration of ciprofloxacin in the medium amounts to 2 mg/l to 200 mg/l.

9. Culture medium according to claim 7, which additionally contains at least one other antibiotic besides ciprofloxacin.

10. Culture medium according to claim 9, wherein said other antibiotic is streptomycin.

11. Culture medium according to claim 8, which additionally contains at least one other antibiotic besides ciprofloxacin.

12. Culture medium according to claim 11, wherein said other antibiotic is streptomycin.

13. A method for determining the presence of fungi and yeast in air, said method comprising: a) providing a culture medium according to claim 7;b) exposing the culture medium to air; c) incubating the culture medium for a period of time sufficient to grow fungi or yeast; and d) analyzing the culture medium for the growth of fungi or yeasts, wherein the growth or fungi or yeast indicates that the air contains fungi or yeast.