Abstract:
A device for culturing and identifying microorganisms comprising a transparent vessel with a sealable cover, a nutrient substrate carrier that can be coated with a novel growth medium and a method of using the same are disclosed. A plurality of nutrient substrates may be applied to the nutrient substrate carrier and separated into distinct zones so that a variety of microorganisms may be tested for. The method comprises innoculating the nutrient substrate with a liquid sample and incubating the nutrient substrate so that the microorganisms can be identified by visual observation of the color change of the substrate through the transparent vessel.

Description:
This is a continuation of application Ser. No. 08/394,155, filed Feb. 24, 1995, now abandoned. 
    
    
     FIELD OF THE INVENTION 
     The present invention relates generally to a method of culturing and identifying microorganisms and more particularly to a method of culturing and identifying multiple samples of microorganisms and a system and apparatus wherein a sample can be inoculated into media without removing the lid of the apparatus containing the media, thereby reducing contamination of the media. 
     Tissue culture dishes and culturing methods known in the prior art disclose methods for collecting and growing microorganisms in various devices containing various media. For example, U.S. Pat. No. 4,012,288 describes a tissue culture cluster dish having a removable lid and a base with the a plurality of wells formed therein. A protrusion extending upwards from the base allows for atmospheric communication between the well interior and the outside of the cluster dish. The tissue culture cluster dish is made of clear plastic to allow for the facile identification of microorganisms. 
     U.S. Pat. No. 2,533,089 discloses a circular petri dish cover with openings so that the solution or solutions to be tested are dropped or poured into the media. There are openings for tubes which lead directly to the media for transfer of the solution or solutions. A second cover is placed over the cover with the openings to reduce contamination. 
     U.S. Pat. No. 3,769,936 discloses a flat transparent cover for a petri-type dish provided with an externally communicating orifice that may be opened or closed for communication between the exterior and interior of the covered dish without affecting the activity or observation within the dish. This is accomplished by a resilient tape strip which may be transparent. When it is desired to permit communication into the interior, a needle or other probe is inserted with the material to be tested through the orifice to depress the resilient strip, which is moveable to allow the introduction of the substance to be tested. After withdrawal of the needle or probe the resilient strip moves back in place to cover the orifice. 
     International Patent Application PCT/US91/0304 describes a device for culturing and identifying microorganisms in a liquid sample. The cover of the device has a liquid receiving aperture extending through the top wall for permitting the introduction of a liquid sample into the device. The liquid receiving aperture preferably includes a removable plug to provide a sealed environment. The plug may be removed to permit the sample to be introduced into the device. The inner surface is provided with a pair of diametrically opposed, axially extending recesses therein to provide small air passages through which vapors can escape from within the device when a lower ceiling section of the plug is within the aperture. Further, the aperture can be plugged with a material, such as rubber, or latex, which permits the entry and removal of a syringe or other dispensing instruments to deliver the liquid samples to a filter membrane for testing without requiring removal of the cover. Ribs are provided on the inside wall of the cover to minimize undesirable condensation of vapor on the cover so that one may view the colonies forming in the media. 
     In view of the prior art, it is believed that a need exists for a single unit in which a variety of microbes may be effectively collected and quickly grown without the need for excessive handling. Further, there is a need for a compact device for the multiple evaluation of microorganisms that can be nested or stacked for the conservation of storage space. 
     Therefore, it is an object of this invention to provide a device which permits the collection and growth of microorganisms in a sample without the problems of contamination from the outside environment. 
     It is an object of this invention to provide a quick, facile method of identifying microorganisms. It is also an object of this invention to provide a device which permits the growth and identification of microorganisms in samples to a number of different media. 
     It is another object of this invention to use simple color change media for the detection of microorganisms. 
     SUMMARY OF THE INVENTION 
     According to the invention there is provided a single culture vessel device for culturing and determining the identity of one or more microorganisms from a liquid or dry sample. The device comprises a base with a plurality of wells, a lid, both of which are constructed of transparent plastic material, the lid having an aperature leading to each well in the base so that individual specimens may be inserted into each well containing the same or different media. The invention also comprises a method of culturing and determining the identity of one or more microorganisms using the culture vessel. 
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS 
     FIG. 1 is a top plan view of the apparatus of the present invention showing six apertures for the entry of microorganisms to the individual wells of the apparatus. 
     FIG. 2 is an exploded isometric view of the culturing systems shown in FIG. 1. 
     FIG. 3 is a perspective view of the culturing system in accordance with this invention with the lid placed on the base of the culturing system. 
     FIG. 4 is sectional view taken along line 4--4 of FIG. 3; 
     FIG. 5 is a top view of an alternate embodiment of the present invention; 
     FIG. 6 is an exploded isometric view of an alternative embodiment of the present invention; 
     FIG. 7 is a perspective view of the culturing system in accordance with this invention with the lid placed on the base of the culturing system with the wells and channels shown in dotted lines, and; 
     FIG. 8 is sectional view taken along line 8--8 of FIG. 7. 
    
    
     DESCRIPTION OF THE PREFERRED EMBODIMENTS 
     This invention relates to a simple and efficient method for the identification of microorganisms including bacteria. The method generally comprises the steps of culturing and isolating unknown bacteria on a selected media, the media being of specialized formulations to change color for the qualitative identification of the bacteria. Further, the device used with the method of the present invention allows for the identification and culturing of a variety of bacteria while having a compact size to use the least amount of space for storage. The compact nature of the device renders it suitable for use in manned space vehicles. 
     The unknown bacteria may be in solution or dried. The media may be liquid or lyophilized depending upon the needs of the user. The culturing of the bacteria is done for a sufficient time to produce a reasonable concentration of bacteria in the culturing media so that a color change is effected to show the qualitative identification of the bacteria without microscopic examination. 
     A filter membrane, such as one manufactured by Gelman having a pore size of 0.45 micron may be attached to the device to localize the bacteria in an area for facile viewing by the user. The accumulation of the bacteria on the filter membrane provides for a concentration of the bacteria and therefore a fairly quick and reliable change of color of the media for easy identification. 
     While the culturing and identification of the bacteria can be carried out with any suitable equipment and by any convenient method, it is preferable to carry out the culturing and identification of the microorganism in the device of the present invention. 
     As shown in FIGS. 1 and 2, the device is shown which is constructed in accordance with this invention for use in culturing and identifying microorganisms in a liquid sample or a dry sample. The device comprises, as shown in FIGS. 1-3 and 5-6, openings over each well or a central opening in the lid of the plate, with channels to direct the flow of the sample to each of the wells to allow for the inoculation of samples directly into the various wells through the plate cover. 
     The device 10 is composed of a removable lid 12 and base 14 both of which are constructed of a transparent plastic material. In the embodiements shown in the drawings, six wells 16 are present in base 14 for the growing of distinct cultures. It is to be understood that more or less wells may be provided in base 14. The base 14 and lid 12 are each constructed of one piece mold plastic material. 
     The base 14 has a rim 18 and shoulder 20 for supporting lid 12. Rim 18 defines the outer periphery of platform 22 which is supported on base 14. The platform 22 allows for positioning of the wells 16 so that they may be of an adequate depth for receiving the media and specimen. Floor 24 of base 14 is transparent as well as lid 12, for facile viewing of the media and specimen. Floor 24 protects the bottom of the wells 16 from being scratched or marred by the surface of which the device rests. 
     The base 14 has an identifiable back 30 and front 32. Front 32 defines shoulder 20 which supports lid 12. Further, platform 22 has squared off corners 34 at its back 36 and angled corners 38 at its front 40. This structure not only allows for the identification of the front and back of the base, it allows for the placement of the lid 12 in only one position. Angled corners 38 of platform 22 engage the angled corners 42 of the front 44 of lid 12. The back 46 of lid 12 have squared corners 48 to engage rim 18 and squared corners 34 in back 36 of platform 22. The front 44 of lid 12 with its angled corners 42 engage front 40 of platform 22 at its angled corners 38 while being supported by shoulders 20 in the front 32 of base 14. 
     The lid 12 has vertical sides 50 which engage rim 18 and shoulder 20 to a height that allows open space between the wells 16 in platform 22 and lid 12. Apertures 52 are strategically placed over wells 16 in lid 12. The apertures 52 allow passage of media and specimens from the exterior side 53 of lid 12 through the lid into wells 16. Media may, of course, be added to wells 16 separately before placement of lid 12 over the platform 22 and base 14. Apertures 52 are positioned over each well 16 to allow for easy access or enable communication to the wells 16 through the lid 12 while reducing the opportunities for contamination which would result be removing and replacing the lid. Plugs 54 are used to seal the apertures 52. Further, if condensation develops on the inside 55 of lid 12, plugs 54 may be removed to allow for evaporation of the condensation to facilitate viewing of the media in the wells 16. 
     Another embodiment of the present invention, as shown in FIGS. 5 through 8, has a singular centrally positioned aperature 60 in lid 62 for innoculation of samples directly into the media present in wells 16. The lid 62 has a plurality of channels 64 leading from aperture 60. Each channel can be accessed by a sampling probe without contaminating aperture 60 or other channels. The specimen is placed in and directed to one or more channels which may be attached to the inside surface of the lid 62 or bored within lid 62. The channels 64 lead to a position over an individual well 16 where the sample may be introduced into the media in the well 16. Plug 66 is used to seal aperture 60. The arrangement of the present invention allows for the innoculation of media with liquid specimens which reducing the risk of contamination of the media because the lid 62 does not have to be removed for innoculation. 
     In accordance with the present invention, different media may be used with the same or various specimens in one device to culture and identify microorganisms. For example, with the embodiments shown herein, up to six different media may be utilized in one testing procedure. The liqiud sample can be inserted in each well through aperature 52 or 60. After incubation, the wells can be visually observed to determine the presence of bacteria. The wells 16 may be filled with liquid media before lid 12 or 62 is place over the base 14 or dry media may be inserted before closure. Water for rehydration can be inserted through apertures 50 or 62 to reconstitute the media before introduction of the specimens. 
     EXAMPLE 1 
     (Conventional Media which were used for Comparison in this Study) 
     1. Mannitol salt agar (BBL), widely used medium for Staphylococcus aureus. 
     Mannitol salt agar (11.1 g) was suspended in 100 ml of deionized water and heated to dissolve completely. It was sterilized in the autoclave for 15 min. at 15 lb. pressure, cooled to 48° C. and poured into petri dishes. The final pH=7.4. 
     2. Brilliant green agar (BBL), selective medium for Salmonella sp. 
     Brilliant green agar (5.8 g) was suspended in 100 ml of deionized water and heated to dissolve completely. It was sterilized in the autoclave for 15 min. at 15 lb. pressure, cooled to 48° C. and poured into petri dishes. The final pH=6.9. 
     3. EMB agar (BBL), widely used medium for Gram negative organisms. 
     EMB agar (3.6 g) was suspended in 100 ml of deionized water and heated to dissolve completely. It was sterilized in the autoclave for 15 min. at 15 lb. pressure, cooled to 48° C. and poured into petri dishes. The final pH=7.1. 
     4. Cetrimide agar (Difco), selective medium for Pseudomonas aeruginosa. 
     Cetrimide agar (4.53 g) was suspended in 100 ml of deionized water and heated to dissolve completely, then added 1.0 ml of glycerol. It was sterilized in the autoclave for 15 min. at 15 lb. pressure, cooled to 48° C. and poured into petri dishes. The final pH=7.2. 
     5. Potato malt agar (Difco), widely used medium for fungi. 
     Potato malt agar (10.5 g) was suspended in 100 ml of deionized water and heated to dissolve completely. It was sterilized in the autoclave for 15 min. at 15 lb. pressure, cooled to 48° C. and poured into petri dishes. The final pH=7.4. 
     6. KF Streptococcus agar (Difco), selective medium for Enterococcus. 
     KF Streptococcus agar (5.64 g) was suspended in 100 ml of deionized water and heated to dissolve completely. It should not be autoclaved. After cooling to 48° C., 1.0 ml of TTC was added to 100 ml of media. The final pH=7.2. 
     Representative formulations of the nutrient substrates of the present invention are defined in Example 2. These formulations produce enhanced color changes, quick growth and stable formulations. 
     EXAMPLE 2 
     (Formulation of present invention) 
     Mannitol Salt Medium 
     
         ______________________________________Ingredient        Weight/Volume______________________________________Mannitol          1.0 g      1.00%Peptone           1.0 g      1.00%Magnesium sulfate 0.1 g      .10%Phenol red        0.0025 g   0.0025%Sodium chloride   0.75 g     0.75%Deionized water (pH 7.2)             100 mlGellan gum        0.6 g      0.60%______________________________________ 
    
     All the ingredients (mannitol, peptone, magnesium sulfate, phenol red and sodium chloride) were weighed in an analytical balance and dissolved in 100 ml of deionized water by heating and stirring. The pH was adjusted to 7.2. The medium was heated to boiling. Gellan gum (0.6 g) was slowly dispersed to dissolve. Gellan gum is sold under the trademark Gelrite by Schweizerhall, Inc. Piscataway, N.J. The mixture was sterilized for 15 min., cooled to 48° C. and poured 4 ml, 6 ml and 8 ml of media in the designated wells. It was allowed to solidify, After solidification, a sterile filter paper (Gelman GN-6 Meticel 0.45 micron and 25 mm diameter) was placed on top of the agar with the help of a sterile forceps and pressed gently to sit firmly on agar surface leaving no air space in between. 
     Brilliant Green Medium 
     
         ______________________________________Ingredient       Weight/Volume______________________________________Peptone          1.0 g       1.00%Lactose          1.0 g       1.00%Magnesium sulfate            0.1 g       0.10%Brilliant green  0.00125 g   0.00125%Phenol red       0.08 g      0.08%Calcium carbonate            0.05 g      0.05%Deionized water  100 mlpH adjusted to 6.9Gellan gum       0.6 g       0.60%______________________________________ 
    
     All the ingredients including peptone, lactose, magnesium sulfate, brilliant green, phenol red, calcium carbonate were dissolved in 100 ml of deionized water by heating. The mixture was cooled and pH adjusted to 6.9. Gellan gum (0.6 g) was slowly dispersed to dissolve completely, and the mixture was sterilized for 15 min. at 15 lb. pressure, cooled to 48° C. and poured 4 ml, 6 ml and 8 ml of media in the designated wells. It was allowed to solidify. After solidification, a sterile filter paper (Gelman GN-6) was placed on top of the agar leaving no air space in between. 
     EMB Medium 
     
         ______________________________________Ingredient       Weight/Volume______________________________________Peptone          1.0 g       1.00%Lactose          1.0 g       1.00%Eosin dye        0.04 g      0.04%Methylene blue   0.0065 g    0.0065%Magnesium sulfate            0.1 g       0.10%Deionized water  100 mlpH adjusted to 7.2Gellan gum       0.6 g       0.60%______________________________________ 
    
     Peptone, lactose, eosin dye, methylene blue, and magnesium sulfate were weighed and dissolved in 100 ml of deionized water with heating and stirring. The pH was adjusted to 7.2. The medium was heated to boiling and gellan gum (0.6 g) was slowly dispersed to dissolve. It was sterilized for 15 min. at 15 lb. pressure. The medium was cooled to 48° C. and poured 4 ml, 6 ml and 8 ml of media in the designated wells. It was allowed to solidify. After solidification, a sterile filter paper (Gelman GN-6) was placed on top of the agar surface leaving no air space in between. 
     Cetrimide Base medium 
     
         ______________________________________Ingredient        Weight/Volume______________________________________Cetrimide         0.03 g     0.03%Peptone           2.0 g      2.00%Magnesium sulfate 0.1 g      0.10%Calcium carbonate 0.1 g      0.10%Glycerol          1.0 ml     1.00%Deionized Water   100 mlpH adjusted to 7.2Gellan gum        0.6 g      0.60%______________________________________ 
    
     Cetrimide, peptone, magnesium sulfate and calcium carbonate were weighed accurately and dissolved in 100 ml of deionized water and 1.0 ml of glycerol with heating and stirring. The pH was adjusted to 7.2. The medium was heated to boiling and gellan gum was slowly dispersed to dissolve completely. It was sterilized for 15 min. at 15 lb. pressure. The medium was cooled to 48° C. and poured 4 ml, 6 ml and 8 ml of media in the designated wells. It was allowed to solidify. After solidification, a sterile filter paper (Gelman GN-6) was placed on top of the agar leaving no air space in between. 
     Potato Malt Medium 
     
         ______________________________________Ingredient         Weight/Volume______________________________________Potato starch      3.0 g      3.00%Malt               3.0 g      3.00%Dextrose           6.0 g      6.00%Magnesium sulfate  0.1 g      0.10%Deionized water    100 mlpH was adjusted to 7.4Gellan gum         0.6 g      0.60%______________________________________ 
    
     Potato starch, malt, dextrose and magnesium sulfate were weighed accurately and dissolved in 100 ml of deionized water with heating and stirring. The pH was adjusted to 7.4. The medium was heated to boiling and gellan gum was slowly dispersed to dissolve. It was sterilized for 15 min. at 15 lb. pressure. The medium was cooled to 48° C. and poured 4 ml, 6 ml and 8 ml of media in the designated wells. It was allowed to solidify. After solidification, a sterile filter paper (Gelman GN-6) was placed on top of the agar leaving no air space in between. 
     Streptococcus Medium 
     
         ______________________________________Ingredient        Weight/volume______________________________________Soytone           1.0 g       1.00%Yeast extract     1.0 g       1.00%Lactose           0.1 g       0.10%Malt extract      0.2 g       0.20%Magnesium sulfate 0.1 g       0.10%Sodium chloride   0.50 g      0.50%Potassium phosphate             0.5 g       0.50%monobasicSodium azide      0.048 g     0.048%Bromocresol purple             0.0015 g    0.0015%Deionized water   100 mlpH adjusted to 7.2Gellan gum        0.6 g       0.60%Triphenyl tetrazolium             1.0 mlchloride______________________________________ 
    
     All the ingredients were weighed accuratedly and dissolved in deionized water with the pH adjusted to 7.2 and heated to boiling. Gellan gum (0.6 g) is added slowly with stirring to dissolve. The medium was cooled to 48° C. and add 1.0 ml of 1% triphenyl tetrazolium chloride (TTC). The medium was poured into the designated wells in 4 ml, 6 ml and 8 ml quantities. It was allowed to solidify. After solidification, a sterile filter paper (Gelman GN-6 Meticel 0.45 micron and 25 mm diameter) was placed on top of the agar surface leaving no air space in between. 
     EXAMPLE 3 
     Bacterial and fungal suspensions were prepared for the comparative study of the commercial media as described before (Example 1) and the improved nutrient substrates (Example 2) of the present invention. The following bacterial and fungal cultures were used: 
     1. Pseudomonas aeruginosa (ATCC 9027) 
     2. Escherichia coil (ATCC 8739) 
     3. Staphylococcus aureus (ATCC 6538) 
     4. Salmonella typhi (ATCC 6539) 
     5. Streptococcus faecalis 
      (Enterococcus faecalis) (ATCC 19433) 
     6. Aspergillus niger (ATCC 16404) 
     All the bacterial cultures #1 to 5 were grown in Penassay seed agar media for 24 h at 35° C. After 24 h, suspensions were made with sterile saline and kept in screw cap bottles. Using Spectronic 20D (at 530 nm 80% absorption), a standardized suspension was made. From this suspension, serial dilutions (10 -2 , 10 -4 , 10 -6  &amp; 10 -8 ) were made and 0.1 ml added to five wells of the hexoid plates. 
     Fungal suspension of culture #6 was made using saline+1% Polysorbate and scrapped well and stored in screw cap bottle. From the suspension using sterile pasteur pipette, 2 drops of suspension was placed on respective agar media in the sixth well. 
     All plates were covered with the lid and incubated at 35° C. for 24, 48 and 72 hrs. in case of bacteria and 72 hrs. for fungus. 
     EXAMPLE 4 
     In order to determine the growth promotion capability of the formulations of the present invention (Example 2) as compared to conventional media tests were made with various test organisms. Bacterial suspensions of 1 ml, 2 ml, 4 ml and 6 ml were used on lyophilized media with sufficient moisture so that bacteria may grow well. It was found that 1 ml, 2 ml and 4 ml does not give enough moisture and 6 ml is too much. The optimum value was found to be 5.5 ml. 
     From standardized suspension, bacterial suspensions were made by serial dilutions 10 -2 , 10 -4 , 10 -6  and 10 -8  and kept in screw cap bottles. For fungus Aspergillus niger (ATCC 16404), direct suspension was used and no dilutions were made. 
     5.5 ml. of each suspension was added separately to each designated well in a culture dish containing six wells per dish. The suspension was incubated at 35° C. for 24 hours. Simultaneously, controls were run using 5.5 ml sterile water without any microorganisms under identical conditions. The following changes were observed: 
     1. Mannitol salt medium--change from red to yellow 
     2. Brilliant green medium--reddish colony observed 
     3. EMB medium--metallic sheen observed 
     4. Centrimide base--bluish green fluorescence observed 
     5. Potato malt medium--growth of fungus observed 
     6. Streptococcus medium--reddish colony over blue black background observed. 
     The color changes are typical for each organism. 
     EXAMPLE 5 
     Stability Studies 
     The formulation of the present invention and commercial media (lyophilized and regular non-lyophilized plates) were stored at room temperature (26° C.) and at 4° C. to test shelf life for six months. Plates are taken off every week and checked with the bacterial and fungal suspensions for their growth. The amount of suspension used for lyophilized plates was 5.5 ml and for regular plates 0.1 ml per well. Control plates were also used containing sterile saline. The results of the first three weeks (21 days) are summarized in Tables 1 and 2 and additional results are shown in Tables 3-10. 
     The color of the media of the present invention is well defined. The media provided good growth characteristics. The color of the commercial media was not well defined. 
     
                                           TABLE 1__________________________________________________________________________XECHEM FORMULATION PERFORMANCE DATA(THREE WEEKS STABILITY)__________________________________________________________________________    Temp. S. aureus                  P. aeruginosa                          S. typhi                                  E. coli A. niger                                                  E. fascalisDescription    Stored at          Well no. 1                  Well no. 2                          Well no. 3                                  Well no. 4                                          Well no.                                                  Well no.__________________________________________________________________________                                                  6REGULAR  4° C.          Growth of                  Growth of                          Growth of                                  Growth of                                          Growth of                                                  Growth ofPLATES         Bacteria                  Bacteria                          Bacteria                                  Bacteria bright                                          whitish mycelia                                                  Bacteria red          well define                  fluorescence                          reddish metallic sheen                                          after 48                                                  color in blue          golden  greenish color                          colony                  background          yellow  bright          color    RT.   Golden  Fluorescence                          Reddish Growth of                                          Growth of                                                  Growth of          yellow  greenish color                          colony. Bacteria.                                          whitish mycelia                                                  Bacteria. Red          color well                  bright. Growth of                                  Bright metallic                                          after 48                                                  color in blue          defined.                  Growth of                          Bacteria                                  sheen           background          Growth of                  Bacteria          BacteriaLYOPHILIZED    4° C.          Golden  Greenish                          Growth of                                  Growth of                                          Growth of                                                  Growth ofPLATES         yellow  fluorescence.                          Bacteria.                                  Bacteria.                                          whitish mycelia                                                  Bacteria. Red          color.  Growth of                          Reddish Metallic sheen                                          after 48                                                  color in blue          Growth of                  Bacteria                          colony                  background          Bacteria    RT.   Golden  Greenish                          Growth of                                  Growth of                                          Growth of                                                  Growth of          yellow  fluorescence                          Bacteria.                                  Bacteria.                                          whitish mycelia                                                  Bacteria. Red          color           Reddish Metallic sheen  color in blue                          colony                  background__________________________________________________________________________    Temp. Sterile Saline                  Sterile Saline                          Sterile Saline                                  Sterile Saline                                          Sterile Saline                                                  Sterile SalineDescription    Store at          Well no. 1                  Well no. 2                          Well no. 3                                  Well no. 4                                          Well no.                                                  Well no.__________________________________________________________________________                                                  6CONTROL  4° C.          Red Color                  No change in                          Greenish                                  Blue Color                                          No growth                                                  Blue Color noPLATES         no change                  the media                          Color not                                  no metallic     change                          changed sheen    RT.   Red Color                  No change in                          Greenish                                  Blue Color                                          No growth                                                  Blue Color no          no change                  the media                          Color not                                  no metallic     change                          changed sheen__________________________________________________________________________ 
    
     
                                           TABLE 2__________________________________________________________________________COMMERCIAL FORMULATION PERFORMANCE DATA(THREE WEEKS STABILITY)__________________________________________________________________________    Temp. S. aureus                  P. aeruginosa                          S. typhi                                  E. coli A. niger                                                  E. fascalisDescription    Stored at          Well no. 1                  Well no. 2                          Well no. 3                                  Well no. 4                                          Well no.                                                  Well no.__________________________________________________________________________                                                  6REGULAR  4° C.          Color changed                  Growth seen                          Growth is                                  Growth seen                                          Sparse growth                                                  Growth seenPLATES         to yell not                  fluorescence                          slow reddish                                  metallic                                          of whitish                                                  red color in          bright. greenish color                          colony  sheen not                                          mycelia after                                                  blue          Growth  not well        bright  48 hr.  background          moderate                  defined.    RT.   Growth  Growth seen                          Growth is                                  Growth seen                                          Growth of                                                  Growth seen          moderate color                  fluorescence                          slow reddish                                  metallic                                          whitish red color in          changed to                  greenish color                          colony  sheen not                                          mycelia after                                                  blue          yellow not                  not well defined                                  bright  48 hr.  background          brightLYOPHILIZED    4° C.          Growth seen                  Growth seen                          Growth slow                                  Growth seen                                          Sparse growth                                                  Growth ofPLATES         yellow color                  fluorescence                          reddish metallic                                          of whitish                                                  Bacteria red          not bright                  greenish color                          colony  sheen   mycelia after                                                  color in blue                  not well defined        48 hr.  background    RT.   Growth seen                  Growth seen                          Growth slow                                  Growth seen                                          Growth of                                                  Growth of          yellow color                  fluorescence                          reddish metallic                                          whitish Bacteria in          not bright                  greenish color                          colony  sheen   mycelia after                                                  blue                  not well defined        48 hr.  background__________________________________________________________________________    Temp. Sterile Saline                  Sterile Saline                          Sterile Saline                                  Sterile Saline                                          Sterile Saline                                                  Sterile SalineDescription    Store at          Well no. 1                  Well no. 2                          Well no. 3                                  Well no. 4                                          Well no.                                                  Well no.__________________________________________________________________________                                                  6CONTROL  4° C.          Red Color                  No change in                          Greenish                                  Blue Color                                          No growth                                                  Blue ColorPLATES         no change                  the media                          Color no                                  no metallic     no change                          changed sheen    RT.   Red Color                  No change in                          Greenish                                  Blue Color                                          No growth                                                  Blue Color          no change                  the media                          Color no                                  no metallic     no change                          changed sheen__________________________________________________________________________ 
    
     
                                           TABLE 3__________________________________________________________________________STABILITY STUDIES (4 WEEKS OF STORING)COMMERCIAL MEDIA       WellOrganism   Temp.       #S  Non lyophilized                      Lyophilized__________________________________________________________________________S. aureus   RT  1   Color red to yellow (24h)                      Color red to yellow/                      light yellow (24h)P. aeruginosa   RT  2   Fluorescence (24h)                      Fluorescence (24h)S. typhi   RT  3   Red colonies                      Red coloniesE. coli RT  4   Metallic sheen (24h)                      Metallic sheen (24h)A. niger   RT  5   Growth of mycelia (72h)                      Growth of mycelia (72h)E. faecalis   RT  6   Blue to red (48h)                      Blue to red (48h)S. aureus   4° C.       1   Color red to yellow (24h)                      Color red to yellow (24h)P. aeruginosa   4° C.       2   Fluorescence (24h)                      Fluorescence (24h)S. typhi   4° C.       3   Red colonies (24h)                      Red colonies (24h)E. coli 4° C.       4   Metallic sheen (24h)                      Metallic sheen (24h)A. niger   4° C.       5   Growth of mycelia (72h)                      Growth of mycelia (72h)E. faecalis   4° C.       6   Blue to red (48h)                      Blue to red (48h)Control Sterile   RT  1   No color change                      No color changeSaline      2   No color change                      No color change       3   No color change                      No color change       4   No color change                      No color change       5   No color change                      No color change       6   No color change                      No color changeControl Sterile   4° C.       1   No color change                      No color changeSaline      2   No color change                      No color change       3   No color change                      No color change       4   No color change                      No color change       5   No color change                      No color change       6   No color change                      No color change__________________________________________________________________________ RT: Room Temperature (26° C.) 
    
     
                                           TABLE 4__________________________________________________________________________STABILITY STUDIES (4 WEEKS OF STORING)XECHEM FORMULATIONS       WellOrganism   Temp.       #   Non lyophilized                      Lyophilized__________________________________________________________________________S. aureus   RT  1   Color red to yellow (24h)                      Color red to bright yellowP. aeruginosa   RT  2   Bright fluorescence                      Bright fluorescenceS. typhi   RT  3   Red colonies                      Red coloniesE. coli RT  4   Very bright metallic                      Very bright metallic           sheen      sheenA. niger   RT  5   Growth of mycelia                      Growth of myceliaE. faecalis   RT  6   Blue to red colony                      Blue to red colonyS. aureus   4° C.       1   Color red to bright                      Color red to bright           yellow     yellowP. aeruginosa   4° C.       2   Bright fluorescence                      Bright fluorescenceS. typhi   4° C.       3   Red colonies                      Red coloniesE. coli 4° C.       4   Very bright metallic                      Very bright metallic           sheen      sheenA. niger   4° C.       5   Growth of mycelia                      Growth of myceliaE. faecalis   4° C.       6   Blue to red colony                      Blue to red colonyControl RT  1   No color change                      No color change(Sterile Saline)       2   No color change                      No color change       3   No color change                      No color change       4   No color change                      No color change       5   No color change                      No color change       6   No color change                      No color changeControl 4° C.       1   No color change                      No color change(Sterile Saline)       2   No color change                      No color change       3   No color change                      No color change       4   No color change                      No color change       5   No color change                      No color change       6   No color change                      No color change__________________________________________________________________________ RT: Room temperature (26° C.) 
    
     
                                           TABLE 5__________________________________________________________________________STABILITY STUDIES (AFTER 5 WEEK STORING)COMMERCIAL MEDIA       WellOrganism   Temp.       #   Non lyophilized                      Lyophilized__________________________________________________________________________S. aureus   RT  1   Color red to yellow                      Color red to light yellowP. aeruginosa   RT  2   Fluorescence                      FluorescenceS. typhi   RT  3   Red colonies                      Red coloniesE. coli RT  4   Metallic sheen                      Metallic sheenA. niger   RT  5   Growth of mycelia                      Growth of myceliaE. faecalis   RT  6   Blue to red color                      Blue to red colorS. aureus   4° C.       1   Color red to yellow                      Color red to light yellowP. aeruginosa   4° C.       2   Fluorescence                      FluorescenceS. typhi   4° C.       3   Red colonies                      Red coloniesE. coli 4° C.       4   Metallic sheen                      Metallic sheenA. niger   4° C.       5   Growth of mycelia                      Growth of myceliaE. faecalis   4° C.       6   Blue to red colonies                      Blue to red coloniesControl RT  1   No color change                      No color changeSterile Saline       2   No color change                      No color change       3   No color change                      No color change       4   No color change                      No color change       5   No color change                      No color change       6   No color change                      No color changeControl 4° C.       1   No color change                      No color change(Sterile Saline)       2   No color change                      No color change       3   No color change                      No color change       4   No color change                      No color change       5   No color change                      No color change       6   No color change                      No color change__________________________________________________________________________ 
    
     
                                           TABLE 6__________________________________________________________________________STABILITY STUDIES (AFTER 5 WEEK STORING)XECHEM FORMULATIONS       WellOrganism   Temp.       #   Non lyophilized                      Lyophilized__________________________________________________________________________S. aureus   RT  1   Color red to bright                      Color red to bright           yellow     yellowP. aeruginosa   RT  2   Bright fluorescence                      Bright fluorescenceS. typhi   RT  3   Red colonies                      Red coloniesE. coli RT  4   Very bright metallic                      Very bright metallic           sheen      sheenA. niger   RT  3   Growth of mycelia                      Growth of myceliaE. faecalis   RT  6   Blue to red colonies                      Blue to red coloniesS. aureus   4° C.       1   Color red to bright                      Color red to bright           yellow     yellowP. aeruginosa   4° C.       2   Bright fluorescence                      Bright fluorescenceS. typhi   4° C.       3   Red colonies                      Red coloniesE. coli 4° C.       4   Very bright metallic                      Very bright metallic sheen           sheenA. niger   4° C.       5   Growth of mycelia                      Growth of myceliaE. faecalis   4° C.       6   Blue to red colony                      Blue to red colonyControl RT  1   No color change                      No color change(Sterile Saline)       2   No color change                      No color change       3   No color change                      No color change       4   No color change                      No color change       5   No color change                      No color change       6   No color change                      No color changeControl 4° C.       1   No color change                      No color changeSterile Saline       2   No color change                      No color change       3   No color change                      No color change       4   No color change                      No color change       5   No color change                      No color change       6   No color change                      No color change__________________________________________________________________________ 
    
     
                                           TABLE 7__________________________________________________________________________STABILITY STUDIES (AFTER 6 WEEKS STORING)COMMERCIAL MEDIA       WellOrganism   Temp.       #   Non lyophilized                      Lyophilized__________________________________________________________________________S. aureus   RT  1   Color red to yellow                      Color red to yellowP. aeruginosa   RT  2   Fluorescence                      FluorescenceS. typhi   RT  3   Red colonies                      Red coloniesE coli  RT  4   Metallic sheen                      Metallic sheenA. niger   RT  5   Growth of mycelia                      Growth of myceliaE. faecalis   RT  6   Blue to red colonies                      Blue to red coloniesS. aureus   4° C.       1   Color red to yellow                      Color red to yellowP. aeruginosa   4° C.       2   Fluorescence                      FluorescenceS. typhi   4° C.       3   Red colonies                      Red coloniesE. coli 4° C.       4   Metallic sheen                      Metallic sheenA. niger   4° C.       5   Growth of mycelia                      Growth of myceliaE. faecalis   4° C.       6   Blue to red colonies                      Blue to red coloniesControl RT  1   No color change                      No color changeSterile Saline       2   No color change                      No color change       3   No color change                      No color change       4   No color change                      No color change       5   No color change                      No color change       6   No color change                      No color changeControl 4° C.       1   No color change                      No color changeSterile Saline       2   No color change                      No color change       3   No color change                      No color change       4   No color change                      No color change       5   No color change                      No color change       6   No color change                      No color change__________________________________________________________________________ 
    
     
                                           TABLE 8__________________________________________________________________________STABILITY STUDIES (AFTER 6 WEEKS STORING)XECHEM FORMULATIONS       WellOrganism   Temp.       #   Non lyophilized                      Lyophilized__________________________________________________________________________S. aureus   RT  1   Color red to bright                      Color red to bright yellow           yellowP. aeruginosa   RT  2   Bright fluorescence                      Bright fluorescenceS. typhi   RT  3   Red colonies                      Red coloniesE. coli RT  4   Very bright metallic                      Very bright metallic sheen           sheenA. niger   RT  5   Growth of  Sporulation and Mycelial           mycelia    growthE. faecalis   RT  6   Blue to red colonies                      Blue to red coloniesS. aureus   4° C.       1   Color red to bright                      Color red to bright yellow           yellowP. aeruginosa   4° C.       2   Bright fluorescence                      Bright fluorescenceS. typhi   4° C.       3   Red colonies                      Red coloniesE. coli 4° C.       4   Very bright metallic                      Very bright metallic sheen           sheenA. niger   4° C.       5   Growth of mycelia                      Sporulation and Mycelial                      growthE. faecalis   4° C.       6   Blue to red colonies                      Blue to red coloniesControl RT  1   No color change                      No color change(Sterile Saline)       2   No color change                      No color change       3   No color change                      No color change       4   No color change                      No color change       5   No color change                      No color change       6   No color change                      No color changeControl 4° C.       1   No color change                      No color changeSterile Saline       2   No color change                      No color change       3   No color change                      No color change       4   No color change                      No color change       5   No color change                      No color change       6   No color change                      No color change__________________________________________________________________________ 
    
     
                                           TABLE 9__________________________________________________________________________STABILITY STUDIES OF HEXOID PLATES FOR 7TH, 8TH, 9TH &amp; 10TH__________________________________________________________________________WEEK.      7th week of storing  8th week of storingDescription   Temp      W1  W2  W3 W4 W5  W6 W1  W2  W3 W4 W5  W6__________________________________________________________________________Commercial   RT 1, Y          2, G              3, R                 4, S                    5, M                        6, R                           1, Y                               2, G                                   3, R                                      4, S                                         5, M                                             6, RNon lyophilizedCommercial   RT 1, Y          2, G              3, R                 4, S                    5, S&amp;M                        6, R                           1, Y                               2, G                                   3, R                                      4, S                                         5, S&amp;M                                             6,RLyophilizedCommercial   4° C.      1, Y          2, G              3, R                 4, S                    5, M                        6, R                           1, Y                               2, G                                   3, R                                      4, S                                         5, M                                             6, RNon lyophilizedCommercial   4° C.      1, Y          2, G              3, R                 4, S                    5, S&amp;M                        6, R                           1, Y                               2, G                                   3, R                                      4, S                                         5, S&amp;M                                             6, RLyophilizedXechem  RT 1, BY          2, BG              3, R                 4, BS                    5, M                        6, R                           1, BY                               2, BG                                   3, R                                      4, BS                                         5, M                                             6, RNon lyophilizedXechem  RT 1, BY          2, BG              3, R                 4, BS                    5, S&amp;M                        6, R                           1, BY                               2, BG                                   3, R                                      4, BS                                         5, S&amp;M                                             6, RLyophilizedXechem  4° C.      1, BY          2, BG              3, R                 4, BS                    5, M                        6, R                           1, BY                               2, BG                                   3, R                                      4, BS                                         5, M                                             6, RNon lyophilizedXechem  4° C.      1, BY          2, BG              3, R                 4, BS                    5, S&amp;M                        6, R                           1, BY                               2, BG                                   3, R                                      4, BS                                         5, S&amp;M                                             6, RLyophilizedControl RT NC  NC  NC NC NC  NC NC  NC  NC NC NC  NCNon lyophilizedControl RT NC  NC  NC NC NC  NC NC  NC  NC NC NC  NCLyophilizedControl 4° C.      NC  NC  NC NC NC  NC NC  NC  NC NC NC  NCNon lyophilizedControl 4° C.      NC  NC  NC NC NC  NC NC  NC  NC NC NC  NCLyophilized__________________________________________________________________________      9th week of storing  10th week of storingDescription   Temp      W1  W2  W3 W4 W5  W6 W1  W2  W3 W4 W5  W6__________________________________________________________________________Commercial   RT 1, Y          2, G              3, R                 4, S                    5, M                        6, R                           1, Y                               2, G                                   3, R                                      4, S                                         5, M                                             6, RNon lyophilizedCommercial   RT 1, Y          2, G              3, R                 4, S                    5, S&amp;M                        6, R                           1, Y                               2, G                                   3, R                                      4, S                                         5, S&amp;M                                             6, RLyophilizedCommercial   4° C.      1, Y          2, G              3, R                 4, S                    5, M                        6, R                           1, Y                               2, G                                   3, R                                      4, S                                         5, M                                             6, RNon lyophilizedCommercial   4° C.      1, Y          2, G              3, R                 4, S                    5, S&amp;M                        6, R                           1, Y                               2, G                                   3, R                                      4, S                                         5, S&amp;M                                             6, RLyophilizedXechem  RT 1, BY          2, BG              3, R                 4, BS                    5, M                        6, R                           1, BY                               2, BG                                   3, R                                      4, BS                                         5, M                                             6, RNon lyophilizedXechem  RT 1, BY          2, BG              3, R                 4, BS                    5, S&amp;M                        6, R                           1, BY                               2, BG                                   3, R                                      4, BS                                         5, S&amp;M                                             6, RLyophilizedXechem  4° C.      1, BY          2, BG              3, R                 4, BS                    5, M                        6, R                           1, BY                               2, BG                                   3, R                                      4, BS                                         5, M                                             6, RNon lyophilizedXechem  4° C.      1, BY          2, BG              3, R                 4, BS                    5, S&amp;M                        6, R                           1, BY                               2, BG                                   3, R                                      4, BS                                         5, S&amp;M                                             6, RLyophilizedControl RT NC  NC  NC NC NC  NC NC  NC  NC NC NC  NCNon lyophilizedControl RT NC  NC  NC NC NC  NC NC  NC  NC NC NC  NCLyophilizedControl 4° C.      NC  NC  NC NC NC  NC NC  NC  NC NC NC  NCNon lyophilizedControl 4° C.      NC  NC  NC NC NC  NC NC  NC  NC NC NC  NCLyophilized__________________________________________________________________________ 1  Staphylococcus aureus 2  Pseudomonas aeruginosa 3  Salmonella typhi 4  Escherichia coli 5  Aspergillus niger 6  Enterococcus faecalis Y  color changed to yellow G  color changed to green fluorescence R  color changed to red S  color changed to metallic sheen M  mycelia growth S&amp;M  spore &amp; mycelia growth BY  color changed to bright yellow BG  color changed to bright green fluorescence BS  color changed to bright metallic sheen NC  no color change 
    
     
                                           TABLE 10__________________________________________________________________________STABILITY STUDIES OF QUALTURE PLATES FOR 7TH, 8TH, 9TH, &amp; 10TH WEEK.  7th week 8th week 9th week  10th weekDescription  Q1    Q2      Q3        Q4 Q1             Q2               Q3                 Q4 Q1                      Q2 Q3                           Q4 Q1                                Q2 Q3 Q4__________________________________________________________________________RT  SA Y NC      DB        LY Y NC               DB                 LY Y NC B G  Y NC DD Y    PA R B P P  B B P P  PR                      PR R P  B PR P  R    ST Y NC      PR        B  Y NC               PR                 B  PR                      NC R P  B Y  P  R&amp;Y    EC NC    Y R P  NC             Y R P  PR                      R&amp;Y                         R Y  LY                                Y&amp;C                                   R  Y    AN F F F F  F P F F  F F  F F  F F  F  F    EF NC    NC      PR        R&amp;Y           NC             NC               PR                 R&amp;Y                    Y NC B Y&amp;G                              Y NC PR Y&amp;G4° C.    SA Y NC      DB        LY Y NC               DB                 LY Y NC B G  Y NC DB NC    PA B PR      R P  B PR               R P  PR                      PR R P  B PR P  R    ST LY    NC      PR        B&amp;Y           LY             NC               PR                 B&amp;Y                    PR                      NC R P  B Y  PR R&amp;Y    EC NC    Y R P  NC             Y R P  PR                      R&amp;Y                         R Y&amp;G                              LY                                Y  R  Y    AN F F F F  F F F F  F F  F F  F F  F  F    EF NC    NC      PR        R&amp;Y           NC             NC               PR                 R&amp;Y                    Y NC B Y&amp;F                              B Beige                                   R  PControl RT  Y NC      B Y  Y NC               B Y  Y NC PR                           Y&amp;R                              G NC B  PControl 4° C.  Y NC      B Y  Y NC               B Y  Y NC PR                           Y&amp;G                              G NC B  P__________________________________________________________________________ SA  Staphylococcus aureus PA  Pseudomonas aeruginosa ST  Salmonella typhi EC  Escherichia coli AN  Aspergillus niger EF  Enterococcus faecalis Y  Yellow NC  No Color Change DB  Deep Blue LY  Light Yellow B  Blue P  Pink PR  Purple R&amp;Y  Red &amp; Yellow B&amp;Y  Blue &amp; Yellow F  Fungal growth G  Green Y&amp;G  Yellow &amp; Green 
    
     In order to use the nutrient substrate carrier or media of the present invention, the lid 12 or 62 of the device 10 is removed. The liquid or dry nutrient substrate carrier or media is inserted into wells 16. Lid 12 or 62 is placed in position. If a dry nutrient substrate carrier or media is used, it is reconstituted by adding water through the aperture 52 or 60 or by the water present in the specimen sample. Likewise, the specimen(s) is then placed through aperture 52 or 60 and the appropriate channel 64 by a curved sampling probe. After incubation, visual observation and evaluation can take place in the customary manner. The bright, rich, full color of the nutrient substrate carrier or media of the present invention allows for easy identification of the microorganism(s). 
     While a preferred embodiment of the device, method and nutrient substrate have been shown, it is to be understood that they are illustrative and not limitative of the present invention.