WO2003016462A1 - Support for growth medium - Google Patents

Support for growth medium Download PDF

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Publication number
WO2003016462A1
WO2003016462A1 PCT/FI2002/000673 FI0200673W WO03016462A1 WO 2003016462 A1 WO2003016462 A1 WO 2003016462A1 FI 0200673 W FI0200673 W FI 0200673W WO 03016462 A1 WO03016462 A1 WO 03016462A1
Authority
WO
WIPO (PCT)
Prior art keywords
support plate
growth medium
stem member
ofthe
body part
Prior art date
Application number
PCT/FI2002/000673
Other languages
French (fr)
Inventor
Henry Backman
Tapani Hellman
Antti Kaplas
Juhani Luotola
Jarmo Smolander
Original Assignee
Orion-Yhtymä Oyj
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Orion-Yhtymä Oyj filed Critical Orion-Yhtymä Oyj
Priority to CA2456722A priority Critical patent/CA2456722C/en
Priority to DK02748912.9T priority patent/DK1451288T3/en
Priority to EP02748912.9A priority patent/EP1451288B1/en
Priority to US10/486,791 priority patent/US7534599B2/en
Priority to ES02748912.9T priority patent/ES2564163T3/en
Publication of WO2003016462A1 publication Critical patent/WO2003016462A1/en

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Classifications

    • CCHEMISTRY; METALLURGY
    • C12BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
    • C12MAPPARATUS FOR ENZYMOLOGY OR MICROBIOLOGY; APPARATUS FOR CULTURING MICROORGANISMS FOR PRODUCING BIOMASS, FOR GROWING CELLS OR FOR OBTAINING FERMENTATION OR METABOLIC PRODUCTS, i.e. BIOREACTORS OR FERMENTERS
    • C12M23/00Constructional details, e.g. recesses, hinges
    • C12M23/38Caps; Covers; Plugs; Pouring means
    • CCHEMISTRY; METALLURGY
    • C12BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
    • C12MAPPARATUS FOR ENZYMOLOGY OR MICROBIOLOGY; APPARATUS FOR CULTURING MICROORGANISMS FOR PRODUCING BIOMASS, FOR GROWING CELLS OR FOR OBTAINING FERMENTATION OR METABOLIC PRODUCTS, i.e. BIOREACTORS OR FERMENTERS
    • C12M23/00Constructional details, e.g. recesses, hinges
    • C12M23/02Form or structure of the vessel
    • C12M23/04Flat or tray type, drawers
    • CCHEMISTRY; METALLURGY
    • C12BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
    • C12MAPPARATUS FOR ENZYMOLOGY OR MICROBIOLOGY; APPARATUS FOR CULTURING MICROORGANISMS FOR PRODUCING BIOMASS, FOR GROWING CELLS OR FOR OBTAINING FERMENTATION OR METABOLIC PRODUCTS, i.e. BIOREACTORS OR FERMENTERS
    • C12M23/00Constructional details, e.g. recesses, hinges
    • C12M23/20Material Coatings
    • CCHEMISTRY; METALLURGY
    • C12BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
    • C12MAPPARATUS FOR ENZYMOLOGY OR MICROBIOLOGY; APPARATUS FOR CULTURING MICROORGANISMS FOR PRODUCING BIOMASS, FOR GROWING CELLS OR FOR OBTAINING FERMENTATION OR METABOLIC PRODUCTS, i.e. BIOREACTORS OR FERMENTERS
    • C12M23/00Constructional details, e.g. recesses, hinges
    • C12M23/26Constructional details, e.g. recesses, hinges flexible
    • CCHEMISTRY; METALLURGY
    • C12BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
    • C12MAPPARATUS FOR ENZYMOLOGY OR MICROBIOLOGY; APPARATUS FOR CULTURING MICROORGANISMS FOR PRODUCING BIOMASS, FOR GROWING CELLS OR FOR OBTAINING FERMENTATION OR METABOLIC PRODUCTS, i.e. BIOREACTORS OR FERMENTERS
    • C12M33/00Means for introduction, transport, positioning, extraction, harvesting, peeling or sampling of biological material in or from the apparatus

Definitions

  • the present invention relates to a hinged support for growth medium.
  • This kind of support plate coated with a layer of a growth medium is intended for taking a micro- bial sample, transporting the sample and culturing/identifying microorganisms possibly occurring in the sample.
  • a sterile vial sealable with a cap whereto is connected a support plate member that carries the growth medium and is adapted insertable into the vial.
  • This construction having no hinge at all is disclosed in FI Pat. No. 46,780.
  • An equivalent embodiment is also described in FI Pat. Appl. 783,615.
  • the handling of a growth medium support plate having no hinge or the like flexing point is difficult. It is practically impossible to place the support plate carrying the growth medium layer smoothly against the surface to be sampled chiefly because the cap connected to the support plate forms an obstacle and the support plate cannot be flexed. Furthermore, the pressure inflicted on the growth medium support plate during testing may vary from sample to sample depending on how high force applied to the surface being tested by the person performing the test. Moreover, if the cap is permanently connected to the growth medium support plate, the cap may cause a difficulty in the test by touching the surface being tested. Furthermore, contamination ofthe cap in such a contact with the tested surface is also possible thus forming a risk of transmitting infectious agents to the user and his environment.
  • the risk of transmitted infection can be reduced by using a hinged growth medium support plate whose stem member can be flexed during testing by the cap in such a manner that the cap serving as a handle will not touch the surface being tested.
  • a great number of devices and methods intended for taking microbial samples from surfaces need a hinged structure ofthe connection between the growth medium support plate and its stem member.
  • growth medium support plate structures with a hinged stem member are known plural different embodiments of growth medium support plate structures with a hinged stem member.
  • Examples of such designs are, among others, the Hygicult® dipslide devices manufactured by Orion Diagnostica, the HYcheck contact slide (by Difco Laboratories), the Envirocheck® contact slide (by Merck) and the Dip Slide device (by Oxoid).
  • both ends ofthe growth medium support plate are provided with a hinged handle.
  • the hinges are flexible thus easing the testing of a solid surface.
  • the hinge is formed by V-shaped notches made symmetrically to the upper and lower side ofthe growth medium support plate made from a polymer material.
  • Patent publication WO 90/02169 discloses a device designed for sampling and incubation of anaerobic bacteria on a simple hinged support plate covered with a growth medium.
  • the device design described in US Pat. No. 4,865,988 features a similar kind of simply hinged growth medium support plate.
  • a flexible member connects the support plate to a handle (shaft).
  • the growth medium support plate can be pushed out from the protective cover by the shaft and, respectively, pulled back into the protective cover after taking the sample.
  • the handle is adapted to move in a narrow slot.
  • the growth medium support plate comprises a body part consisting of a slide portion covered by a growth medium and a hinged portion comprising fixed projections ofthe body part and a stem portion connected to the projections.
  • a cap designed to seal the support plate after sampling in an appropriate storage and transport vessel.
  • FIG. 1 shows the basic elements (support plate and hinged portion) of a conventional growth medium support plate (Hygicult®) with its vial and cap;
  • Hygicult® growth medium support plate
  • FIG. 2A shows the basic elements of a growth medium support plate according to the invention
  • FIG. 2B shows in detail the hinged portion ofthe support plate according to the invention with the technical design thereof;
  • FIG. 3 A shows the basic elements of an alternative embodiment of a growth medium support plate according to the invention
  • FIG. 3B shows in more detail the alternative technical design of the hinged portion of the growth medium support plate according to the invention.
  • FIG. 4 shows an exemplary embodiment ofthe leaf-spring-like hinge construction according to the invention.
  • the support plate 1 itself comprises a narrow growth medium slide portion 2 having a smooth surface or contoured with bumps or dimples 3.
  • the bumps or dimples forming different patterns, such as lines or a grid or ridges in V-shape, help the growth medium adhere to the surface ofthe plate and stay fixed thereto.
  • the growth medium support plate may be either one-sided or two- sided. In a two-sided plate, both sides may carry the growth medium.
  • the growth medium can be optimized for a single microorganism or developed to selectively support plural different microorganisms.
  • the structure ofthe support plate can be designed such that allows different growth media to be placed selectively on a single side ofthe plate.
  • a suitable amount of growth medium for a given testing purpose can be placed on the growth slide ofthe support plate.
  • One end (lower end) 5 ofthe growth medium support plate may be blunt or include a short extension 6.
  • the other end (upper end) ofthe support plate includes a hinged portion 7.
  • the hinged portion is comprised of a stem member 8 and a hinge 9. In the embodiment shown in FIG. 1, the hinge extends from edge to edge across the support plate.
  • Stem member 8 joins cap 10 with the support plate by means of a female coupler 11 made on the inner side ofthe cap.
  • the support plate may be inserted into a transparent, tubular vial 12.
  • the cap may be either a threaded cap or a snap-on closure.
  • the vial can also have a flattened cross section, whereby a snap-on closure must be used.
  • the cap may also be produced to be an integral portion ofthe support plate.
  • alternative cross-sectional shapes ofthe transparent vial maybe contemplated, such as a vial having a square or rectangular shape. Obviously, the design ofthe vial may be varied widely.
  • FIG. 2 a growth medium support plate 1 based on a hinge construction according to the invention.
  • the basic construction ofthe support plate does not differ substantially from the conventional design of a support plate illustrated in FIG. 1.
  • the hinged portion 7 ofthe support plate according to the invention is shown in enlarged scale in FIG. 2B.
  • the stem member 8 ofthe hinged portion is freed from its both lateral sides by gaps 16 into a separate member whose connection to the slide portion 2 ofthe growth medium support plate is designed to serve as a hinge 9.
  • Cap 10 is connected to the support plate stem member 8 by means of female coupler 11 ofthe cap.
  • the hinged portion, particularly the stem portion 8 thereof, is kept immobilized in accordance with the invention with the help of a fixing member 15 located on both sides ofthe stem member.
  • the function ofthe dual fixing member 15 is to connect the distal end ofthe projection 14 ofthe support plate body part 13 to the respective distal end ofthe support plate stem member 8 so that the stem member is stiff flexibly connected to the support plate body part.
  • FIG. 3 is shown a growth medium support plate 1 based on an alternative embodiment ofthe hinged portion 7 ofthe support plate in accordance with the invention.
  • the basic construction ofthe support plate does not differ substantially from the conventional design of a support plate illustrated in FIG. 1.
  • the reference numerals ofthe diagram discussed below are equivalent to those of FIG. 2 A.
  • the hinged portion ofthe support plate according to the invention is shown in enlarged scale in FIG. 3B.
  • the stem member 8 extending from the hinged portion is freed from its both lateral sides by gaps 16 into a separate member whose connection to the slide portion 2 ofthe growth medium support plate is designed to serve as a hinge 9.
  • a cap 10 is connected to the support plate stem member 8 by means of a female coupler 11 ofthe cap.
  • the hinged portion, particularly the stem portion 8 thereof, is kept immobilized in accordance with the invention with the help of a fixing member 15 located on both sides ofthe stem member.
  • the function ofthe dual fixing member 15 is to connect the distal end of the projection 14 ofthe support plate body part 13 to the respective distal end ofthe support plate stem member 8.
  • FIG. 4 One further alternative structural embodiment according to the invention may be such as shown in FIG. 4.
  • This construction is based on designing the support plate stem member 8 to act as a leaf spring permitting lateral flexing and being separated from the support plate body part 13 by gaps 16.
  • a leaf-spring implementation does not necessarily need the fixing member 15 inasmuch as this construction can inherently keep the stem member immobilized and thus properly aligned in a secure position during the production steps.
  • the flexural spring can be made such that it stays immobilized during production even without locking but nevertheless can flex under a bending force. While this embodiment is otherwise similar to that described above, it lacks the hinge grooves at its hinged portion, but instead has the support plate stem member made thinner at its base portion. A support plate stem member thus designed inherently tends to assume its rest position.
  • the construction according to the invention offers a further benefit of giving a better feel and touch to the sampled surface during testing.
  • a properly shaped body part 13 (FIG. 4), the body part 13 with its projections 14 (FIG. 3B) or, alternatively, the projections ofthe body part (FIG. 2B) provide hereby convenient support to . the user ofthe contact slide and facilitate the application of a uniform contact pressure over the entire area ofthe sampled surface.
  • the leaf-spring construction ofthe support plate is capable of automatically adjusting the sampling pressure applied to the surface being tested.
  • the pressure applied to the tested surface is determined not only by the stiffness, thickness, width and other parameters ofthe leaf-spring structure, but also by the material and dimensions selected for this portion and, naturally, by the force applied by the user via the cap on the leaf-spring member.
  • the distal end ofthe projection extending from the support plate body part can be affixed the stem member by different kinds of break-off joints accomplished by such techniques as casting, welding, glueing or melting.
  • the distal end ofthe support plate body part projection or the edge ofthe stem member can be shaped such that the mating surfaces of these member portions make a frictional contact with each other.
  • the distal portion ofthe support plate projection can be made, e.g., curved or provided with a bump that coincides with a notch on the stem member.
  • the distal end ofthe stem member can be made to comply with the contour ofthe projection extending from the support plate body part.
  • the support plate acting as the growth medium carrier is connected by a stem member to the vial cap by means of a coupler forming an integral part ofthe cap.
  • the hinged portion of the support plate can flex in the intended fashion only after the distal end of stem member is pushed into the coupler ofthe cap.
  • the stem member is released from its immobilized state according to the invention only after the edges ofthe cap coupler during assembly break off the connection (fixing member) between the distal end of the stem member and the projection extending distally from the support plate body part. After the stem member is thus freed, it becomes readily flexible at its hinged portion. Then, the stem member can be flexed relative to the horizontal support plane in two opposite directions, that is, upward and downward.
  • the stem member only needs to be flexed upward.
  • the projections ofthe support plane body part do not interfere with the flexing ofthe stem member.
  • the freed stem member acts as a spring (shock absorber) when the culture slide, or the support plate, covered with the growth medium is pressed against the surface to be tested.
  • the body part projections can be made curved, e.g., at the points they touch the stem member.
  • the distal end ofthe body part projection can be compliant with the contour ofthe stem member so that, after the fixing member is broken away, the tip contour ofthe body part projection mates with shape ofthe stem member and thus always relocates the support plate accurately in its advantageous initial position if such a function is desired by the user.
  • the growth medium support plate according to the invention equipped with a cap can be readily inserted into a vial (cover) protecting the support plate.
  • the vial is intend- ed for transportation of microbiological samples from the testing site to a laboratory.
  • the support plate covered with a growth medium functions both as a sampling slide and a growth medium platform for the incubation of microorganisms.
  • the vial also serves to protect the sample from external contamination during both the trans- portation and culturing (incubation) ofthe sample to identify the microorganisms possibly collected thereto.
  • the vial prevents infectious microbes from escaping to the environment.
  • One further task ofthe vial is to maintain a steady level of humidity about the growth medium support plate.
  • the support plate may also be relocated by virtue of proper shaping ofthe exterior side ofthe female coupler made on the interior side ofthe cap. Resultingly, the support place resumes after testing its initial unbent position as a result ofthe cooperation ofthe support plate body part projections and the appropriately shaped exterior side ofthe female coupler. This may take place so that, e.g., at the relocation ofthe support plate stem member into the gap between the opposed projections ofthe support plate body part, the stem member assumes a immobilized position when the projections lock, e.g., on small notches made on the exterior side ofthe female coupler.
  • the length and contour ofthe support plate body part projections must be made compatible with the notches on the coupler. Having the support plate thus relocated into its immobilized position, it cannot touch the interior wall ofthe vial when the support plate is being inserted into or stored in the vial.
  • the immobilization locking arrangement according to the invention ofthe stem member can be implemented independently from the construction ofthe hinged portion ofthe stem member.
  • the hinge may be formed by making on both sides of the support plate hinged portion a V-shaped, U-shaped or semicircularly shaped notch or the like thinned portion or by thinning the stem member in some other manner at the desired location ofthe hinge.
  • the hinged portion Independently from the technical implementation of the hinged portion (with a discrete hinge or using some other design), its properties can be modified by varying the width, thickness and shape (triangular, rectangular, etc.) ofthe hinged portion. Obviously, the dimensions ofthe hinged portion must be selected to meet the needs of a specific application. If the dimensions ofthe hinged portion are changed substantially, also the function ofthe support plate and its proportions will be affected.
  • the hinged portion ofthe stem member and the lateral projections ofthe support plate body part are separated from each other by gaps on both sides, whereby a stem member is formed as an extension ofthe support plate.
  • the structure ofthe stem member projecting from the hinged portion is such that the lower end of the stem member connected to the slide portion of the growth medium support plate via the hinged portion is almost as wide as the support plate while the upper end ofthe stem member is made tapering, that is, the stem member looks "triangular" as being distally tapered in its lateral width.
  • the two sides ofthe stem member may be made curved as shown in FIG. 2 or the sides can be straight.
  • the lower end ofthe stem member need not necessarily be as wide as shown in the diagram, but may also be made narrower.
  • the projections of support plate body part serve as fingerholds ofthe support plate, whereby they provide the user extra grip during testing and improved feel when the support plate is being contacted with the surface being tested.
  • the stem member extending upward from the hinged portion need not necessarily have a triangular shape, but instead may also be made rectangular, that is, having a constant width over the entire length ofthe stem member as shown in FIG. 3.
  • the projections extending from the hinged portion and the body part ofthe support plate, or equivalent members, may be injection molded at both ends ofthe support plate.
  • the support plate is made from a polymer.
  • Suitable plastic materials are, e.g., polyethylene, polypropylene and polystyrene, among the like thermoplastic polymers the most preferred one being polypropylene.
  • a person skilled in the art can combine different plastic materials, composites thereof and other materials so as to obtain enhanced properties such as improved stiffness, durability, elasticity or resistance under flexing, only to name a few.
  • the hinge constructions according to the invention can be utilized in a test kit that includes a culture slide formed by a support plate covered by a growth medium for sampling different kinds of surfaces.
  • the support plate is also suited for testing liquids.
  • the support plate ofthe present growth slide may be used for transportation and incubation of microorganisms possibly captured in the sample.

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Abstract

The present invention relates to a growth medium support plate (1) comprising a body part (13) and, situated essentially in the same plane therewith and extending therefrom, a stem member (8) for connecting a cap (10) to said support plate. The stem member is connected to the support plate so as to be flexible in regard to the plane of the support plate. The stem member is connected to the support plate body part in a flexurally stiff fashion.

Description

Support for growth medium
The present invention relates to a hinged support for growth medium. This kind of support plate coated with a layer of a growth medium is intended for taking a micro- bial sample, transporting the sample and culturing/identifying microorganisms possibly occurring in the sample.
As a basic construction of a growth medium support plate in the art is known a sterile vial sealable with a cap whereto is connected a support plate member that carries the growth medium and is adapted insertable into the vial. This construction having no hinge at all is disclosed in FI Pat. No. 46,780. An equivalent embodiment is also described in FI Pat. Appl. 783,615.
When a solid surface must be tested, the handling of a growth medium support plate having no hinge or the like flexing point is difficult. It is practically impossible to place the support plate carrying the growth medium layer smoothly against the surface to be sampled chiefly because the cap connected to the support plate forms an obstacle and the support plate cannot be flexed. Furthermore, the pressure inflicted on the growth medium support plate during testing may vary from sample to sample depending on how high force applied to the surface being tested by the person performing the test. Moreover, if the cap is permanently connected to the growth medium support plate, the cap may cause a difficulty in the test by touching the surface being tested. Furthermore, contamination ofthe cap in such a contact with the tested surface is also possible thus forming a risk of transmitting infectious agents to the user and his environment. The risk of transmitted infection can be reduced by using a hinged growth medium support plate whose stem member can be flexed during testing by the cap in such a manner that the cap serving as a handle will not touch the surface being tested. In fact, a great number of devices and methods intended for taking microbial samples from surfaces need a hinged structure ofthe connection between the growth medium support plate and its stem member.
In the art are known plural different embodiments of growth medium support plate structures with a hinged stem member. Examples of such designs are, among others, the Hygicult® dipslide devices manufactured by Orion Diagnostica, the HYcheck contact slide (by Difco Laboratories), the Envirocheck® contact slide (by Merck) and the Dip Slide device (by Oxoid).
In the embodiment described in patent publication GB 2,141,136, both ends ofthe growth medium support plate are provided with a hinged handle. The hinges are flexible thus easing the testing of a solid surface. The hinge is formed by V-shaped notches made symmetrically to the upper and lower side ofthe growth medium support plate made from a polymer material.
Patent publication WO 90/02169 discloses a device designed for sampling and incubation of anaerobic bacteria on a simple hinged support plate covered with a growth medium. The device design described in US Pat. No. 4,865,988 features a similar kind of simply hinged growth medium support plate.
In the embodiment of EP patent publication 557,041, a flexible member connects the support plate to a handle (shaft). Thus, the growth medium support plate can be pushed out from the protective cover by the shaft and, respectively, pulled back into the protective cover after taking the sample. The handle is adapted to move in a narrow slot. This patent publication does not describe in greater detail the technical design ofthe flexible member serving as a hinge. The drawing ofthe disclosure only shows that the flexible member is substantially thinner than the actual support plate.
In mass production of hinged support plates, problems may occur in the connection ofthe cap to the support plate inasmuch as the support plate may travel on the assembly line in an unfavorable position. As a result, it can happen that the support plate during the assembly phase ofthe device in the manufacturing process may already be bent at the hinge into a disadvantageous position that retards or stops production or even causes a complete or partial failure ofthe assembly phase. When arriving on the assembly line into the position where the cap should mate with the hinged stem member of the support plate, such a bent hinge of the support plate misaligns the support plate stem member so much that the female coupler ofthe cap will not engage with the male coupler ofthe stem member. It is not uncommon to find the hinged stem member ofthe support plate thus bent in an incorrect position on the production line. The consequent loss of production volume and time may invoke substantial economic and material expenditures. This problem appears in a particularly accentuated form in conjunction with support plates having the hinge situated in the upper end ofthe support plate stem member.
Another common problem hampering the use of growth medium support plates of conventional design appears during sampling so that the lower end ofthe support plate tends to rise upward when the pressing force imposed by the testing person happens to be inflicted at the hinge. Then, the sampling pressure may be different by an order of magnitude at the opposite ends ofthe growth medium support plate thus causing inaccurate testing.
The above-described problems hampering the manufacture of a growth medium support plate and use thereof can be eliminated by virtue of a growth medium support plate according to the present invention whose essential characteristics will be evident from the appended claims. Particularly the structure ofthe hinged portion ofthe support plate is different from conventional designs.
The growth medium support plate according to the invention comprises a body part consisting of a slide portion covered by a growth medium and a hinged portion comprising fixed projections ofthe body part and a stem portion connected to the projections. To the stem portion is connected by conventional techniques a cap designed to seal the support plate after sampling in an appropriate storage and transport vessel. Next, the invention will be described in greater detail by making reference to annexed drawings in which
FIG. 1 shows the basic elements (support plate and hinged portion) of a conventional growth medium support plate (Hygicult®) with its vial and cap;
FIG. 2A shows the basic elements of a growth medium support plate according to the invention;
FIG. 2B shows in detail the hinged portion ofthe support plate according to the invention with the technical design thereof;
FIG. 3 A shows the basic elements of an alternative embodiment of a growth medium support plate according to the invention;
FIG. 3B shows in more detail the alternative technical design ofthe hinged portion of the growth medium support plate according to the invention; and
FIG. 4 shows an exemplary embodiment ofthe leaf-spring-like hinge construction according to the invention.
Next, the details of conventional constructions and those implemented according to the invention will be discussed more precisely.
State-of-the-art hinged support plates covered with a growth medium have an almost identical construction (FIG. 1). Varying within certain limits, the size ofthe plates typically is about 20 mm by 70 mm. The support plate 1 itself comprises a narrow growth medium slide portion 2 having a smooth surface or contoured with bumps or dimples 3. The bumps or dimples forming different patterns, such as lines or a grid or ridges in V-shape, help the growth medium adhere to the surface ofthe plate and stay fixed thereto. The growth medium support plate may be either one-sided or two- sided. In a two-sided plate, both sides may carry the growth medium. The growth medium can be optimized for a single microorganism or developed to selectively support plural different microorganisms.
Furthermore, the structure ofthe support plate can be designed such that allows different growth media to be placed selectively on a single side ofthe plate. By virtue of varying the height ofthe border walls 4 on the growth medium support plate, a suitable amount of growth medium for a given testing purpose can be placed on the growth slide ofthe support plate. One end (lower end) 5 ofthe growth medium support plate may be blunt or include a short extension 6. The other end (upper end) ofthe support plate includes a hinged portion 7. The hinged portion is comprised of a stem member 8 and a hinge 9. In the embodiment shown in FIG. 1, the hinge extends from edge to edge across the support plate. Stem member 8 joins cap 10 with the support plate by means of a female coupler 11 made on the inner side ofthe cap. Holding by fingers from the cap, the support plate may be inserted into a transparent, tubular vial 12. The cap may be either a threaded cap or a snap-on closure. The vial can also have a flattened cross section, whereby a snap-on closure must be used. The cap may also be produced to be an integral portion ofthe support plate. Respectively, alternative cross-sectional shapes ofthe transparent vial maybe contemplated, such as a vial having a square or rectangular shape. Obviously, the design ofthe vial may be varied widely.
In FIG. 2 is shown a growth medium support plate 1 based on a hinge construction according to the invention. As is evident from FIG. 2 A, the basic construction ofthe support plate does not differ substantially from the conventional design of a support plate illustrated in FIG. 1. The hinged portion 7 ofthe support plate according to the invention is shown in enlarged scale in FIG. 2B. In this construction, the stem member 8 ofthe hinged portion is freed from its both lateral sides by gaps 16 into a separate member whose connection to the slide portion 2 ofthe growth medium support plate is designed to serve as a hinge 9. Cap 10 is connected to the support plate stem member 8 by means of female coupler 11 ofthe cap. Thus, the gaps 16 provided in the support plate body part 13, more specifically between the body part projections 14 and the support plate stem member 8, allow the flexing ofthe hinged stem member 8 at hinge 9 under a bending force. During initial production steps, the hinged portion, particularly the stem portion 8 thereof, is kept immobilized in accordance with the invention with the help of a fixing member 15 located on both sides ofthe stem member. The function ofthe dual fixing member 15 is to connect the distal end ofthe projection 14 ofthe support plate body part 13 to the respective distal end ofthe support plate stem member 8 so that the stem member is stiff flexibly connected to the support plate body part.
In FIG. 3 is shown a growth medium support plate 1 based on an alternative embodiment ofthe hinged portion 7 ofthe support plate in accordance with the invention. As is evident from FIG. 3 A, the basic construction ofthe support plate does not differ substantially from the conventional design of a support plate illustrated in FIG. 1. The reference numerals ofthe diagram discussed below are equivalent to those of FIG. 2 A. The hinged portion ofthe support plate according to the invention is shown in enlarged scale in FIG. 3B. The stem member 8 extending from the hinged portion is freed from its both lateral sides by gaps 16 into a separate member whose connection to the slide portion 2 ofthe growth medium support plate is designed to serve as a hinge 9. A cap 10 is connected to the support plate stem member 8 by means of a female coupler 11 ofthe cap. Thus, the gaps 16 provided in the support plate body part 13, more specifically between the body part projections 14 and the support plate stem member 8, allow the flexing ofthe hinged stem member 8 at hinge 9 under a bending force. During initial production steps, the hinged portion, particularly the stem portion 8 thereof, is kept immobilized in accordance with the invention with the help of a fixing member 15 located on both sides ofthe stem member. The function ofthe dual fixing member 15 is to connect the distal end of the projection 14 ofthe support plate body part 13 to the respective distal end ofthe support plate stem member 8.
One further alternative structural embodiment according to the invention may be such as shown in FIG. 4. This construction is based on designing the support plate stem member 8 to act as a leaf spring permitting lateral flexing and being separated from the support plate body part 13 by gaps 16. A leaf-spring implementation does not necessarily need the fixing member 15 inasmuch as this construction can inherently keep the stem member immobilized and thus properly aligned in a secure position during the production steps.
By virtue of a properly designed stiffness ofthe leaf-spring portion, the flexural spring can be made such that it stays immobilized during production even without locking but nevertheless can flex under a bending force. While this embodiment is otherwise similar to that described above, it lacks the hinge grooves at its hinged portion, but instead has the support plate stem member made thinner at its base portion. A support plate stem member thus designed inherently tends to assume its rest position.
The construction according to the invention offers a further benefit of giving a better feel and touch to the sampled surface during testing. Depending on the specific design ofthe support plate body part, a properly shaped body part 13 (FIG. 4), the body part 13 with its projections 14 (FIG. 3B) or, alternatively, the projections ofthe body part (FIG. 2B) provide hereby convenient support to. the user ofthe contact slide and facilitate the application of a uniform contact pressure over the entire area ofthe sampled surface.
The leaf-spring construction ofthe support plate is capable of automatically adjusting the sampling pressure applied to the surface being tested. During testing, the pressure applied to the tested surface is determined not only by the stiffness, thickness, width and other parameters ofthe leaf-spring structure, but also by the material and dimensions selected for this portion and, naturally, by the force applied by the user via the cap on the leaf-spring member.
The distal end ofthe projection extending from the support plate body part can be affixed the stem member by different kinds of break-off joints accomplished by such techniques as casting, welding, glueing or melting. Alternatively, the distal end ofthe support plate body part projection or the edge ofthe stem member can be shaped such that the mating surfaces of these member portions make a frictional contact with each other. To this end, the distal portion ofthe support plate projection can be made, e.g., curved or provided with a bump that coincides with a notch on the stem member. Conversely, the distal end ofthe stem member can be made to comply with the contour ofthe projection extending from the support plate body part.
In the present culture incubation and transportation slide embodiment, the support plate acting as the growth medium carrier is connected by a stem member to the vial cap by means of a coupler forming an integral part ofthe cap. The hinged portion of the support plate can flex in the intended fashion only after the distal end of stem member is pushed into the coupler ofthe cap. The stem member is released from its immobilized state according to the invention only after the edges ofthe cap coupler during assembly break off the connection (fixing member) between the distal end of the stem member and the projection extending distally from the support plate body part. After the stem member is thus freed, it becomes readily flexible at its hinged portion. Then, the stem member can be flexed relative to the horizontal support plane in two opposite directions, that is, upward and downward. During sampling, the stem member only needs to be flexed upward. In this operation, the projections ofthe support plane body part do not interfere with the flexing ofthe stem member. Herein, the freed stem member acts as a spring (shock absorber) when the culture slide, or the support plate, covered with the growth medium is pressed against the surface to be tested. With a proper design ofthe support plate body part, it becomes possible to utilize the body part projections for re-aligning the support plate after sampling. To this end, the body part projections can be made curved, e.g., at the points they touch the stem member. When so desired, the distal end ofthe body part projection can be compliant with the contour ofthe stem member so that, after the fixing member is broken away, the tip contour ofthe body part projection mates with shape ofthe stem member and thus always relocates the support plate accurately in its advantageous initial position if such a function is desired by the user.
The growth medium support plate according to the invention equipped with a cap can be readily inserted into a vial (cover) protecting the support plate. The vial is intend- ed for transportation of microbiological samples from the testing site to a laboratory. Thus, the support plate covered with a growth medium functions both as a sampling slide and a growth medium platform for the incubation of microorganisms. The vial also serves to protect the sample from external contamination during both the trans- portation and culturing (incubation) ofthe sample to identify the microorganisms possibly collected thereto. Conversely, the vial prevents infectious microbes from escaping to the environment. One further task ofthe vial is to maintain a steady level of humidity about the growth medium support plate.
The support plate may also be relocated by virtue of proper shaping ofthe exterior side ofthe female coupler made on the interior side ofthe cap. Resultingly, the support place resumes after testing its initial unbent position as a result ofthe cooperation ofthe support plate body part projections and the appropriately shaped exterior side ofthe female coupler. This may take place so that, e.g., at the relocation ofthe support plate stem member into the gap between the opposed projections ofthe support plate body part, the stem member assumes a immobilized position when the projections lock, e.g., on small notches made on the exterior side ofthe female coupler. Herein, the length and contour ofthe support plate body part projections must be made compatible with the notches on the coupler. Having the support plate thus relocated into its immobilized position, it cannot touch the interior wall ofthe vial when the support plate is being inserted into or stored in the vial.
The immobilization locking arrangement according to the invention ofthe stem member can be implemented independently from the construction ofthe hinged portion ofthe stem member. The hinge may be formed by making on both sides of the support plate hinged portion a V-shaped, U-shaped or semicircularly shaped notch or the like thinned portion or by thinning the stem member in some other manner at the desired location ofthe hinge.
Independently from the technical implementation of the hinged portion (with a discrete hinge or using some other design), its properties can be modified by varying the width, thickness and shape (triangular, rectangular, etc.) ofthe hinged portion. Obviously, the dimensions ofthe hinged portion must be selected to meet the needs of a specific application. If the dimensions ofthe hinged portion are changed substantially, also the function ofthe support plate and its proportions will be affected.
In the support plate construction according to the invention the hinged portion ofthe stem member and the lateral projections ofthe support plate body part are separated from each other by gaps on both sides, whereby a stem member is formed as an extension ofthe support plate. According to a preferred embodiment ofthe invention, the structure ofthe stem member projecting from the hinged portion is such that the lower end of the stem member connected to the slide portion of the growth medium support plate via the hinged portion is almost as wide as the support plate while the upper end ofthe stem member is made tapering, that is, the stem member looks "triangular" as being distally tapered in its lateral width. To implement this shape, the two sides ofthe stem member may be made curved as shown in FIG. 2 or the sides can be straight. The lower end ofthe stem member need not necessarily be as wide as shown in the diagram, but may also be made narrower. The projections of support plate body part serve as fingerholds ofthe support plate, whereby they provide the user extra grip during testing and improved feel when the support plate is being contacted with the surface being tested. As is evident to a person skilled in the art, the stem member extending upward from the hinged portion need not necessarily have a triangular shape, but instead may also be made rectangular, that is, having a constant width over the entire length ofthe stem member as shown in FIG. 3.
When so desired, the projections extending from the hinged portion and the body part ofthe support plate, or equivalent members, may be injection molded at both ends ofthe support plate.
Generally, the support plate is made from a polymer. Suitable plastic materials are, e.g., polyethylene, polypropylene and polystyrene, among the like thermoplastic polymers the most preferred one being polypropylene. Obviously, a person skilled in the art can combine different plastic materials, composites thereof and other materials so as to obtain enhanced properties such as improved stiffness, durability, elasticity or resistance under flexing, only to name a few.
The hinge constructions according to the invention can be utilized in a test kit that includes a culture slide formed by a support plate covered by a growth medium for sampling different kinds of surfaces. As mentioned above, the support plate is also suited for testing liquids. Furthermore, the support plate ofthe present growth slide may be used for transportation and incubation of microorganisms possibly captured in the sample.

Claims

What is claimed is:
1. A growth medium support plate (1) comprising a body part (13) and, situated essentially in the same plane therewith and extending therefrom, a stem member (8) for connecting a cap (10) to said support plate, the stem member being connected to said support plate so as to be flexible in regard to the plane of said support plate, characterized in that said stem member is connected to said support plate body part in a flexurally stiff fashion.
2. The growth medium support plate of claim 1 , characterized in that the flexural stiffness ofthe stem member (8) is accomplished by means of projections (14) extending from said support plate body part (13) and adapted to be in contact with said stem member.
3. The growth medium support plate of claim 2, characterized in that said projections (14) of said support plate body part are adapted to make contact with said stem member (8) by means of fixing members (15).
4. The growth medium support plate of claim 3, characterized in that said fixing members (15) are adapted to make contact with said stem member (8) by a break-off connection.
5. The growth medium support plate of claim 4, characterized in that said break-off connection is implemented by means of injection molding, welding, glueing or melting.
6. The growth medium support plate of claim 4 or 5, characterized in that said break-off connection is adapted to undergo its breaking-off action in conjunction with the assembly of said cap (10) on said stem member.
7. The growth medium support plate of claim 2, characterized in that said projections (14) of said support plate body part are adapted to make a frictional contact with said stem member (8).
8. The growth medium support plate of claim 1, characterized in that said stem member (8) is implemented as a leaf spring.
9. The growth medium support plate of claim 2, characterized in that said projections (14) of said support plate body part are adapted to extend from said body part (13) at both sides of said stem member (8).
10. The growth medium support plate of any one of claims 1-9, characterized in that said stem member (8) has a distally tapering shape in the plane of its lateral width.
11. The growth medium support plate of any one of claims 2-10, characterized in that said body part (13) or the projections thereof are shaped to serve as fingerholds when holding said growth medium support plate.
12. The growth medium support plate of any one of claims 1-11, characterized in that the material of said support plate is polyethylene, polypropylene or polystyrene, advantageously polypropylene.
13. Test kit for taking a sample from surfaces or, alternatively, liquids, transporting the sample and identifying/incubating microorganisms possibly occurring in the sample, characterized in that said test kit includes the growth medium support plate of claim 1.
PCT/FI2002/000673 2001-08-17 2002-08-16 Support for growth medium WO2003016462A1 (en)

Priority Applications (5)

Application Number Priority Date Filing Date Title
CA2456722A CA2456722C (en) 2001-08-17 2002-08-16 Support for growth medium
DK02748912.9T DK1451288T3 (en) 2001-08-17 2002-08-16 CARRIER FOR GROWTH MEDIA
EP02748912.9A EP1451288B1 (en) 2001-08-17 2002-08-16 Support for growth medium
US10/486,791 US7534599B2 (en) 2001-08-17 2002-08-16 Support for growth medium
ES02748912.9T ES2564163T3 (en) 2001-08-17 2002-08-16 Support for culture medium

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
FI20011660A FI113181B (en) 2001-08-17 2001-08-17 Medium support tray
FI20011660 2001-08-17

Publications (1)

Publication Number Publication Date
WO2003016462A1 true WO2003016462A1 (en) 2003-02-27

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PCT/FI2002/000673 WO2003016462A1 (en) 2001-08-17 2002-08-16 Support for growth medium

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US (1) US7534599B2 (en)
EP (1) EP1451288B1 (en)
CN (1) CN1264966C (en)
CA (1) CA2456722C (en)
DK (1) DK1451288T3 (en)
ES (1) ES2564163T3 (en)
FI (1) FI113181B (en)
WO (1) WO2003016462A1 (en)

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US20240166981A1 (en) 2022-11-21 2024-05-23 Tintometer Gmbh Microbiological testing device, microbiological testing assembly and cap for a microbiological testing device

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FI46780B (en) * 1971-08-24 1973-02-28 Orion Yhtymae Oy
DE2936294A1 (en) * 1978-11-27 1980-06-12 Orion Yhtymae Oy Enclosed culture plate for raising and investigating bacteria - is easily transportable and provides adequate nutrient for growth
FR2525233A1 (en) * 1982-04-14 1983-10-21 Lille Inst Pasteur Bacterial culture jar with medium support blade for urine tests etc. - has pivoted blade also to be able to check flat surface contamination
GB2141136A (en) * 1983-06-08 1984-12-12 Basildon Moulding Company Limi Dip slide
US4865988A (en) * 1987-06-25 1989-09-12 Sta Te Spa Microbiological culture device
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Also Published As

Publication number Publication date
US7534599B2 (en) 2009-05-19
US20060121601A1 (en) 2006-06-08
EP1451288B1 (en) 2015-12-30
CA2456722A1 (en) 2003-02-27
CN1264966C (en) 2006-07-19
FI113181B (en) 2004-03-15
FI20011660A0 (en) 2001-08-17
ES2564163T3 (en) 2016-03-18
CN1543499A (en) 2004-11-03
DK1451288T3 (en) 2016-02-29
FI20011660A (en) 2003-02-18
EP1451288A1 (en) 2004-09-01
CA2456722C (en) 2011-03-22

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