SAMPLING AND TESTING DEVICE FOR THE HUMAN OR ANIMAL BODY
A device (1) is provided that is configured to indicate the presence or absence of one or more biological entities in a biological sample. The device comprises a sampling portion (11), the sampling portion comprising flexible material adjustably conformable to a part of a human or animal body, at least a portion of the sampling portion being absorbent and configured to receive a biological sample directly from the body; and a test portion (12) in fluid engagement with the sampling portion, the test portion comprising one or more test zones (14). The sampling portion and test portion are configured such that at least a portion of the sample received by the sampling portion is transferable to the test portion such as to contact one or more of the test zones, and wherein each test zone is configured to indicate the presence or absence of one or more biological entities in the sample.
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The present application claims priority from Australian Provisional Patent Application No 2010900329 filed on 28 Jan. 2010, Australian Provisional Patent Application No 2010900557 filed on 11 Feb. 2010, and Australian Provisional Patent Application No 2010902158 filed on 18 May 2010, the contents of which are incorporated herein by reference.
FIELDThe field of the invention relates to devices and methods for determination of the presence or absence of a biological entity in a human or animal body.
BACKGROUNDImmunochromatography is a well established testing method used to test for the presence or absence of an antigen (usually a biological protein) in a biological sample. The sample is supplied to a lateral flow test device and flows by capillary action through a label-holding substance which contains a soluble and labelled antibody specific to a particular antigen. If that antigen is present in the sample, an antigen-antibody (labelled) complex is formed which then continues to permeate by capillary action through the device to a test site where the complex is captured by a second antibody attached to the test site. This results in an increase in the density of captured antigen-antibody (labelled) complexes at the test site which results in a visible mark (usually a line) on the test site indicating the presence of the antigen in the sample.
Prior to carrying out the lateral flow test, the test sample must be obtained. This is often an invasive process, particularly if the fluid sample comprises nasal discharge, for example, requiring insertion of a foreign object into a body cavity to obtain the sample.
To obtain nasal discharge (e.g., mucus), a ‘nasopharyngeal aspirate’ is routinely performed, which involves passing a thin plastic tube into the nose and suctioning discharge from within the nose. Alternatively, a ‘Q-tip’ or ‘cotton bud’ is inserted via the nose into the nasopharynx and then withdrawn with a small sample of discharge. These methods are at present widespread in sampling nasal discharge for testing and are not without risks, including trauma to the nasopharyngeal mucosa and potential injury to the cribriform plate which forms the roof of the nose, separating it from the brain. Additionally, the accuracy of these test methods are highly dependent upon attaining a quality sample and therefore the skill of the person acquiring the sample. As a result these methods are carried out by trained health personnel and the associated devices are not necessarily available for sale direct to the public.
Any discussion of documents, acts, materials, devices, articles or the like which has been included in the present specification is not to be taken as an admission that any or all of these matters form part of the prior art base or were common general knowledge in the field relevant to the present invention as it existed before the priority date of each claim of this application.
Throughout this specification the word “comprise”, or variations such as “comprises” or “comprising”, will be understood to imply the inclusion of a stated element, integer or step, or group of elements, integers or steps, but not the exclusion of any other element, integer or step, or group of elements, integers or steps.
SUMMARYAccording to a first aspect, the present invention provides a device comprising:
a sampling portion, the sampling portion comprising flexible material adjustably conformable to a part of a human or animal body for receiving a biological sample directly from the body; and
a test portion in fluid engagement with the sampling portion, the test portion comprising one or more test zones,
wherein the sampling portion and test portion are configured such that at least a portion of the sample received by the sampling portion is transferable to the test portion such as to contact one or more of the test zones, and wherein each test zone is configured to indicate the presence or absence of one or more biological entities in the sample.
According to a second aspect, the present invention provides a method for determination of the presence or absence of a biological entity in a human or animal body using a device comprising:
a sampling portion, the sampling portion comprising flexible material adjustably conformable to a part of a human or animal body for receiving a biological sample directly from the body; and
a test portion in fluid engagement with the sampling portion, the test portion comprising one or more test zones,
wherein the sampling portion and test portion are configured such that at least a portion of the sample received by the sampling portion is transferable to the test portion such as to contact one or more of the test zones, and wherein each test zone is configured to indicate the presence or absence of one or more biological entities in the sample,
the method comprising:
conforming the flexible material of the sampling portion to a part of the human or animal body;
depositing a biological sample on the sampling portion; and
observing a reaction at one or more of the test zones to the presence or absence of one or more biological entities in the sample.
The device and method may detect the presence or absence of one or more specific biological entities, such as antigens. The antigens may be found in common respiratory viruses including but not limited to Influenza A (including the H1N1 virus subtype), Influenza B, Respiratory Synctial Virus, parainfluenza viruses, adenoviruses, rhinoviruses, coronaviruses, coxsackie viruses, HIV viruses and/or enteroviruses. The device may also detect specific biological antigens found in bacteria, fungi, protozoa, Helminths, Mycoplasma and prions. The device may also be capable of detecting specific proteins produced by the human or animal body, including but not limited to immunoglobulin, hormone molecules, inflammatory or malignant proteins. The device may comprise a plurality of different test zones so that the presence or absence of different biological entities such as antigens can be tested simultaneously.
The device and method may permit identification of one or more biological entities using existing principles of lateral flow immunochromatography or other techniques. However, by combing the sampling portion and test portion in a single device, the device may provide a simple and low cost means for carrying out this process. The sampling portion and test portion may be combined in the device such that fluid engagement exists between the sampling portion and test portion prior to receipt of the sample and therefore, once the sample is deposited, the user may not need to perform any steps to bring the sampling portion and test portion into fluid engagement. For example, the user may not need to take hold of the test portion and move it into fluid engagement with the sample portion, which could otherwise complicate or adversely affect the testing procedure. In this specification, reference to the sampling portion and testing portion being “in fluid engagement” is intended to indicate the existence of a path between these two portions along which fluid can travel in a controlled manner. It is conceivable that a removable blocking element such as a release tab may be provided to obstruct the path, e.g. prior to testing. However, even with such a removable blocking element in place, the sampling portion and testing portion can still be considered in fluid engagement.
By providing flexible material adjustably conformable to a part of a human or animal body for receiving a biological sample directly from the body, which material may be at least partially absorbent, the device and method may provide a non-invasive, comfortable, intuitive and convenient means for obtaining and testing the sample. The sampling portion, or at least an absorbent portion thereof, can be configured to receive the sample directly from the body to the extent that no separate collection tool is needed to apply the sample to the sampling portion. Accordingly, collection of a sample using a swab or such like is not necessary, albeit this does not necessarily preclude the use of a separate collection tool with the device, should the user choose to use the device in that manner. The device and method may therefore provide a safe, quick and satisfactory alternative to invasive sampling. The device and method may encourage earlier and more frequent testing for the presence of biological entities in humans or animals. The device and method may be used to test for any biological entity placed directly onto the sampling portion by a method including, but not limited to, a typical ‘nose blow’. The device and method may also allow testing for more than one biological entity at a time, either increasing the potential diagnosis of multiple organisms for example, or when used to test for the presence of different antigens from a single organism, increasing the diagnostic sensitivity.
The biological sample may be a fluid sample, or may be a substantially solid sample, which is transformed into a fluid upon application of a liquid such as a solution, e.g. a buffer solution, for example. The liquid may act as a carrier for the biological sample. The liquid may be applied to the sampling portion to increase the fluidity of the biological sample. This may be performed to facilitate or improve capillary transfer of the sample, whether the sample is initially solid or fluid, to test zones within the test portion. The liquid may be applied to the sampling portion of the device before or after receipt of the sample.
The liquid may be applied to the sampling portion by a variety of means. For example, the liquid may be applied using a dropper, such as a pipette, or drops may be applied from a squeezable bottle containing the liquid. Alternatively, the liquid may be provided in a reservoir that may be integral with the device. The reservoir may be a sealed reservoir containing the liquid and which is breakable and/or has a removable portion so that the liquid can be released. For example, the reservoir may take the form of a capsule, bubble or blister containing the liquid, or container having at least one thin wall, which is capable of breaking or bursting to release the liquid. The reservoir may have a weakened part to facilitate easier breaking or bursting of the reservoir, and this may be at a pre-determined position so that the liquid once released is distributed to an appropriate part of the device. An element maybe provided that is actuatable to break or burst the reservoir, which element may comprise a sharp point, for example. Preferably the reservoir is provided adjacent the sampling portion of the device. However, the reservoir may be provided at a variety of different positions of the device.
The flexible material of the sampling portion may be sufficiently supple to bend or fold freely or repeatedly in order to conform to a variety of different shapes of body parts. The flexible material may be bent or folded repeatedly without being substantially damaged, cosmetically and/or and functionally.
The flexible material may be conformable to the nasal region of the body, permitting a nasal discharge (e.g., mucus) sample to be provided directly to the sampling portion. The device may provide a means for testing a nasal discharge sample provided directly to the device via an act of nose blowing. The flexible material of the sampling portion may serve as a facial tissue or handkerchief. Additionally or alternatively, the flexible material may serve as a wipe, allowing a sample to be obtained by wiping or dabbing the flexible material across a portion of the body. The flexible material may be soft such as to prevent any substantial damage or pain to the body during the wiping, dabbing and/or nose blowing processes.
When used to test a nasal discharge sample, the flexible material may be sufficiently flexible to bend from contact portions adjacent the ala or alar groove of the nose, across the tip of the nose, for example. When used to test a stool sample, the flexible material may be sufficiently flexible to bend to a shape conforming to the intergluteal cleft, for example. In general, however, the flexible material may be conformable to any curved or angled parts of the body, such as parts of the legs, arms, feet, hands, face, head, back, torso and/or genitals, etc. The flexible material may be configured to receive, for testing, one or more of a variety of different types of samples directly from the body. Samples may include, for example, blood, serum, plasma, saliva, sputum, urine, ocular fluid, tears, semen, vaginal discharge, nasal secretions and droplets, ear secretions, perspiration, mucus, stool, and/or amniotic, spinal, wound, or abscess fluid.
In one embodiment, the device may be configured specifically for testing samples obtained from a respiratory system, such as secretions from the nose, nasopharynx, oral cavity, pharynx, and oropharynx. The secretions may include nasal mucus, droplets from coughing or sneezing, saliva, and pharyngeal and/or oropharyngeal fluid.
The flexible material may be at least partially absorbent material that can act as a lateral flow medium (e.g. capillary membrane) for transferring at least a portion of the sample from the sampling portion to the test portion. The flexible material may comprise or consist of one or more layers of material and/or padding.
The flexible material may comprise, for example, paper material and/or may be in the form of an absorbent pad. The paper material may be tissue paper or lightweight paper or medium weight paper or otherwise and the paper may be natural paper or synthetic paper. The flexible material may comprise, for example, non-woven rayon fabric or non-woven glass-fibre fabric. The flexible material may comprise polymer material and/or fibrous material such as wood pulp, woven or non-woven cellulose or nitrocellulose fabric.
The flexible material may comprise, for example, a cloth material, e.g. a woven or non-woven fabric material. The cloth material may comprise cotton, wool, polyester or acrylics, for example.
The material may be chosen to be flexible enough to conform to the appropriate body parts and soft enough to perform a wiping, dabbing or blow nose function without causing discomfort to the body being tested. The choice of material may be a balance between flexibility, softness, strength and ability to function as a lateral flow medium.
The sampling portion and test portion may form all or part of a test layer of the device. The sampling portion and testing portion may be integral with each other or may be two or more separate portions fixed together. The testing portion may comprise a flexible material, e.g. flexible material similar or identical to the flexible material of the sampling portion. The sampling portion and test portion may comprise the same material or different material. For example, the testing portion may comprise harder or more rigid material than the sampling portion, since it may not need to contact the body during the sampling process. One side only of the sampling portion or test layer may be designated as, or configured as, a target side, i.e., a side for contacting the body to receive the sample. The target side may comprise markings to indicate the appropriate position for body contact and deposition of the sample. Instructions for carrying out testing using the device and/or interpreting the test results, may also be provided, e.g. printed, on the sampling portion or other region of the test layer.
The device may comprise a cover layer. The cover layer may be attached to, and extend over, one side of the test layer, e.g., the target side of the test layer. A hole in the cover film may be provided so that an area of the sampling portion on that side of the test layer is exposed. Accordingly, a sample may be received by the sampling portion through the hole in the cover layer. The cover layer may be attached to, and extend over, all or part of one side of the test portion of the test layer.
In one embodiment, the plane of the test layer, the sampling portion may be provided at an inner region of the test layer and the test portion may be provided to the outside of the sampling portion. When a cover layer is provided, in the plane of the cover layer, the hole may be located at an inner region of the cover layer so that it aligns with at least a portion of the sampling portion.
The cover layer and hole therein may serve as a guide to ensure that a sample is applied directly to the sampling portion of the device and/or to a targeted area of the sampling portion. Furthermore, the cover layer may act as a barrier to prevent direct application of the sample, and/or other fluids or environmental substances, to the test portion, where it might come into contact with the one or more test zones and adversely affect test results. To ensure that a sample is applied to a targeted area of the sampling portion, particularly when the device is to be used to obtain a nasal sample through nose blowing, finger location guides may be provided. The arrangement may be such that a user will locate the device at the correct position with respect to the nose when their fingers are located in the guides, for example.
The cover layer may comprise fluid-resistant material. For example, the cover layer may comprise plastic material. The cover layer may be a flexible material (e.g. a flexible film) so that it does not prevent the flexible material of the sampling portion from being bent or manipulated into an appropriate shape to contact the body during the sampling process. All or part of the cover layer may be translucent or transparent so that a reaction between the sample and one of more of the test zones can be observed through the cover layer. Alternatively or additionally, the cover layer may comprise one or more windows arranged to align with the one or more of the test zones so that a reaction between the sample and the test zones can be observed through the windows of the cover layer. Instructions for carrying out testing using the device and/or interpreting the test results, may be provided, e.g., printed, on the cover layer.
The device may comprise a backing layer. The backing layer may be attached to, and extend over, one side of the test layer. The cover film may be provided on the opposite side of the test layer to the target side of the test layer. The backing layer may ensure that the sample received by the sampling portion does not leak from the sampling portion, e.g., onto a hand or other surface, and is instead directed toward the test portion of the test layer.
The backing layer may comprise fluid-resistant material. For example, the backing layer may comprise plastic material. The backing layer may be flexible material (e.g. a flexible film) so that it does not prevent the flexible material of the sampling portion from being bent or manipulated into an appropriate shape to contact the body during the sampling process. The backing layer may comprise slide resistant material, e.g., rubbery material, to allow easier gripping of the device by a person performing the testing. Furthermore, the slide resistant material may permit the device to grip to a surface (e.g. a table or bench top), whilst the reaction of the one or more test zones is observed. All or part of the backing layer may be translucent or transparent so that a reaction between the sample and one of more of the test zones can be observed through the backing layer. Alternatively or additionally, the backing layer may comprise one or more windows arranged to align with the one or more of the test zones so that a reaction between the sample and the test zones can be observed through the windows of the backing layer. Instructions for carrying out testing using the device and/or interpreting the test results, may be provided, e.g. printed, on the backing layer
The device may comprise absorbent material to prevent fluid flowing through outer edges of the test layer and onto a users hand or the floor, etc. The absorbent material may be a strip of absorbent material located around the periphery of the device. The absorbent material may be integral to, or connected to, outer regions of one or more of the cover layer, test layer and backing layer. Alternatively, the absorbent material may be provided as an independent element of the device. For example, an additional layer comprising the absorbent material may be provided. The additional layer may extend beyond the outer edges of one or more of the cover layer, test layer and backing layer. The absorbent material may be more absorbent, e.g. have a greater fluid retention capacity, than the test layer.
The cover layer may extend to and align with outer edges of the test layer. As an alternative, the cover may extend only partway to the edges of the test layer. In the latter arrangement, an outer region, e.g. outer strip, of the test layer may be exposed beyond the outer edges of the cover layer. The outer region of the test layer may provide the aforementioned absorbent material to prevent fluid flowing through the outer edges of the test layer.
The device may be substantially flat. The device may be a cloth-like device. That is, the entire device may be a substantially flat, pliable element, easily handled and manipulated by a patient or other person carrying out the testing. The test layer, cover layer and/or backing layer may each comprise a single layer of material only or comprise multiple layers of material.
The device may be foldable such that, following deposition of a sample on the sampling portion, the sampling portion including the sample can be hidden from view. This may be desirable as a sample may be considered unsightly. Whilst the sample is visible, the user may be reluctant to pass the device to another person, e.g., a clinician, for analysis of test results. The device may be folded so that only the backing layer is visible, for example. The device may be foldable in half or other manner, to achieve the desired effect. The device may comprise one or more fold lines to indicate the appropriate position for folding.
If liquid, such as buffer solution, for increasing the fluidity of the biological sample, is provided in a reservoir in accordance with the preceding discussions, the reservoir may be configured to release the liquid upon folding of the device. For example, the reservoir may be configured to burst or break during or after folding of the device. The process of folding the device alone may be sufficient to cause the release of the liquid. Alternatively, release of the liquid may be achieved by further user intervention, such as the user applying force to the reservoir after folding, using their fingers for example. Alternatively, release of the liquid may be achieved by a combination of the folding process and the user applying additional force to the reservoir. The reservoir may be located across or adjacent a fold line of the device. Accordingly, once the device is folded, a user may have easier access to the reservoir as the reservoir may be located at the edge of the folded device. The reservoir may be folded upon folding of the device. This may allow a user to press opposite sides of the folded reservoir against one another to force the reservoir to release the liquid.
As an alternative, the device may be substantially pre-folded. For example, the device may take generally, a butterfly configuration. To this extent, the device may include two flexible wings at least partially forming the sampling portion, and a central housing (spine) located between the two wings. The wings may be relatively pivotable or flexible about the housing.
In general, whether or not the device takes a butterfly configuration, a housing may be provided in the device and arranged to at least partially enclose and/or protect one or more components of the device. For example, the housing may enclose at least partially the testing portion of the device, the liquid reservoir and/or other elements discussed herein. The housing may be substantially rigid and may prevent or reduce the likelihood of damage to the test portion, liquid reservoir and/or other elements enclosed therein. When the housing comprises the testing portion, the housing may include one or more openings or transparent portions to permit observation of the results of testing.
The device may comprise one or more lateral flow test strips, e.g. conventional lateral flow strips that are already available. The test strips may be Quickvue® influenza A and B test strips produced by Quidel Corporation, or BinaxNOW® influenza A and B test strips produced by Inverness Medical Innovations, Inc., for example. Each test strip may provide a respective test portion of the device. Each test strip may be incorporated into the device such as to be in fluid engagement with the sampling portion. The device may provide, in essence, an adapter for one or more conventional lateral flow test strips such as to allow convenient and comfortable deposition of a sample that can be transferred to the one of more test strips. The test strips may be located in a housing of the device. In one embodiment, the device may be configured to allow insertion of one or more lateral flow test strips into the device that have been selected by the user or manufacturer dependent on the desired testing to be carried out.
In one embodiment, an actuator mechanism may be provided to release liquid from the reservoir. The actuator mechanism may comprise, or interact with, a piercing element, such that, upon operation of the actuator mechanism, the piercing element may burst the reservoir, for example. The actuator mechanism may comprise an actuation element that is moveable, e.g., slidable or pivotable, relative to the sampling portion and/or the testing portion. The actuation element may have additional or alternative functions. For example, the actuator element may be configured to spread the sample, e.g., prior to causing release of the fluid from the reservoir. As another example, the actuator element may be configured to activate an LED, in accordance with subsequent discussions herein.
According to a third aspect, the present invention provides a device comprising:
a sampling portion for receiving a biological sample directly from the body;
a test portion in fluid engagement with the sampling portion, the test portion comprising one or more test zones; and
a sealed reservoir containing liquid,
wherein the sampling portion and test portion are configured such that at least a portion of the sample received by the sampling portion is transferable to the test portion such as to contact one or more of the test zones, and wherein each test zone is configured to indicate the presence or absence of one or more biological entities in the sample; and
wherein the device is foldable and the sealed reservoir is configured such that, after or during folding, the liquid is releasable from the reservoir to increase the fluidity of the biological sample.
The device according to the third aspect may have any one or more features of the device described with respect to the first and second aspects of the invention. For example, the reservoir of the device may be a capsule, bubble or blister, where the liquid is released from the reservoir through a force applied to the reservoir upon folding and/or through the application of an additional force by the user after or during folding. As another example, the sampling portion may comprise flexible material adjustably conformable to a part of a human or animal body for receiving a biological sample directly from the body. Nonetheless, it is conceivable that the sampling portion in this third aspect may exhibit less flexibility and may receive a biological sample that is dropped onto the sampling portion, or applied to the sampling portion using a tool such as a dropper or device such as a cotton bud.
In any of the preceding aspects, the device may comprise one or more fixation devices to maintain the device in a folded configuration. The fixation devices may be releasable or non-releasable. The fixation devices may comprise hook and loop fasteners (Velcro™), clips, adhesive or otherwise. The fixation devices may be provided at edges and/or corners of the device for example. The fixation devices may be provided on any one or more of the cover layer, test layer and backing layer. If the device is square or rectangular in shape, for example, the fixation devices may be provided at or adjacent two corners of the device, and complimentary fixation devices may be provided at or adjacent the other two corners of the device such that, upon folding the device in half, the fixation devices will co-operate and fix to each other. If the fixation devices are e.g., adhesive, however, rather than fixation devices fixing to each other, the fixation devices may fix directly to another portion of the device, e.g., to one or more of the cover, test and backing layers of the device.
The device may be maintained in the folded configuration during observation of the test results. Observation may be made through one or more translucent or transparent portions of the backing layer or housing, or one or more windows provided in the backing layer or housing, for example.
The sampling portion of the device, configured to conform to the body to receive the sample, may have a minimum surface area of about 5 cm2 or 10 cm2 or 20 cm2 or 30 cm2 or 40 cm2 or 50 cm2 or 100 cm2 and may have a minimum diameter, or length and/or width, of about 2 cm or 3 cm or 4 cm 5 cm or 6 cm or 7 cm or 10 cm.
The device, for example when configured as a cloth-like device, may have a minimum surface area on one side of about 100 cm2 or 150 cm2 or 200 cm2 and may have a minimum diameter, or length and/or width, on one side of about 10 cm or 15 cm or 20 cm.
The test portion of the device may be provided with antigens or antibodies to allow testing for the presence of one or more biological entities using existing principles of lateral flow immunochromatography.
One or more label-holding areas, e.g. coloured label-holding areas containing specific antibodies bound to light visible molecules, may be provided in the test portion. The label-holding areas may be located at the edge or adjacent the edge of the test portion, at the boundary between the test portion and the sample portion. The sample received by the sample portion may travel via capillary action through the sample portion and into the test portion where it mixes with the label-holding areas and may form antigen-antibody (labelled) complexes.
The one or more test zones may be spaced from the boundary between the test portion and the sample portion. Accordingly, the sample may encounter the label-holding areas prior to reaching the test zones. The test zones may comprise stripes (lines), crosses, squares or other shaped regions of the test portion that have been impregnated with antibodies or antigens. Depending upon the biological antigens present in the sample, and the antibodies or antigens at the label-holding areas and the test zones, the sample may become bound at one or more of the test zones, causing a colour change at the test zones. The change in colour may therefore be indicative of the presence or absence of a specific biological entity in the sample, such as, but not limited to, influenza A or influenza B.
A plurality of test zones may be provided such that the presence or absence of a plurality of different types of biological entities in the sample may be tested. Any number of different test zones up to, for example, ten test zones may be provided. When the sampling portion is located at an inner region of the test layer and the testing portion is located to the outer side of the sampling portion, the test zones may be distributed radially about the sample portion, so that the sample, which may spread radially from the sample portion, may contact each test zone independently. In this instance, the label-holding areas may be provided across a region of the testing portion encircling the sample portion.
Although the device may use principles of immunochromatography, it is conceived, however, that alternative means of testing could be incorporated into the device.
The device may provide a rapid diagnosis test device, permitting testing in less than 1 minute or less than 10 minutes of less than 30 minutes or less than one hour, for example. The device may be disposable, configured for one-use only. The device may be provided in sterile packaging prior to use. The device may provide a means for entirely non-invasive testing for the presence or absence of one or more biological entities. The device may be used for testing in the veterinary field as well as in the field of human medicine.
In any of the aspects, upon indicating the presence of a biological entity, the device may be configured to display a code or identifier that is unique to the biological entity and/or the test device.
According to a fourth aspect, there is provided a device comprising:
a sampling portion for receiving a biological sample directly from the body; and
a test portion in fluid engagement with the sampling portion, the test portion comprising one or more test zones;
wherein the sampling portion and test portion are configured such that at least a portion of the sample received by the sampling portion is transferable to the test portion such as to contact one or more of the test zones, and wherein each test zone is configured to indicate the presence or absence of one or more biological entities in the sample; and
wherein, upon indicating the presence of a biological entity, the device is configured to display a code or identifier that is unique to the biological entity and/or the test device.
The device of the fourth aspect may be used to verify a positive test for a biological entity in the sample.
According to a fifth aspect, there is provided a method for verifying a positive test for a biological entity in a biological sample comprising:
testing for the presence of the biological entity using a test device wherein, upon determining the presence of a biological entity in the biological sample, the test device displays a code or identifier that is unique to the biological entity and/or the test device; and
submitting the code or identifier to a health service.
The device employed in the method of the fifth aspect may be a device according to any one of the preceding aspects.
In the devices of any of the previous aspects, the test zones of the device may display an indicator, e.g. a symbol, to indicate a positive or a negative test result (i.e. to indicate the presence or absence of a specific biological entity in the sample), such as a “+” or a “−” respectively. However, in line with the preceding discussion, the test zones may additionally or alternatively display a unique code or identifier indicative of a positive test result. The code or identifier (referred to hereinafter as “the code”) may be unique to the biological entity present in the sample and/or unique to the device through which the testing is performed. The code may be alphanumeric. Normally the code may be invisible to the user, but may appear when an element defining the code, such as a region of the test portion that has been impregnated with antibodies or antigens, comes into contact with the specific biological entity that is being tested.
Once the code or identifier is obtained, or “revealed” by the test device, it may be provided to a third party, such as a health service. The health service may be a pharmacy, doctor's surgery, hospital, national health service or otherwise. The code may be provided to the service through a website interface, via phone, email, “SMS” or otherwise. Once the code has been provided, the code may be checked by the service against a database of codes to determine whether the code is a valid code, and/or to determine a biological entity associated with the code. Alternatively, the code may comprise descriptive elements that can be directly decoded by the service to determine the validity of the code and/or a biological entity associated with the code. The processing of the code may be automated, e.g. using a computer database and/or processor.
By providing the code to the health service, a number of consequences may be achievable. For example, the code may allow national health statistics to be recorded and prevent people from recording false instances of, for example, influenza. The code may allow for accurate and proper dispensing of appropriate medication to a person presenting the code, e.g., through automated means such as an e-pharmacy. This may have particular advantages during a pandemic. The code may ensure that a legitimate request for medication is being made.
Although the code may be revealed automatically when a positive test result is obtained, as an alternative, the code may be revealed by removing, e.g., peeling back, a portion of the device under which the code may be displayed, for example. The portion that is removed may be a tab of the cover layer or backing layer of the device, for example. As an alternative, or additionally, the device may comprise a digital reader, which displays the code via a digital output means such as an LCD or LED screen.
The device may carry advertising, printed on its cover layer and/or backing layer, for example, which advertising may relate to remedies to cure any ailment for which the user may test positive using the device.
In some embodiments, the device may comprise a light source configured to enhance the readability and clarity of test results. The light source may be configured to operate at a precise frequency suitable for enhancing the indicator of a positive and/or negative result at the one or more test zones (e.g. a line or cross, etc.). The light source may comprise one or more light emitting diodes (LEDs), for example.
The light source may provide enhancements in accordance with principles of fluorescence discussed in European Patent Publication No. EP 1582598 A1, the contents of which are incorporated herein by reference. Accordingly, in a device according to the present invention, a persistent fluorescent structure may be provided in the label-holding zone and the arrangement may be such that the fluorescent structure, which may be one or more quantum dots, for example, can bind at the label-holding zone to the biological entity (target analyte) under test, and can be retained as part of a labelled complex at the test zone. The light source may be configured to emit a wavelength of light suitable for causing fluorescence of the fluorescent structure, causing the structure when present at the test zone to fluoresce and emit fluorescent light at a different wavelength to the light source. In effect, when a target analyte is present in the sample, the indicator at the test zone may fluoresce, increasing the ease at which the indicator can be read, whether visually (e.g., if the fluorescent light is in the visible wavelength range), or using an additional device such as an electronic reader. An electronic reader may include one or more photodiodes or other photoelectrical devices. The fluorescence may increase substantially the effective sensitivity of the device, which may be dictated by the user's ability to observe an indicator at the one or more test zones or the sensitivity of an electronic reader.
In accordance with one or more aspects of the present invention, however, the light source may be configured to backlight the one or more test zones of the testing portion. Accordingly, the light source may not obscure a user's line of sight of the test zones, or a path for the fluorescent light to be transmitted to an electronic reader. To enable backlighting of the test zones, the test portion may be partially or entirely transparent or translucent.
The light source may be actuatable by way of an actuation mechanism that also releases liquid from the one or more reservoirs that may optionally be comprised in the device, as discussed above. Accordingly, the illumination means may remain off at least until the user releases liquid held in the one or more reservoirs. Additionally or alternatively, the light source may be actuatable automatically upon sensing liquid. For example, the light source may be actuatable automatically upon a liquid sample (e.g. blood or urine) being deposited or transferred to the sampling portion or testing portion and/or upon sensing of liquid from a reservoir, which may be included in the device, at the sampling portion or testing portion. To actuate the light source, the device may comprise an electronic circuit that is connected to spaced points of an absorbent part of the sampling and/or testing portion, such that liquid passing through the absorbent part will complete the electronic circuit.
This approach to illuminating the testing portion to enhance the readability of the test results may be carried out with respect to the device according to any one of the preceding aspects, e.g. a device configured to test for the presence or absence of one or more biological entities in a biological sample, the device including a sampling portion comprising flexible material adjustably conformable to a part of a human or animal body for receiving a biological sample directly from the body; and a test portion in fluid engagement with the sampling portion, the test portion comprising one or more test zones.
However, in accordance with the sixth aspect of the present invention discussed below, the approach may also be taken with other test devices, which devices may not comprise a sampling portion that has the same flexibility properties, for example. The approach may be applied to otherwise conventional pregnancy test kits or virus test kits, for example.
According to a sixth aspect, the present invention provides a device configured to test for the presence or absence of one or more biological entities in a biological sample, the device comprising:
an at least partially transparent or translucent medium, the medium comprising:
-
- a label-holding zone including a labelling substance configured to bind a fluorescent structure to a biological entity in the biological sample; and
- a test zone configured to indicate the presence or absence of one or more biological entities in the sample, and
a light source;
wherein the test zone is readable at a first surface of the medium, and the light source is located adjacent a second surface of the medium, at a substantially opposing side of the medium to the first surface, such as to backlight the test zone.
The medium may be a planar structure. The medium may be a lateral flow medium. For example, the medium may be a sheet or strip of material. The medium may be a lateral flow test strip, for example.
By way of example only, embodiments are now described with reference to the accompanying drawings, in which:
A test layer 1 for a device 10 according to a first embodiment of the present invention is shown in
The testing portion 12 comprises a label-holding zone 13 encircling the boundary between the testing portion 12 and the sampling portion 11 and formed of a strip of the testing portion impregnated with a label-holding substance which contains a soluble and labelled antibody specific to a particular antigen. The testing portion 12 further comprises four test zones 14, each provided to the outer side of and spaced from, the label-holding zone. Each test zone comprises a short thin test line 15, which is a line on the surface of the testing portion impregnated with antibodies or antigens.
In use of the device 1; after a nasal mucus sample is deposited at the sampling portion 11, a buffer solution is dropped onto the mucus sample, using a dropper, increasing its fluidity. The sample spreads out from the deposition point, through the testing layer 1, via capillary action. Upon crossing the boundary between the sampling portion 11 and the testing portion 12, depending on the type of antigens present in the sample, the sample can combine with the labelled antibodies at the label-holding zone 13 to form an antigen-antibody (labelled) complex. Upon continued movement through the testing portion, the complex can encounter the test zones 14, causing a colour change along one or more of the test lines 15. The change in colour can thus be indicative of the presence of a specific biological antigen in the sample. By providing four different test zones 14, in this embodiment the presence or absence of at least four different biological antigens may be detected.
With reference to
The backing layer 3 is attached to the rear side of the test layer 1 and extends to the outer edges of the test layer 1. The backing layer 3 comprises flexible, fluid-resistant material, which prevents leakage of the fluid sample through the rear of the device, e.g., onto a hand or other surface. The material of the backing layer 3 is preferably slide resistant material to allow easier gripping of the device by a user, and to facilitate gripping of the device onto a surface (e.g. a table or bench top), whilst the reaction of the one or more test zones 14 is observed.
A device 101 according to a second embodiment of the invention is shown in
Furthermore, the device 101 comprises two fixation devices, in particular two adhesive pads 17, located proximate two adjacent corners of the test layer 1′. The adhesive pads 17 are arranged to stick, upon folding of the device 101 in half, to locations proximate the other two corners of the test layer 1′. To help a user fold the device in half, a dotted fold line 22 is printed down the centre of the cover layer 2′. In alternative embodiments, a cut or channel may also be provided in one or more of the layers of the device 101 to assist folding. The device 101 is arranged to be folded after deposition of a sample on the sampling portion 11 such that the sample is no longer visible. Instead, only the backing layer 3′ will generally be visible after folding. Following on from this, with reference to
A device 102 according to a third embodiment is shown in
At the transition between the central section 18 and the arms 19 of the test strip layer 1b, a label-holding zone is provided which is configured substantially as described above with respect to previous embodiments. The testing layer 1b further comprises a plurality of test zones 14, each provided on one of the arms 19 extending from the central section 18. The test zones 14 are also configured substantially as described with respect to previous embodiments. By providing four different test zones 14 in this embodiment, the presence or absence of at least four different biological antigens may be detected.
The device 102 also comprises a sealed reservoir of buffer solution, taking the form of a substantially circular, low profile capsule 4 in this embodiment. The capsule 4 is provided underneath the sampling layer 1a and the central section of the test strip layer 1b. A backing layer 3″ is also provided to the underside of the test layer, but which has a central substantially circular window 32 in which the capsule 4 can locate. The capsule 4 is provided across a central fold line 22 of the device.
A device 103 according to a fourth embodiment is shown in
With reference to
Each device 102, 103 of the third and fourth embodiments carries instructions 23 on its cover layer 2″ and backing layer 3″. The instructions are located at appropriate positions of the device so that they are visible when they are to be carried out. Furthermore, the device carries advertising 24, which advertising may relate to remedies to cure any ailment for which the user may test positive using the device.
In the various embodiments, the results of the testing may be indicated at the test zones by the revealing of an indicator such as “+” for a positive test and a “−” for a negative test or otherwise. Additionally or alternatively, where a test is positive, a unique code or identifier (not shown) may be revealed.
With reference to
The first inner layer 209 includes a hole 219 which is slightly smaller than, and located directly over, the target portion 218. The arrangement is such that, with the device 200 correctly located with respect to the nose of a user, through appropriate use of the finger locaters, when the user deposits a nasal sample between the wings 201, 202, the nasal sample may pass through the hole 219 and contact the target portion 218. Notably, even if the user were to deposit the sample on the second inner layer 210 of the wing 202 only, by virtue of closing the wings 201, 202 together, the sample may, nevertheless, contact the target portion 218. To ensure that the sample may contact the only the target portion 218 immediately after deposition, and not other elements of the device underneath the inner layers 209, 210, the inner layers 209, 210 may be formed of substantially fluid-resistant material. In combination with the sample pad 215, the first and second inner layers 209, 210 and backing layer 208 may be considered to provide a flexible sampling portion, the sample pad 215 providing an absorbent portion of the sampling portion.
First and second lateral flow test strips 220, 221 are mounted on the backing layer 208 such as to be in fluid engagement with the sample pad 215. Once deposited on the target portion 218 of the sample pad 215, the device is configured such that the sample is transferrable by capillary action, from the target portion 218 via a first arm 216a of the v-shaped portion 216, to a first end of each lateral flow test strip 220, 221 adjacent a head end 200a of the device 200. In this embodiment, the lateral flow test strips 220, 221 are conventional test strips, although other test strips or testing means applying the principles of immunochromatography or otherwise may be utilised in this or alternative embodiments. The first and second test strips 220, 221 may be considered to provide a test portion of the device 200.
Referring to
In addition to the test strip 220e, a control stripe 220f in the test zone 220 can be provided to indicate that a testing procedure has been performed. The control stripe 220f can be located downstream of the test stripe 220e and is operable to bind and retain the labelling substance. Visible colouring of the control stripe 220f indicates the presence of the labelling substance resulting from the fluid sample flowing through test zone 220c. When the target analyte is not present in the sample, the test stripe 220e shows no visible colouring, but the accumulation of the label in control stripe 220f indicates that the sample has flown through test zone 220c. The sink (absorbent) zone 220d can then capture any excess sample. In this embodiment, the sample pad 215 is directly connected to the sample receiving zone 220a of each strip 220, 221. However, in other embodiments, the sample receiving zone 220a may be omitted and the sample pad 218 may be configured to fluidly connect directly to the label-holding zone.
The test strips 220, 221 are arranged with their elongation directions configured substantially parallel to the fold lines 212, such that the strips can be enclosed by the elongate body of the spine 203 when the backing layer 208 is folded along the fold lines 212. By enclosing the test strips 220, 221 in the spine 203, the strips, which can be relatively rigid and/or brittle in comparison to the sampling portion, may be prevented from breaking. So that the user can see the control and capture lines 220e, 220f of the strips 220, 221 when the fold region 212 is enclosed by the spine 203, a window 222 is provided in the backing layer 208, and two windows 223, one for each test strip, are provided in the top plate 213. In this embodiment, the two test strips 220, 221 are configured to test for the presence of the influenza A and influenza B virus in the sample. However, in the present embodiment or other embodiments, testing for the presence of one of these viruses only, or testing of additional or alternative biological entities, is possible. The device 200 may be modified to include only one test strip, or to include more than two test strips.
The first and second test strips 220, 221 are located in a staggered arrangement. In particular, relative to the second test strip 221, the first test strip 220, which is located nearer to the sample portion 215 than the second test strip 221, is located inwardly from the edge of the backing layer 208 at the head end 200a of the device 200. The particular configuration is intended to ensure that the lengths of the fluid engagement paths between the target portion 218 and the first and second test strips 220, 221 is substantially the same. Accordingly, during testing, sample can be expected to reach corresponding locations of the two strips 220, 221 at substantially the same time such that the results of testing indicated by the two test strips 220, 221 may be presented initially at substantially the same time. To bridge the additional gap between the first arm 216a and the first test strip 220, an inwardly extending projection 224 of the sample pad 215 is provided.
To assist in the transfer of the sample from the target portion 218 to the test strips 2201, 221, a liquid, e.g., a buffer solution, is provided in the device 200. Initially, the liquid is sealed within a first reservoir. With reference to
In the bottom wall 226 of the main body 214, directly between the first and second reservoirs, an opening 230 is provided. The opening 230 is initially sealed by a pierceable film 231. The pierceable film 231 and opening 230 are designed such that, once the film 231 is pierced, liquid may travel from the first reservoir into the second reservoir. The tongue 217 of the sample pad 215 is configured to extend into the trough 228 of the second reservoir. Accordingly, when the liquid travels into the second reservoir, the liquid can be absorbed, over a period of time, by the tongue 217, whereupon the liquid will travel along the second arm 216b of the sample page 215 to the target portion 218 and combine with the deposited sample. The combined sample and fluid will then travel along the first arm 216a of the sample pad 215 to the test strips 220, 221.
To pierce the film 231, an actuation mechanism is provided. The actuation element is intended to be operated after a sample has been deposited and the wings 201, 202 have been closed together. The actuation mechanism includes a slider 232, slidable along the elongation direction of the spine 203, and a piercing element 233, the piercing element projecting over the hole 230, adjacent the pierceable film 231. The slider 232 has a main body section 234, which is configured to partially surround the spine 203, and a flexible inner flange 235 extending from an inner surface of the main body section 234. The inner flange 235 has a projection 236 at its distal end, the projection 236 being biased by the flange 235 to press against the bottom wall 226 of the spine 203. The spine 203 may be considered to provide a track for controlled movement of the slider 232.
The operation of the actuation mechanism is now described in more detail with reference to
With reference to
With reference to
With reference to
In this embodiment, the LEDs 308 are positioned to backlight the test strips 305, 306. In this regard, the LEDs 308 are located on the opposite side of the test strips 305, 306 to the stripes 305e, 305f of the test zone 305c. The positioning of one of the LEDs 308 relative to one of the test strips 305 is represented schematically in
This backlighting approach ensures that the LEDs 308 and accompanying electronic componentry will not obscure the user's view of the test zone 305c and allows the LEDs and electronic componentry to be located in the spine 301. In this embodiment, four LEDs 308 are mounted on one side of a circuit board 309 in addition to a conductive lever element, providing an LED switch 310. A battery 311 is located on the opposite side of the circuit board 309, directly below a slot 312 in the circuit board, the slot 312 providing an access opening for the switch 310 to contact the battery 311 in order to complete an electrical circuit to supply energy to illuminate the LEDs 308. The switch 310 is resiliently biased from contact with the battery 311. However, the device 300 is configured such that, after the slider 303 has moved along the spine to actuate release of the liquid in a reservoir, substantially as described with respect to the previous embodiment, it will reach a rest position whereupon a projection 313 on an inner surface of the slider 303 will extend through a slot 314 in the top plate 301 of the spine and press against the switch 310 to complete the electric circuit.
It will be appreciated by persons skilled in the art that numerous variations and/or modifications may be made to the invention as shown in the specific embodiments without departing from the scope of the invention as broadly described. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive.
Claims
1. A device comprising:
- a substantially rigid housing;
- a sampling portion located outside the housing, the sampling portion comprising flexible material adjustably conformable to a part of a human or animal body, at least a portion of the sampling portion being absorbent and configured to receive a biological sample directly from the body; and
- a test portion located at least partially inside the housing and in fluid engagement with the sampling portion, the test portion comprising one or more test zones,
- wherein the sampling portion and the test portion are configured such that at least a portion of the biological sample received by the sampling portion is transferable to the test portion by capillary action such as to contact one or more of the test zones, and wherein each of the one or more test zones is configured to indicate a presence or absence of one or more biological entities in the biological sample.
2. The device of claim 1, wherein the biological sample comprises any one or more of the following: blood, serum, plasma, saliva, sputum, urine, ocular fluid, tears, semen, vaginal discharge, nasal secretions and droplets, ear secretions, perspiration, mucus, stool, and amniotic, spinal, wound, and abscess fluid.
3. The device of claim 1, wherein at least a portion of the sampling portion is conformable to a nasal region of the body to permit a nasal discharge sample to be provided directly to the sampling portion.
4. The device of claim 3, wherein at least a portion of the sampling portion is conformable to contact portions adjacent an ala or an alar groove of a nose and to extend across a tip of the nose.
5. The device of claim 1, wherein at least a portion of the sampling portion is conformable to an intergluteal cleft to permit a stool sample to be provided directly to the sampling portion.
6. The device of claim 1, wherein the device is at least partially a substantially flat, pliable device.
7. The device of claim 1, wherein the sampling portion comprises one or more flexible sheet elements.
8. The device of claim 1 comprising a test layer, wherein the sampling portion and the test portion are comprised in the test layer.
9. The device of claim 8, further comprising a cover layer attached to the test layer, the cover layer defining an opening through which the biological sample is deliverable to a target region of the sampling portion of the test layer.
10. The device of claim 9, wherein the cover layer acts as a barrier to prevent direct application of the biological sample to the test portion and/or regions other than the target region of the sampling portion.
11. The device of claim 8, further comprising a backing layer attached to the test layer.
12. The device of claim 11, wherein the backing layer is fluid resistant.
13. The device of claim 1 wherein the housing comprises one or more windows, to allow observation of a reaction at one or more of the test zones to indicate a presence or absence of one or more biological entities in the biological sample.
14. The device of claim 1 wherein the device is foldable such that, after deposition of the biological sample on the sampling portion, the biological sample can be enclosed by the device.
15. The device of claim 14 further comprising one or more fixation devices to maintain the device in a folded configuration.
16. The device of claim 1 further comprising a sealed reservoir, the reservoir containing a liquid releasable from the reservoir to increase fluidity of a deposited biological sample.
17. The device of claim 16, wherein the device is foldable such that, after deposition of the biological sample on the sampling portion, the biological sample can be enclosed by the device and wherein the reservoir is configured to release the liquid automatically during folding of the device.
18. The device of claim 16, wherein the device is foldable such that, after deposition of the biological sample on the sampling portion, the biological sample can be enclosed by the device and wherein the device is operable by a user to release the liquid from the reservoir after folding of the device.
19. (canceled)
20. The device of claim 16, wherein the reservoir is breakable or burstable to release the liquid.
21. (canceled)
22. (canceled)
23. The device of claim 16 wherein the reservoir is at least partially enclosed in the housing.
24. The device of claim 23, wherein the housing comprises an actuation mechanism operable to break or burst the reservoir to release the liquid.
25. The device of claim 1, wherein the test portion comprises a label-holding zone including a labelling substance configured to bind a fluorescent structure to a biological entity in the biological sample; and the device further comprises one or more light sources operable to emit light at a wavelength suitable for causing the fluorescent structure to fluoresce.
26. The device of claim 25, wherein the one or more light sources are configured to backlight the one or more test zones.
27. The device of claim 25, wherein the housing comprises an actuation mechanism operable to break or burst the reservoir to release the liquid and wherein the actuation mechanism is also operable to cause illumination of one or more of the light sources.
28. The device of claim 1, wherein, upon indicating the presence of a biological entity, the device is configured to display a code or identifier that is unique to the biological entity and/or the device.
29. (canceled)
30. A device comprising:
- a sampling portion for receiving a biological sample directly from a body;
- a test portion in fluid engagement with the sampling portion, the test portion comprising one or more test zones; and
- a sealed reservoir containing liquid,
- wherein the sampling portion and the test portion are configured such that at least a portion of the biological sample received by the sampling portion is transferable to the test portion such as to contact one or more of the test zones, and wherein each of the one or more test zones is configured to indicate a presence or absence of one or more biological entities in the biological sample; and
- wherein the sealed reservoir is configured such that the liquid is releasable from the reservoir to increase fluidity of the biological sample, and
- wherein at least a portion of the biological sample received by the sampling portion is transferable to the test portion by capillary action.
31. (canceled)
32. (canceled)
33. (canceled)
34. The device of claim 1, wherein the test portion comprises at least one lateral flow test strip.
35. The device of claim 1, wherein the sampling portion comprises two flexible wings, each wing extending from, and being pivotable relative to, the housing.
Type: Application
Filed: Jan 27, 2011
Publication Date: Oct 2, 2014
Patent Grant number: 9877672
Applicant: RESPIRIO PTY LTD (East Brisbane)
Inventors: Steven David Dahl (East Brisbane), Sean Andrew Parsons (East Brisbane), Jennifer Maschmann (Blackburn North), Kon Euan Gerard Wong (Burwood East), Tim Ian Spink (Box Hill), Stephen Robert Wilson (Kew)
Application Number: 13/575,999
International Classification: A61B 5/15 (20060101); A61B 10/00 (20060101); A61B 5/20 (20060101); A61B 5/00 (20060101);