WO2015156844A1 - Method for the quantification of parasite eggs in feces - Google Patents
Method for the quantification of parasite eggs in feces Download PDFInfo
- Publication number
- WO2015156844A1 WO2015156844A1 PCT/US2014/068860 US2014068860W WO2015156844A1 WO 2015156844 A1 WO2015156844 A1 WO 2015156844A1 US 2014068860 W US2014068860 W US 2014068860W WO 2015156844 A1 WO2015156844 A1 WO 2015156844A1
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- WO
- WIPO (PCT)
- Prior art keywords
- microns
- sample
- eggs
- fecal
- filtration membrane
- Prior art date
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Classifications
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- G—PHYSICS
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- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N33/00—Investigating or analysing materials by specific methods not covered by groups G01N1/00 - G01N31/00
- G01N33/48—Biological material, e.g. blood, urine; Haemocytometers
- G01N33/50—Chemical analysis of biological material, e.g. blood, urine; Testing involving biospecific ligand binding methods; Immunological testing
- G01N33/53—Immunoassay; Biospecific binding assay; Materials therefor
- G01N33/5308—Immunoassay; Biospecific binding assay; Materials therefor for analytes not provided for elsewhere, e.g. nucleic acids, uric acid, worms, mites
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N33/00—Investigating or analysing materials by specific methods not covered by groups G01N1/00 - G01N31/00
- G01N33/48—Biological material, e.g. blood, urine; Haemocytometers
- G01N33/50—Chemical analysis of biological material, e.g. blood, urine; Testing involving biospecific ligand binding methods; Immunological testing
- G01N33/53—Immunoassay; Biospecific binding assay; Materials therefor
- G01N33/569—Immunoassay; Biospecific binding assay; Materials therefor for microorganisms, e.g. protozoa, bacteria, viruses
- G01N33/56905—Protozoa
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N2333/00—Assays involving biological materials from specific organisms or of a specific nature
- G01N2333/435—Assays involving biological materials from specific organisms or of a specific nature from animals; from humans
- G01N2333/43504—Assays involving biological materials from specific organisms or of a specific nature from animals; from humans from invertebrates
- G01N2333/43526—Assays involving biological materials from specific organisms or of a specific nature from animals; from humans from invertebrates from worms
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N2333/00—Assays involving biological materials from specific organisms or of a specific nature
- G01N2333/435—Assays involving biological materials from specific organisms or of a specific nature from animals; from humans
- G01N2333/44—Assays involving biological materials from specific organisms or of a specific nature from animals; from humans from protozoa
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N2400/00—Assays, e.g. immunoassays or enzyme assays, involving carbohydrates
- G01N2400/10—Polysaccharides, i.e. having more than five saccharide radicals attached to each other by glycosidic linkages; Derivatives thereof, e.g. ethers, esters
- G01N2400/38—Heteroglycans, i.e. polysaccharides having more than one sugar residue in the main chain in either alternating or less regular sequence, e.g. gluco- or galactomannans, Konjac gum, Locust bean gum or Guar gum
- G01N2400/40—Glycosaminoglycans, i.e. GAG or mucopolysaccharides, e.g. chondroitin sulfate, dermatan sulfate, hyaluronic acid, heparin, heparan sulfate, and related sulfated polysaccharides
Definitions
- This invention relates to the diagnosis of animal parasite burden, and more particularly to methods for quantifying the number of parasite eggs in feces.
- Helminthic parasites are a polyphyletic group of worm-like animals including the taxa cestodes, nematodes, trematodes and monogeneans. Many helminthic parasites are spread via the digestive system, firstly via the ingestion of material contaminated with parasites or their eggs. During their life cycle such parasites may migrate to other parts of the body but return to the gut to produce more eggs which are then egested in the feces to provide a source for new infections.
- Helminthic infection causes significant morbidity in animals, including humans, and, in the case of agricultural livestock, substantial economic loss due to reduced productivity from reduced weight gain, milk production and reproduction. Although severe infections can lead to death, ruminants carrying internal parasites, even at subclinical levels, exhibit a significant loss of productivity via a number of modalities - including anemia, decreased reproductive fitness and lactation, and reduction of food utilization - leading to reduced growth and poor body condition (Piedrafita et al, 2010; Perry and Randolph, 1999; Hoglund et al, 2001; Reinhardt et al, 2006). In the US, annual losses in livestock productivity have been estimated at three billion dollars annually (Bagley et al., 2014). In developing nations - where veterinary care,
- anthelmintic drugs, and regimented antihelminthic farming strategies are either less available or less widely practiced, and where food shortages are both more likely and more severe - the losses are expected to be substantially greater.
- Helminth infection is also an issue in agriculturally important non-ruminants, including poultry (Permin et al., 1999) and swine (Nansen and Roepstorff, 1999), and in other economically important herbivores such as horses (Duncan, 1985). In the case of horses, parasite infection also results in reduced physical performance of the animal.
- Internal parasite infestation is not restricted to agricultural livestock and is also a problem for companion comfort animals such as cats and dogs. Infestation in cats and dogs can lead to a phenomenon called zoonosis resulting in hookworms and roundworms infecting humans' most often young children 31 .
- Parasitic helminthic infections are also widespread in humans.
- Onchocerca volvulus for example, causes onchocerciasis (also known as river blindness) in humans. About 17 to 25 million people throughout the world are reported to be infected with O. volvulus, with approximately a million people being having some amount of loss of vision.
- Brugia filariids can infect humans and other animals, causing diseases including filariasis (including lymphatic filariasis), elephantiasis and tropical eosinophilia.
- Schistosomiasis is a vascular parasitic disease in humans caused by blood flukes of the schistosoma species. Schistosomiasis is one of many helminthic diseases infecting over a billion people worldwide. These diseases include ascariasis, trichuriasis, enterobiasis, filariasis, trichinosis, onchocerciasis, fascioliasis, and cysticercosis. Schistosomiasis ranks second to malaria as a major cause of morbidity and suffering due to parasites.
- FEC fecal egg-count
- the first, and perhaps the most universally used egg-counting procedure is the McMaster slide counting method, originally developed with sheep feces by Gordon and Whitlock in 1939.
- the fecal matter is suspended in a sugar and/or salt (SS) solution of greater density than the parasitic eggs themselves and placed in a microscopic slide especially fabricated for the purpose (the McMaster slide counting method).
- the eggs float to the surface (thereby separating them from the denser fecal debris to facilitate visualization) and are counted manually by a trained individual using a microscope at a 40-100x magnification.
- a second, commonly used egg-counting procedure is the Wisconsin method and its derivatives.
- eggs are floated directly, usually under the influence of a centrifugal field but also by gravity, onto a coverslip placed on the surface meniscus of the flotation medium.
- Sensitivity can be improved by sampling more of the fecal suspension by placing it in a tube to form a meniscus.
- the meniscus is overlaid with a coverslip and then subjected to centrifugation in a swing-out rotor (Rossanigo and Gruner, 1991; Egwang and Slocombe, 1981). Eggs adhering to the coverslip can then be counted microscopically as before.
- egg-count variability limits the effectiveness of current egg-count methods. Equine egg counts have been estimated to vary by +/- 50% between repeated counts (partially due to subjective inter-analyst variability, and partly for statistical reasons due to small sampling volumes). Thus, delineating between a true change and chance variability in fecal egg-count reduction is a real challenge (Vidyashankar et al., 2012). Although variability can be reduced by better analyst training, performing repeated counts, or using methods with lower detection limits, all of these solutions come with a cost in either additional training or processing time. Another drawback are egg loss rates.
- the egg loss rate has been found to vary between 30 and 60% (Vidyashankar et al., 2012).
- the detection limit the lowest egg count detectable by the given technique, provides a technical limitation to the known methods. It is typically within the range of 1-50 eggs-per-gram (EPG).
- McMaster techniques see Figure 1) usually have detection limits of 25 or 50 EPG, making it very difficult to detect low egg count levels, which is particularly important for resistance testing (Vidyashankar et al, 2012).
- FECRs fecal egg count reduction tests
- Coccidiosis is a protozoan parasitic disease that affects the intestinal tract of animals including, but not limited to, cattle, sheep, goats, rabbits, pigs, chickens, turkeys, cats, and dogs.
- Parasites of interest include, but are not limited to Isospora sp. (dogs and cats); Eimeria maxima, E. acervulina, E. brunetti, E.
- Coccidiosis is one of the most economically important diseases in many livestock species. The disease is characterized by diarrhea, unthriftiness, loss of appetite and weight, and variable levels of mortality. In lifestock animals, economic losses are caused by a decreased weight gain due in part to the malabsorption of nutrients through the gut wall. And, as with helminth infections, the state of the art for detecting protozoan oocysts relies on time-consuming methods.
- Pearsonema plica and Dioctophyme renale are two such parasites known to infect the bladder and kidney in dogs. Eggs of both genera can be found in urin samples.
- Schistosomiasis species may infect the urinary tract or intestines, the eggs of which may be found in the animal's urine or stool.
- the present invention is based on the use of N-acetyl-D-glucosamine (GlcNac) binding domain (e.g., GlcNac binding proteins) and fragments thereof for the detection of helminth eggs in environmental samples (e.g., a fecal sample).
- Detect refers to identifying the presence, absence or amount of the object to be detected. The amount detected can be none or below the level of detection.
- the invention provides a simple on- site test which will allow both veterinarians and animal owners to diagnose the presence and levels of helminth parasite infection and/or parasitic protozoal infections, thereby allowing them to more appropriately and efficiently tailor treatment and preventative strategies to their specific needs. The test can also be used in a more controlled laboratory setting. This document outlines general principles for moving parasite egg counting away from the microscope, where they have languished for more almost a century, and describes specific assays that achieve this aim using modern biochemical techniques.
- the methods disclosed herein offer further improvements to current egg counting methods; namely, the approach will enable (1) sample throughput to be increased and will eliminate subjectivity, thereby reducing or eliminating these sources of variation; (2) the optional elimination of the flotation step, which could at least partially ameliorate the problem of egg loss rates; and (3) concentration of the fecal sample by filtration, which would greatly improve sensitivity.
- the technology would enable the tests to be performed rapidly on-site, thereby eliminating the time- and inconvenience-cost of transporting feces to a laboratory and the processing time once there.
- the technology will fit well into established veterinary practice, as total FEC (regardless of parasite species) is the most commonly used metric for informing clinical treatment decisions (Coles et al, 2006; Nielsen et al, 2010).
- the invention provides methods for detecting the presence or absence of helminth eggs and/or protozoan oocysts in an environmental sample (e.g., in a fecal sample, a urine sample, a water sample, a waste water or sewage sample or a soil sample).
- an environmental sample e.g., in a fecal sample, a urine sample, a water sample, a waste water or sewage sample or a soil sample.
- the invention provides methods for detecting the presence or absence of helminth eggs and/or protozoan oocysts in an environmental sample, the methods comprising obtaining a solution comprising an environmental sample suspended in a sample buffer, flowing the fecal solution through two or more (e.g., two, three, four, five, six, seven eight, nine, ten, twenty, or fifty) filters of decreasing pore size, the number and pore sizes being determined by the species of animal from which the feces is obtained and by the types of eggs and/or oocyts being detected.
- two or more e.g., two, three, four, five, six, seven eight, nine, ten, twenty, or fifty
- the invention provides methods for detecting the presence or absence of helminth eggs and/or protozoan oocysts in fecal samples, the methods comprising obtaining a fecal solution comprising a fecal sample suspended in a sample buffer, flowing the fecal solution through two or more (e.g., two, three, four, five, six, seven eight, nine, ten, twenty, or fifty) filters of decreasing pore size, the number and pore sizes being determined by the species of animal from which the feces is obtained and by the types of eggs and/or oocyts being detected.
- two or more e.g., two, three, four, five, six, seven eight, nine, ten, twenty, or fifty
- the solution comprising an environmental sample is flowed through a first filtration membrane having a pore size of between about 85 microns and about 350 microns, between about 100 microns and about 300 microns, between about 125 microns and about 250 microns, or between about 150 microns and about 200 microns to form a first filtrate, flowing the first filtrate through a second filtration membrane having a pore size of between about 1 and about 10 microns, 5 microns and about 45 microns, between about 10 microns and about 45 microns, between about 15 microns and about 45 microns, between about 20 microns and about 45 microns, between about 25 microns and about 40 microns, or between about 30 microns and about 35 microns, contacting helminth eggs captured on the second filtration membrane with a N-acetyl-D-glucosamine binding domain or fragment thereof
- first,” “second” and “third” are used in this disclosure in their relative sense only. It will be understood that, unless otherwise noted, those terms are used merely as a matter of convenience in the description of one or more of the embodiments. The terms “first,” “second” and “third” are only used to distinguish one element from another element, and the scope of the rights of the disclosed technology should not be limited by these terms. For example, a first element may be designated as a second element, and similarly the second element may be designated as the first element.
- the invention provides methods for detecting the presence or absence of helminth eggs and/or protozoan oocysts in an environmental sample (e.g., a fecal sample) comprising obtaining a solution comprising an environmental sample sample (e.g., a fecal solution comprising a fecal sample) suspended in a sample buffer, flowing the fecal solution through a first filtration membrane having a pore size of between about 85 microns and about 350 microns, between about 100 microns and about 300 microns, between about 125 microns and about 250 microns, or between about 150 microns and about 200 microns to form a first filtrate, flowing the first filtrate through a second filtration membrane having a pore size of between about 1 and about 10 microns, 5 microns and about 45 microns, between about 10 microns and about 45 microns, between about 15 microns and about 45 microns, between about 20 microns and about 45 micro
- the invention provides methods for detecting the presence or absence of helminth eggs and/or protozoan oocysts in an environmental sample (e.g., a fecal sample) comprising obtaining a solution comprising an environmental sample (e.g., a fecal solution comprising a fecal sample) suspended in a sample buffer, flowing the solution through a first filtration membrane having a pore size of between about 85 microns and about 350 microns, between about 100 microns and about 300 microns, between about 125 microns and about 250 microns, or between about 150 microns and about 200 microns to form a first filtrate, flowing the first filtrate through a second filtration membrane having a pore size of between about 1 and about 10 microns, 5 microns and about 45 microns, between about 10 microns and about 45 microns, between about 15 microns and about 45 microns, between about 20 microns and about 45 microns, between
- the environmental sample is a fecal sample.
- the step of obtaining a fecal solution can comprise suspending a fecal sample in a sample buffer to form a first fecal solution, and flowing the first fecal solution through a bulk filtration membrane having a pore size of between about 400 microns and about 800 microns, between about 425 microns and about 750 microns, between about 450 microns and about 700 microns, between about 500 microns and about 650, or between about 550 microns and about 600 microns to provide the fecal solution.
- the bulk filtration membrane has a pore size of between about 400 microns and about 450 microns
- the first filtration membrane has a pore size of between about 85 microns and about 120 microns
- the second filtration membrane has a pore size of between about 20 microns and about 40 microns.
- Flowing the first fecal solution through the bulk filtration membrane serves to remove larger particles and debris from, allowing for more efficient filtration through the first and second filtration membranes.
- the methods further comprising, after flowing the solution through a second filtration membrane, suspending helminth eggs and/or protozoan oocysts captured on the second filtration membrane in a liquid sample buffer.
- the methods disclosed herein further comprise treating the sample (e.g., the environmental) with an oxidizing agent or bleach solution prior to the contacting step.
- the contacting step is preceded by treating the sample with a bleach solution.
- the GlcNac binding domain is a GlcNac binding protein selected from the group consisting of a lectin, a chitinase or a chitin binding domain (CBD), or fragments thereof.
- the lectin can be any lectin capable of binding N-acetyl-D-glucosamine, including, a lectin selected from the group consisting of wheat germ agglutinin (WGA), soybean agglutinin (SBA), Maclura pomifera lectin (MPL), Bauhinia purpurea lectin (BPL), Datura stramonium lectin (DSL), Lycopersicon esculentum lectin (LEL), Solanum tuberosum lectin (STL) and Psophocarpus
- WGA wheat germ agglutinin
- SBA soybean agglutinin
- MPL Maclura pomifera lectin
- BPL Bauhinia purpurea lectin
- DSL Datura stramonium lectin
- LEL Lycopersicon esculentum lectin
- STL Solanum tuberosum lectin
- the lectin is wheat germ agglutinin (WGA).
- the GlcNac binding protein is conjugated to a solid support such as magnetic or non-magnetic beads or to a membrane such as nitrocellulose or polyvinylidine difluoride which can be used to capture and concentrate the eggs either in combination with or instead of filtration.
- the GlcNac binding protein is conjugated to a detectable moiety selected from the group consisting of a hapten, an enzyme, an antibody epitope, an antigen, a fluorophore, a radioisotope, a nanoparticle, a member of a binding pair, and a metal chelate.
- the detectable label may be a first member of a binding pair, wherein the binding pair is selected from the group consisting of biotin/streptavidin, biotin/avidin, biotin/neutravidin, biotin/captavidin, epitope/antibody, protein
- GST/glutathione His-tag/Metal (e.g., nickel, cobalt or copper), antigen/antibody, FLAG/MI antibody, maltose binding protein/maltose, calmodulin binding
- the detectable moiety is a first member of a binding pair.
- a first member of the binding pair is conjugated to the N-acetyl-D- glucosamine binding protein and the second member of the binding pair is immobilized on a solid support.
- the detectable moiety is a first member of a binding pair; and the second member of the binding pair is conjugated to an enzyme, an antibody epitope, an antigen, a fluorophore, a radioisotope, a nanoparticle, a member of a second binding pair, and a metal chelate.
- the detectable moiety is a first member of a binding pair, wherein the first member of the binding pair is biotin and the second member of the binding pair is selected from the group consisting of streptavidin, avidin, neutravidin and capravidin, and the second member of the binding pair conjugated to an enzyme.
- the detectable moiety is a fluorophore is selected from the group consisting green fluorescent protein, blue fluorescent protein, red fluorescent protein, fluorescein, fluorescein 5- isothiocyanate (FITC), cyanine dyes (Cy3, Cy3.5, Cy5, Cy5.5, Cy7), Bodipy dyes (Invitrogen) and/or Alexa Fluor dyes (Invitrogen), dansyl, dansyl Chloride (DNS-C1), 5-(iodoacetamida)fluorescein (5-IAF, 6- acryloyl-2- dimethylaminonaphthalene (acrylodan), 7-nitrobenzo-2-oxa-l,3,-diazol-4-yl chloride (NBD-C1), ethidium bromide, Lucifer Yellow, rhodamine dyes (5-carboxyrhodamine 6G hydrochloride, Lissamine rhodamine B sulfonyl chloride, r
- DAPI Hoechst 33342, TOTO, Acridine Orange, Ethidium Homodimer, N(ethoxycarbonylmethyl)-6- methoxyquinolinium (MQAE), Fura-2, Calcium Green, Carboxy SNARF-6, BAPTA, coumarin, phytofiuors and Coronene.
- the detectable moiety is an enzyme that catalyzes a color change reaction, including, an enzyme selected from the group consisting of alkaline phosphatase, beta-galactosidase, horse radish peroxidase, urease and beta-lactamase and glucose oxidase.
- the GlcNac binding protein is wheat germ agglutinin and the detectable moiety is fluorescein.
- the signal intensity of the detectable label can be measured using instruments and devices known to those skilled in the art, including, for example a portable or benchtop fluorometer (e.g., a handheld fluorometer) or a portable or benchtop colorimeter (e.g., a handheld colorimeter).
- the signal intensity of the detectable moiety can be determined by visual inspection.
- the signal intensity of the detectable moiety in determined using an imaging device appropriate for visualizing the selected detectable moiety.
- the imaging device is a digital camera, a mobile phone, a smartphone, a tablet, a portable computer, a computer, or a scanner.
- a sample captured on the second filtration membrane with a first reagent comprising a chitin-binding dye which fluoresces under fluorescence-exciting light, wherein the chitin-binding dye which fluoresces under fluorescence-exciting light is selected from the group consisting of calcofluor white, Uvitex 3B (distyryl biphenyl fluorescent whitening agent), Rylux BA, Rylux BSU (1,4- benzenedisulfonic acid-2,2'-[ethyleneidylbis[(3-sulpho-4,l-phenylene)imino[6-bis (2- hydroxyethyl)amino]-l,3,5-trihexasodium salt) (Ostacolor, Pardubice, Czech Republic) and Blankophor (disodium 4,4'-bis ⁇ (4-anilino)-6-morpholino-l,3,5-triazin-2-yl) amino ⁇ stilbene-2 ,2 '-
- the disclosure provides methods for detecting the presence or absence of helminth eggs or protozoan oocysts in an environmental sample, the method comprising obtaining a solution comprising an environmental sample suspended in a sample buffer; flowing the solution through a first filtration membrane having a pore size of between about 85 microns and about 350 microns to form a first filtrate; flowing the first filtrate through a second filtration membrane having a pore size of between about 5 microns and about 45 microns; contacting helminth eggs captured on the second filtration membrane with a N-acetyl-D-glucosamine binding protein or fragment thereof conjugated to a detectable moiety; and detecting the presence or absence of helminth eggs or protozoan oocysts in the environmental sample based on the signal intensity of the detectable moiety.
- the disclosure provides methods for determining the presence or absence of helminth eggs or protozoan oocysts in an environmental sample, the method comprising: obtaining a solution comprising an environmental sample suspended in a sample buffer; flowing the solution through a first filtration membrane having a pore size of between about 85 microns and about 350 microns to form a first filtrate; flowing the first filtrate through a second filtration membrane having a pore size of between about 5 microns and about 45 microns; contacting a sample captured on the second filtration membrane with a first reagent comprising a chitin-binding dye which fluoresces under fluorescence-exciting light; illuminating the sample captured by the second filtration membrane with fluorescence-exciting light; and assessing the fluorescence of the sample to determine the presence or absence of helminth eggs or protozoan oocysts in the environmental sample based on the fluorescence intensity or number of fluorescent particles.
- the disclosure provides methods for determining the presence or absence helminth eggs or protozoan oocysts in an environmental sample, the method comprising: obtaining a solution comprising an environmental sample suspended in a sample buffer; flowing the solution through a first filtration membrane having a pore size of between about 85 microns and about 350 microns to form a first filtrate; flowing the first filtrate through a second filtration membrane having a pore size of between about 5 microns and about 45 microns; contacting helminth eggs captured on the second filtration membrane with a first reagent comprising a N-acetyl-D-glucosamine binding protein or fragment thereof to form a first reagent sample; contacting the first reagent sample with a second reagent comprising an antibody that specifically binds to the N-acetyl-D- glucosamine binding protein, wherein the antibody is conjugated to a detectable moiety; and determining the presence or absence of helminth eggs or proto
- the environmental sample is a fecal sample. Accordingly, obtaining the solution comprises suspending a fecal sample in a sample buffer to form a first fecal solution; and flowing the first fecal solution through a bulk filtration membrane having a pore size of between about 400 microns and about 800 microns to obtain the solution comprising the fecal sample.
- the patent or application file contains at least one drawing executed in color.
- Figure 1 is a schematic diagram showing a method according to the invention for detecting the presence or absence of helminth eggs in a fecal sample using magnetic beads for egg capture.
- Figure 2 is a schematic diagram showing a method according to the invention for detecting the presence or absence of helminth eggs in a fecal sample using a multistep filtration process.
- Figure 4 shows chitin specific helminth egg staining obtained with FITC labeled wheat germ agglutinin (WGA).
- Figure 7 demonstrates colorimetric detection of eggs in egg positive and egg negative feces.
- Figures 8 A and 8B demonstrates imaging of CBD stained eggs from equine feces.
- FIGS 9A-9D shows images of CBD-Fluorescein stained eggs. Eggs were imaged with either an 8MP iPhone 5 s (A, B) or with a 16MP Olympus PE2 Pen camera
- Figure 10 shows the correlation of traditional McMaster counts with automated counts imaged with both an Olympus consumer grade camera and a cell phone camera.
- Figure 12 shows a top isometric view of a testing apparatus for capturing images for samples prepared according to the method described in Figures 1 or 2.
- Figure 13 shows a bottom view of the apparatus of Figure 12.
- Figure 14 shows a bottom isometric view of the apparatus of Figure 12 with an attached sample chamber.
- Figure 15 shows a cross section of a portion of the apparatus and sample chamber shown in Figure 14.
- the following disclosure describes novel methods for detecting the presence or absence of helminth eggs and/or protozoan oocysts in environmental samples (e.g., in a fecal sample, a urine sample, a water sample, a waste water or sewage sample or a soil sample).
- environmental samples e.g., in a fecal sample, a urine sample, a water sample, a waste water or sewage sample or a soil sample.
- exemplary methods and kits for detecting the presence or absence of helminth eggs and/or protozoan oocysts in fecal samples are provided for illustrative purposes and are not intended to limit the scope of the invention, which is defined by the scope of the appended claims.
- Chitin has been described as being a component of some helminth eggs and protozoan oocysts, it has never been generally acknowledged to be a universal component of such eggs. At least in part, the present invention is based on the discovery by the inventors that that chitin can serve as a generic marker for most, if not all, helminth parasite eggs (see, e.g., Figure 5) and/or protozoan oocyst and thus form a basis for a test to determine total parasitic load.
- Chitin is a linear polymer structurally similar to cellulose, but consisting entirely of ⁇ 1-4 linked units of N-acetyl glucosamine
- chitin can be probed not only semi-specifically with various GlcNAc recognizing lectins and various small molecule-fluorophores, but also more stringently with truncated versions of various chitinases consisting of their respective chitin binding domains (CBDs) (Hardt and Laine, 2004; Hashimoto et al., 2000; Gao et al, 2002; Arakane et al, 2003; Chu et al, 2001; Kolbe et al, 1998; Zeltins and Schrempf, 1995).
- CBDs chitin binding domains
- CBDs and lectins exhibit higher binding affinities to chitin and GlcNAc containing sugar structures, they can also bind to other carbohydrate polymers, notably cellulose, which is a major component of the feces of herbivores and omnivores.
- carbohydrate polymers notably cellulose
- the data available in the literature is variable and sometimes contradictory 26"30 , making it unclear whether such proteins could discriminate between eggs and the vast bulk of the remaining feces.
- the inventors have discovered that such proteins can indeed be used to detect eggs over this background material and so form the basis of methods to enumerate them.
- the methods provided herein utilized a filtration process comprising flowing an environmental sample through a first filtration membrane having a pore size of between about 85 microns and about 350 microns, between about 100 microns and about 300 microns, between about 125 microns and about 250 microns, or between about 150 microns and about 200 microns to form a first filtrate; flowing the first filtrate through a second filtration membrane having a pore size of between about 1 and about 10 microns, 5 microns and about 45 microns, between about 10 microns and about 45 microns, between about 15 microns and about 45 microns, between about 20 microns and about 45 microns, between about 25 microns and about 40 microns, or between about 30 microns and about 35 microns; contacting helminth eggs and protozoan
- the environmental sample may be any sample suspected of containing helminth eggs or protozoan oocysts, including, for example a fecal sample, a water sample, a waste water or sewage sample or a soil sample.
- the disclosure also provides methods and the associated hardware for
- the disclosed methods move away from parasite egg counting methods using a microscope, where they have languished for a century or more, and describes specific methods for using modern biochemical techniques.
- Eggs can be detected in a suspension of animal feces in water or other suitable liquid (including buffered solutions) by a two-step process; egg capture and egg detection.
- eggs are captured onto a solid substrate as a means of isolating them from fecal debris.
- the substrate may be two-or three-dimensional, and may itself be co-suspended in the liquid in the form of, for example, beads or particles.
- Egg capture is facilitated by coating the substrate with molecules such as proteins, carbohydrates or activated chemical groups that can interact with the surface of the eggs. If necessary capture can be facilitated by pretreating the fecal suspension with chemicals to expose or activate chemical groups on the eggs that could facilitate the capture.
- chemicals include, but are not limited to, bleach, surfactants, oxidizing agents chaotropic agents and enzymes.
- Capture can be specific, using as non-limiting examples, antibodies against egg components (e.g., GlcNac) or lectins that recognize only structures on either all parasite eggs, or parasite eggs of certain taxonomic groups or particular species.
- capture can be non-specific and provide a way to separate eggs from the particulate fecal debris, but not necessarily all of the fecal components.
- Such capture could be achieve, as non-limiting examples, by chemically reactive groups such as N-ethyl-maleimide esters, N-hydroxysuccinamide esters, amines in the presence of crosslinking agents such as carbodiimides, aldehydes and others.
- such capture could be achieved by macromolecules such as proteins or carbohydrates that recognize both parasite eggs, but also other components of the feces.
- Capture onto a substrate need not be dependent on specific chemicals to bind the eggs and can also be achieved by physical methods, for example filtration where eggs can be separated from large fecal particles by filtration through, as a non-limiting example, a 100 micron filter. Filtrate containing eggs can then be passed through a smaller filter (for example 10-40 micron ⁇ ) to trap the eggs while removing smaller particles including spores and fungi (which could interfere with egg detection if the detection reagent can also bind to these cells). Eggs captured on the filter can then be detected and quantified as described elsewhere. Alternatively, eggs can be captured and isolated from the feces without using a solid substrate.
- fecal particles could be removed by a slow-speed centrifugation and the eggs harvested from the supernatant by a faster spin which nevertheless is too slow to sediment smaller particles and yeast or fungi.
- Other physical methods such as diffusion, electrophoresis, chromatography or density separation can also be used to isolate eggs prior to detection.
- the method of egg detection depends on whether the capture was specific or non-specific. If the capture step was specific then selection of the detection method is less stringent since contaminating fecal components would have been removed (for example, capturing eggs using magnetic beads coated with CBD, and then using fluorescent dye that binds both chitin and other sugar polymers such as cellulose for detection, for example cacofluor white). If capture was non-specific or semi-specific, and also entrapped non-egg components then the detection must be specific enough to
- Possible, non-limiting detection methods include: visual inspection; attachment and then optical detection of molecules specific to the eggs themselves such as antibodies, chitin binding domains, lectins or other proteins, all conjugated to suitable reporter groups such as fluorophores, chromophores, enzymes, colored microparticles, quantum dots, or colloidal metals.
- Chemical methods for detecting general cellular components can also be used, and these include methods to detect proteins, carbohydrates, lipids and nucleic acids using assays known to those skilled in the art. Additionally hybridization of egg DNA or RNA to specific probes, or amplification of such nucleic acids by PCR) can also be used following its release from the eggs. Physical methods can also be used to provide specificity in detection (following, if necessary, release of the eggs from the substrate) and non-limiting examples of such methods include centrifugation, filtration, flotation or particle counting (for example, using devices such as coulter counters, cell sorters; or particle sizers). In some cases, where the substrate is in the form of particles or beads, detection of eggs can be indirect by detection of the beads/particles themselves.
- Beads/particles used for this purpose can optionally be labeled with suitable chromophores or fluorophores to facilitate detection.
- detection reagent encompasses all of the constituents required to achieve detection.
- a detection agent consisting of an antibody bound to an enzyme also by definition further comprises the appropriate enzyme substrates, buffers and other agents required to effect the color change required for the detection.
- Detection can be achieved with eggs still bound to the solid substrate, or following release of the eggs from the substrate, and binding of detection reagents can be achieved either before or after capture. In some cases, detection can be facilitated by treating the eggs with chemicals to either expose or release components that can be detected. Non-limiting examples of such chemicals include surfactants, oxidizing agents, chaotropic agents and enzymes.
- egg counting can be tuned to detect either all eggs in the sample or eggs of various taxonomic groups from entire phyla down to the species level. This may be achieved by using single reagent for capture and detection, or by using multiple reagents in either or both the capture and detection steps. By separating eggs from different classes/species, and in conjunction with the appropriate reagents, the abundance of numerous classes or species of parasite eggs can be resolved in a single test.
- Capture of eggs can also be facilitated by inducing aggregation of eggs in solution by the addition of multivalent molecules capable of binding to the eggs.
- Flocculated eggs can either be bound directly to the substrate from the fecal suspension or following isolation by physical techniques such as centrifugation or flotation.
- Capture and detection can also be conducted simultaneously, for example by detecting voltage changes upon eggs binding to egg-specific antibodies that have been attached to a carbon-nanofiber network, or by optical methods such as surface plasmon resonance or refraction.
- detection could be achieved without capture of the eggs where binding of egg-specific molecules, such as antibodies or lectins, labeled with
- this disclosure provides novel methods for detecting the presence or absence of chitin-containing parasitic helminth eggs or protozoan oocyts from environmental samples (e.g., fecal samples).
- the methods disclosed herein provide methods which can be performed both rapidly and on-site. More importantly, the methods disclosed herein are capable of detecting helminth eggs from each of the major taxa of parasitic helminths (e.g., cestodes, nematodes, trematodes and monogeneans) in a rapid, cost-efficient manner.
- helminth parasites infecting animals include, for example, Haemonchus, Trichostrongylus, Ostertagia, Nematodirus, Cooperia, Ascaris, Bunostomum, Oesophagostomum, Chabertia, Trichuris, Strongylus, Trichonema, Dictyocaulus, Capillaria, Pearsonema, Heterakis, Toxocara, Ascardia, Oxyuris,
- Ancyclostoma Uncinaria, Toxascaris and Parascaris Ancylostoma, Necator, Trichinella, Capillaria, Dioctophyme, Eimeria, Coccidia, Bursaphelenchus, Ostertagia, Mecistocirrus, Trychostrongylus, Trichuris, Bunostoinuin, Oesophagostomum, Chabertia, Chabertia, Ancylostoma, Paragonimus, Baylisascaris, Aphelenchoides, Meliodogyne, Heterodera, Globodera, Nacobbus, Pratylenchus, Ditylenchus, Xiphinema, Longidorus, Trichodorus, Nematodirusand Enterobius.
- the methods of the invention may be used for human and/or veterinary usage as well as in the area of environmental testing.
- the method of the invention provides for obtaining a biological sample comprising a fecal sample (e.g. a stool sample) from a mammalian subject (e.g., an animal or human subject).
- a mammalian subject e.g., an animal or human subject
- the fecal sample can be a mammalian fecal sample obtained from a horse, cow, pig, goat, sheep, llama, deer, dog, cat, bird or human.
- obtaining is meant collecting, purchasing, or otherwise acquiring the fecal sample.
- the novel methods disclosed herein comprise contacting a sample suspected of containing helminth eggs or protozoan oocysts with a GlcNAc binding domain or fragment thereof.
- GlcNac N-acetyl-D-glucosamine binding domain
- the term "N-acetyl-D-glucosamine (GlcNac) binding domain” as used herein refers to any molecule including natural or genetically modified N-acetyl-D-glucosamine (GlcNac) binding proteins, inorganic molecules, and organic molecules having a specific binding affinity for N-acetyl-D-glucosamine, including any fragments, derivatives or analogs thereof.
- N-acetyl-D-glucosamine (GlcNac) binding protein refers to any molecule including natural or genetically modified proteins, peptides, or antibodies having a specific binding affinity for N-acetyl-D-glucosamine, including any fragments, derivatives or analogs thereof.
- GlcNac binding proteins include, for example, lectins, chitinases, chitin binding proteins, or a chitin binding domains (CBD).
- the novel methods disclosed herein comprise contacting a sample suspected of containing helminth eggs or protozoan oocysts with a chitin binding protein or fragment thereof.
- chitin binding protein refers to any molecule including natural or genetically modified proteins, peptides, antibodies, or having a specific binding affinity for chitin.
- Chitin binding proteins include, for example N-acetyl-D-glucosamine (GlcNac) binding proteins, chitinases, and protein chitin binding domains (CBD).
- biotin refers to any molecules including proteins, natural or genetically modified, that interact specifically with saccharides (i.e.
- lectin refers to lectins from any species, including but not limited to plants, animals, insects and microorganisms, having a desired carbohydrate binding specificity.
- plant lectins include, but are not limited to, the Leguminosae lectin family, such as ConA, soybean agglutinin, and lentil lectin.
- Other examples of plant lectins are the
- animal lectins include, but are not limited to, any known lectin of the major groups S-type lectins, C-type lectins, P- type lectins, and I-type lectins.
- the lectin is selected from the group consisting of wheat germ agglutinin (WGA), soybean agglutinin (SBA), Maclura pomifera lectin (MPL), Bauhinia purpurea lectin (BPL), Datura stramonium lectin (DSL), Lycopersicon esculentum lectin (LEL), Solanum tuberosum lectin (STL) and Psophocarpus
- PTL-II tetragonolobus-II
- CBD chitin-binding domain
- CBD are known to the person skilled in the art and can be derived from chitinases or from cuticular proteins from arthropods, and commercially available from multiple sources, including the IMPACTTM kit supplied by New England Biolabs.
- chitinase generally describes an enzyme specific for the substrate chitin. Many different types of chitinases occur naturally. For example, chitinases are found in microbes such as Serratia, Vibrio, and Streptomyces.
- N-acetyl-D-glucosamine binding domains including N- acetyl-D-glucosamine binding proteins, conjugated to one or more detectable moieties.
- label and “detectable moiety” are interchangeable and shall refer to moieties that can be attached to (e.g., conjugated to) a binding protein to thereby render the binding protein detectable by an instrument or method.
- Non-limiting examples of detectable moieties suitable for use in the practice of the disclosed invention include, for example, a hapten, an enzyme, a chromophore, an antibody epitope, an antigen, a fluorophore, a radioisotope, a nanoparticle, a member of an binding pair, a luminescent compound and a metal chelate.
- fluorescence label As used herein, the terms "fluorescence label” and “fluorophore” used
- emission wavelength when the substance is illuminated by radiation of a different wavelength (excitation wavelength) and is intended to encompass a chemical or biochemical molecule or fragments thereof that is capable of interacting or reacting specifically with an analyte of interest in a sample to provide one or more optical signals.
- fluorophores for use in the methods provided herein include, for example, green fluorescent protein, blue fluorescent protein, red fluorescent protein, fluorescein, fluorescein 5- isothiocyanate (FITC), cyanine dyes (Cy3, Cy3.5, Cy5, Cy5.5, Cy7), Bodipy dyes (Invitrogen) and/or Alexa Fluor dyes (Invitrogen), dansyl, dansyl Chloride (DNS-C1), 5-(iodoacetamida)fluorescein (5-IAF, 6- acryloyl-2- dimethylaminonaphthalene (acrylodan), 7-nitrobenzo-2-oxa-l,3,-diazol-4-yl chloride (NBD-C1), ethidium bromide, Lucifer Yellow, rhodamine dyes (5-carboxyrhodamine 6G hydrochloride, Lissamine rhodamine B sulfonyl chloride, rhodamine -B
- DAPI Hoechst 33342, TOTO, Acridine Orange, Ethidium Homodimer, N(ethoxycarbonylmethyl)-6- methoxyquinolinium (MQAE), Fura-2, Calcium Green, Carboxy SNARF-6, BAPTA, coumarin, phytofiuors, Coronene, and metal-ligand complexes.
- Haptens for use in the methods provided herein include, for example, digoxigenin, glutathione and biotin.
- Enzymes for use in the methods provided herein include, for example, alkaline phosphatase (AP), beta-galactosidase, horse radish peroxidase (HRP), soy bean peroxidase (SBP), urease, beta-lactamase and glucose oxidase.
- AP alkaline phosphatase
- beta-galactosidase beta-galactosidase
- HRP horse radish peroxidase
- SBP soy bean peroxidase
- urease beta-lactamase and glucose oxidase.
- the GlcNac binding protein is an antibody.
- Anti-chitin (e.g., anti-GlcNac) antibodies have been disclosed in US5004699, those antibodies can be used for the detection of fungi and yeasts (US5004699).
- the detectable moiety can be a specific member (a first member or a second member) of a binding pair.
- Binding pairs for use in the methods provided herein include, for example, biotin/streptavidin, biotin/avidin, biotin/neutravidin, biotin/captavidin, epitope/antibody, protein A/immunoglobulin, protein G/immunoglobulin, protein
- the GlcNac binding protein is conjugated to a first member of binding pair (e.g., biotin, avidin, neutravidn, captavid, antibody, antigen, protein A, protein G, protein L, GST, His-Tag, FLAG, MBP, calmodulin binding protein, an enzyme, a receptor or ligand).
- a first member of binding pair e.g., biotin, avidin, neutravidn, captavid, antibody, antigen, protein A, protein G, protein L, GST, His-Tag, FLAG, MBP, calmodulin binding protein, an enzyme, a receptor or ligand.
- the GlcNac binding protein is wheat germ agglutinin and the detectable moiety is fluorescein.
- the GlcNAc binding protein is a protein containing a chitin binding domain and the detectable moiety is fluorescein.
- the methods provided herein employ a dye that binds directly to chitin and fluoresces when exposed to a fluorescence-exciting light, such as the dyes disclosed in U.S. 6,440,388.
- dyes that bind or conjugate chitin and fluoresce in ultraviolet or visible light include calcofluor white, Uvitex 3B (distyryl biphenyl fluorescent whitening agent), Rylux BA, Rylux BSU (1,4-benzenedisulfonic acid-2,2'-[ethyleneidylbis[(3-sulpho-4, 1 -phenylene)imino[6-bis (2-hydroxyethyl)amino]- 1,3,5-trihexasodium salt) (Ostacolor, Pardubice, Czech Republic) and Blankophor (disodium 4,4'-bis ⁇ (4-anilino)-6-morpholino-l,3,5-triazin-2-yl) amino ⁇ stilbene-2,2'- dis
- a first member of a binding pair is conjugated to a GlcNac binding protein and the second member of the binding pair is immobilized to a solid support. In other embodiments, a first member of a binding pair is conjugated to a
- GlcNac binding protein and the second member of the binding pair is conjugated to an enzyme, an antibody epitope, an antigen, a fluorophore, a radioisotope, a nanoparticle, a member of a second binding pair, and a metal chelate.
- the first member of the binding pair can be biotin and the second member of the binding pair can be streptavidin, avidin, neutravidin or capravidin, and the second member of the binding pair conjugated to an enzyme (e.g., alkaline phosphatase (AP), beta-galactosidase, horse radish peroxidase (HRP), urease, soy bean peroxidase (SBP), beta-lactamase or glucose oxidase).
- an enzyme e.g., alkaline phosphatase (AP), beta-galactosidase, horse radish peroxidase (HRP), urease, soy bean peroxidase (SBP), beta-lactamase or glucose oxidase.
- the chitin may be partially or totally blocked off by a polysaccharide capsule or other type of macromolecular coating found in helminth eggs.
- chitin is extremely robust, hence, enzymatic digestions using proteases or polysaccharides such as a glucanase or mannase can be used to permeate or remove the blocking layer before chitin detection.
- extreme treatment such as bleaching in a bleach solution (1% NaOCl, 0.5 M NaOH, or similar composition with higher or lower concentrations of individual chemical), as described in US2007/0099234) can be used to remove the masking layer.
- the methods provided herein further comprise, prior to contacting the helminth eggs with a GlcNac binding protein, a step of treating the sample with a bleach or other shell-exposing solution.
- parasite eggs can be detected in a suspension of in a suspension of animal feces in water or other suitable liquid (including buffered solutions) by a two-step process; egg capture and egg detection.
- the methods described herein comprise capturing eggs by filtration, the methods comprising providing a fecal solution comprising a fecal sample suspended in a sample buffer, flowing the fecal solution through a first filtration membrane to form a first filtrate, and flowing the first filtrate through a second filtration membrane to capturing the helminth eggs on the second filtration membrane.
- the methods comprise obtaining a fecal solution comprising a fecal sample suspended in a sample buffer, flowing the fecal solution through a first filtration membrane to form first filtrate, and flowing the first filtrate through a second filtration membrane, wherein helminth eggs are captured on the second filtration membrane.
- the methods further comprise contacting the helminth eggs captured on the second filtration membrane with a GlcNac binding protein conjugated to a detectable moiety and detecting the presence or absence of helminth eggs in the fecal sample based on the signal intensity detectable moiety.
- the methods provided herein comprise flowing the fecal solution through a first filtration membrane (e.g., a filter). Flowing the fecal solution through a first filtration membrane allows for separation of eggs from fecal particles.
- a first filtration membrane e.g., a filter
- the first filtration membrane comprises a pore size which allows for eggs to pass freely through the filter (e.g., having a pore size of at least 80 microns) and also captures fecal particles.
- the methods provided herein comprise the use of a first filtration apparatus.
- the pore size the first filtration apparatus is generally selected such that the pores are large enough allow helminth eggs and protozoan oocyts to freely pass through, while being small enough to capture fine particles (e.g., less than about 450 microns, less than about 425 microns, or less than about 400 microns) from the fecal solution.
- the first filtration membrane of the first filtration apparatus comprises a pore size of between about 85 microns and about 350 microns, between about 100 microns and about 300 microns, between about 125 microns and about 250 microns, between about 150 microns and about 200 microns, or about 85 microns, about 90 microns, about 95 microns, about 100 microns, about 120 microns, about 125 microns, about 150 microns, about 175 microns, about 200 microns, about 250 microns, about 300 microns, about 350 microns, or, at most, about 400 microns.
- the methods provided herein comprise flowing the fecal solution through a second filtration membrane (e.g., a filter).
- a second filtration membrane e.g., a filter
- the second filtration membrane comprises a pore size which allows fluid to pass freely through the filter and also captures eggs or oocyts (e.g., having a pore size of at 80 microns or less).
- the methods provided herein comprise the use of a second filtration apparatus.
- the pore size the second filtration apparatus is generally selected such that the pores are large enough allow fluid and fine particles to freely pass through, while being sized (i.e., being small enough) to capture helminth eggs from the fecal solution.
- the characteristic size and diameter of parasitic helminth eggs is between about 20 microns and 80 microns.
- the second filtration membrane of the second filtration apparatus comprises a pore size of between 5 and about 45 microns, between 10 and about 45 microns, between 15 and about 45 microns, between about 20 microns and about 45 microns, between about 25 microns and about 40 microns, between about 30 microns and about 35 microns, or about 5 microns, about 10 microns, about 15 microns about 20 microns, about 25 microns, about 30 microns, about 35 microns, about 40 microns, or about 45 microns. Since many protozoan oocyts are smaller than helminth eggs, smaller pore filters can also be used e.g. between about 0.1 and about 10 microns or between about 5 and about 20 microns.
- the methods disclosed herein optionally comprise the use of a bulk filtration apparatus to remove larger particles and debris.
- the pore size the bulk filtration apparatus is generally selected such that the pores are large enough allow helminth eggs and proteozoan oocyts to freely pass through, while being small enough to capturing large particles (e.g., particles greater than or equal to 400 microns) and debris from the fecal material.
- the filtration membrane of the bulk filtration apparatus comprises a pore size of between about 400 microns and about 800 microns, between about 425 microns and about 750 microns, between about 450 microns and about 700 microns, between about 500 microns and about 650, or between about 550 microns and about 600 microns.
- the bulk filtration apparatus may be connected directly to the vessel used to collect the fecal sample (e.g., the collection vessel).
- the bulk filtration membrane has a pore size of between about 400 microns and about 450 microns
- the first filtration membrane has a pore size of between about 85 microns and about 120 microns
- the second filtration membrane has a pore size of between about 20 microns and about 30 microns.
- a solution e.g., a solution
- a filtration membrane such as gravity flow, pressure or with the aid of a pump.
- the methods of the present invention allow for the visualization of chitin- containing parasitic helminth eggs and protozoan oocyts by labeling chitin with a suitable reporter (e.g., a detectable moiety).
- a suitable reporter e.g., a detectable moiety
- the quantitation of eggs could be accomplished visually (1) by comparison to a color chart, by using an inexpensive single-wavelength colorimeter or fluorimeter, or by digitally quantifying the color following photography using a camera, cell phone, tablet or other digital imaging device, or (2) in the case of a fluorescent chitin- binding derivative, by imaging the sample under appropriate illumination with either a cell-phone or other camera fitted with appropriate optics in conjunction with automated image analysis.
- the detectable moiety may be illuminated with a wavelength of light that results in a detectable optical response, and observed with a means for detecting the optical response.
- the fluorescent compounds including those bound to the GlcNac binding protein or to a specific binding pair member, display intense visible absorption as well as fluorescence emission.
- Selected equipment that is useful for illuminating the fluorescent compounds of the invention includes, but is not limited to, advantageously, equipment useful for illuminating the fluorescent compounds include portable lamps (e.g., hand-held ultraviolet lamps). These illumination sources are optionally integrated into portable laser scanners, fluorescence microplate readers, fluorescent gel imagers, standard or mini fluorometers, standard or mini colorimeters or chromatographic detectors.
- excess excitation light Prior to detection, excess excitation light is reduced or removed by passage through an optical filter that prevents some or all of the excitation wavelengths from passing while allowing some or all of the fluorescent emission wavelengths to pass.
- This fluorescence emission is optionally detected by visual inspection, or by use of any of the following imaging devices: a digital camera, a mobile phone, a smartphone, a tablet, a portable computer, a computer, and a scanner.
- kits for detecting the presence or absence of helminth eggs and protozoan oocyts in fecal samples can take on a variety of forms. Typically, the kits will include reagents suitable for detecting helminth eggs in a sample. Optionally the kits may contain one or more control samples.
- kits of the present invention optionally comprise a collection vessel in which an amount of a fecal sample can be placed and diluted by a suitable buffer solution.
- the vessel can then be sealed and the fecal sample and buffer shaken or homogenized to produce a uniformly mixed fecal solution.
- the buffer solution may be plain tap water or appropriate buffered or flotation media.
- the collection vessel can be a disposable vessel for fecal collection or a reusable vessel.
- the collection vessel may be for example in the form of a regular capped tube, having graduations, which indicate the volume of the raw stool specimen which is to be placed inside the tube, as well as the amount of the diluting liquid to be added.
- the collection vessel is attached to a bulk filtration apparatus.
- the kit may also comprise a construction for collecting the fecal sample, such as a disposable vessel for stool collection, etc., as well as a scooping device, for example in the shape of a small spoon to pick a determined amount of fecal material.
- the scooping device may be an integral part of the vessel's cap.
- kits of the invention comprise a first filtration apparatus, optionally a second filtration apparatus, and optionally a bulk filtration apparatus as described herein.
- the kits of the present invention comprise a reagent (e.g., a reagent solution) containing a GlcNAc binding protein.
- the GlcNac binding protein can be a lectin or CBD as described herein.
- the GlcNac binding protein is conjugated to a detectable moiety.
- reagent contains a dye capable of directly binding or conjugating to chitin and emit fluorescence upon exposure to light, and a source of light that emits a wavelength capable of exciting fluorescence from the chitin bound dye.
- kits can include a portable system for detecting the detectable moiety, such as a fluorometer, a colorimeter, a spectrophotometer, or other imaging device.
- the kits may also include a cradle designed for holding the sample and the portable system for detecting the detectable moiety.
- the kit comprises a cradle that holds or contains an imaging device.
- kits for example the detection apparatus or reusable parts of a filtration system
- methods can be sold separately to other aspects of the kits (for example the detection reagents of single-use filter modules).
- kits of the invention may be used for human and/or veterinary usage.
- a fecal sample is suspended in water or a suitable buffer such as, but not limited to, phosphate buffer saline (PBS) and contacted with beads coated with a reagent capable binding to parasite eggs (e.g., a GlcNac binding protein).
- the reagent can be specific to such eggs only, or to eggs of taxonomic groups of interest, or specific to both eggs and other components of the feces.
- Specific reagents include, for example, monoclonal antibodies raised to a particular organism of interest or that recognizes multiple taxa of organisms, or a polyclonal antibody raised against multiple taxa or single organisms, or mixtures of multiple monoclonal and/or polyclonal antibodies.
- Non-specific reagents include proteins such as CBD or lectins or mixtures thereof, either alone or in combination with antibodies. In the case of CBD, binding can be enhanced by applying CBD in at elevated pH above 7 and/or at high salt
- CBD is understood to refer to not only a single chitin binding domain from any species, but also to multiple CBDs produced by either chemical conjugation or by expression of genetically fused of tandem repeats of two more CBDs with or without intervening non-CBD sequences.
- CBD need not be a natural sequence found in nature but also an artificial peptide sequence capable of binding chitin, or mutant variants of CBD with either the same or differing binding affinities compared to the natural sequences.
- the buffer also may optionally contain reagents to help to expose the desired target binding sites on the eggs and include, but are not limited to, surfactants (such as Tween-20, sodium dodecyl sulfate and Triton X-100), oxidizing agents (such as sodium hypochlorite, N-chlorotosylamide or hydrogen peroxide), chaotropes (such as urea or guanidinium hydrochloride), enzymes (such as proteases, glycosidases or lipases) or bleach.
- surfactants such as Tween-20, sodium dodecyl sulfate and Triton X-100
- oxidizing agents such as sodium hypochlorite, N-chlorotosylamide or hydrogen peroxide
- chaotropes such as urea or guanidinium hydrochloride
- enzymes such as proteases, glycosidases or lipases
- beads loaded with eggs are physically separated from the remainder of the feces by, for example, filtration (using a filter with pore sizes sufficient to retain the beads and their cargo, but not other fecal debris), or by centrifugation.
- the beads could be imbedded with iron, and such paramagnetic or magnetic beads (which are readily available commercially) could be separated from the remainder of the fecal suspension by application of a magnetic field.
- beads Upon bead isolation, beads are suspended in a small volume (for example ⁇ ) of buffer and examined optically using a microscope. While this method does not remove the inconvenience of visual inspection, it does allow the isolation and counting of large numbers of eggs from feces. Current methods sample only 1/25 to 1/200 of a several gram fecal sample, resulting in a low sensitivity and high variability. This method eliminates both of these problems by eliminating such subsampling.
- eggs are isolated as described in Example 1 using magnetic beads.
- the capture reagent that is attached to the beads is CBD which is reversibly attached to the magnetic bead by means of sequence of 6 histidine residues at its N- or C-terminus which bind to nickel atoms on the surface of the beads.
- the CBD is fused to a carrier such maltose binding protein (MBP) which is used to reversibly attach the CBD to beads coated with maltose.
- MBP maltose binding protein
- CBD can be detached from the beads by the addition of either histidine, imidazole or maltose as non-limiting examples.
- elution agent for example, a solution of histidine (or imidazole) or maltose.
- Beads are then reattached to the magnet and the solution containing the freed eggs and fecal material drawn though a filter.
- the purpose of this step is to separate fungal and yeast cells, which could also bind to CBD, from the eggs.
- the filter pore size is selected to allow smaller (5-40 ⁇ ) yeast and fungal cells to pass through, while retaining the larger egg cells (50-100 ⁇ ), thereby providing the specificity that CBD alone does not provide in such a system.
- the base of the chamber contains a small magnet that attracts the egg-beads complexes into a small surface area.
- the purpose of this detection chamber is to concentrate the egg/bead complexes to intensify the bead color and allow the visual determination of the color intensity in comparison to a standardized color chart in order to quantify the number of beads (and therefore eggs) present in the sample.
- the area can be imaged by an optical sensor to obtain a more accurate reading of color intensity.
- the number of beads (and therefore eggs) is determined optically using either a spectrophotometer or a single-wavelength colorimeter to measure the turbidity of the egg/bead suspension.
- the eggs are quantified upon initial release from the beads by measuring their ability to scatter light.
- Yeast and fungi if present, can be differentiated from eggs based on their smaller size by selection of the appropriate wavelength of light for detection, or by using a particle sizer.
- the capture reagent need not be CBD and could, by way of non-limiting example, be an antibody (mono- or polyclonal) or a lectin (or mixture of lectins).
- the capture reagent is specific only to parasite eggs, or to only a subset of eggs of clinical interest, then either only one aspiration step (with no elution reagent) could be used to remove unbound beads and then facilitate quantification of egg/bead complexes as described above.
- the capture reagent also binds to yeast and/or fungi and if yeast and/or fungal cells bound to the beads do not form aggregates or complexes large enough to be retained by the filter (whose pore size is small enough to retain egg/bead aggregates/complexes), or if yeast and/or fungal burden does not produce a clinically meaningful background in the assay, then either only one aspiration step (with no elution reagent) could be used to remove unbound beads and yeast/fungi (if present) and then facilitate quantification of egg/bead complexes as described above.
- detection of bound eggs is achieved by a chromogenic reaction utilizing, by way of non-limiting examples, protein assays, carbohydrate assays, or by attachment of other recognitions molecules such as antibodies, lectins or CBD to the eggs.
- the molecules are conjugated to reporter groups such as chromophores, fluorophores, colored microbeads, quantum dots, colloidal metals or chromogenic enzymes (e.g., HRP or AP).
- detection can occur immediately after egg capture and washing of the beads suing methods such as those detailed elsewhere and requires no filtration steps.
- the egg/bead complexes are treated with reagents to release components for chemical detection.
- reagents include, but are not limited to, proteases, glycosidases (including chitinase), surfactants, chaotropes and oxidizing agents.
- the methods disclosed herein allows for the quantification of fecal egg burdens by veterinarians on site, or by animal owners themselves, since there is no requirement for expensive, specialized equipment or training (magnets, beads, single-wavelength colorimeters can all be manufactured inexpensively and require no specialized training to operate).
- the methods disclosed herein comprise the use of capture reagents
- the strip can consist of any compatible material including, but not limited to, a plastic (such as polyethylene, polypropylene or polystyrene) or other polymer (such as cellulose, phosphocellulose or polyvinylidene difluoride).
- a plastic such as polyethylene, polypropylene or polystyrene
- other polymer such as cellulose, phosphocellulose or polyvinylidene difluoride.
- the capture reagent is bound to the surface by one of many reactive chemistries available to one skilled in the art and dependent on the nature of surface chemistry.
- Possible, non-limiting molecules capable of binding proteins to such surfaces include disuccinimidyl suberate, dimethyl adipimidate, succinimidyl-4-(N-maleimidomethyl)cyclohexane- 1 -carboxylate or N- hydroxysuccinimide.
- the capture reagent need not be applied to the whole of the surface and can be localized to a particular area such as a spot or strip.
- the capture reagents are attached to the surface reversibly in a manner described above.
- the surface is then contacted with the fecal suspension to allow the eggs to bind and then washed to remove fecal contaminants.
- the strip is then contacted with a solution containing detection reagent.
- the detection reagent can again be any number of molecules capable of binding to the eggs, including antibodies, lectins or CBD, conjugated to a suitable reporter. Reporters need to be capable of generating a visible signal on the surface and include chromophores, fluorophores, enzymes, colloidal metals, quantum dots, or colored microparticles.
- the surface is washed and then contacted with a suitable substrate, whose product needs to be insoluble in order to be deposited onto the surface for visualization.
- Two non-limiting examples of such a system are the enzyme horse radish peroxidase and the substrates 4-chloro-l-naphthol or 3, 3'-diaminobenzidine, or the enzyme alkaline phosphatase and the substrates 5-bromo- 4-chloro-3-indolyl phosphate and nitroblue tetrazolium.
- the number of eggs is quantitate either by visual comparison to a calibrated color chart or by using a device such as a colorimeter or densitometer.
- enzymatic detection of immobilized eggs occurs with substrates whose soluble colored products are released into the solution to produce a color change than can be detected optically.
- the eggs/capture reagent are released after binding and washing and then detected in solution.
- the eggs can optionally be treated at any stage by reagents already disclosed above to expose sites or release detection molecules necessary for either capture or detection.
- the methods disclosed herein are adapted into a lateral flow format similar to that used in, for example, consumer home pregnancy tests.
- One end of the device containing a sample chamber is placed into the solution, or samples of the solution are dispensed into a chamber in the device.
- the chamber contains a detection agent such as, but not limited to, an antibody, lectin or CBD conjugated to a detection agent such as colored microparticles, quantum dots or colloidal metals.
- the sample (including eggs now bound to detection reagents) are wicked up a strip of solid substrate such as paper or other sintered polymer by means of capillary action. A portion of this strip is coated with a capture reagent similar to those described above, allowing for the immobilization the eggs and the associated colored detection reagent.
- Development of color on the region of strip coated with capture reagent by the adherence of egg/reagent complexes is diagnostic of the number of eggs present in the feces.
- the number can be determined visually by comparison to a calibrated color chart, or electronically by imaging the color with a charge coupled device or similar device followed by appropriate signal processing.
- the capture reagent is most specific for eggs, while the detection reagent can be less discriminatory, though the converse can also be true.
- the major criterion for the capture and detection reagents is that binding to both of them is mutually exclusive for all fecal constituents except parasite eggs or subsets of parasite eggs.
- the eggs can optionally be treated in the fecal suspension by reagents already disclosed above to expose sites or release molecules necessary for either capture or detection.
- the strip contains two or more areas coated with capture agents that are each specific to different species taxonomic groups. In this case numerous colored areas develop that correspond to the quantity of different kinds of parasite eggs.
- the sample chamber contains multiple detection agents that each recognize eggs from different species or taxonomic groups. Labelled eggs are then captured in a single area and the amount of each type of egg determined by imaging the area and then computationally reconstructing the relative contribution of each colored reagent (and therefore egg type/number) to the final color detected.
- the detection reagents can be mixed directly with the fecal suspension prior to application of or to the device, and thus are not stored in the device's sample chamber.
- the eggs can optionally be treated at any stage by reagents already disclosed above to expose sites or release molecules necessary for either capture or detection.
- the methods comprise capturing eggs with a suitable capture reagent that is itself immobilized on a transparent surface using methods described above.
- the transparent surface can take the form of any container including, but not limited to, a tube, cuvette, a dish or a plate containing one or more wells.
- detection reagent Upon washing to remove fecal debris, detection reagent is added that is labelled in a manner or manners that are described above.
- the color of the bound detection reagent (or the color developed by the enzymatic activity of the detection reagent) is measured either visually and compared to a calibrated color chart, or by using a device such as a colorimeter, microplate reader, spectrophotometer or fluorometer.
- the binding of eggs is determined by measuring a change in the refractive index of the clear surface upon egg binding, or by other optical methods such as surface plasmon resonance or refractometry.
- the eggs can optionally be treated at any stage by reagents already disclosed above to expose sites or release molecules necessary for either capture or detection.
- eggs are captured and separated from yeast and fungi using a physical method - namely filtration.
- Eggs are homogenized in a suitable vessel and then passed through a first filtration membrane having a pore size to facilitate the passage of eggs (e.g., between about 85 microns and about 350 microns).
- the pore size can also be selected to remove larger fecal debris and thus help clarify the sample and thus reduce the possibility of clogging filters at subsequent steps in the method.
- Filtrate is then placed into a second vessel and passed through a second filtration membrane whose pore size is small enough to retain helminth eggs (e.g., between about 20 microns and about 45 microns), but allow the passage and removal of smaller particles, including yeast and fungal cells.
- helminth eggs e.g., between about 20 microns and about 45 microns
- sample is passed through multiple filters or sequentially reducing pore size in order to gradually remove larger particles while retaining eggs before reaching the final filter that retains the eggs.
- an egg binding/detection reagent Upon capture of eggs by the filter, an egg binding/detection reagent is added to bind to the eggs.
- the binding regent can comprise, but is not limited to, a GlcNac binding protein (e.g., an antibody, a lectin, or CBD.
- the detection reagent can comprise, but is not limited to an enzyme, a chromophore, a fluorophores, colored micro- or nano-spheres, quantum dots or colloidal metals.
- the binding reagent may be directly chemically coupled to the capture reagent to form a single molecular entity (for example chemical coupling of an egg specific antibody or CBD to an enzyme such as horse radish peroxidase using protein crosslinking chemistries well known in the art), or may be associated with by non-covalent (for example electrostatic or hydrophobic) interactions.
- the binding reagent includes a His6 tag and the detection reagent contains an attached metal such as nickel, copper or cobalt to facilitate the interaction. If the binding and detection reagents are not covalently attached, then they be premixed to facilitate their interaction before addition to the egg sample, to may be added separately to allow their interaction to occur in the presence of the eggs.
- the enzyme can optionally be produced as a genetic fusion of both the binding reagent and the enzyme to form a single molecular entity.
- the enzyme can optionally be produced as a genetic fusion of both the binding reagent and the enzyme to form a single molecular entity.
- the enzyme can optionally be produced as a genetic fusion of both the binding reagent and the enzyme to form a single molecular entity.
- the fusion of CBD with an alkaline phosphatase gene to produce a CBD-AP fusion protein that could bind to, and be used to detect, eggs.
- constructs can be made encoding multiple binding domains (including repeats of the same domain or multiple different domains) and multiple enzyme domains (including repeats of the same domain or multiple different domains), in order to modulate the binding affinities and detection sensitivities of the reagent.
- the sample Upon incubation with detection reagent, the sample is filtered again in order to remove unbound reagent while retaining eggs, and optionally washed to ensure complete removal of the unbound reagent.
- the number of eggs can then be quantitated either in situ, or following removal of the egg/reagent mixture from the container.
- chromophores, fluorophores and other detection agents that can be directly quantified optically, they may first be eluted from the beads using, by way of non-limiting example, acids, alkalis, chaotropic agents, surfactants or salts before detection. Following such release, the reagents may optionally be separated from the eggs by filtration prior to detection.
- the colored reaction products that indicate the number of eggs present could be soluble or insoluble.
- their optical intensity may also be determined in situ in the container, or following removal from the container, or following filtration to remove eggs and any remaining fecal particles.
- Insoluble products may be detected similarly by measuring the turbidity of the suspension, or may additionally filtered through a membrane whose pore size is sufficiently small to retain the products, followed by optical detection on the surface of the filter.
- the present example investigated whether Pluriselect filters having a pore size of 90 microns and 27 microns (Pluriselect PluriStrainer® Cell Strainer) were suitable for a) filtering away unwanted fecal debris, and b) capturing and possibly concentrating strongyle eggs.
- Fecal Egg Counts were first estimated for an equine fecal sample using the McMaster method. Five grams of feces were suspended in 45 ml of flotation medium (37.5% glucose/25% sodium chloride). The suspensions were mixed in the Fill Flotac containers with built-in sieves (approximately 0.5 mm mesh size). Two counting chambers were filled (equaling 1.0 ml of suspension examined). This yields a multiplication factor of 10 eggs per gram (EPG).
- the flow-through sample was then passed through a second filter having a pore size of 27 microns. Again, 0.5 ml was examined in the McMaster chamber
- feces Five grams of feces were suspended in 45 ml flotation medium to form a fecal solution. The suspensions were mixed in the Fill Flotac containers with built-in sieves (approximately 0.5 mm mesh size). 10 ml of fecal solution was filtered through a first filter having a pore size of 90 microns (Pluriselect PluriStrainer® Cell Strainer). The flow-through sample was then passed through a second filter having a pore size of 27 microns (Pluriselect PluriStrainer® Cell Strainer) for capture of on the 27 micron filter. The material was bleached (1% hypochlorite solution) on the surface of the 27 ⁇ filter and then recovered.
- panel A unbleached
- panel B sample following bleaching for 4 minutes
- panel C sample following bleaching for 6 minutes
- panel D sample following bleaching for 8 minutes.
- panel A the normal unbleached eggs appear as dark oval objects.
- panels (panels B-D) the bleached eggs appear translucent.
- the other dramatic and unexpected effect is the dramatic reduction debris, presumably due to cellulose oxidation, which further facilitates optical measurements.
- feces Five grams of feces were suspended in 45 ml of flotation medium to form a fecal solution. The suspensions were mixed in the Fill Flotac containers with built-in sieves (approximately 0.5 mm mesh size). 10 ml of fecal solution was filtered through a first filter having a pore size of 90 microns (Pluriselect PluriStrainer® Cell Strainer). The flow-through sample was then passed through a second filter having a pore size of 27 microns (Pluriselect PluriStrainer® Cell Strainer) for capture of on the 27 micron filter. The material was bleached (1% hypochlorite solution) on the surface of the 27 ⁇ filter for 5 minutes.
- Bleached eggs were then contacted with a reagent solution containing wheat germ agglutinin - FITC (5mg/ml, Vector Labs) at different dilutions in phosphate buffered saline (PBS) containing a blocking agent (Carboblock, Vector labs)( Figure 4). WGA incubation time was 15 minutes. Egg suspension was placed under a cover slip and examined by fluorescence microscopy.
- PBS phosphate buffered saline
- CBD was produced by cloning six histidine residues into the pTXB 1 plasmid (New England Biolabs). This produced a fusion protein consisting of an N-terminal His tag followed by the intein endopeptidase and then the CBD of Bacillus ciruclans at the C terminus. The protein was expressed cytoplasmically in E. coli and purified on a nickel chelate column. The CBD was then labeled using NHS-Fluorescein (Pierce) according to the manufactures instructions (using PBS as the conjugation buffer for 60 minutes at room temperature). After desalting this produced a 6.7mg/ml CBD solution with between 1.5 and 2 fluorescein molecules per CBD.
- Feces samples were processed by filtration, bleached and stained with a 1 : 100 dilution of fluorescent CBD and then imaged on a microscope using phase contrast (Figures 5A-E) or fluorescence mode ( Figures 5F-J).
- Samples containing strongyles from an adult horse (A,F), ascarids from a foal (B,G) and trichostronglyes from a goat (C, H), a trichostrongyle and a Trichuris egg from a cow (D, I) and Toxocara eggs from a cat (E, J) are shown. This demonstrates that the CBD from B. circulans binds to eggs of several important classes of parasites across numerous diverse species.
- Figure 6 shows a montage of various strongyles, a trichuris egg and Coccidia oocysts from the bovine sample shown in Figure 5 (D and I).
- the fact that eggs from such disparate genera were stained demonstrates that chitin serves as a generic marker for multiple helminth parasite eggs and protozoan oocysts.
- the fact that these eggs and oocyts are clearly stained despite the large amounts of extraneous fecal debris present from the feces demonstrates that, despite its previously reported cross-reaction with cellulose, CBD is clearly capable of discriminating between these fecal components.
- Example 5 An equine fecal slurry was passed through a 90 micron filter (Pluriselect)
- Figure 8A and 8B show a composite of 20 images of a McMaster grid of floated, CBD-stained eggs from horse feces taken at 40x on an epifluorescence microscope. Eggs were treated and stained with CBD as described in Example 4. Examination of the sample shows the presence of a small number of fungal spores (Fig. 7B, inset arrowhead) that had not been removed by filtration. Following simple digital processing of the fluorescence image to remove the background (levels and threshold filtering), the inventors were able to quantify the number of eggs by using the particle analysis function of the open source freeware software, Image J, available from the National Institutes of Health.
- This software allows the user to parse particles by both size and shape, thereby providing a computational method to discriminate between eggs and spores (which are smaller and rounder). Counting by eye led to an egg count of 104 eggs and 19 spores while the Image J software detected 107 eggs and 16 spores. To simulate an image that would be produced by a consumer-grade camera or cell phone, the image was shrunk down from 4800 x 4800 pixels to 1350 xl350 - the equivalent of filling the shorter dimension of an 8 megapixel sensor with the entire McMaster chamber (not just the grid in the image). In this case, the Image J software counted 103 eggs and 20 spores.
- the inventors have used the above imaging systems to demonstrate that automated egg counts are directly correlated to counts obtained by the standard
- test apparatus 100 A non-limiting example of a test apparatus 100 is shown in Figures 12 - 15.
- the test apparatus 100 includes a stand 110 that includes an upper surface 120 with a camera holder 122.
- the stand 110 supports a testing circuit board 134 with a light source 132, a camera chamber 130 including a lens mount with integrated emission filterl40, and a testing cradle 150 with a detection chamber for holding the sample.
- the elements of test apparatus 100 are arranged such that a camera placed in the camera holder 122 can optically access a sample placed in testing cradle 150 via camera chamber 130 and illuminated by light source 132 for image capture, as described above.
- the stand 110 has a generally flat upper surface and four support legs 112.
- the support legs 112 elevate the upper surface from a table, bench, or other work surface.
- the support legs 112 are separated by cut-outs 114 that reduce the weight of the stand 110 and allow a user to manipulate the portions of the test apparatus 100 (e.g., the testing cradle 150 as shown in Figures 14 and 15) located underneath the upper surface 120.
- the upper surface 120 has a large rectangular indentation or blind hole positioned generally in the middle of the upper surface 120, the camera holder 122.
- the camera holder 122 is configured to retain and align a portable camera such as a digital camera or smartphone with camera capability with the test apparatus 100.
- the camera holder 122 has an optical access port 124 that permits the camera of the smartphone to detect radiation through the upper surface 120 and from the testing cradle 150 beneath the upper surface 120 (as shown in Figures 14 and 15).
- a user places the smartphone in the camera holder 122 using a grip access 126 located at one end of the upper surface 120.
- a bottom view of test apparatus 100 shows the camera chamber 130 affixed to the stand 100.
- the camera chamber 130 appears to surround lens mount 140, the light sources 132, and a portion of a testing circuit 134.
- Attached to the bottom surface of the stand 100 is a circuit cover 128.
- the circuit cover 128 covers the testing circuit board 134 which is positioned adjacent to the bottom surface of the stand 110.
- the circuit cover 128 holds the testing circuit board 134 in place and optically aligned with the smartphone above and the testing cradle 150 below the testing circuit board 134.
- the circuit cover is mounted to the bottom surface of the stand 110 via screw bosses, which align the cover (not shown).
- Light sources 132 are located in or on the testing circuit board 134. As described above, light sources 132 can be blue LEDs. The LEDs 132 are arranged on a bottom surface of the testing circuit board 134, such that the LEDs illuminate the camera chamber 130 and the sample in the testing cradle 150 below. Four LEDs 132 are shown in Figure 12; however, more or fewer LEDs can be used. For example, one, two, or three LEDs can be arranged to surround the lens mount and integrated emission filter 140, or five or more LEDs can be used.
- a testing cradle 150 is attached to the bottom and testing cradle 150 are threaded so that a testing cradle 150 containing a new sample can be quickly and easily screwed into position on the test apparatus 100. It is also
- camera chamber 130 and testing cradle 150 can be mechanically coupled together via a snap fitting, a quick release mechanism, magnetic coupling, or any other suitable means known in the art that are capable of coupling camera chamber 130 with testing cradle 150.
- the testing cradle 150 can include one or more filters for separating and attaching the eggs in the sample, as described above. The eggs present in the sample can be bound to one of the filters within testing cradle 150, and optically accessible to the light sources 134 and camera chamber 130.
- the fully assembled test apparatus 100 is shown in Figure 15. Although not shown, a digital camera positioned in camera holder 122 will have unobstructed optical access through the test apparatus 100 via the lens and lens mount 140 attached to the optical access port 124 of the upper surface 120.
- the light sources 132 (not shown in Figure 15) on the bottom surface of the testing circuit board 134 illuminate the sample resting below in the in testing cradle 150 and permit acquisition of data such as described above.
- the stand 110 is preferably made of lightweight material, e.g., molded or extruded plastic, or lightweight metal such as aluminum.
- stand 110 may include two wide supporting legs at either end of the upper surface 120 separated by one cut-out on each side of the upper surface 120.
- the stand 110 can include no legs, and instead be a single solid raised support around the perimeter of upper surface 120, and contain no cut-outs.
- Other implementations are also possible.
- the camera chamber 130 is threaded to allow easy attachment to a testing cradle 150.
- a chamber cover can be provided, which screws onto the camera chamber 130 and protects the lens and lens mount with integrated emission filterl40 and testing circuit board 134 when a sample and testing cradle 150 is not in place.
- the testing circuit board 134 can also support a power source for the light sources 132, e.g., a battery or batteries.
- Cringoli G FLOTAC, a novel apparatus for a multivalent faecal egg count technique. Parassitologia 2006;48:381-384.
- Kania SA Reinemeyer CR.
- Anoplocephala perfoliata coproantigen detection a preliminary study. Vet Parasitol 2005;127:115-119.
- ChbB protein binds beta- and alpha-chitin and has homologues in related strains. Microbiology 147, 1793-1803.
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Priority Applications (11)
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CA2944596A CA2944596C (en) | 2014-04-10 | 2014-12-05 | Method for the quantification of parasite eggs in feces |
JP2017505046A JP6654624B2 (en) | 2014-04-10 | 2014-12-05 | Determination of parasite eggs in feces |
KR1020167031315A KR20160144442A (en) | 2014-04-10 | 2014-12-05 | Method for the quantification of parasite eggs in feces |
BR112016023418A BR112016023418A8 (en) | 2014-04-10 | 2014-12-05 | method and kit for the quantification of parasite eggs in faeces |
MX2016013261A MX2016013261A (en) | 2014-04-10 | 2014-12-05 | Method for the quantification of parasite eggs in feces. |
ES14889100T ES2856479T3 (en) | 2014-04-10 | 2014-12-05 | Method for the quantification of parasite eggs in feces |
CN201480079059.2A CN106457090B (en) | 2014-04-10 | 2014-12-05 | Method for quantifying parasite eggs in excrement |
EP14889100.5A EP3131655B1 (en) | 2014-04-10 | 2014-12-05 | Method for the quantification of parasite eggs in feces |
NZ724790A NZ724790A (en) | 2014-04-10 | 2014-12-05 | Method for the quantification of parasite eggs in feces |
AU2014389998A AU2014389998B2 (en) | 2014-04-10 | 2014-12-05 | Method for the quantification of parasite eggs in feces |
AU2020200599A AU2020200599B2 (en) | 2014-04-10 | 2020-01-29 | Method for the quantification of parasite eggs in feces |
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US201461977754P | 2014-04-10 | 2014-04-10 | |
US61/977,754 | 2014-04-10 | ||
US201462059262P | 2014-10-03 | 2014-10-03 | |
US62/059,262 | 2014-10-03 |
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PCT/US2014/068860 WO2015156844A1 (en) | 2014-04-10 | 2014-12-05 | Method for the quantification of parasite eggs in feces |
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US (3) | US9933425B2 (en) |
EP (1) | EP3131655B1 (en) |
JP (1) | JP6654624B2 (en) |
KR (1) | KR20160144442A (en) |
CN (1) | CN106457090B (en) |
AU (2) | AU2014389998B2 (en) |
BR (1) | BR112016023418A8 (en) |
CA (2) | CA2944596C (en) |
ES (1) | ES2856479T3 (en) |
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WO (1) | WO2015156844A1 (en) |
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RU2582946C1 (en) * | 2015-04-29 | 2016-04-27 | Государственное бюджетное образовательное учреждение дополнительного профессионального образования "Казанская государственная медицинская академия" Министерства здравоохранения Российской Федерации | Method of diagnosing low-invasive trematodoses of hepatobiliary system |
JPWO2017038711A1 (en) * | 2015-08-28 | 2017-08-31 | 栄研化学株式会社 | Reagent composition for immunological measurement and use thereof |
RU2629386C1 (en) * | 2016-06-17 | 2017-08-29 | ФАНО России, Федеральное государственное бюджетное научное учреждение Всероссийский научно-исследовательский институт фундаментальной и прикладной паразитологии животных и растений им. К.И. Скрябина (ФГБНУ "ВНИИП им. К.И. Скрябина") | Method for collection of only mature eggs (in vitro) from female helminthozoonosis pathogens trichostrongylus colubriformis |
RU2617417C1 (en) * | 2016-07-07 | 2017-04-25 | ФАНО России, Федеральное государственное бюджетное научное учреждение Всероссийский научно-исследовательский институт фундаментальной и прикладной паразитологии животных и растений им. К.И. Скрябина (ФГБНУ "ВНИИП им. К.И. Скрябина") | Method of collection and fixation of nematodes parasiting in abomasum and in intestines of ruminants |
CN106135144A (en) * | 2016-08-31 | 2016-11-23 | 宁波江南仪器厂 | A kind of intelligence mythimna separata raises collection device |
CN108844800B (en) * | 2018-09-10 | 2023-11-03 | 广州市准好生物科技有限公司 | Disposable parasitic insect egg of excrement gathers film-making device |
Also Published As
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AU2020200599A1 (en) | 2020-02-20 |
KR20160144442A (en) | 2016-12-16 |
CA3186277A1 (en) | 2015-10-15 |
US10094829B2 (en) | 2018-10-09 |
NZ724790A (en) | 2022-07-29 |
EP3131655B1 (en) | 2020-12-02 |
US10677796B2 (en) | 2020-06-09 |
CN106457090A (en) | 2017-02-22 |
CA2944596C (en) | 2023-03-14 |
MX2016013261A (en) | 2017-05-03 |
US9933425B2 (en) | 2018-04-03 |
BR112016023418A2 (en) | 2017-08-15 |
CA2944596A1 (en) | 2015-10-15 |
EP3131655A4 (en) | 2018-02-14 |
AU2014389998B2 (en) | 2019-10-31 |
JP6654624B2 (en) | 2020-02-26 |
CN106457090B (en) | 2020-09-29 |
US20190145973A1 (en) | 2019-05-16 |
BR112016023418A8 (en) | 2019-12-10 |
JP2017519220A (en) | 2017-07-13 |
EP3131655A1 (en) | 2017-02-22 |
AU2014389998A1 (en) | 2016-10-27 |
US20180074055A1 (en) | 2018-03-15 |
ES2856479T3 (en) | 2021-09-27 |
US20150293091A1 (en) | 2015-10-15 |
NZ759799A (en) | 2022-12-23 |
AU2020200599B2 (en) | 2021-09-16 |
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