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WO2004086980A1 - Systeme de prelevement de fluides mammaires - Google Patents

Systeme de prelevement de fluides mammaires Download PDF

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Publication number
WO2004086980A1
WO2004086980A1 PCT/GB2004/001101 GB2004001101W WO2004086980A1 WO 2004086980 A1 WO2004086980 A1 WO 2004086980A1 GB 2004001101 W GB2004001101 W GB 2004001101W WO 2004086980 A1 WO2004086980 A1 WO 2004086980A1
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WO
WIPO (PCT)
Prior art keywords
silicon
storage means
collection device
breast
fluid
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Ceased
Application number
PCT/GB2004/001101
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English (en)
Inventor
Nasrollah TORABI-POUR
Debbie DRAGE
Roghieh Saffie
Leigh Trevor Canham
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Psimedica Ltd
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Psimedica Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Psimedica Ltd filed Critical Psimedica Ltd
Publication of WO2004086980A1 publication Critical patent/WO2004086980A1/fr
Anticipated expiration legal-status Critical
Ceased legal-status Critical Current

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Classifications

    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B10/00Instruments for taking body samples for diagnostic purposes; Other methods or instruments for diagnosis, e.g. for vaccination diagnosis, sex determination or ovulation-period determination; Throat striking implements
    • A61B10/0045Devices for taking samples of body liquids
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B10/00Instruments for taking body samples for diagnostic purposes; Other methods or instruments for diagnosis, e.g. for vaccination diagnosis, sex determination or ovulation-period determination; Throat striking implements
    • A61B10/0041Detection of breast cancer

Definitions

  • the present invention relates to a collection system. More specifically the invention relates to a collection and assay system. Yet more specifically the present invention relates to a collection and assay system for the detection of breast cancer and/or physiological conditions associated with breast cancer.
  • Breast cancer is the most common cause of cancer for women, affecting approximately one in nine females during their life, and is the main cause of death in women under 50.
  • Early diagnosis of breast cancer is essential in order to optimise treatment. Early symptoms include: the formation of a new lump or node, swelling in part of the breast, skin irritation or dimpling, pain in the nipple or the nipple turning inward, redness or scaliness of one side of the nipple or breast skin, discharge of liquid other than breast milk.
  • Methods of diagnosis include physical examination, X-ray analysis, and ultrasound (also known as sonography).
  • Ultrasound is not used for routine breast cancer screening because it does not consistently detect early signs of cancer such as micro-calcifications, which are clusters of calcium deposits in the breast that may indicate the presence of cancer.
  • a test that is inexpensive and convenient is therefore required, particularly for relatively high risk subjects including subjects at risk as a result of hereditary factors or because they have already been treated for cancer.
  • the majority of breast cancers originate in cells that line the inside of the milk ducts in the breasts. Changes in these cells, which are known as mammary epithelial cells have been associated with an increased risk of breast cancer.
  • nipple aspirate fluid contains exfoliated epithelial cells. It has been shown that assay of NAF may provide information about epithelial cells, and/or tumour markers. Tumour markers are typically proteins that are uniquely expressed by cancerous cells, or are expressed at measurably increased or decreased levels by cancerous cells compared to normal cells. Other cancer markers can include specific DNA or RNA sequences marking delitereous genetic changes or alterations in the patterns or levels of gene expression associated with particular forms of cancer.
  • NAF may be secreted through the nipple of a breast; typically 15 to 20 lactiferous ducts supply each nipple, the lactiferous ducts merging at the nipple to result in 5 to 10 ducts that allow fluid to be expelled through the wrinkled tip of the nipple.
  • NAF is usually prevented from escaping from the nipple because the nipple ducts are occluded by constricting bands of smooth muscle, viscous and dried secretions, and by keratinized epithelium.
  • NAF differs from human milk both in composition and appearance.
  • the colour of NAF may be clear, white, yellow, brown, green, or black.
  • US 6221622 B1 describes a method of testing for cancer in the cellular lining of a breast duct
  • US 3786801 describes a method for withdrawing a breast secretion
  • US 2002/0013539 describes a device for collection of breast duct fluid
  • WO 02/083005 describes a device for accessing a mammalian duct and for collecting a cellular material from within the duct.
  • the invention provides a mammary fluid collection device comprising: (a) at least one silicon storage means, and (b) a contact means which, when in use, causes and/or allows the or at least one of the silicon storage means to contact at least part of a breast of a human subject.
  • the or at least one of the silicon storage means may be used to collect mammary fluid secreted from a breast of a subject. By placing the or at least one of the silicon storage means in fluid communication with at least part of a breast of a human subject, fluid can pass into and/or onto the or at least one of the silicon storage means.
  • the mammary fluid may be one or more of nipple aspirate fluid, human milk, and colostral milk.
  • the collection device may be used, to collect nipple aspirate fluid.
  • the sample may be assayed by a suitable assay technique.
  • the assay may be performed in situ, or it may be performed after the collection is complete.
  • the collection device may further comprise an assay means for assaying at least part of the mammary fluid.
  • the assay means may comprise an assay electronic circuit.
  • the assay means may comprise an assay electronic circuit and an assay electrical power supply.
  • the contact between the or at least one of the silicon storage means and a breast may be intermittent contact.
  • the contact means may, when in use, cause and/or allow the or at least one of the silicon storage means to contact at least part of a nipple of a human subject.
  • the contact means may cause and/or allow the or at least one of the silicon storage means to contact at least part of an areola of the human subject.
  • One advantage of using a silicon storage means, which is placed in fluid communication with at least part of the breast of a subject, is that it may be used as part of a non-invasive or minimally invasive technique for sampling mammary fluid.
  • the silicon, from which the silicon storage means is at least partly formed, may also be fabricated in highly pure forms, using standard silicon fabrication processes, allowing very sensitive assay techniques to be used.
  • the or each silicon storage means comprises one or more of porous silicon, polycrystalline silicon, bulk crystalline silicon, and amorphous silicon.
  • the silicon storage means comprises porous silicon.
  • porous silicon is advantageous for the collection of fluid secreted by a breast of a subject for several reasons.
  • Porous silicon has a high surface area on which the mammary fluid or components of the mammary fluid may be collected. Because of its porous nature, the use of porous silicon may also allow the application of a reduced pressure to the part of the breast that is in fluid communication with the porous silicon. In other words, the reduced pressure may be transmitted through the pores of the porous silicon.
  • the or each silicon storage means may comprise semiconductor silicon.
  • the or each silicon storage means may comprise derivatised silicon.
  • the or each silicon storage means may comprise derivatised porous silicon.
  • derivatised silicon is silicon comprising a monomolecuiar or monatomic layer that is covalently bonded to at least part of the surface of the silicon.
  • the covalent bond may be one or more of Si-H bond, Si-C bond, a Si-0 bond, and a Si-O-C bond.
  • the derivatized silicon is derivatised in such a manner that it binds to a tumour marker.
  • the derivatized silicon is derivatised in a such a manner that it binds to one or more of the following tumour markers: carcino embryonic antigen, prostate specific antigen, carbohydrate antigen, carbohydrate antigen - 15-3, carbohydrate antigen 19-9, carbohydrate antigen - 125, carbohydrate antigen - 27-29, carbohydrate antigen - 549.
  • the or at least one of the storage means may comprise silicon oxide.
  • the or at least one of the storage means may comprise porous silicon oxide.
  • the silicon oxide has the chemical formula SiO x where 0.1 ⁇ x ⁇ 2.
  • the or at least one of the silicon storage means comprises a sample of porous silicon that has been partially oxidised.
  • partially oxidised is used, in the specification, to describe a material that has been oxidised in such a manner that part of the material remains completely unoxidised. Therefore a sample of silicon that had been partially oxidised would comprise silicon in a completely unoxidised state.
  • the or at least one of the silicon storage means may comprise a sample of porous silicon, the sample of porous silicon being partially oxidised in such a manner that between 0.1 % and 99% of the porous silicon atoms are bonded to oxygen.
  • the or at least one of the silicon storage means may comprise a sample of porous silicon, the sample of porous silicon being partially oxidised in such a manner that between 0.1 % and 10% of the porous silicon atoms are bonded to oxygen.
  • the or at least one of the silicon storage means comprises a sample of porous silicon, the sample of porous silicon being partially oxidised in such a manner that between 0.1 % and 50% of the porous silicon atoms are bonded to oxygen.
  • the collection device comprises a first silicon storage means and a second silicon storage means.
  • the contact means may, when in use, cause the first sample of silicon to contact at least part of one breast of the subject and the second sample of silicon to contact the other breast of the subject.
  • the contact means may comprise a nipple attachment means.
  • the nipple attachment means may have a shape and size such that it capable of fitting over a nipple.
  • the nipple attachment means may comprise: a cup, sleeve, or teat.
  • the nipple attachment means may comprise: a resiliently flexible teat, a resiliently flexible cup, or a resiliently flexible sleeve.
  • the nipple attachment means may comprise a resiliently flexible material such as a silicone material.
  • the contact means may comprise a cup having a shape and size such that it is capable of fitting over a breast.
  • the cup may comprise a flexible material.
  • the cup may comprise a plastic material.
  • the contact means may comprise a tape and/or sheet and/or fabric and/or plastic material and/or patch.
  • the contact means may comprise an adhesive and/or flexible band and/or flexible garment.
  • the contact means may comprise a resiliently flexible band and/or resiliently flexible garment.
  • the garment may be designed to fit around part of a human subject, for example the garment may be a brassiere.
  • the garment may comprise a means for heating one or both breasts of the subject.
  • the contact means may result in the silicon storage means being in contact with the breast for the whole time of collection, or it may result in the silicon storage means being in contact with the breast intermittently during collection.
  • the collection device may comprise a heating means.
  • the heating means may comprise polycrystalline silicon.
  • the heating means may comprise a polycrystalline resistive heater.
  • the collection device may further comprise a heater power supply for applying a potential difference across the polycrystalline resistive heater.
  • the heater power supply may have a construction such that, when in use, the potential difference applied across the polycrystalline resistive heater varies sinusoidally with time.
  • the collection device may further comprise a temperature control means.
  • the temperature control means may comprise a temperature sensor and a heating means.
  • the temperature sensor may comprise a thermocouple.
  • the temperature sensor When in use the temperature sensor may be in contact with the surface of at least part of a breast of the subject.
  • the temperature control means may have a construction such that, when in use, the temperature of the breast in the region of the collection device is maintained in the range 37 C to 45 C.
  • the heating means may allow the breast to be heated thereby promoting the secretion of NAF.
  • the collection device may further comprise means for applying an external expression agent to part of the breast.
  • the means for applying the external expression agent may be a reservoir for containing the expression agent.
  • the expression agent may comprise salicylic acid.
  • the expression agent may comprise an aqueous solution of salicylic acid.
  • salicylic acid is advantageous since it is capable of dissolving the keratin plugs that block the lactiferous ducts.
  • the collection device may comprise a pump for reducing the pressure on at least part of a breast of a subject.
  • the pump may have a construction such that it is capable of a reducing the pressure in the evacuated region by between 50 to 200 mm Hg relative to the pressure of the non-evacuated region of the breast.
  • ⁇ ⁇ he collection device may further comprise a collection power source for applying a potential difference between the silicon storage means and at least part of the breast of the subject.
  • the application of a potential difference between the silicon storage means and the breast may facilitate the collection of the cancer markers from the fluid expressed from the breast.
  • the or at least one of the silicon storage means may comprise a plurality of silicon needles and/or barbs.
  • the or at least one of the silicon storage means may comprise a plurality of silicon needles and/or barbs each silicon needle and/or barb comprising porous silicon.
  • the or at least one of the silicon storage means may comprise between 10 and 1000 needles and/or barbs. Preferably the or at least one of the silicon storage means may comprise between 10 and 100 needles and/or barbs.
  • the or at least one of the silicon storage means may comprise a plurality of silicon needles and/or barbs, each needle and/or barb having a tip diameter between 1 and 50 microns.
  • the or at least one of the silicon storage means may comprise a plurality of the silicon needles and/or barbs, each needle and/or barb having a base width between 200 and 500 microns.
  • the or at least one of the silicon storage means may comprise a plurality of silicon needles and/or barbs, each needle and/or barb having a height between 50 microns and 5 mm.
  • the or at least one of the silicon storage means may comprise a plurality of silicon needles and/or barbs, each needle and/or barb having a height between 150 microns and 2 mm.
  • the or at least one of the silicon storage means may comprise a plurality of silicon needles and/or barbs, each needle and/or barb having a height between 50 microns and 600 microns.
  • the or at least one of the silicon storage means may comprise a plurality of silicon needles and/or barbs, each needle and/or barb having a height between 200 microns and 600 microns.
  • the silicon collection means may comprise a plurality of silicon needles, each needle having a duct passing from the tip, and through the body of, the needle.
  • the mammary fluid collection device may comprise a silicon storage means, the storage means comprising a plurality of silicon needles and/or barbs each silicon needle and/or barb being integral with a substrate.
  • the spacing between any two nearest adjacent needles and/or barbs, measured along the surface of the substrate, may be between 100 and 1000 microns.
  • Preferably the spacing between any two nearest adjacent needles and/or barbs, measured along the surface of the substrate may be between 100 and 300 microns.
  • the mammary fluid collection device may comprise a plurality of silicon needles and/or barbs each silicon needle and/or barb being integral with at least one silicon substrate.
  • the or at least one of the silicon substrates may comprise bulk crystalline silicon.
  • the mammary fluid collection device may comprise a plurality of silicon needles and/or barbs each of the needles and/or barbs being integral with a silicon substrate having a planar substrate surface. At least some of the silicon needles and/or barbs may be non- perpendicular to the substrate surface.
  • silicon needles and/or barbs may be of value in puncturing the keratin plugs that block the lactiferous ducts through which fluid is expressed.
  • porous silicon needles and/or barbs may allow the mammary fluid to pass into the pores of the porous silicon once the blocked ducts have been opened.
  • each needle and/or barb may be such that there is a high probability of puncturing the keratin plugs when the collection device is in use.
  • a further advantage of silicon is that the electrical and mechanical components, such as pumps, heaters, and needles and/or barbs, may all be fabricated at least partly from silicon.
  • the or at least one of the silicon storage means may comprise a silicon particulate product, the silicon particulate product comprising a multiplicity of silicon particles, each silicon particle comprising one or more of: bulk crystalline silicon, porous silicon, polycrystalline silicon, and amorphous silicon. At least some of the silicon particles may be partially oxidised.
  • the mean particle size of the silicon particulate product may be between 1 micron and 1 mm.
  • the mean particle size of the silicon particulate product may be between 10 microns and 100 microns.
  • the silicon storage means comprises porous silicon having a porosity between 1 % and 99%, more advantageously the porous silicon has a porosity between 10% and 80%, even more advantageously the porous silicon has a porosity between 10% and 60%.
  • the silicon storage means may comprise microporous silicon, having a pore diameter between 1.0 and 2.0 nm.
  • the silicon storage means may comprise mesoporous silicon, having a pore diameter between 2.0 and 50 nm.
  • the silicon storage means may comprise macroporous silicon, having a pore diameter between 50 nm and 5 microns.
  • the collection device may further comprise a backing layer.
  • the backing layer may be constructed in such a manner that it forms a receptacle for the or at least one of the silicon storage means. At least part of the backing layer may form at least part of said contact means.
  • the backing layer may be permeable or impermeable.
  • the backing layer may comprise silicon, the backing layer may comprise bulk crystalline silicon.
  • the backing layer may serve to isolate the or at least one of the silicon storage means from the environment surrounding the attachable collection device, including neighbouring areas of skin.
  • the backing layer may be permeable to allow water vapour to escape from the mammary fluid collection device.
  • the mammary fluid collection device may further comp ' rise a semipermeable membrane.
  • the semipermeable membrane may form a barrier through which, when in the collection device is in use, the mammary fluid passes before collection in and/or on the silicon storage means.
  • a semipermeable membrane may prevent unwanted material, such as particles of skin, passing into or onto the silicon storage means.
  • the body fluid collection device may comprise at least one reference storage means and at least one derivatised storage means.
  • the or each reference storage means comprising silicon.
  • the or each derivatised storage means comprising derivatised silicon, the derivatisation being selected such that, when brought into contact with mammary fluid, the dervatised silicon binds to a component of the mammary fluid.
  • reference and derivatised storage means may be advantageous. Analysis of both the reference and derivatised storage means may allow comparison of the two types of storage means to determine whether binding to a tumour marker has occurred.
  • the or at least one of the silicon storage means may comprise at least one first storage means and at least one second storage means.
  • the or at least one of said first storage means may comprise a first type of derivatised silicon, which is derivatised in such a manner that, when brought into contact with mammary fluid, the first type of derivatised silicon binds to a first component of the mammary fluid.
  • the or at least one of said second silicon storage means may comprise a second type of derivatised silicon, which is derivatised in such a manner that, when brought into contact with mammary fluid, the second type of derivatised silicon binds to a second component of the mammary fluid.
  • the use of two types of derivatisation allows the detection of more than one component of the mammary fluid.
  • the presence of cancer in a subject may be indicated by more than one component in the mammary fluid.
  • Measurement of the relative concentrations of the first and second components of the mammary fluid may also provide an indication of the presence of cancer in the subject.
  • the collection device may further comprise at least one antibody.
  • the collection device may comprise at least one antibody and the or at least one of the silicon storage samples may comprise a sample of porous silicon, the antibody being disposed in and/or on at least part of the sample of porous silicon.
  • the collection device may comprise a radiolabelled antibody or an antibody comprising a - fluorescent group.
  • the or at least one of the silicon storage means may comprise a sample of porous silicon in and/or on which a radiolabelled antibody is disposed or an antibody comprising a fluorescent group is disposed.
  • the invention provides a method of collecting mammary fluid and/or a component of mammary fluid from a human subject, the method comprising the steps:
  • the step (b) may comprise the step of allowing and/or causing the breast to secrete one or more of: nipple aspirate fluid, human milk, and colostral milk.
  • the step (b) comprises the step of allowing and/or causing the breast to secrete nipple aspirate fluid.
  • the or at least one of the silicon storage means may comprise one or more of porous silicon, polycrystalline silicon, bulk crystalline silicon, and amorphous silicon.
  • the or at least one of the silicon storage means may comprise a sample of silicon that has been partially oxidised.
  • the step (a) may comprise the step of causing the or at least one of the silicon storage means to contact at least part of the breast of the subject.
  • the step (a) may comprise the step of placing the or at least one of the silicon storage means in fluid communication with one or both of the breasts of the subject.
  • the step (a) may comprise the step of placing the or at least one of the silicon storage means in contact with at least part of a nipple of a human subject.
  • the step (a) may comprise the step of placing the or at least one of the silicon storage means in contact with at least part of an areaola of a human subject.
  • the method may further comprise the step (d) of assaying the mammary fluid and/or a component of the mammary fluid that has been collected on and/or in at least part of the or at least one of the silicon storage means.
  • step (d) may be performed after step (c) or during step (c).
  • the step (d) may comprise the step of assaying the mammary fluid for the presence and/or quantity of one or more of the following substances: carcino embryonic antigen, prostate specific antigen, carbohydrate antigen, carbohydrate antigen - 15-3, carbohydrate antigen 19-9, carbohydrate antigen - 125, carbohydrate antigen - 27-29, carbohydrate antigen - 549.
  • carcino embryonic antigen prostate specific antigen
  • carbohydrate antigen carbohydrate antigen - 15-3
  • carbohydrate antigen 19-9 carbohydrate antigen - 125, carbohydrate antigen - 27-29, carbohydrate antigen - 549.
  • Other antigens for which an assay may be performed are given in US 6,063,029 which is herein incorporated by reference.
  • the or at least one of the silicon storage means may comprise a sample of porous silicon in and/or on which at least one antibody is disposed.
  • the method may further comprise the step of reacting the or at least one the antibodies with one or more tumour marker antigens.
  • the or each tumour marker antigen may be present in the secreted mammary fluid.
  • the step (d) may comprise the step of analysing a component of the mammary fluid using a conventional immunoassay such as horse raddish peroxide, or alkaline phosphatase.
  • the step (d) may comprise the step of assaying the mammary fluid using one or more of the following techniques: Laser Induced Mass Analysis, Matrix Assisted Laser Desorption lo ⁇ isatio ⁇ , Gel Electrophoresis, Capillary Electrophoresis, RadiolmmunoAssay, and Chemiluminescent Assay, ELISA immunoassay, Immunoprecipitation Assay, Affinity Purification Assay, HPLC, and SDS-PAGE.
  • the method may further comprise the step of administering a systemic expression agent to the subject.
  • the expression agent may comprise one or more of the following substances: salicylic acid, nasal oxytocin, salagen, and prolactin.
  • systemic expression agent promotes the expression of NAF, for example by inducing hormonal changes within the subject.
  • the step (c) may comprise the step of collecting between 30 and 500 micro litres of mammary fluid.
  • the method may comprise the further step of separating the mammary fluid from at least part of the or at least one of the silicon storage means.
  • the method may comprise the step of separating the mammary fluid collected on the or at least one of the silicon storage means by immersing the or at least one of the silicon storage means in a solvent; the solvent may be selected from one or more of: water, ethanol, acetone, and acetonitrile.
  • the method may comprise the step of separating the mammary fluid collected on the or at least one of the silicon storage means by immersing the or at least one of the silicon storage means in a solvent and applying a bias to the or at least one of the silicon storage means;
  • the solvent may be selected from one or more of r water, ethanol, and acetone.
  • the step (b) may comprise the step of heating at least part of the breast to a temperature in the range from 37 C to 45 C.
  • Figure 1 shows a schematic diagram of a collection device according to the invention
  • Figure 2 shows SEM images of a silicon microbarb and an array of silicon microbarbs
  • Figure 3 shows a silicon barb that has been porosified and the porosified region surrounding the apex of the barb;
  • Figure 4 shows an EDX plot for pure HSA;
  • Figure 5 shows an EDX plot for HSA that has been loaded into porous silicon;
  • Figure 6 shows amino acid chromatograms for porous silicon that has been combined with
  • FIG. 1 shows a schematic diagram of a mammary fluid collection device, generally indicated by 11 , according to the invention.
  • the collection device 1 1 comprises a silicon storage means 12, and an attachment means 15.
  • the silicon storage means 12 comprises a sample of porous silicon 13, and a portion of bulk crystalline silicon 14.
  • Anodisation of bulk crystalline silicon by a standard technique such as that described in US 5, 348, 618, which is herein incorporated by reference results in the formation of the sample of porous silicon 13 which is connected to the remaining portion of bulk crystalline silicon 14.
  • the attachment means 15 maintains the storage means in contact with at least part of a breast of the subject, which in this case is a nipple of a human subject.
  • the attachment means 15 comprises a resiliently flexible cup that is formed from a silicone material.
  • the sample of porous silicon 13 is removed from the nipple and assayed by one of the following techniques: MALDI, SIMS, EDX and SEM.
  • the sample of mammary fluid may also be analysed by one of: photoluminesce spectrocopy, reflectivity spectroscopy, absorbance spectrosopy, and fluorescence spectrosopy.
  • MALDI may be used to determine the uptake of molecules contained in the mammary fluid sample
  • SIMS may be used to determine the uptake of elements contained in the mammary fluid sample.
  • the spectroscopic analysis may be used to determine the presence of a mammary fluid sample on and/or in the storage sample of porous silicon 13.
  • the collection device may further comprise an antibody.
  • the antibody may incorporated into the sample of porous silicon by incubating the sample of porous silicon in a solution of the antibody at 37 C to 56 C for 1 to 24 hours.
  • the surface of a (100) oriented Si wafer may be processed into an array of needles by standard wet etching techniques such as those described in IEEE Transactions in Biomedical Engineering Vol 38, No 8, August 1991 , p 758 to 768, which is hereby incorporated by reference.
  • two sets of deep (200 micron) orthogonal cuts may be made into a 380 micron thick wafer.
  • the wafer is rotated by 90 degrees between the first set of n cuts in one direction, and the second set of m cuts in the orthoganal direction. This sawing does not cut through the wafer at any point but creates an array of n x m square columns having an aspect ratio determined by the spacing of the cuts.
  • a first chemical etch removes saw damage, isotropically reducing the width of the columns and rounding the edges at the base of the columns. It utilizes an HF: HN03 etch (eg 5% to 95%) that is conducted with vigorous agitation.
  • a second chemical etch may be performed under static conditions that promote preferential attack of the top of the columns to create pointed tips and a tapered shaft.
  • each needle having a tip diameter between 1 and 50 microns, a base width between 200 and 500 microns, and being separated from the nearest adjacent needle by between 100 and 300 microns.
  • the needles may be porosified by standard stain etch or anodisation techniques.
  • the array of needles may be applied to a nipple of a human subject in such a manner that at least some of the needles enter the ducts located in the tip of the nipple. NAF may then pass into the pores of the porosified needles. After an interval of time the array of needles is removed from the human subject, and assayed for tumour markers.
  • the small dimensions of the needles should ensure that there is no or minimal discomfort caused to the human subject.
  • Figure 2a shows an SEM image of a microbarb array generally indicated by 21.
  • the microbarb array comprises silicon, the surface of which has been porosified.
  • Figure 2b shows an SEM image of one of the microbarbs 22 of the array 21 , the image is taken from the side of the barb 22.
  • Figure 2c shows an SEM image of the apex region 23 of the microbarb 22, the image is taken from above the barb 22.
  • microbarbs 21 The array of microbarbs 21 was fabricated by standard techniques similar that described by S Uehara et a/ in phys. stat. sol. (a) 197, No. 1 , 275-278 (2003) which is herein incorporated by reference.
  • the array was porosified by anodization in HF/ethanol solution (1 :1 by volume). A current of 0.014 Amps over 0.48 cm 2 planar area of microbarb array 15 minutes was employed.
  • Figure 3a shows an SEM image of a barb 31 that has been porosified in this way.
  • the porosified region 32 is located in the region surrounding the apex of the barb.
  • Figure 3b shows the layer 33 of porosified silicon formed in the region 32.
  • the layer has a thickness of between 6 and 10 microns.
  • HSA Human Serum Albumin
  • Method A comprising the steps: (a) immersing a porosified silicon wafer in ethanol, (b) removing the wafer from the ethanol and drying the wafer, (c) applying 75 micro litres of aqueous HSA to the porous silicon, (d) incubating the porosified wafer at 37 C until dry, (e) washing the excess HSA from the surface of the wafer using 1 ml deionised water, and (f) incubating the porosified wafer at 37 C until dry.
  • Figure 4 shows an EDX plot for pure HSA.
  • Figure 5 shows an EDX plot for the porosified wafer that has been treated with HSA, the plot is for a region close to the surface of the porous layer. The results show that HSA was successfully loaded into the porous silicon.
  • HSA was loaded into a porous silicon wafer by the method A mentioned above.
  • Sodium dodecylsulfate - polyacrylamide gel eletrophoresis (SDS-PAGE) was then performed on the loaded wafer.
  • the proteins were run in a small dual gel caster under reducing conditions using precast NuPAGE and 7.5% SDS at 200 V for 37 minutes.
  • the proteins were visualised by Coomassie blue staining and later submitted for destaining process by multiple washing with aqueous solvent containing 10% isopropanol and 10% acetic acid.
  • the results show a peak of 66 kDa for HSA, confirming the presence of HSA in the wafer.
  • Carcinoma Embryonic Antigen which is a tumour marker, was also loaded into a porous silicon wafer by method B comprising the steps: (a) immersing a porosified silicon wafer in ethanol, (b) removing the wafer from the ethanol and drying the wafer, (c) applying 100 micro litres of aqueous CEA to the porous silicon, (d) incubating the porosified wafer at 37 C until dry, (e) washing the excess CEA from the surface of the wafer using 100 micro litres deionised water, and (f) incubating the porosified wafer at 37 C until dry. The ELISA assay was then performed on the CEA that had been incorporated into the porous silicon. The test showed the presence of CEA in the porous silicon wafer.
  • CEA was loaded into a porous silicon wafer by the method B described above.
  • the wafer was crushed and the resulting fragments were hydrolysed in boiling concentrated hydrochloric acid at 110 C for 24 hours.
  • the amino acids present in the resulting sample were separated using an HPLC Waters 717 Plus injector, with column Aminix A8 cation exchange resin in Na form, 5 microns.
  • a custom build amino acid analyser was employed and photometric detection of the amino acids was performed with ninhydrin at 440 and 570 nm. Calibration was performed against a Sigma amino acid calibration mixture.
  • the amino acid analysis chromatogram for the eluent extracted from the crushed wafer, shown in figure 6b indicates a similar ratio of amino acid components to that of pure CEA, shown in figure 6a. The result shows that the interaction of porous silicon with the tumour marker CEA does not markedly affect its amino acid composition.

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  • Health & Medical Sciences (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Molecular Biology (AREA)
  • Surgery (AREA)
  • Engineering & Computer Science (AREA)
  • Biomedical Technology (AREA)
  • Heart & Thoracic Surgery (AREA)
  • Medical Informatics (AREA)
  • Hematology (AREA)
  • Pathology (AREA)
  • Animal Behavior & Ethology (AREA)
  • General Health & Medical Sciences (AREA)
  • Public Health (AREA)
  • Veterinary Medicine (AREA)
  • Investigating Or Analysing Biological Materials (AREA)
  • Measuring And Recording Apparatus For Diagnosis (AREA)
  • Sampling And Sample Adjustment (AREA)

Abstract

La présente invention concerne des dispositifs et des méthodes de détection du cancer du sein. Les dispositifs comprennent et les méthodes utilisent des structures et des matières à base de silicium pour recueillir le fluide d'un sein ou des deux seins, chez une femme. Le fluide peut ensuite être soumis à l'analyse pour rechercher des marqueurs qui pourraient indiquer les stades précoces du cancer.
PCT/GB2004/001101 2003-03-31 2004-03-15 Systeme de prelevement de fluides mammaires Ceased WO2004086980A1 (fr)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
GB0307453.1 2003-03-31
GB0307453A GB2400037A (en) 2003-03-31 2003-03-31 Device made of silicon and method for collecting mammary fluid

Publications (1)

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WO2004086980A1 true WO2004086980A1 (fr) 2004-10-14

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Cited By (1)

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US9535047B2 (en) 2011-12-22 2017-01-03 Koninklijke Philips N.V. Method for providing an indication as to the amount of milk remaining in a breast during lactation

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WO2009045543A1 (fr) 2007-10-04 2009-04-09 The Regents Of The University Of California Traitement d'affections liées à un choc
US20130158394A1 (en) * 2010-01-14 2013-06-20 The Regents Of The University Of California Devices, Systems and Methods to Detect and Reduce or Prevent Entry of Inflammatory Mediators into Milk Ducts
US9295715B2 (en) 2010-10-02 2016-03-29 The Regents Of The University Of California Minimizing intestinal dysfunction
AU2015317342B2 (en) * 2014-09-19 2019-07-11 Willow Innovations, Inc. Quantification and inventory management of expressed human breast milk

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EP0376133A2 (fr) * 1988-12-27 1990-07-04 Mochida Pharmaceutical Co., Ltd. Méthode et dispositif pour mesurer une substance cible dans un échantillon fluide
WO1999013336A1 (fr) * 1997-09-11 1999-03-18 Technical Chemicals & Products, Inc. Systemes transdermiques non invasifs servant a detecter des analytes
WO2000074763A2 (fr) * 1999-06-04 2000-12-14 Georgia Tech Research Corporation Dispositifs et procedes permettant d'ameliorer la penetration d'une microaiguille a travers des barrieres tissulaires
US20020127580A1 (en) * 2000-11-13 2002-09-12 Quay Steven C. Methods and devices for collecting, handling and processing mammary fluid samples for evaluating breast diseases, including cancer
US20020183719A1 (en) * 2001-05-30 2002-12-05 Morton Kevin B. Disposable patient interface for intraductal fluid aspiration system
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US20020013539A1 (en) * 2000-07-28 2002-01-31 David Hung Methods and devices for diagnosis of precancer and cancer in breast milk ducts
AU2002258642B2 (en) * 2001-04-16 2006-08-31 Atossa Genetics, Inc. Devices, methods and systems for collecting material from a breast duct

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Publication number Priority date Publication date Assignee Title
EP0376133A2 (fr) * 1988-12-27 1990-07-04 Mochida Pharmaceutical Co., Ltd. Méthode et dispositif pour mesurer une substance cible dans un échantillon fluide
WO1999013336A1 (fr) * 1997-09-11 1999-03-18 Technical Chemicals & Products, Inc. Systemes transdermiques non invasifs servant a detecter des analytes
WO2000074763A2 (fr) * 1999-06-04 2000-12-14 Georgia Tech Research Corporation Dispositifs et procedes permettant d'ameliorer la penetration d'une microaiguille a travers des barrieres tissulaires
US20020127580A1 (en) * 2000-11-13 2002-09-12 Quay Steven C. Methods and devices for collecting, handling and processing mammary fluid samples for evaluating breast diseases, including cancer
US20020183719A1 (en) * 2001-05-30 2002-12-05 Morton Kevin B. Disposable patient interface for intraductal fluid aspiration system
WO2003015636A1 (fr) * 2001-08-18 2003-02-27 Psimedica Limited Collecte et analyse de liquides corporels

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US9535047B2 (en) 2011-12-22 2017-01-03 Koninklijke Philips N.V. Method for providing an indication as to the amount of milk remaining in a breast during lactation

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GB0307453D0 (en) 2003-05-07
GB2400037A (en) 2004-10-06

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