Patents Assigned to Biosurfit, S.A.
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Patent number: 11285479Abstract: Devices and methods for handling liquids are provided. The devices and methods make use of specifically controlled centrifugal forces to drive liquid flow between two cavities connected by a conduit such that as liquid flows into the second cavity, a gas volume is trapped in the second cavity and a pressure of the gas increases, allowing for pneumatic control of liquid flow. The devices and methods facilitate one or more of the mixing, metering and sequencing of liquids, for example on a microfluidic device.Type: GrantFiled: June 20, 2019Date of Patent: March 29, 2022Assignee: Biosurfit S.A.Inventors: Tania Moura Pires De Andrade Tenreiro, Luis Miguel Dias Martins, Fábio Miguel Rolo Pereira, Nuno Alexandre Esteves Reis
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Publication number: 20210229086Abstract: A device for collecting and transferring liquid samples having a detachable sample collecting portion includes an elongated body with a liquid collecting portion disposed at one end and a handling portion disposed at the other end separated by a frangible portion. The sample collecting portion includes an inner surface configured to be wetted by the sample. After collection, the sample is transferred into a separate housing by inserting the sample collecting portion filled with sample into a confining cavity and subsequently breaking the sample transfer device along the frangible portion. The liquid sample is extracted from the collecting portion using known means to drive and control flow in fluidic devices including rotation, capillary pressure or pneumatics. The separate housing may be part of a device capable to process the liquid sample to provide for a system for handling liquid samples.Type: ApplicationFiled: April 18, 2019Publication date: July 29, 2021Applicant: BIOSURFIT, S.A.Inventors: Nuno Alexandre ESTEVES REIS, Tania MOURA PIRES DE ANDRADE TENREIRO
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Publication number: 20210063303Abstract: A detection system including a detection device and an assay device. The detection device includes a space for receiving an assay device, a drive arrangement engaging the assay device to rotate the assay device, a light source arranged to direct light towards the assay device, and a diffuser arranged to diffuse light from the light source. The diffuser is arranged between the light source and the space. The detection device includes a light receiver arranged to receive light from the light source that has passed through the assay device.Type: ApplicationFiled: September 4, 2018Publication date: March 4, 2021Applicant: BIOSURFIT, S.A.Inventors: José PEDRO SANTOS MANSO CÔRTE-REAL, José MIGUEL SILVA DO CARMO NOGUEIRA, André MIGUEL ALVES FARINHA, Alberto EDUARDO ARTILHEIRO FERREIRA, Tiago FILIPE PINTO SILVA, Mauro MIGUEL MELO RIBEIRO, Filipe DA CONCEIÇÃO FERNANDES THOMAZ,, João MANUEL DE OLIVEIRA GARCIA DA FONSECA,
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Publication number: 20200230600Abstract: A microfluidic device includes an upstream liquid handling structure to hold a first volume of liquid, a downstream liquid handling structure to hold a second volume of liquid smaller than the first volume and including a vent port. The upstream liquid handling structure is connected to a detection chamber, for supplying liquid to the detection chamber and the detection chamber is connected to the downstream liquid handling structure, for supplying liquid to the downstream liquid handling structure. The downstream liquid handling structure facilitates flow of an aqueous liquid through the detection chamber and into the downstream liquid handling structure by capillary action. The downstream liquid handling structure includes a flow-halting feature to halt the flow of the liquid by capillary action when the downstream liquid handling structure has filled with the second volume of liquid.Type: ApplicationFiled: July 27, 2018Publication date: July 23, 2020Applicant: BIOSURFIT, S.A.Inventors: David Pena De Sousa SANTOS, Miguel João Marques BARREIROS, Fábio Miguel Rolo PEREIRA
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Publication number: 20200209146Abstract: A detection system including a detection device and an assay device. The detection device includes a space for receiving an assay device, a drive arrangement engaging the assay device to rotate the assay device, a light source arranged to direct light towards the assay device, and a diffuser arranged to diffuse light from the light source. The diffuser is arranged between the light source and the space. The detection device includes a light receiver arranged to receive light from the light source that has passed through the assay device.Type: ApplicationFiled: September 4, 2018Publication date: July 2, 2020Applicant: BIOSURFIT, S.A.Inventors: Sandro MIGUEL PINTO BORDEIRA, Mauro MIGUEL MELO RIBEIRO, Miguel TAVARES ALELUIA, Rui MIGUEL AFONSO GOMES DA FONSECA,, Tiago FILIPE PINTO SILVA, Milton JOSÉ SANTOS FERNANDES, Filipe DA CONCEIÇÃO FERNANDES THOMAZ,, João MANUEL DE OLIVEIRA GARCIA DA FONSECA,
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Patent number: 10684206Abstract: Systems and methods for classifying blood cells in a blood sample are disclosed. A series of frames of the blood sample as it flows through a field of view of an image capture device are captured and analysed. Advantageously, the disclosed systems and methods combine the availability of morphological cell data with the convenience of a flow-through arrangement. The classification results can be used for estimating cell counts in a blood sample.Type: GrantFiled: September 29, 2015Date of Patent: June 16, 2020Assignee: Biosurfit, S.A.Inventors: Francisco Correia De Matos Nolasco Lamas, João Manuel De Oliveira Garcia Da Fonseca, André Do Rosário Magalhães, José Pedro Santos Manso Co̊rte-Real, Ricardo Manuel Marques Caleiro Cabeça
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Patent number: 10684207Abstract: Systems and methods for classifying blood cells in a blood sample are disclosed. A series of frames of the blood sample as it flows through a field of view of an image capture device are captured and analysed. Advantageously, the disclosed systems and methods combine the availability of morphological cell data with the convenience of a flow-through arrangement. The classification results can be used for estimating cell counts in a blood sample.Type: GrantFiled: March 29, 2018Date of Patent: June 16, 2020Assignee: Biosurfit, S.A.Inventors: Francisco Correia De Matos Nolasco Lamas, João Manuel De Oliveira Garcia Da Fonseca, André Do Rosário Magalhães, José Pedro Santos Manso Côrte-Real, Ricardo Manuel Marquest Caleiro Cabeca
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Publication number: 20200171490Abstract: A microfluidic liquid handling device is configured for rotation about an axis of rotation to drive liquid flow within the device. The device can include an upstream liquid handling structure, a metering structure and an overflow region. The metering structure is configured to receive liquid from the upstream liquid handling structure. The overflow region is separated from the metering structure by a wall. The wall has a first surface portion on the side of the overflow region which has an extent in a direction perpendicular to the direction of action of the centrifugal force, in a substantially tangential or circumferential direction, relative to the axis of rotation. The first surface portion faces radially outwards. Advantageously, the structure of the wall facilitates accurate metering.Type: ApplicationFiled: May 31, 2018Publication date: June 4, 2020Applicant: BIOSURFIT, S.A.Inventors: Fábio Miguel Rolo PEREIRA, Miguel João MARQUES BARREIROS, David Pena De Sousa SANTOS
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Patent number: 10661276Abstract: Devices and methods for handling liquids are provided. The devices and methods make use of centrifugal forces to drive liquid flow and facilitate one or more of the mixing, metering and sequencing of liquids, for example on a microfluidic device.Type: GrantFiled: December 15, 2016Date of Patent: May 26, 2020Assignee: Biosurfit, S.A.Inventors: Tania Moura Pires De Andrade Tenreiro, Luis Miguel Dias Martins, Fábio Miguel Rolo Pereira, Nuno Alexandre Esteves Reis
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Patent number: 10525470Abstract: A liquid handling device having an axis of rotation about which the device can be rotated to drive liquid flow. The device includes a vented upstream chamber having an outlet port and an unvented chamber including an inlet port to receive liquid from the outlet port of the upstream chamber and an outlet port radially outward the inlet port. The device further includes a vented downstream chamber having an inlet port to receive liquid from the outlet port of the unvented chamber. A downstream conduit connects the outlet port of the unvented chamber to the inlet port of the downstream chamber and includes a bend radially inward of the outlet port of the unvented chamber. An upstream conduit connects the outlet port of the upstream chamber to the inlet port of the unvented chamber.Type: GrantFiled: June 9, 2017Date of Patent: January 7, 2020Assignee: Biosurfit, S.A.Inventors: Nuno Alexandre Esteves Reis, Tania Moura Pires De Andrade Tenreiro, Miguel Joao Marques Barreiros
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Patent number: 10362238Abstract: A method and system for capturing images of a liquid sample flowing through a field of view of an imaging device that can include stepping a focus mechanism of the imaging device through a plurality of focus values and capturing a plurality of images of the sample at each of the plurality of focus values as the sample flows through the field of view of the imaging device. In this way, image capture can proceed before a focus value has been determined and capture images that are in focus can be used for further processing subsequently.Type: GrantFiled: April 5, 2017Date of Patent: July 23, 2019Assignee: Biosurfit, S.A.Inventors: David Pena De Sousa Santos, Miguel João Marques Barreiros, Fábio Miguel Rolo Pereira
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Patent number: 10337982Abstract: Methods for determining a sample concentration of target entities in a sample, for example, determining a concentration of target antigens or antibodies in a blood sample or other biological sample.Type: GrantFiled: July 25, 2017Date of Patent: July 2, 2019Assignee: Biosurfit, S.A.Inventor: João Manuel de Oliveira Garcia Da Fonseca
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Patent number: 10341575Abstract: A method and system for capturing images of a liquid sample flowing through a field of view of an imaging device that can include stepping a focus mechanism of the imaging device through a plurality of focus values and capturing a plurality of images of the sample at each of the plurality of focus values as the sample flows through the field of view of the imaging device. In this way, image capture can proceed before a focus value has been determined and capture images that are in focus can be used for further processing subsequently.Type: GrantFiled: April 6, 2018Date of Patent: July 2, 2019Assignee: Biosurfit, S.A.Inventors: David Pena De Sousa Santos, Miguel João Marques Barreiros, Fábio Miguel Rolo Pereira
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Patent number: 10330589Abstract: Methods for determining a sample concentration of target entities in a sample, for example, determining a concentration of target antigens or antibodies in a blood sample or other biological sample.Type: GrantFiled: March 22, 2018Date of Patent: June 25, 2019Assignee: Biosurfit, S.A.Inventor: João Manuel de Oliveira Garcia Da Fonseca
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Patent number: 10307756Abstract: A microfluidic device with reduced risk of bubble formation at a capillary junction between two conduits is provided. In some embodiments, the microfluidic device comprises a supply reservoir, a first conduit and a second conduit. The first conduit is configured such that liquid flows by capillary effect from the supply reservoir into the first conduit. The second conduit is connected to the first conduit through an opening in a wall of the first conduit and is configured such that liquid flows from the first conduit to the second conduit by capillary effect. A width of the second conduit, along a direction of liquid flow in the first conduit, is greater than a depth of the second conduit and a depth of the second conduit is less than a depth of the first conduit.Type: GrantFiled: March 22, 2018Date of Patent: June 4, 2019Assignee: Biosurfit, S.A.Inventors: Ricardo Manuel Marques Caleiro Cabeça, André Do Rosário Magalhães, Andreia Andrade Dos Santos, Sandra Cristina Sarmento Donato Dos Santos E Silva, João Manuel De Oliveira Garcia Da Fonseca
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Patent number: 10300487Abstract: A holder for a pipette having a bulb is disclosed. In use, the bulb of the pipette is inserted into the holder and the user can hold the holder rather than the bulb to use the pipette. In this way, the holder enables the pipette to be held without any application of force from the user directly on the bulb. This enables the user to accurately draw a desired amount of liquid into the pipette. The holder comprises an aperture through which the bulb is accessible. The user can dispense liquid from the pipette by actuating the bulb through the aperture.Type: GrantFiled: July 11, 2017Date of Patent: May 28, 2019Assignee: Biosurfit, S.A.Inventors: Nuno Alexandre Esteves Reis, Miguel João Marques Barreiros, Tania Moura Pires de Andrade Tenreiro
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Patent number: 10232105Abstract: A liquid handling device having an upstream liquid handling structure connected to a downstream liquid handling structure by a conduit. The upstream and downstream liquid handling structures are sealed or sealable such that the conduit provides the only fluidic communication paths between the upstream and downstream liquid handling structure. The device is arranged such that a driving force causes liquid in the upstream liquid handling structure to at least partially fill the conduit to separate gas in the upstream liquid handling structure from gas in the downstream liquid handling structure. With the device set up such that the two gas volumes are separated by a liquid volume, gas pressures and liquid flow in the device can be controlled by control of the driving force. The device may be arranged for rotation about an axis of rotation to provide the driving force.Type: GrantFiled: March 28, 2012Date of Patent: March 19, 2019Assignee: Biosurfit, S.A.Inventors: Tânia Tenreiro, Nuno Reis, João Garcia Da Fonseca
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Patent number: 10228368Abstract: The disclosure relates to processing SPR signals, in particular signals obtained by illuminating a conductive surface with light at two wavelengths. Embodiments—involve processing a first and second signal indicative of an intensity of light, received from a conductive layer at which SPR has occurred, as a function of angle of incidence, reflection or diffraction at the layer (depending on whether the incident light beam is received by a detector recording it in reflection or transmission from the conductive layer). The first and second signals each have two dips corresponding to a respective wavelength of the light at a respective angle at which surface plasmon resonance occurs for the respective wavelength and a peak between the two dips. The processing includes deriving a first and second value of a quantity indicative of signal magnitudes in the region of the peak.Type: GrantFiled: April 12, 2017Date of Patent: March 12, 2019Assignee: Biosurfit S.A.Inventor: João Manuel Oliveira Garcia Da Fonseca
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Publication number: 20180280969Abstract: Devices and methods for handling liquids are provided. The devices and methods make use of centrifugal forces to drive liquid flow and facilitate one or more of the mixing, metering and sequencing of liquids, for example on a microfluidic device.Type: ApplicationFiled: December 15, 2016Publication date: October 4, 2018Applicant: BIOSURFIT, S.A.Inventors: Tania MOURA PIRES DE ANDRADE TENREIRO, Luis Miguel DIAS MARTINS, Fábio Miguel ROLO PEREIRA, Nuno Alexandre ESTEVES REIS
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Publication number: 20180191938Abstract: A method and system for capturing images of a liquid sample during flow is disclosed. One approach to obtaining images of the sample which are in focus is to carry out a focusing algorithm in order to focus an imaging device on the sample once the sample has started flowing. However, this typically takes dozens of seconds or even minutes. There is provided a method of capturing images of a liquid sample flowing through a field of view of an imaging device that comprises stepping a focus mechanism of the imaging device through a plurality of focus values and capturing a plurality of images of the sample at each of the plurality of focus values as the sample flows through the field of view of the imaging device. In this way, image capture can proceed before a focus value has been determined and capture images that are in focus can be used for further processing subsequently.Type: ApplicationFiled: April 5, 2017Publication date: July 5, 2018Applicant: BIOSURFIT, S.A.Inventors: David PENA DE SOUSA SANTOS, Miguel João MARQUES BARREIROS, Fábio Miguel ROLO PEREIRA