Abstract: Method and device (1b) for performing the optical analysis of particles (2) contained in suspension in a fluid (3) arranged inside a microfluidic device (4) which maintains it at a temperature significantly lower than the ambient temperature; the formation of humidity on the outer surface (8) of the cover of the microfluidic device is avoided by applying a thermal flow (P) which determines an increase in the temperature of the outer surface (8) of the cover to above the condensation temperature (Td), or reduction in the ambient temperature (and/or humidity) in the vicinity of the cover (8), so as to bring the condensation temperature (Td) (dew point) to below the temperature of the surface (8) of the cover determined by the internal operating temperature.

Abstract: There is disclosed a method of generating a massively parallel sequencing library comprising the steps of: a) providing a primary WGA DNA library (pWGAlib), including fragments comprising a WGA library universal sequence adapter; b) performing a single PCR cycle on the pWGAlib using a first primer (1PR) comprising from 5? to 3? a first sequencing adapter (1PR5SA) and a first primer 3? section (1PR3S) hybridizing to the reverse complementary of the WGA library universal sequence adapter; c) performing a single PCR cycle on the on the product of step b) using a second primer (2PR) comprising from 5? to 3? a second sequencing adapter (2PR5SA) different from the 1PR5SA, and a second primer 3? section (2PR3S) hybridizing to the WGA library universal sequence adapter reverse complementary; d) amplifying by PCR the product of step c) using a third primer comprising the 1PR5SA and a fourth primer comprising 2PR5SA.

Abstract: A microfluidic device for the isolation of particles of at least one specific type of a sample is described. The microfluidic device comprises: a first inlet adapted to receive a sample comprising the particles of the specific type, at least part of a separation group comprising a separation unit, which comprises a main chamber and a recovery chamber and being adapted to receive the sample and to transfer at least part of the particles of the specific type from the main chamber to the recovery chamber in a selective manner with respect to further particles of the sample, a first outlet which is designed to allow the particles of the specific type to be collected outside of the device and a second outlet adapted to allow at least a portion of the sample to flow out of the main chamber and out of the microfluidic device.

Abstract: A system and method for handling a sample comprising particles (CE) bound to ferromagnetic particles (FP); a magnetic field is created in a container (3) inside which the sample (TS) is arranged so that the particles (CE) are attracted against a side wall (4) of the container (3); part of the sample (TS) is sucked through a cannula (8), kept in position by an alignment device (10) so as not to be in contact with the side wall (4) of the container (3), without withdrawing the particles (CE) that remain in contact with the side wall (4).

Abstract: Disclosed herein are reagents, compositions and methods for isolating and detecting rare cells such as circulating multiple myeloma cells as well as method of evaluating and treating patients suspected of having diseases of abnormal plasma cells, such as multiple myeloma.

Abstract: Provided are methods for detecting or isolating circulating tumor cells (CTCs) in a subject. The methods may include detecting the expression of at least one epithelial mesenchymal transition (EMT) biomarker. Further provided are kits for detecting or isolating CTCs. The kits may include antibodies to at least one EMT biomarker. Further provided are methods of predicting the responsiveness of a subject to a cancer drug, methods of targeting delivery of a cancer drug in a subject, methods of providing a cancer prognosis to a subject, and methods for following the progress of cancer in a subject.

Abstract: An electronic driving circuit for a microfluidic device, having a number of synchronized driving stages to generate a respective driving signal for each electrode or group of electrodes of the microfluidic device, the driving signals having a desired amplitude, frequency and phase-shift. Each driving stage has a switching-mode amplifier stage to receive a clock signal and a target signal and to generate, at an output thereof, an output signal defining a respective driving signal. The amplifier stage has: a switching module, coupled to a first internal node and controlled by the clock signal for selectively bringing the first internal node to a control signal; a filter module, coupled between the first internal node and the output, to provide the output signal; and a feedback module.

Abstract: A microfluidic system and method for the recovery of particles; the system comprises at least one standing chamber, at least one outlet, at least one inlet and a moving assembly, which is adapted to move the particles; a fluid is fed from the inlet to the outlet so as to generate a substantially continuous flow of the fluid; a given particle of a group of particles arranged in the collecting chamber is moved selectively with respect to the other particles of the assembly to a release area, in which a dragging force created by the fluid flow is such as to move the particle towards the outlet.

Abstract: Methods and apparatus for the selection or processing of particles sensitive to the application of an external stimulus to rupture/lysis at least one selected particle or the fusion of first and second selected particles are disclosed herein. Particles are organized using a first field of force by selectively energizing electrodes of an array of selectable electrodes having dimensions comparable to or smaller than those of the particles. A first configuration of stresses is applied to the electrodes; and then a second configuration of stresses is applied to the electrodes, so as to create a second field of force, located substantially close to at least one selected particle to be lysated or to a pair of first and second particles to be fused and such as to produce the application of a stimulus suited to produce their lysis or fusion.

Abstract: A microfluidic system for the isolation of particles of at least one given type belonging to a sample and comprising a separation unit, which is designed to transfer the particles of given type from a main chamber to a recovery chamber in a substantially selective manner with respect to further particles of the sample; at least one first reservoir, which is designed to contain a liquid and is fluidically connected to the separation unit; and a regulating assembly, which comprises at least a first regulating device having a first heat transfer element arranged at the first reservoir to adjust the temperature of the first reservoir, in particular to absorb heat from the reservoir.

Abstract: The invention relates generally to the field of the identification of DNA sequences, genes or chromosomes. Methods and composition to obtain Unique Sequence DNA probes are provided. Compositions comprised of and double stranded DNA containing Unique Sequences from which the repetitive sequences are eliminated according to the method described in this invention. The invention also relates to the preservation of cells that have been identified after immunomagnetic selection and fluorescent labeling in order to further interrogate the cells of interest. Furthermore the invention relates to genetic analysis of cells that have been identified after immunomagnetic selection and fluorescent labeling.

Abstract: Method and device (1b) for performing the optical analysis of particles (2) contained in suspension in a fluid (3) arranged inside a microfluidic device (4) which maintains it at a temperature significantly lower than the ambient temperature; the formation of humidity on the outer surface (8) of the cover of the microfluidic device is avoided by applying a thermal flow (P) which determines an increase in the temperature of the outer surface (8) of the cover to above the condensation temperature (Td), or reduction in the ambient temperature (and/or humidity) in the vicinity of the cover (8), so as to bring the condensation temperature (Td) (dew point) to below the temperature of the surface (8) of the cover determined by the internal operating temperature.

Abstract: This invention relates to a preservative solution and a method to preserve whole blood for cellular and molecular analysis.

Abstract: The present invention relates to a method for the diagnosis of tumoural conditions and/or of the corresponding state of advance, wherein a sample from a patient comprising at least one tumour cell is obtained. According to the invention, a purified specimen of the at least one tumour cell is obtained by individually selecting and isolating single cells in a microfluidic device the purified specimen having a purity of at least 90%. On the purified specimen thus obtained there is subsequently performed a molecular analysis such as to highlight a characteristic thereof suited to enabling diagnosis.

Abstract: There is disclosed a method of generating a massively parallel sequencing library comprising the steps of: a) providing a primary WGA DNA library (pWGAlib), including fragments comprising a WGA library universal sequence adapter; b) performing a single PCR cycle on the pWGAlib using a first primer (1PR) comprising from 5? to 3? a first sequencing adapter (1PR5SA) and a first primer 3? section (1PR3S) hybridizing to the reverse complementary of the WGA library universal sequence adapter; c) performing a single PCR cycle on the on the product of step b) using a second primer (2PR) comprising from 5? to 3? a second sequencing adapter (2PR5SA) different from the 1PR5SA, and a second primer 3? section (2PR3S) hybridizing to the WGA library universal sequence adapter reverse complementary; d) amplifying by PCR the product of step c) using a third primer comprising the 1PR5SA and a fourth primer comprising 2PR5SA.

Abstract: The methods herein can allow for the optimised selection and isolation, within a respective population, of elements of interest and/or utility for a series of subsequent operations. A method can include the phases of: a) identifying, for each particle, at least one of a plurality of characteristic parameters; b) selecting the particles of interest, comparing for each of these the at least one parameter with a respective reference parameter. It can furthermore include the phases of c) storing, for each of the particles, the at least one parameter identified; d) processing the value of a function of the stored parameter, associating the function with a criterion for selection of the particles of interest chosen from a group of possible selection criteria; e) establishing for each particle a threshold criterion to be used as reference parameter. The threshold criterion is established on a time by time basis according to the result of the above processing.

Abstract: A method for determining the integrity of the genome of a sample and/or the quality of a library of DNA sequences obtained by deterministic restriction site whole genome amplification can include (a) amplifying the library of DNA sequences to produce first, second, and third PCR products each of a different size from 50 bp to 1000 bp, by PCR using at least one first primer pair, one second primer pair and one third primer pair, the primer pairs each hybridizing to a DNA sequence of the library having a length from 1000 bp to 5000 bp and corresponding to a sequence of the genome located respectively on a first, second and third chromosome arm; (b) detecting the first, second and third PCR products; (c) correlating the presence of the first, second and third PCR products with the integrity of the genome of the sample and/or the quality of the library.

Abstract: Method for the treatment of a biological sample comprising at least one cell and a liquid component; according to the method, a force is applied to the sample inserted in an inner chamber of a hollow device towards a filter which has pores with diameters from 2 nm to 1 ?m, so that at least part of the liquid component passes through the filter and the cell remains in the inner chamber, thus obtaining a concentrated sample; the filter has a surface facing the inner chamber of less than 12.6 mm2.

Abstract: The present invention relates to a method for the diagnosis of tumoural conditions and/or of the corresponding state of advance, wherein a specimen of an organic fluid taken from the patient and having a high probability of containing at least one circulating tumor cell (CTC) or a disseminated tumor cell (CTD) is enriched in a population of CTCs or CTDs. According to the invention, at least one type of CTCs or CTDs is isolated by selecting individually single cells in a microfluidic device so to constitute a diagnostic specimen having a purity of at least 90%. On the specimen thus obtained there is subsequently performed a molecular analysis such as to highlight a characteristic thereof suited to enabling diagnosis.

Abstract: Methods and apparatus for the selection or processing of particles sensitive to the application of an external stimulus to rupture/lysis at least one selected particle or the fusion of first and second selected particles are disclosed herein. Particles are organized using a first field of force by selectively energizing electrodes of an array of selectable electrodes having dimensions comparable to or smaller than those of the particles. A first configuration of stresses is applied to the electrodes; and then a second configuration of stresses is applied to the electrodes, so as to create a second field of force, located substantially close to at least one selected particle to be lysated or to a pair of first and second particles to be fused and such as to produce the application of a stimulus suited to produce their lysis or fusion.