The present invention relates to a system for performing biological analysis. Typically, such systems comprise a cartridge designed to hold the biological sample and comprise fluidic circuits to prepare and isolate the desired elements from the biological sample to perform specific analysis such as DNA analysis. These systems also comprise an instrument containing the analysis means and arranged to command and control the cartridge so that the latter may be simplified and designed to be used one time only and thrown away after use.
For instance, the document WO2009149115A1 discloses a cartridge for performing biochemical assays and having a deformable chamber. In the deformable chamber, some chemical operations are performed on a liquid containing the substances to be analyzed. Some air may be injected in the chamber to perform an agitation, thus increasing the pressure, and the valves of the deformable chamber shall be designed to withstand this pressure, to avoid any loss of liquid. It leads to either an increase of cost to design such secured valves, or to a loss of reliability of the test if some liquid is lost.
The document WO 2011048521 describes a system for performing DNA analysis which comprises an instrument operating a disposable cartridge that holds a liquid containing the biological sample. The cartridge is maintained onto an interface plate of the instrument by a vacuum force applied by the instrument onto the cartridge. The external face of the cartridge in contact with the interface plate is at least partially formed by an elastic membrane having a portion on which the vacuum is applied. To analyze the biological sample, a step of heating the liquid contained in said cartridge may be required. A chamber containing said liquid is arranged in the cartridge so that at least a wall of the chamber is formed by a portion of the membrane and a heater is arranged in the interface plate to contact said wall of the chamber and to heat the liquid. However, this solution leads to issues when air bubbles are contained in the liquid in the chamber. Indeed, during the heating, the air bubbles expand, so that the pressure increase inside the chamber, leading either to leaks in the circuit (resulting in a loss of the biological sample) or to a detachment of the cartridge from the instrument plate (resulting in an abortion of the analysis).
The document EP2182049A1 discloses a container for liquid reaction mixture, a reaction-promoting device using the same, and a method therefor. However, the container and device disclosed are complicated to manufacture and to use, as the device has a lower part and an articulated upper part, to clamp the container.
The document US2010104485A1 discloses a flow-through thermal cycling device comprising two opposite heaters in regards to a flexible chamber. A drawback of this device is the associated complexity of the heating device, as the flexible chamber shall be inserted between the opposite heaters.
The document US2006088931A1 discloses a thermal cycling system and vessel therefor, comprising two opposite heaters in regards to a flexible chamber. A drawback of this device is the associated complexity of the heating device, as the flexible chamber shall be inserted between the opposite heaters.
The present invention aims to solve these aforementioned drawbacks and is directed to propose first a system for biological analysis comprising a cartridge having a chamber suitable for containing a liquid to be analyzed, a heater arranged to heat the liquid, the system being arranged so that the heating of a liquid contained in the chamber will not lead to leaks through the valves during the analysis.
With this goal in mind, a first aspect of the invention is a system for performing biological analysis comprising:
Advantageously, the heating face of the heater is moved during the heating by the deformable chamber from the first position to the second position. The system does not require any actuation of the heating face to achieve the movement from the first position to the second position, as the movement is forced by the deformable chamber itself.
Advantageously, the heating face is in contact with the deformable chamber during the heating of the liquid. The heating is efficient with this embodiment where the heat is transferred to the liquid contained in the chamber by conduction.
Advantageously, the system comprises an instrument having an interface plate, arranged to control the cartridge and to maintain the cartridge onto the interface plate, during the biological analysis, and the heater is arranged in the instrument interface plate. The analysis operation will not be interrupted by any release of the cartridge from the instrument, as the moveable heater inside the interface plate will move away from the cartridge, avoiding the creation of any dismantling effort onto the cartridge that would have been created by an increase of volume of the deformable chamber having its movements limited by the interface plate.
Advantageously, the instrument comprises an elastic element arranged to push the heater against the deformable chamber. This embodiment improves the contact between the heater and the deformable chamber.
Advantageously, the instrument comprises command means arranged
Advantageously, the command means are a pneumatic cylinder. This embodiment is cost effective for manufacturing the system.
Advantageously, the cartridge is maintained onto the interface plate by a vacuum force applied by the instrument onto the cartridge. No mechanical means such as clamps or gripping tools are necessary to control the attachment between the cartridge and the instrument.
Advantageously, the cartridge comprises an elastic membrane arranged on an external face of the cartridge, a portion of the elastic membrane is a wall of the deformable chamber, the deformable chamber comprises a filter and the heating face of the heater is arranged to push the portion of the elastic membrane forming the wall against the filter during an operation of wetting the filter. This arrangement minimizes the risk of having air bubbles in the deformable chamber as its volumes is reduced to the minimum during the wetting operation of the filter with the deformable membrane in contact with the filter. In other words, the heater may be used as control means for creating a movement or displacement of the fluid contained in the deformable chamber.
Advantageously, the heater is deformable. This embodiment avoids having a moveable heater, thus, the interface plate is simpler as the heating face is deformed by the increase of volume of the deformable chamber, without any movement of the body of the heater.
As an alternative, the heater is arranged in the cartridge. This embodiment allows a simplification of the instrument.
The invention is also related to an instrument for a system according to the first aspect of the invention, and comprising a heater having a heating face arranged to heat the liquid contained in the deformable chamber, characterized in that the heating face of the heater is moveable from a first position to at least a second position, different from the first position, to allow an increase of volume of said deformable chamber in order to compensate an increase of pressure in the deformable chamber during the heating of said liquid by said heater.
The invention is also related to a cartridge for a system according to the first aspect of the invention, and comprising a heater having a heating face arranged to heat the liquid contained in the deformable chamber, characterized in that the heating face of the heater is moveable from a first position to at least a second position, different from the first position, to allow an increase of volume of said deformable chamber in order to compensate an increase of pressure in the deformable chamber during the heating of said liquid by said heater.
The invention is also related to a process for heating a liquid contained in a deformable chamber of a cartridge for biological analysis, comprising the steps consisting of:
Other characteristics and advantages of the present invention will appear more clearly from the following detailed description of particular non-limitative examples of the invention, illustrated by the appended drawings where:
The system represented at
To perform an assay, the deformable chamber 24 is first at least partially filled with a liquid containing a biological sample on which analysis will be performed, such as DNA analysis, and then closed thanks to the inlet and outlet valves. Depending on the analysis, it may be required to heat said liquid prior and or during the analysis. To this end, a moveable heater 15 is provided in a recess 18 or bore of the instrument 10 with an elastic element 11 such as a spring placed between the bottom of said recess 18 and the heater 15. The heater 15 may move vertically in the recess 18, with guiding means if necessary. The heater 15 has a heating face positioned and designed to be in contact with the elastic membrane 23 when the cartridge 20 is attached to the instrument 10 in view of an analysis. For example, the heating face of the heater 15 is parallel to the face of the instrument in contact with the cartridge so that the heating face will contact the cartridge as soon the latter is attached to the instrument. An alternative may be that the heater is arranged below the contact face of the instrument and is moved upwardly to contact the cartridge only when heating is necessary. The heater 15 is capable of heating the liquid contained in the deformable chamber 24. The elastic element 11 is designed so that the heater 15 will remain in contact with the deformable chamber. During the process to fill the deformable chamber 24 with the liquid, some air bubbles 28 may be brought into the deformable chamber 24, as shown.
Number | Date | Country | Kind |
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12175582.1 | Jul 2012 | EP | regional |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2013/063555 | 6/27/2013 | WO | 00 |