MOBILE HAND-HELD DEVICE WITH REUSABLE BIOSENSOR CARTRIDGE

Abstract

This invention relates to a handheld mobile device which can analyze and measure whole blood, serum, urine or analytes which contain target agents such as mycotoxin, aflatoxin or cholera etc. with a easy to use reusable cartridge consisting of a cartridge head and cartridge body. The cartridge comprises four syringes, one of which being detachable. A waste reservoir is integrated with the syringes.

Claims

1. A mobile hand-held device, comprising: a cartridge made up of click-fit coupled pieces, including, a cartridge head and cartridge syringes, wherein a biosensor chip is integrated to the cartridge head for measuring an electrical signal generated by a reaction, the cartridge head has microfluidic channels for fluid and sample transportation to the biosensor chip, the cartridge syringes are made up of four syringes including a single detachable and pre-mounted syringe for sample insertion, an RFID tag, is placed on the cartridge, wherein all information related to the cartridge and a protocol required to run a suitable analysis procedure for a desired measurement is stored on the RFID tag; a swinging hinge cartridge slot for housing a coupled two piece click-fit cartridge, a potentiostat circuit to process and convert signals from the biosensor to a suitable format to be handled by a main processing unit, an RFID reader unit to read the information of the cartridge and the protocol wirelessly from the cartridge, the main processing unit for processing data from the RFID, the potentiostat circuit and a capacitive touch display, the capacitive touch display for enabling a user to control the mobile hand-held device and to view results, a battery to power the mobile hand-held device; and a waste reservoir, within which waste fluidics are deposited, the waste reservoir is connected to an outlet channel through a waste deposit opening on the cartridge head such that the waste reservoir is integrated with the cartridge syringes.

2. (canceled)

3. The mobile hand-held device according to claim 1, wherein the single detachable and pre-mounted syringe is configured to be filled by a user with a sample fluid to be analyzed.

4. The mobile hand-held device according to claim 1, wherein the microfluidic channels connect the cartridge syringes to a flow cell and the flow cell to the waste deposit.

5. The mobile hand-held device according to claim 1, wherein the biosensor is integrated to the cartridge head under the flow cell, and have a surface with electrodes facing directly into the flow cell.

6. The mobile hand-held device according to claim 1, wherein the RFID tag is attached under the cartridge for cartridge and protocol recognition.

7. The mobile hand-held device according to claim 1, wherein the cartridge is configured to be placed into the mobile hand-held device by sliding the cartridge down the swinging cartridge slot.

8. The mobile hand-held device according to claim 1, wherein the cartridge is locked to the mobile hand-held device by applying a slight downward force and the slot being locked by a mechanical mechanism.

9. The mobile hand-held device according to claim 1, wherein the fluidics in the cartridge syringes are pumped by means of pistons actuated by electrical stepper motors.

10. The mobile hand-held device according to claim 1, wherein the RFID reader unit is disposed under the cartridge slot.

11. The mobile hand-held device according to claim 10, wherein the RFID reader is connected to the main processing unit for data reading and processing.

12. The mobile hand-held device according to claim 1, wherein the potentiostat is connected to the biosensor.

13. (canceled)

14. The mobile hand-held device according to claim 9, wherein the pistons and the electrical motors are integrated together under the cartridge slot.

15. The mobile hand-held device according to claim 1, wherein the capacitive touch display is used to control and view results from the mobile hand-held device.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0011] The invention is explained in greater detail in the following referred diagram and figures:

[0012] FIG. 1 is a perspective view of the apparatus from above.

[0013] FIG. 2 is an exploded perspective view of the cartridge, taken from above.

[0014] FIG. 3 is an exploded perspective view of the syringe pump mechanism, taken from above.

[0015] FIG. 4 is a perspective view of the cartridge head from above.

[0016] FIG. 5 is a top view of the cartridge head.

[0017] Features of the embodiments identified by reference numerals in the drawings: [0018] 1. Cartridge head [0019] 2. Cartridge body [0020] 3. User detachable syringe [0021] 4. Metal piston [0022] 5. Cartridge slot [0023] 6. Cartridge lid [0024] 7. Capacitive touch screen [0025] 8. Electric motor [0026] 9,10. USB ports [0027] 11. Ethernet port [0028] 12. Power socket [0029] 13. Piston head [0030] 14. Syringe sealing ring [0031] 15. Sensor slot of the biosensor chip [0032] 16. Biosensor chip [0033] 17, 17a. Two-sided adhesive sticker [0034] 18. Cover of the biosensor chip [0035] 19. Metal rods [0036] 20, 20a. Microswitch [0037] 21. Microfluidic channels [0038] 22. Inlet channel [0039] 23. Outlet channel [0040] 24. Waste deposit opening [0041] 25. Syringe head slot [0042] 26. Waste reservoir [0043] 27, 27a. Motor bracket [0044] 28. Bottom chassis [0045] 29. Inlet opening [0046] 30. Outlet opening

DETAILED DESCRIPTION OF THE EMBODIMENTS

[0047] The electrochemical detection apparatus shown in the figures, which includes a set up comprised of an apparatus housing a cartridge, electrical and mechanical syringe pump system, electrochemical biosensor attached to the cartridge, a cartridge comprised of a cartridge body, housing syringes and a fluidic waste deposit, and a cartridge head housing microfluidic channels and a biosensor mount.

[0048] FIG. 1 is an overall schematic view of the electrochemical hand held device. A cartridge comprised of two elements; cartridge head(1) and cartridge body(2). There is a user detachable syringe(3) for sample placement. The cartridge is placed to its slot(5) by the user. The cartridge lid(6) is then closed. The protocol is started by the user from the capacitive touchscreen(7). A metal piston(4) injects the appropriate fluid with the help of an electric motor(FIG. 3-8). If required the results can be transferred to a PC by the user by means of a USB or network cable using the appropriate ports(9,10,11). The device also can be integrated to a lab or hospital system if requested by the customer with the help of the Ethernet port(11). If desired the apparatus can be powered on by an external adapter by inserting the power cable into the power socket(12).

[0049] FIG. 2 shows parts of the cartridge. The cartridge is made up of two main pieces; the main cartridge body(2) and cartridge head(1). (3) is the user fillable syringe with the piston head(13). The syringe sealing ring(14) is used between the cartridge head(1) and cartridge main body(2) to prevent any fluidic leak. (15) is the sensor slot of the biosensor chip(16). (17) is an adhesive stick used to bond the biosensor chip(16) and its cover(18). The waste reservoir(26) integrated into the midst of the cartridge body(2) housing syringes in such a way that there are two syringes on the left and right side of the waste reservoir is connected to the outlet channel(FIG. 5-23), from which all consumables and waste fluidics leave the biosensor chip(FIG. 5-16), through the waste deposit opening(FIG. 5-24) on the cartridge head(1).

[0050] FIG. 3 is a perspective view from above showing the details of the electro-mechanical piston system. It is configured as a reverse pull-push system. The electrical motor(8) pulls the piece acting as a piston(4). The action of the piston is guided by two metal rods(19) to ensure rigidness of the motion. The pull or push motion is controlled by means of two micro switches(20, 20a). The motors are installed on the motor bracket(27a) and then it is placed on the bottom chassis(28) to install it into the apparatus.

[0051] FIG. 4 is a detailed perspective view from above of the cartridge head. (1) is the cartridge head. Two-sided adhesive sticker(17a) with elliptic opening in the midst of which not only servesto bond the biochip(16) to the cartridge head(1), but also to form the thin flow cell as a result of the spacing between the cartridge head(1) and the biochip(16).

[0052] FIG. 5 is a detailed top view of the cartridge head(1) and the biochip(16). The microfluidic channels(21) are clearly seen in the transparent drawing of the cartridge head(1). Two openings of the cartridge head(1) connected to the inlet channel(22) and outlet channel(23) respectively constitutes the inlet opening(29) and outlet opening(30) of the flow cell, allowing fluid transportation. The fluidics enter the flow cell from the inlet channel(22) and leave the flow cell from the outlet channel(23) through the waste deposit opening(24). The syringe head slot(25) on the cartridge head(1) allows for tight mounting of the syringes.