Title of Invention	A BLOOD TRANSFUSION SYSTEM
Abstract	A blood transfusion system having disposable valve circuit, for transfusion of pre determined quantity of blood to a patient, said system comprising a Y-shaped connector consisting of three arms 7, (16 a) and (16 b) and a junction (9), wherein the said arm (7) connects to the patient at its one end and to the said junction (9) at its other end, the said arm (16 a) connects to the said junction (9) at its one end and to a waste-blood suction syringe (10) of variable capacity at its other end through a one way disposable valve (11), an outlet is being provided in the said arm (16 a) between the said disposable valve (11) and the said waste-blood suction syringe(lO) for dispensing the waste blood, the said arm (16b) connects to the said junction (9) at its one end and to a fresh-blood supplying syringe (13) of variable capacity at its other end through a one way disposable valve (14), a fresh-blood supplying means is being connected in the said arm (16 b) between the said disposable valve (14) and the said fresh- blood supplying syringe(13) through a disposable valve (15) , and syringes (10 and 13) are connected to slider for operating them synchronously either manually or using a driving mechanism.

Title of Invention

A BLOOD TRANSFUSION SYSTEM

Abstract

A blood transfusion system having disposable valve circuit, for transfusion of pre determined quantity of blood to a patient, said system comprising a Y-shaped connector consisting of three arms 7, (16 a) and (16 b) and a junction (9), wherein the said arm (7) connects to the patient at its one end and to the said junction (9) at its other end, the said arm (16 a) connects to the said junction (9) at its one end and to a waste-blood suction syringe (10) of variable capacity at its other end through a one way disposable valve (11), an outlet is being provided in the said arm (16 a) between the said disposable valve (11) and the said waste-blood suction syringe(lO) for dispensing the waste blood, the said arm (16b) connects to the said junction (9) at its one end and to a fresh-blood supplying syringe (13) of variable capacity at its other end through a one way disposable valve (14), a fresh-blood supplying means is being connected in the said arm (16 b) between the said disposable valve (14) and the said fresh- blood supplying syringe(13) through a disposable valve (15) , and syringes (10 and 13) are connected to slider for operating them synchronously either manually or using a driving mechanism.

Full Text	A BLOOD TRANSFUSION SYSTEM Field of the Invention: The present invention provides a blood transfusion system having valve circuit for transfusion of blood to a patient. Background and Prior Art of the Invention: Blood transfusion is used to exchange the infected blood with fresh blood of Neonates who are suffering from jaundice, have some other blood related diseases and for babies whose mothers have O (Rh negative) blood group. The blood transfusion requires continuous repetitive cycles of suction of about 5 to 20 ml of infected blood along with simultaneous infusion of same quantity of fresh blood. The blood transfusions are done through the disposable valve and syringes arrangement. The instrument based on this process i.e Blood Transfusion controller will have several advantages like accuracy and precision in blood transfusion at predetermined rate and initiation of various alarms so as to attract the attention of operator in case of malfunctioning. Brief Description of the Accompanying Drawings: In the drawings accompanying this specification Figure 1 represents the system the various components used in a prior art and its working. Figure 2 represents the blood transfusion system of the present invention and its working. Reference may be made to the present system of blood transfusion in Neonates which requires an expert nurse or doctor to sit continuously for 5-6 hours at the bedside while keeping record of the number of times blood taken out and infused. The prior art requirements are shown in fig. 1 of the drawings attached with this specification. The whole process requires 4 syringe strokes. The circuit uses two 3-way stop-corks (1) and (2) and one syringe (3) and two Intra Venus (I.V.) sets (4) and (5). In the first stroke, infected blood is sucked out by syringe (3) during its outward stroke through a special tube (6) fitted to the umbilical vein of the patient. Stop-cork (1) is rotated manually in such a way that during inward stroke of syringe (3), infected blood goes to the waste bottle through IV set (4). Now, stop-cork (2) is rotated manually in such a way that fresh blood is sucked from the bottle by syringe (3) outward stroke. Then both the stop-cork (1) and (2) are rotated manually such that inward stroke of a syringe (3) infuses the fresh blood to baby through the same tube. As this process requires 5 times rotation of 3-way stop-corks & 4 strokes of syringe for one cycle of infusion and withdrawal, it requires the alertness of the doctor all through the process. Moreover, required proper infusion rate cannot be maintained because of human factor involved, thus promoting the chances of blood cell breakage. It is a very cumbersome process and requires maintaining a proper record of infusion and withdrawal cycles alongwith quantity. Moreover, as the speed of suction and infusion of fresh blood varies because of the manual operation, the chances of breakage of blood cells are more. Thus there is a need to improve the present blood transfusion system. Objects of the Present Invention: The main object of the present invention is to provide a blood transfusion system with valve circuit which obviates the drawbacks as detailed above. Another object of the present invention is to provide an automatic blood transfusion system wherein lesser number of syringe strokes is required. Still another object of the present invention is to provide an automatic blood transfusion system which will result in minimum involvement of doctor, and that only for checking the functioning of instrument from time to time which obviates the drawback as detailed above. Yet another object of the present invention is to provide an automatic transfusion system which can infuse blood at required fixed speed thus eliminating chances of breakage of blood cell which obviates the drawback as detailed above. One more object of the present invention is to provide an automatic transfusion system which can have provision to record, give alarms and display the blood quantity interchanged. Accordingly, the present invention provides a blood transfusion system having disposable valve circuit, for transfusion of pre determined quantity of blood to a patient, said system comprising a Y-shaped connector consisting of three arms 7, (16 a) and (16 b) and a junction (9), wherein the said arm (7) connects to the patient at its one end and to the said junction (9) at its other end, the said arm (16 a) connects to the said junction (9) at its one end and to a waste-blood suction syringe (10) of variable capacity at its other end through a one way disposable valve (11), an outlet is being provided in the said arm (16 a) between the said disposable valve (11) and the said waste-blood suction syringe(lO) for dispensing the waste blood, the said arm (16b) connects to the said junction (9) at its one end and to a fresh-blood supplying syringe (13) of variable capacity at its other end through a one way disposable valve (14), a fresh-blood supplying means such as herein described, is being connected in the said arm (16 b) between the said disposable valve (14) and the said fresh- blood supplying syringe(13) through a disposable valve (15) , and syringes (10 and 13) are connected to slider for operating them synchronously either manually or using a driving mechanism. In an embodiment of the present invention, the arm 7 is connected to umbilical vein of the patient who is a baby. In another embodiment of the present invention, the valves 11,14 and 15 are disposable valves. In yet another embodiment of the present invention, the valves 11, 14 and 15 are one way valves. In still another embodiment of the present invention, the waste blood sucked out of the patient is collected in a waste-blood collecting means which is linked to the outlet provided on arm 16 (a). In a further embodiment of the present invention, the waste blood collecting means is linked to the outlet through a one-way disposable valve (12). In one more embodiment of the present invention, the one-way disposable valve 12 is connected to the waste-blood collecting means through intra-venus sets (4). In one another embodiment of the present invention, the valve 15 is connected to the fresh-blood supplying means through intra-venus set (5). In an embodiment of the present invention, the operation of the valves 11,12, 14 and 15 may be controlled manually or using a stepper motor. controlled manually or using a stepper motor. In another embodiment of the present invention, waste blood from the patient and fresh blood from the fresh-blood supplying means are sucked simultaneously. In yet another embodiment of the present invention, fresh blood to the patient and waste-blood to the waste-blood collecting means are pumped simultaneously. In still another embodiment of the present invention, when waste-blood is sucked from the patient valve 11 is open and valve 12 is closed and when waste blood is pumped to the waste-blood collecting means valve 12 is open and valve 11 is closed. In a further embodiment of the present invention, wherein when fresh-blood is sucked from fresh-blood supplying means valve 15 is open and valve 14 is closed and when fresh-blood is pumped to the patient valve 14 is open and valve 15 is closed. In one more embodiment of the present invention, valves 12 and 14 are operated synchronously. In one another embodiment of the present invention, valves 11 and 15 are operated synchronously. In an embodiment of the present invention, the syringes may be operated manually or using a syringe driving mechanism. In another .embodiment of the present invention, said syringe driving mechanism comprises of a slider (8) connected to a motor (17) through a means for converting the rotational motion of the motor into linear motion (18). In yet another embodiment of the present invention, the syringes 10 and 13 may have same capacity or variable capacity. In still another embodiment of the present invention, the syringes may be replaced to vary the capacity of the blood exchanged in one stroke. In a further embodiment of the present invention the valve used may be disposable and may be up of Polycarbonate and silicon rubber, which are compatible with medical fluids. In one more embodiment of the present invention the transfusion may take from umbilical vein through umbilical tube. In one another embodiment of the present invention the syringe used may be of capacity between 5-20 ml. In an embodiment of the present invention power supply used for driving the motors may be such as electric mains supply, storage battery, rechargeable battery. An embodiment of the device of the present invention is shown in fig. 2 of the drawings accompanying this specification. The device of the present invention is shown in fig. 2 of the drawings accompanying this specification. The schematic diagram can be divided into three major parts. They are: (i) Disposable Valve circuit (ii) Syringe fixing arrangement (iii) Syringe driving mechanism 1. Disposable Valve circuit : The circuit constitutes four one-way valves, one umbilical tube, three Y-connectors, two syringes and compatible tubings for various interconnections. The one-way valve are of disposable type and are made for use with medical fluids. These material of construction is Silicon rubber and Polycarbonate. There is no generation of static charge and these can be autoclaved. All tubing consists of standard available I.V. set tubing and makes leak proof joints. It is a low cost system and is easily affordable. 2. Syringe fixing arrangement : Syringes of capacity between 5-25 ml are required to be fixed. Clamping arrangement requires only loosening and tightening of screw after placing syringes in a V-groove. 3. Syringe driving mechanism : It constitutes of motor, slider and driving mechanism. The syringes are clamped with their piston ends in movable slider fixed on a rack. Driving mechanism consists of rack and pinion arrangement. The operation of the device of present invention is as follows: Any adult or Pediatric I.V. set available in the market can be used. Tube for connecting with umbilical vein is also available. Insert syringes in the rack with their piston ends in slider (8). Connect all disposable valves, tubings with syringes as per circuit shown in the figure (2) of the drawings accompanying the specifications. Put the fresh blood container at the open end of umbilical tube and at open end of the I.V. set (5). Switch ON the main switch. The motor will start and the syringes will move towards top dead centre. One way valves 11 and 15 gets opened and whole system gets filled with fresh blood. During return stroke, valves 12 and 14 get opened. In this way all the air bubbles gets eliminated. Then stop the device when both the syringes are at their bottom dead centre. Connect the umbilical vein of the Patient with tube (7). And switch ON the mains. The transfusion cycle starts. The broad specifications of an embodiment of the device of the present invention may be characterised as follows: SPECIFICATIONS Quantity exchanged in one stroke: 5- 20 ml Flow speed: Variable Mains Power 220V AC, 50 Hz. System - Fluid conveyance through readily available tubes and syringes and one way valves driven by a stepper motor. The following examples are given by way of illustration and therefore should not be construed to limit the scope of the present invention. Example - 1 Flow rate = 20 ml/min. The green liquid was filled exactly 200 ml in the bottle (say patient) and red liquid was filled exactly 200ml in the bottle (fresh blood). The motor speed was set for 20 ml/min. The liquid was consumed in exactly 10 minutes. The main advantages of the present invention are : 1. Use of disposable valve circuit. 2. Valves and tubing can be autoclaved and can be used with medical fluids. 3. Cycle with lesser number of syringe strokes. 4. It provides the basis for development of an automatic blood transfusion device which will have minimum involvement of doctor, and that only for checking the functioning of instrument from time to time. 5. It provides the basis for development of an automatic blood transfusion device which can infuse blood at required fixed speed thus eliminating chances of breakage of blood cell. 6. It provides the basis for development of an automatic transfusion device based on the process developed which can record, give alarms and display the blood quantity interchanged. 7. Based on the system developed, an automatic blood transfusion device can be designed and fabricated. It can have several audio and visual alarms to make the system safe and failure proof to the extent possible. Various features which can be incorporated are: LCD display of amount of blood infused and withdrawn and total time elapsed during infusion, Selection of flow rate by switches, LCD display for flow rate and alarms, Alarms for: Bubble in the flow line, Flow rate high, Operation complete, Leakage in circuit, High Pressure required to infuse. Rechargeable Battery and its indicator should be provided. System should immediately halt if any of the above alarming conditions were observed. We Claim : 1. A blood transfusion system having disposable valve circuit, for transfusion of pre determined quantity of blood to a patient, said system comprising a Y-shaped connector consisting of three arms 7, (16 a) and (16 b) and a junction (9), wherein the said arm (7) connects to the patient at its one end and to the said junction (9) at its other end, the said arm (16 a) connects to the said junction (9) at its one end and to a waste-blood suction syringe (10) of variable capacity at its other end through a one way disposable valve (11), an outlet is being provided in the said arm (16 a) between the said disposable valve (11) and the said waste-blood suction syringe(lO) for dispensing the waste blood, the said arm (16b) connects to the said junction (9) at its one end and to a fresh-blood supplying syringe (13) of variable capacity at its other end through a one way disposable valve (14), a fresh-blood supplying means such as herein described, is being connected in the said arm (16 b) between the said disposable valve (14) and the said fresh- blood supplying syringe(13) through a disposable valve (15), and syringes (10 and 13) are connected to slider for operating them synchronously either manually or using a driving mechanism. 2. A blood transfusion system as claimed in claim 1, wherein the arm (7) connects to umbilical vein of the receiver. 3. A blood transfusion system as claimed in claim 1 , wherein the valves 11,14 and 15 are one way valves. 4. A system as claimed in claim 1 , wherein the valves used are made of Polycarbonate and silicon rubber, which are compatible with medical fluids. 5. A blood transfusion system as claimed in claim 1, wherein the said waste blood is collected in a waste-blood collecting means which is linked to the outlet provided on arm 16 (a). 6. A blood transfusion system as claimed in claim 5, wherein the waste blood collecting means is linked to the outlet through a one-way disposable valve (12). 7. A blood transfusion system as claimed in claim 6, wherein the one-way disposable valve (12) is connected to the waste-blood collecting means through intra-venus sets (4). 8. A blood transfusion system as claimed in claim 1, wherein the valve (15) is connected to the fresh-blood supplying means through intra-venus set (5). 9. A blood transfusion system as claimed in claim 1, wherein the operation of the valves 11,12, 14 and 15 may be controlled manually or using a stepper motor. 10. A blood transfusion system as claimed in claim 1, wherein fresh blood to the patient and waste-blood to the waste-blood collecting means are pumped simultaneously. 11. A blood transfusion system as claimed in claim 1, wherein when waste-blood is sucked from the patient valve 11 is open and valve 12 is closed and when waste blood is pumped to the waste-blood collecting means valve 12 is open and valve 11 is closed. 12. A blood transfusion system as claimed in claim 1, wherein when fresh-blood is sucked from fresh-blood supplying means valve 15 is open and valve 14 is closed and when fresh-blood is pumped to the patient valve 14 is open and valve 15 is closed. 13. A blood transfusion system as claimed in claim 1, wherein valves 12 and 14 are operated synchronously. 14. A blood transfusion system as claimed in claim 1, wherein valves 11 and 15 are operated synchronously. 15. A blood transfusion system as claimed in claim 1, wherein the syringes may be operated manually or using a syringe driving mechanism. 17. A blood transfusion system as claimed in claim 17, wherein said syringe driving mechanism comprises of a slider (8) connected to a motor (17), driven by a power supply, through a means for converting the rotational motion of the motor into linear motion (18). 18. A system as claimed in claim 17, wherein the power supply used for driving the motors may be such as electric mains supply, storage battery, rechargeable battery. 18. A blood transfusion system as claimed in claim 1, wherein the syringes 10 and 13 may have same capacity or variable capacity. 19. A blood transfusion system as claimed in claim 19 , wherein the syringe used may have capacity between 5-20 ml. 20. A blood transfusion system having disposable valve circuit, for transfusion of pre determined quantity of blood to a patient substantially as herein described particularly with reference to the examples and figure 2 of the drawings accompanying this specification.

Full Text

A BLOOD TRANSFUSION SYSTEM
Field of the Invention:
The present invention provides a blood transfusion system having valve circuit for
transfusion of blood to a patient.
Background and Prior Art of the Invention:
Blood transfusion is used to exchange the infected blood with fresh blood of Neonates
who are suffering from jaundice, have some other blood related diseases and for
babies whose mothers have O (Rh negative) blood group. The blood transfusion
requires continuous repetitive cycles of suction of about 5 to 20 ml of infected blood
along with simultaneous infusion of same quantity of fresh blood. The blood
transfusions are done through the disposable valve and syringes arrangement. The
instrument based on this process i.e Blood Transfusion controller will have several
advantages like accuracy and precision in blood transfusion at predetermined rate
and initiation of various alarms so as to attract the attention of operator in case of
malfunctioning.
Brief Description of the Accompanying Drawings:
In the drawings accompanying this specification
Figure 1 represents the system the various components used in a prior art and its
working.
Figure 2 represents the blood transfusion system of the present invention and its
working.
Reference may be made to the present system of blood transfusion in Neonates which
requires an expert nurse or doctor to sit continuously for 5-6 hours at the bedside
while keeping record of the number of times blood taken out and infused. The prior
art requirements are shown in fig. 1 of the drawings attached with this specification.
The whole process requires 4 syringe strokes. The circuit uses two 3-way stop-corks
(1) and (2) and one syringe (3) and two Intra Venus (I.V.) sets (4) and (5). In the first
stroke, infected blood is sucked out by syringe (3) during its outward stroke through a
special tube (6) fitted to the umbilical vein of the patient. Stop-cork (1) is rotated
manually in such a way that during inward stroke of syringe (3), infected blood goes
to the waste bottle through IV set (4). Now, stop-cork (2) is rotated manually in such a
way that fresh blood is sucked from the bottle by syringe (3) outward stroke. Then both the stop-cork (1) and (2) are rotated manually such that inward stroke of a syringe (3) infuses the fresh blood to baby through the same tube. As this process requires 5 times rotation of 3-way stop-corks & 4 strokes of syringe for one cycle of infusion and withdrawal, it requires the alertness of the doctor all through the process. Moreover, required proper infusion rate cannot be maintained because of human factor involved, thus promoting the chances of blood cell breakage. It is a very cumbersome process and requires maintaining a proper record of infusion and withdrawal cycles alongwith quantity. Moreover, as the speed of suction and infusion of fresh blood varies because of the manual operation, the chances of breakage of blood cells are more. Thus there is a need to improve the present blood transfusion system.
Objects of the Present Invention: The main object of the present invention is to provide a blood transfusion system with valve circuit which obviates the drawbacks as detailed above.
Another object of the present invention is to provide an automatic blood transfusion system wherein lesser number of syringe strokes is required.
Still another object of the present invention is to provide an automatic blood transfusion system which will result in minimum involvement of doctor, and that only for checking the functioning of instrument from time to time which obviates the drawback as detailed above.
Yet another object of the present invention is to provide an automatic transfusion system which can infuse blood at required fixed speed thus eliminating chances of breakage of blood cell which obviates the drawback as detailed above.
One more object of the present invention is to provide an automatic transfusion system which can have provision to record, give alarms and display the blood quantity interchanged.
Accordingly, the present invention provides a blood transfusion system having disposable valve circuit, for transfusion of pre determined quantity of blood to a patient, said system comprising a Y-shaped connector consisting of three arms 7, (16 a) and (16 b) and a junction (9), wherein the said arm (7) connects to the patient at its one end and to the said junction (9) at its other end, the said arm (16 a) connects to the said junction (9) at its one end and to a waste-blood suction syringe (10) of variable capacity at its other end through a one way

disposable valve (11), an outlet is being provided in the said arm (16 a) between the said disposable valve (11) and the said waste-blood suction syringe(lO) for dispensing the waste blood, the said arm (16b) connects to the said junction (9) at its one end and to a fresh-blood supplying syringe (13) of variable capacity at its other end through a one way disposable valve (14), a fresh-blood supplying means such as herein described, is being connected in the said arm (16 b) between the said disposable valve (14) and the said fresh- blood supplying syringe(13) through a disposable valve (15) , and syringes (10 and 13) are connected to slider for operating them synchronously either manually or using a driving mechanism.
In an embodiment of the present invention, the arm 7 is connected to umbilical vein of the patient who is a baby.
In another embodiment of the present invention, the valves 11,14 and 15 are disposable valves.
In yet another embodiment of the present invention, the valves 11, 14 and 15 are one way valves.
In still another embodiment of the present invention, the waste blood sucked out of the patient is collected in a waste-blood collecting means which is linked to the outlet provided on arm 16 (a).
In a further embodiment of the present invention, the waste blood collecting means is linked to the outlet through a one-way disposable valve (12).
In one more embodiment of the present invention, the one-way disposable valve 12 is connected to the waste-blood collecting means through intra-venus sets (4).
In one another embodiment of the present invention, the valve 15 is connected to the fresh-blood supplying means through intra-venus set (5).
In an embodiment of the present invention, the operation of the valves 11,12, 14 and 15 may be controlled manually or using a stepper motor.
controlled manually or using a stepper motor.
In another embodiment of the present invention, waste blood from the patient and
fresh blood from the fresh-blood supplying means are sucked simultaneously.
In yet another embodiment of the present invention, fresh blood to the patient and
waste-blood to the waste-blood collecting means are pumped simultaneously.
In still another embodiment of the present invention, when waste-blood is sucked
from the patient valve 11 is open and valve 12 is closed and when waste blood is
pumped to the waste-blood collecting means valve 12 is open and valve 11 is closed.
In a further embodiment of the present invention, wherein when fresh-blood is sucked
from fresh-blood supplying means valve 15 is open and valve 14 is closed and when
fresh-blood is pumped to the patient valve 14 is open and valve 15 is closed.
In one more embodiment of the present invention, valves 12 and 14 are operated
synchronously.
In one another embodiment of the present invention, valves 11 and 15 are operated
synchronously.
In an embodiment of the present invention, the syringes may be operated manually or
using a syringe driving mechanism.
In another .embodiment of the present invention, said syringe driving mechanism
comprises of a slider (8) connected to a motor (17) through a means for converting the
rotational motion of the motor into linear motion (18).
In yet another embodiment of the present invention, the syringes 10 and 13 may have
same capacity or variable capacity.
In still another embodiment of the present invention, the syringes may be replaced to
vary the capacity of the blood exchanged in one stroke.
In a further embodiment of the present invention the valve used may be disposable
and may be up of Polycarbonate and silicon rubber, which are compatible with
medical fluids.
In one more embodiment of the present invention the transfusion may take from
umbilical vein through umbilical tube.
In one another embodiment of the present invention the syringe used may be of
capacity between 5-20 ml.
In an embodiment of the present invention power supply used for driving the motors
may be such as electric mains supply, storage battery, rechargeable battery.
An embodiment of the device of the present invention is shown in fig. 2 of the
drawings accompanying this specification.
The device of the present invention is shown in fig. 2 of the drawings
accompanying this specification. The schematic diagram can be divided into three
major parts. They are:
(i) Disposable Valve circuit
(ii) Syringe fixing arrangement
(iii) Syringe driving mechanism
1. Disposable Valve circuit : The circuit constitutes four one-way valves, one
umbilical tube, three Y-connectors, two syringes and compatible tubings for
various interconnections. The one-way valve are of disposable type and are made
for use with medical fluids. These material of construction is Silicon rubber and
Polycarbonate. There is no generation of static charge and these can be
autoclaved. All tubing consists of standard available I.V. set tubing and makes
leak proof joints. It is a low cost system and is easily affordable.
2. Syringe fixing arrangement : Syringes of capacity between 5-25 ml are required
to be fixed. Clamping arrangement requires only loosening and tightening of
screw after placing syringes in a V-groove.
3. Syringe driving mechanism : It constitutes of motor, slider and driving
mechanism. The syringes are clamped with their piston ends in movable slider
fixed on a rack. Driving mechanism consists of rack and pinion arrangement.
The operation of the device of present invention is as follows:
Any adult or Pediatric I.V. set available in the market can be used. Tube for
connecting with umbilical vein is also available. Insert syringes in the rack with their
piston ends in slider (8). Connect all disposable valves, tubings with syringes as per
circuit shown in the figure (2) of the drawings accompanying the specifications. Put
the fresh blood container at the open end of umbilical tube and at open end of the I.V.
set (5). Switch ON the main switch. The motor will start and the syringes will move
towards top dead centre. One way valves 11 and 15 gets opened and whole system
gets filled with fresh blood. During return stroke, valves 12 and 14 get opened. In this
way all the air bubbles gets eliminated. Then stop the device when both the syringes
are at their bottom dead centre. Connect the umbilical vein of the Patient with tube
(7). And switch ON the mains. The transfusion cycle starts.
The broad specifications of an embodiment of the device of the present invention may
be characterised as follows:
SPECIFICATIONS
Quantity exchanged in one stroke: 5- 20 ml
Flow speed: Variable
Mains Power 220V AC, 50 Hz.
System - Fluid conveyance through readily available tubes and syringes and
one way valves driven by a stepper motor.
The following examples are given by way of illustration and therefore should not
be construed to limit the scope of the present invention.
Example - 1
Flow rate = 20 ml/min. The green liquid was filled exactly 200 ml in the bottle (say
patient) and red liquid was filled exactly 200ml in the bottle (fresh blood). The motor
speed was set for 20 ml/min. The liquid was consumed in exactly 10 minutes.
The main advantages of the present invention are :
1. Use of disposable valve circuit.
2. Valves and tubing can be autoclaved and can be used with medical fluids.
3. Cycle with lesser number of syringe strokes.
4. It provides the basis for development of an automatic blood transfusion device
which will have minimum involvement of doctor, and that only for checking the
functioning of instrument from time to time.
5. It provides the basis for development of an automatic blood transfusion device
which can infuse blood at required fixed speed thus eliminating chances of
breakage of blood cell.
6. It provides the basis for development of an automatic transfusion device based on
the process developed which can record, give alarms and display the blood
quantity interchanged.
7. Based on the system developed, an automatic blood transfusion device can be
designed and fabricated. It can have several audio and visual alarms to make the
system safe and failure proof to the extent possible. Various features which can be
incorporated are: LCD display of amount of blood infused and withdrawn and
total time elapsed during infusion, Selection of flow rate by switches, LCD
display for flow rate and alarms, Alarms for: Bubble in the flow line, Flow rate
high, Operation complete, Leakage in circuit, High Pressure required to infuse.
Rechargeable Battery and its indicator should be provided. System should
immediately halt if any of the above alarming conditions were observed.

We Claim :
1. A blood transfusion system having disposable valve circuit, for transfusion of pre determined quantity of blood to a patient, said system comprising a Y-shaped connector consisting of three arms 7, (16 a) and (16 b) and a junction (9), wherein the said arm (7) connects to the patient at its one end and to the said junction (9) at its other end, the said arm (16 a) connects to the said junction (9) at its one end and to a waste-blood suction syringe (10) of variable capacity at its other end through a one way disposable valve (11), an outlet is being provided in the said arm (16 a) between the said disposable valve (11) and the said waste-blood suction syringe(lO) for dispensing the waste blood, the said arm (16b) connects to the said junction (9) at its one end and to a fresh-blood supplying syringe (13) of variable capacity at its other end through a one way disposable valve (14), a fresh-blood supplying means such as herein described, is being connected in the said arm (16 b) between the said disposable valve (14) and the said fresh- blood supplying syringe(13) through a disposable valve (15), and syringes (10 and 13) are connected to slider for operating them synchronously either manually or using a driving mechanism.
2. A blood transfusion system as claimed in claim 1, wherein the arm (7) connects to umbilical
vein of the receiver.
3. A blood transfusion system as claimed in claim 1 , wherein the valves 11,14 and 15 are one way valves.
4. A system as claimed in claim 1 , wherein the valves used are made of Polycarbonate and silicon rubber, which are compatible with medical fluids.
5. A blood transfusion system as claimed in claim 1, wherein the said waste blood is collected in a waste-blood collecting means which is linked to the outlet provided on arm 16 (a).
6. A blood transfusion system as claimed in claim 5, wherein the waste blood collecting means is linked to the outlet through a one-way disposable valve (12).

7. A blood transfusion system as claimed in claim 6, wherein the one-way disposable valve (12) is connected to the waste-blood collecting means through intra-venus sets (4).
8. A blood transfusion system as claimed in claim 1, wherein the valve (15) is connected to the fresh-blood supplying means through intra-venus set (5).
9. A blood transfusion system as claimed in claim 1, wherein the operation of the valves 11,12, 14 and 15 may be controlled manually or using a stepper motor.

10. A blood transfusion system as claimed in claim 1, wherein fresh blood to the patient and waste-blood to the waste-blood collecting means are pumped simultaneously.
11. A blood transfusion system as claimed in claim 1, wherein when waste-blood is sucked from the patient valve 11 is open and valve 12 is closed and when waste blood is pumped to the waste-blood collecting means valve 12 is open and valve 11 is closed.
12. A blood transfusion system as claimed in claim 1, wherein when fresh-blood is sucked from fresh-blood supplying means valve 15 is open and valve 14 is closed and when fresh-blood is pumped to the patient valve 14 is open and valve 15 is closed.
13. A blood transfusion system as claimed in claim 1, wherein valves 12 and 14 are operated synchronously.
14. A blood transfusion system as claimed in claim 1, wherein valves 11 and 15 are operated synchronously.
15. A blood transfusion system as claimed in claim 1, wherein the syringes may be operated manually or using a syringe driving mechanism.

17. A blood transfusion system as claimed in claim 17, wherein said syringe driving mechanism comprises of a slider (8) connected to a motor (17), driven by a power supply, through a means for converting the rotational motion of the motor into linear motion (18).
18. A system as claimed in claim 17, wherein the power supply used for driving the motors may be such as electric mains supply, storage battery, rechargeable battery.

18. A blood transfusion system as claimed in claim 1, wherein the syringes 10 and 13 may have same capacity or variable capacity.
19. A blood transfusion system as claimed in claim 19 , wherein the syringe used may have capacity between 5-20 ml.
20. A blood transfusion system having disposable valve circuit, for transfusion of pre
determined quantity of blood to a patient substantially as herein described particularly with
reference to the examples and figure 2 of the drawings accompanying this specification.

Documents:

2611-DELNP-2004-Abstract-(26-11-2008).pdf

2611-delnp-2004-abstract.pdf

2611-DELNP-2004-Claims-(06-01-2009).pdf

2611-DELNP-2004-Claims-(26-11-2008).pdf

2611-delnp-2004-claims.pdf

2611-delnp-2004-complete specification (granted).pdf

2611-DELNP-2004-Correspondence-Others-(26-11-2008).pdf

2611-delnp-2004-correspondence-others.pdf

2611-DELNP-2004-Description (Complete)-(26-11-2008).pdf

2611-delnp-2004-description (complete).pdf

2611-delnp-2004-drawings.pdf

2611-DELNP-2004-Form-1-(26-11-2008).pdf

2611-delnp-2004-form-1.pdf

2611-delnp-2004-form-18.pdf

2611-delnp-2004-form-2.pdf

2611-DELNP-2004-Form-3-(26-11-2008).pdf

2611-delnp-2004-form-3.pdf

2611-delnp-2004-form-5.pdf

2611-DELNP-2004-Petition-137-(26-11-2008).pdf

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Patent Number

232577

Indian Patent Application Number

2611/DELNP/2004

PG Journal Number

13/2009

Publication Date

27-Mar-2009

Grant Date

18-Mar-2009

Date of Filing

06-Sep-2004

Name of Patentee

COUNCIL OF SCIENTIFIC AND INDUSTRIAL RESEARCH

Applicant Address

RAFI MARG, NEW DELHI-110 001,INDIA

Inventors:

#	Inventor's Name	Inventor's Address
1	CHATTOPADHYAY KASHI DAS	CENTRAL SCIENTIFIC INSTRUMENTS ORGANISATION SECTOR 30-C CHANDIGARH
2	RAJ PIRTHI	CENTRAL SCIENTIFIC INSTRUMENTS ORGANISATION SECTOR 30-C CHANDIGARH
3	GUPTA JITENDER	CENTRAL SCIENTIFIC INSTRUMENTS ORGANISATION SECTOR 30-C CHANDIGARH
4	VERMA SANJEEV	CENTRAL SCIENTIFIC INSTRUMENTS ORGANISATION SECTOR 30-C CHANDIGARH

PCT International Classification Number

A61M 1/02

PCT International Application Number

PCT/IB02/01158

PCT International Filing date

2002-03-26

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1	10/104,166	2002-03-22	U.S.A.