Flow regulator valve to optimize stent deployment and method of using the same
First Claim
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1. A flow regulator for regulating flow of an inflation fluid to a balloon catheter, comprising:
- a housing having a distal end for connection with the balloon catheter, a proximal end with a proximal flow orifice for connection with an inflation device and formed with a control chamber of a predetermined transverse cross-section and configured at the distal end with a distal flow orifice; and
a restrictor in the control chamber operable in response to fluid flow in a first flow direction in the control chamber toward the distal flow orifice to cooperate with the distal flow orifice to form a first flow area for flow therethrough at a first flow rate and operative in response to fluid flow in the opposite direction in the chamber to move away from the distal flow orifice to cooperate in forming a second flow area larger than the first flow area for fluid flow in the direction opposite the first flow direction at a second flow rate greater than the first flow rate.
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Abstract
An apparatus for regulating flow of an inflation fluid to a stent delivery balloon. A valve, which is situated in the flow path of the inflation lumen, regulates the flow of liquid used to inflate and deflate the balloon. The valve performs to restrict flow and to respond to pressure applied to assure a desired inflation rate when fluid is flowing toward the delivery balloon. On deflation, when fluid is flowing away from the delivery balloon, the valve is designed to offer little or no resistance, allowing the balloon to be deflated quickly.
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Citations
21 Claims
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1. A flow regulator for regulating flow of an inflation fluid to a balloon catheter, comprising:
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a housing having a distal end for connection with the balloon catheter, a proximal end with a proximal flow orifice for connection with an inflation device and formed with a control chamber of a predetermined transverse cross-section and configured at the distal end with a distal flow orifice; and
a restrictor in the control chamber operable in response to fluid flow in a first flow direction in the control chamber toward the distal flow orifice to cooperate with the distal flow orifice to form a first flow area for flow therethrough at a first flow rate and operative in response to fluid flow in the opposite direction in the chamber to move away from the distal flow orifice to cooperate in forming a second flow area larger than the first flow area for fluid flow in the direction opposite the first flow direction at a second flow rate greater than the first flow rate. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
the housing is formed with a distal orifice having a transverse cross-section less than the predetermined cross-section.
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3. The flow regulator of claim 1, wherein:
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the restrictor is in the form of a poppet; and
the housing includes a stop located with the control chamber to be engaged by the poppet to limit travel within the control chamber.
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4. The flow regulator of claim 3, wherein:
the poppet is round and is compressible to be, when engaged with the distal stop, compressed upon application of a selected high pressure by the inflation fluid in the chamber to reduce the flow area between the poppet and the distal orifice.
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5. The flow regulator of claim 3, wherein:
the poppet is perforated so as to allow at least some amount of inflation fluid to flow therethrough.
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6. The flow regulator of claim 3, wherein:
the housing includes an annular array of fins located at the distal end configured to define the distal stop.
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7. The flow regulator of claim 3, wherein:
the housing includes an annular array of fins located at the proximal end is configured to retain the poppet in the chamber.
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8. The flow regulator of claim 3, wherein:
the housing includes an annular array of fins located at both the proximal and the distal ends to retain the poppet in the control chamber.
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9. The flow regulator of claim 5, wherein:
the fins are formed with radially inner guide edges that angle distally and radially inwardly to direct the poppet radially inwardly as it is moved in the first flow direction.
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10. The flow regulator of claim 5, wherein:
the fins extend radially and are spaced annularly apart form each other.
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11. The flow regulator of claim 1, wherein:
the balloon catheter is a stent delivery catheter.
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12. A flow regulator for regulating flow of an inflation fluid to a balloon catheter, comprising:
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a housing formed integral with a balloon delivery catheter, wherein the housing comprises;
a distal end in fluid communication with the expansion member;
a proximal end having a proximal orifice for connection with an inflation device;
a control chamber configured within the housing with a distal orifice; and
a restrictor in the chamber operable in response to fluid flow in a first direction in the chamber toward the distal orifice to cooperate with the distal orifice to form a first flow area for flow therethrough at a first flow rate and operative in response to fluid flow in the opposite direction in the chamber to move away from the orifice to cooperate in forming a second flow area larger than the first flow area for flow in the direction opposite the first direction at a second flow rate greater than the first flow rate. - View Dependent Claims (13)
the body is formed with the flow chamber having a cross-sectional flow area larger than that of the orifice; and
the restrictor includes a poppet carried floatably in the chamber and shiftable from a flow restricting position relative to the orifice to a free flow position in the chamber.
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14. A flow regulator for regulating flow of an inflation fluid to a balloon catheter, comprising:
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a housing having a distal end with a distal flow orifice in fluid communication with the balloon catheter, a proximal end with a proximal flow orifice in fluid communication with inflation means, wherein the housing has a control chamber; and
a restrictor in the control chamber which is operable in response to fluid flow in a first flow direction towards the distal flow orifice to cooperate with the distal flow orifice to form a first flow area for flow theretrough at a first flow rate and operative in response to fluid flow in a direction towards the proximal flow orifice to cooperate in forming a second flow area larger than the first flow area for fluid flow in a direction towards the proximal orifice at a second flow rate which is greater than the first flow rate. - View Dependent Claims (15, 16, 17)
the restrictor is in the form of a poppet; and
the housing includes a stop located within the control chamber to be engaged by the poppet to limit travel within in the control chamber.
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16. The flow regulator of claim 14, wherein:
the inflation means is a hand held inflation device and the flow regulator is build into the inflation device.
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17. The flow regulator of claim 14, wherein:
the flow regulator is built into a proximal hub which forms part of the balloon catheter.
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18. A method of implanting an expandable intra-luminal stent including;
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delivering the stent by an inflatable delivery balloon to a selected site in a lumen of a patient;
connecting the balloon to an inflation system including a flow control valve of the type limiting flow of a selected inflation fluid in one direction toward the balloon to a selected flow rate and operable to flow the fluid in the opposite direction at a greater flow rate;
flowing the fluid at the selected flow rate through the valve to the balloon to expand the stent at a selected rate; and
flowing the fluid in an opposite direction at a greater flow rate to deflate the balloon. - View Dependent Claims (19, 20, 21)
while flowing the fluid in the one direction, reducing the flow rate in response to increased fluid pressure.
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20. The method of claim 19, further including;
while flowing the fluid in one direction, shifting a poppet.
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21. The method of claim 19, further including;
flowing the fluid through a perforated poppet.
Specification