Flow regulation valve for controlling inflation rate of a balloon deploying a scaffold
First Claim
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1. A flow regulator for regulating flow of an inflation fluid to a balloon catheter, comprising:
- a valve body enclosing a control chamber comprising a passageway for fluid flow, the valve body comprising a distal end and a proximal end, the distal end having a distal flow orifice for connection with the balloon catheter, the proximal end having a proximal flow orifice for connection with a catheter in fluid communication with an inflation device;
a slidable restrictor body positioned within the control chamber, the restrictor body comprising a distal end and an opening formed through the distal end to allow fluid flow distally or proximally through the restrictor body; and
a valve seat positioned distal to the restrictor body comprising a valve seat orifice which allows fluid to flow out of the distal flow orifice,wherein the slidable restrictor body is operable to slide distally from a starting position to a stopped position in response to fluid flow in the distal direction toward the valve seat during inflation of the balloon, wherein as the distal end of the restrictor body approaches the valve seat, the distal end of the restrictor body and the valve seat cooperate to increase restriction to fluid flow which controls pressurization rate of the balloon to within a specified range,wherein when the restrictor body slides distally from the starting position to the stopped position at which the distal end of the restrictor body contacts the valve seat, the distal end of the restrictor body blocks a first portion of the valve seat orifice and does not block a second portion of the valve seat orifice to allow fluid flow through the opening formed through the distal end of the restrictor body, into the second portion of the valve seat orifice, and out the distal flow orifice,wherein a second opening is formed through the distal end of the restrictor body, wherein when the restrictor body slides distally from the starting position to the stopped position at which the distal end of the restrictor body contacts the valve seat, the distal end of the restrictor body blocks the first portion of the valve seat orifice and does not block a third portion of the valve seat orifice to allow fluid flow through the second opening formed through the distal end of the restrictor body and into the third portion of the valve seat orifice, andwherein the opening and the second opening formed through the distal end of the restrictor body are equidistant from a center of the distal end of the restrictor body.
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Abstract
An apparatus and method for controlling inflation pressure, pressurization rate, and volumetric flow rate of a balloon during deployment of a stent or scaffold is disclosed.
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Citations
11 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 valve body enclosing a control chamber comprising a passageway for fluid flow, the valve body comprising a distal end and a proximal end, the distal end having a distal flow orifice for connection with the balloon catheter, the proximal end having a proximal flow orifice for connection with a catheter in fluid communication with an inflation device; a slidable restrictor body positioned within the control chamber, the restrictor body comprising a distal end and an opening formed through the distal end to allow fluid flow distally or proximally through the restrictor body; and a valve seat positioned distal to the restrictor body comprising a valve seat orifice which allows fluid to flow out of the distal flow orifice, wherein the slidable restrictor body is operable to slide distally from a starting position to a stopped position in response to fluid flow in the distal direction toward the valve seat during inflation of the balloon, wherein as the distal end of the restrictor body approaches the valve seat, the distal end of the restrictor body and the valve seat cooperate to increase restriction to fluid flow which controls pressurization rate of the balloon to within a specified range, wherein when the restrictor body slides distally from the starting position to the stopped position at which the distal end of the restrictor body contacts the valve seat, the distal end of the restrictor body blocks a first portion of the valve seat orifice and does not block a second portion of the valve seat orifice to allow fluid flow through the opening formed through the distal end of the restrictor body, into the second portion of the valve seat orifice, and out the distal flow orifice, wherein a second opening is formed through the distal end of the restrictor body, wherein when the restrictor body slides distally from the starting position to the stopped position at which the distal end of the restrictor body contacts the valve seat, the distal end of the restrictor body blocks the first portion of the valve seat orifice and does not block a third portion of the valve seat orifice to allow fluid flow through the second opening formed through the distal end of the restrictor body and into the third portion of the valve seat orifice, and wherein the opening and the second opening formed through the distal end of the restrictor body are equidistant from a center of the distal end of the restrictor body. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A flow regulator for regulating flow of an inflation fluid to a balloon catheter, comprising:
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a valve body enclosing a control chamber comprising a passageway for fluid flow; a distal end of the valve body with a distal flow orifice for connection with the balloon catheter, a proximal end of the valve body with a proximal flow orifice for connection with a catheter in fluid communication with an inflation device, a flexible restrictor membrane positioned within the control chamber comprising an opening which allows fluid to flow distally or proximally through the membrane; a valve seat positioned within the control chamber distal to the membrane comprising an opening for fluid to flow distally and proximally; wherein the membrane is operable to flex distally in response to fluid flow in the distal direction toward the valve seat during inflation of the balloon, wherein as the membrane flexes toward the valve seat restriction to fluid flow increases which controls pressurization rate of the balloon to within a specified range, wherein the valve seat comprises a plate fixed within a path of the fluid flow. - View Dependent Claims (8, 9, 10)
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11. A flow regulator for regulating flow of an inflation fluid to a balloon catheter, comprising:
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a valve body enclosing a control chamber comprising a passageway for fluid flow, the valve body comprising a distal end and a proximal end, the distal end having a distal flow orifice for connection with the balloon catheter, the proximal end having a proximal flow orifice for connection with a catheter in fluid communication with an inflation device; a slidable restrictor body positioned within the control chamber, the restrictor body comprising a distal end and an opening formed through the distal end to allow fluid flow distally or proximally through the restrictor body; and a valve seat positioned distal to the restrictor body comprising a valve seat orifice which allows fluid to flow out of the distal flow orifice, wherein the slidable restrictor body is operable to slide distally from a starting position to a stopped position in response to fluid flow in the distal direction toward the valve seat during inflation of the balloon, wherein as the distal end of the restrictor body approaches the valve seat, the distal end of the restrictor body and the valve seat cooperate to increase restriction to fluid flow which controls pressurization rate of the balloon to within a specified range, wherein when the restrictor body slides distally from the starting position to the stopped position at which the distal end of the restrictor body contacts the valve seat, the distal end of the restrictor body blocks a first portion of the valve seat orifice and does not block a second portion of the valve seat orifice to allow fluid flow through the opening formed through the distal end of the restrictor body, into the second portion of the valve seat orifice, and out the distal flow orifice, wherein a second opening is formed through the distal end of the restrictor body, wherein when the restrictor body slides distally from the starting position to the stopped position at which the distal end of the restrictor body contacts the valve seat, the distal end of the restrictor body blocks the first portion of the valve seat orifice and does not block a third portion of the valve seat orifice to allow fluid flow through the second opening formed through the distal end of the restrictor body and into the third portion of the valve seat orifice, and wherein a section of the distal end of the restrictor body is disposed between the opening and the second opening formed through the distal end of the restrictor body, wherein when the restrictor body slides distally from the starting position to the stopped position at which the distal end of the restrictor body contacts the valve seat, the section of the distal end of the restrictor body blocks the first portion of the valve seat orifice and does not block the second and third portions of the valve seat orifice.
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Specification