Catheter balloon with advantageous cone design
First Claim
1. A catheter balloon comprising:
- a median section having a proximal and distal end and a transverse cross sectional area in mm2 when the balloon is inflated; and
a first cone section proximal to the proximal end of the median section and a second cone section distal to the distal end of the median section, each such first and second cone sections having a volume in mm3 when the balloon is inflated, wherein the ratio of the volume of either of the cone sections to the transverse cross sectional area of the median section of at least about 2.1 mm.
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Abstract
The present invention provides a catheter balloon having an advantageous cone design. In particular, the catheter balloon has at least one cone section with a volume in mm3 such that, when the ratio of one cone volume to the transverse cross-sectional area in mm2 of the inflated median section is at least about 2.1 mm. In certain applications, the advantageous cone design can assist in the preferential expansion of the cone sections prior to any significant expansion of the median section. The balloon can thus advantageously be utilized as a component of a balloon catheter or prosthesis delivery system, also provided via the present invention. When so utilized, the inventive balloon can assist in reducing any shifting of the balloon and/or prosthesis during inflation or delivery, respectively. Methods of utilizing the balloon catheters in dilation procedures, as well as the prosthesis delivery systems to deliver prosthesis, are also provided.
76 Citations
18 Claims
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1. A catheter balloon comprising:
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a median section having a proximal and distal end and a transverse cross sectional area in mm2 when the balloon is inflated; and
a first cone section proximal to the proximal end of the median section and a second cone section distal to the distal end of the median section, each such first and second cone sections having a volume in mm3 when the balloon is inflated, wherein the ratio of the volume of either of the cone sections to the transverse cross sectional area of the median section of at least about 2.1 mm. - View Dependent Claims (2, 3)
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4. A catheter balloon comprising:
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a median section having a proximal and distal end; and
a first cone section proximal to the proximal end of the median section and a second cone section distal to the distal end of the median section, at least one of such cone sections having a stepped configuration comprising a plurality of sections and wherein at least one of the sections defines an internal angle relative to the median section of greater than 180 degrees.
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5. A balloon catheter comprising:
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an elongated shaft having a proximal end, a distal end, and an inflation lumen extending through at least a section thereof; and
a catheter balloon mounted on a distal shaft section having an interior in fluid communication with the inflation lumen and further comprising a median section having a proximal and distal end and a transverse cross sectional area in mm2 when the balloon is inflated; and
a first cone section proximal to the proximal end of the median section and a second cone section distal to the distal end of the median section, each such first and second cone sections having a volume in mm3 when the balloon is inflated, wherein the ratio of the volume of either of the cone sections to the transverse cross sectional area of the median section of at least about 1.2 mm. - View Dependent Claims (6, 7, 8, 9, 10, 11, 12)
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13. A method of forming a catheter balloon comprising:
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(a) selecting a material from which to form the balloon;
(b) forming the balloon so that the balloon comprises (i) a median section having a proximal and distal end and a transverse cross sectional area in mm2 when the balloon is inflated; and
(ii) a first cone section proximal to the proximal end of the median section and a second cone section distal to the distal end of the median section, each such first and second cone sections having a volume in mm3 when the balloon is inflated, wherein the ratio of the volume of either of the cone sections to the transverse cross sectional area of the median section of at least about 2.1 mm. - View Dependent Claims (14, 15)
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16. A method for dilating a bodily lumen within a patient'"'"'s body comprising:
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(a) providing a balloon catheter, comprising (i) an elongated shaft having a proximal end, a distal end, and an inflation lumen extending with at least a section thereof; and
(ii) a catheter balloon mounted on the distal shaft section having an interior in fluid communication with the inflation lumen, the balloon comprising a median section having a proximal and distal end and a transverse cross sectional area in mm2 when the balloon is inflated; and
a first cone section proximal to the proximal end of the median section and a second cone section distal to the distal end of the median section, each such first and second cone sections having a volume in mm3 when the balloon is inflated, wherein the ratio of the volume of either of the cone sections to the transverse cross sectional area of the median section of at least about 2.1 mm;
(b) inserting the balloon catheter into bodily lumen of the patient'"'"'s body to be dilated;
(c) inflating the balloon so that the median section expands to dilate the bodily lumen.
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17. A method for delivering a stent to a bodily lumen within a patient'"'"'s body comprising:
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(a) providing a stent delivery system, comprising (i) an elongated shaft having a proximal end, a distal end, and an inflation lumen extending with at least a section thereof;
(ii) a catheter balloon mounted on the distal shaft section having an interior in fluid communication with the inflation lumen, the balloon comprising;
a median section having a proximal and distal end and a transverse cross sectional area in mm2 when the balloon is inflated; and
a first cone section proximal to the proximal end of the median section and a second cone section distal to the distal end of the median section, each such first and second cone sections having a volume in mm3 when the balloon is inflated, wherein the ratio of the volume of either of the cone sections to the transverse cross sectional area of the median section of at least about 2.1 mm; and
(iii) an expandable stent disposed about at least a portion of the median section of the balloon;
(b) inserting the stent delivery system into the bodily lumen of the patient'"'"'s body;
(c) inflating the balloon to produce the radial expansion of the median section and the stent disposed thereon, thereby delivering the stent. - View Dependent Claims (18)
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Specification