Patent ID: 8974482
Filing Date: 2015-03-10
Classification: A61B,A61M

Abstract:
1. A device for bypassing an occlusion located in an artery true lumen by means of inserting a J-tip guidewire and stylet wire assembly through an intimal layer of a wall of said artery proximate said occlusion and pushing said J-tip guidewire forward of and with said stylet wire located in a portion of said J-tip guidewire so as to dissect a false lumen between said intimal layer and a medial layer of said wall around said occlusion and deploying a tamping balloons and tamping catheter assembly in said false lumen and inflating said tamping balloons to crush and push aside said intimal layer and said occlusion causing axes of said false lumen and said true lumen to coincide with said intimal layer straight ahead of said stylet wire thus allowing said intimal layer to be safely pierced by said stylet wire for blood to flow from said true lumen, through said false lumen, and into said true lumen thus bypassing said occlusion, comprising: a J-tip guidewire and stylet wire assembly having structure and materials such that said J-tip guidewire is sufficiently flexible to bend in direction opposite to encountered resistance and said stylet wire being straight and sufficiently stiff to prevent any portion of said J-tip guidewire occupied by said stylet wire from deviating from said straight shape of said stylet wire, thus when said stylet wire completely occupies said J-tip guidewire and is pushed against an intimal layer of a wall of an artery said J-tip guidewire will pass through said intimal layer and pushing said J-tip guidewire forward of said stylet wire will cause said J-tip guidewire to bend away from encountered resistance from a medial layer of said wall and further advancement of said J-tip guidewire forward of said stylet wire will cause said J-tip guidewire to bend away from encountered resistance between said intimal layer and said medial layer in a J-shape which also separates said intimal layer from said medial layer in said J-shape and further pushing forward of said J-tip guidewire will cause said J-tip guidewire to bend away from encountered resistance in a loop shape between said intimal layer and said medial layer and pushing said J-tip guidewire and stylet wire assembly forward causes said loop shape to dissect said intimal layer from said medial layer to form a false lumen in said artery wall around said occlusion, wherein said J-tip guidewire comprises a coil of wire having a proximal end, a distal end, and a lumen therebetween, wherein said distal end is biased in the shape of a J and is configured to bend in a direction opposite to a direction of resistance encountered in any portion of said J-tip guidewire that is not occupied by a straight stylet wire that restrains the occupied portion from flexing, and wherein said stylet wire comprises a proximal end, a distal end, and a straight unbiased wire therebetween having a size capable of sliding in said lumen of said J-tip guidewire and being of a structure and being made of a material that makes said stylet wire sufficiently stiff such that when positioned within any portion of said lumen of said J-tip guidewire, said portion conforms to the straight shape of said stylet wire, thereby restraining said portion of said J-tip guidewire from flexing or being in any shape other than that of said straight unbiased wire of said stylet, and having a distal end being sharp; a tamping balloons and tamping catheter assembly adapted for deployment over said guide wire and stylet assembly into said false lumen and being of a structure and made with materials having characteristics such that inflating said tamping balloons in said false lumen causes said occlusion to be crushed and pushed aside into said true lumen along with said intimal layer thus approximately aligning axes of said true lumen and said false lumen, wherein said tamping catheter of said tamping balloons and tamping catheter assembly comprises a distal end, a proximal end, and a lumen therebetween being slidably larger than said J-tip guidewire, and having standard fluid supply lines and no other openings in a wall of said tamping catheter, wherein said tamping balloons of said tamping balloons and tamping catheter assembly comprise a plurality of tamping balloons made of a combination of compliant and non-compliant materials and being mounted contiguously around said tamping catheter from a distal tamping balloon mounted on said distal end of said tamping catheter and having a separate fluid supply line to said plurality of tamping balloons mounted proximally to said distal tamping balloon having a common fluid supply line, and further comprising a deflated state circumference slightly larger than that of said false lumen and an inflated state circumference slightly smaller than that of said true lumen, whereby said J-tip guidewire and stylet wire assembly is configured to be advanced to puncture said intimal layer of said artery wall proximate said occlusion as said stylet wire provides axis for rotation of said J-tip guidewire to ease it through said intimal layer puncture and pushing said J-tip guidewire ahead of said stylet wire causing a distal portion of said J-tip guidewire to be unoccupied by said stylet wire thus allowing said distal portion of said J-tip guidewire to bend in a direction away from resistance encountered to form said J-shape and further pushing saucer, causing said J-shape to further bend into a loop shape that dissects said intimal layer from said medial layers of said artery wall around said occlusion to form said false lumen into which is introduced said tamping balloons and tamping catheter assembly where said distal tamping balloon on said distal end of said tamping catheter is partially made of compliant material, and is configured to be inflated causing false lumen to be pushed into true lumen with approximate parallel alignment of their axes so said stylet wire can be safely advanced straight ahead to pierce said intimal layer stretched in front of said distal tamping balloon, and said plurality of tamping balloons, being partially made of non-compliant material which resists damage when crushing and pushing aside said occlusion wrapped in said intimal layer whereupon said device is configured to be removed from the body with possible exception of J-tip guidewire which may be needed for a subsequent procedure; and two clamp arcs in the shape of a rigid ring of rectangular cross-section cut in two halves each slightly less than 180 degrees of arc with an inner circumference of said rigid ring being same as outer circumference of said handle and said steering catheter with said two clamp arcs having a protruding tapered nib on the, inner circumference for extending between said handle and said steering catheter, wherein said tapered nib having a cross-section tapering from a V-shape to a rectangular shape along said circumference; ribbed receivers being cavities in ends of each end of each of said halves of said clamp arcs that are in the zigzag shape of ribs on an antique washboard; and ribbed wafers in the zigzag shape of ribs on an antique washboard that fit in said ribbed receivers, whereby said ribbed wafers in ribbed receivers are configured to hold said halves of said clamp arcs together and interlacing said ribbed receivers and said ribbed wafers ribs keeps halves locked at any angle of rotation operator rotates said halves until an operator overcomes a previous locked position by another rotation, thus making the width of separation of said handle from said steering guidewire equal to the width of said tapered nib at any given degree of rotation of said halves of said clamp arcs.