John S. Fisher
Physician at Palmetto Rd, Clearwater, FL

6530940, Mar 11, 2003

Apr 18, 2001

09/837792

John S. Fisher - Belleair FL 33756

A62M 2900

606200, 606194, 604105

A balloon angioplasty apparatus includes a guide wire, a balloon catheter, and a guide catheter. The balloon catheter has slots formed in it to define a plurality of elongate members between the slots. A joint is formed at the proximal, distal, and mid-point of each elongate member. Displacing the proximal and distal joints toward one another causes the respective middle joints to displace radially outwardly, and radial inward travel of the middle joints is caused by increasing the distance between the proximal and distal joints. A mesh that captures emboli overlies the jointed members and opens and closes with them. The guide catheter is used to close the joined members and the emboli-capturing mesh at the conclusion of the angioplasty procedure. In a second embodiment, the jointed members are formed in a delivery catheter. In a third embodiment, the jointed members are formed in a guide wire.

6527791, Mar 4, 2003

Apr 18, 2001

09/837672

John S. Fisher - Belleair FL 33756

A26M 2900

606200, 606194, 604105

A balloon angioplasty or stenting apparatus includes a guide wire, a balloon catheter ensleeving the guide wire, and a guide catheter ensleeving the balloon catheter. The balloon catheter has slots formed in it to define elongate members between the slots. A joint is formed at the proximal, distal, and mid-point of each elongate member. Displacing the proximal and distal joints toward and away from one another causes the respective middle joints to displace radially outwardly and inwardly, respectively. A mesh that captures emboli while allowing blood perfusion partially overlies the jointed members is opened and closed when the jointed members are opened and closed. A guide wire having an outer coil and an inner rod slideably received within it has jointed members formed in the outer coil. The mesh is opened and closed by axially retracting and advancing the inner rod with respect to the outer coil, respectively.

6709408, Mar 23, 2004

Sep 23, 2002

10/065155

John S. Fisher - Belleair FL

Biopsy Sciences, LLC - Clearwater FL

A61B 1000

600570, 600571, 600562, 600576, 606160, 604 22

A dual action biopsy needle scrapes tissue of cellular thickness from a lesion during forward and rearward reciprocations of the needle along its longitudinal axis of symmetry. A first sharp edge, formed by a beveled distal end of the needle, scrapes tissue during proximal-to-distal travel of the needle. A second sharp edge is provided by a transversely disposed slot formed in the needle near the first sharp edge. The second sharp edge scrapes tissue during distal-to-proximal travel of the needle. In a first embodiment, the second sharp edge is coincident with an exterior surface of the needle. In a second embodiment, the second sharp edge is elevated with respect to the exterior surface and in a third embodiment the second sharp edge is recessed. Additional embodiments include a second slot, a channel, and a hinge for enabling pivotal movement of the second and third sharp edges.

6890309, May 10, 2005

Mar 19, 2004

10/708712

John S. Fisher - Belleair FL, US

Biopsy Sciences, LLC - Clearwater FL

A61B010/00

600570, 600571, 600562, 600576, 606160, 604 22

A dual action biopsy needle scrapes tissue of cellular thickness from a lesion during forward and rearward reciprocations of the needle along its longitudinal axis of symmetry. A first sharp edge, formed by a beveled distal end of the needle, scrapes tissue during proximal-to-distal travel of the needle. A second sharp edge is provided by a transversely disposed slot formed in the needle near the first sharp edge. The second sharp edge scrapes tissue during distal-to-proximal travel of the needle. In a first embodiment, the second sharp edge is coincident with an exterior surface of the needle. In a second embodiment, the second sharp edge is elevated with respect to the exterior surface and in a third embodiment the second sharp edge is recessed. Additional embodiments include a second slot, a channel, and a hinge for enabling pivotal movement of the second and third sharp edges.

6264672, Jul 24, 2001

Oct 25, 1999

9/426438

John S. Fisher - Belleair FL

Biopsy Sciences, LLC - Clearwater FL

A62M 2900

606200

An apparatus used in balloon angioplasty and/or stenting in a first embodiment includes a guide wire, a balloon catheter that ensleeves the guide wire, and a guide catheter that ensleeves the balloon catheter. The balloon catheter has a plurality of longitudinally-extending, circumferentially spaced apart slots formed in it to define a plurality of elongate members between the slots. A joint is formed at the proximal, distal, and mid-point of each elongate member. Displacing the respective proximal and distal joints toward one another causes the respective middle joints to displace radially outwardly, and radial inward travel of the middle joints is caused by increasing the distance between the proximal and distal joints. A bead is formed in the distal end of the guide wire and retraction of the guide wire causes the bead to abut the distal end of the balloon catheter and displace it in a distal-to-proximal direction, opening the elongate, jointed members. A mesh that captures emboli while allowing blood perfusion partially overlies the jointed members and is opened when the jointed members are opened and closed when they are closed.

2008009, Apr 17, 2008

Dec 12, 2007

11/954842

John Fisher - Belleair FL, US

BIOPSY SCIENCES, LLC - Tucson AZ

A61B 10/02

600564000

A tissue marker formed of a biodegradable polymer having drug-delivery capabilities is combined with a sealant that encapsulates the tissue marker and which serves to help anchor the tissue marker against migration. The sealant is delivered to a site in dehydrated form and moisture inherent in tissue at the site expands the sealant. The expanded sealant is formed of a hydrogel and is therefore more compatible to the surrounding tissue than the material of the tissue marker. The sealant and the tissue marker are both bioabsorbed over time.

2003013, Jul 24, 2003

Mar 27, 2003

10/249267

John Fisher - Belleair FL, US
Frederick Ahari - Tucson AZ, US
Lucjan Hronowski - Bedford MA, US

A61B017/08

606/213000

Openings in a mammalian body made by any medical procedure or non-medical event are sealed with a bioabsorbable plug or sewn with a bioabsorbable suture. In one exemplary embodiment, the plug in dehydrated, unexpanded condition is pushed by a pushing device through the lumen of a needle until a first part of the plug is external to the opening and a second part is internal to the opening. The needle is then withdrawn while the position of the pushing device is maintained. The pushing device is then withdrawn, leaving the plug in sealing relation to the opening. The body's moisture causes the plug to expand to complete the sealing of the opening, or the expansion may be caused by exposure to air, light, or other stimulant. The opening may be formed in soft tissue, internal organs, or hard tissue. The plug seals the flow of liquid or gaseous biological fluids.

6872185, Mar 29, 2005

Mar 19, 2004

10/708710

John S. Fisher - Belleair FL, US

Biopsy Sciences, LLC - Clearwater FL

A61B010/00

600570, 600571, 600562, 600576, 606160, 604 22

A biopsy needle scrapes tissue of cellular thickness from a lesion during repeated proximal-to-distal thrusts of the needle along its longitudinal axis of symmetry. A first sharp edge, formed by a beveled distal end of the needle, scrapes tissue during proximal-to-distal travel of the needle. A second sharp edge is provided by a transversely disposed slot formed in the needle near the first sharp edge. The second sharp edge also scrapes tissue during proximal-to-distal travel of the needle. The second sharp edge may be coincident with an exterior surface of the needle elevated with respect to the exterior surface, or recessed with respect to the exterior surface. Another embodiment includes a hinge for enabling pivotal movement of the second sharp edge.

2005022, Oct 13, 2005

Sep 10, 2004

10/711330

John Fisher - Belleair FL, US
Frederick Ahari - Tucson AZ, US

A61M037/00, A61B010/00

600562000, 604131000

A bioabsorbable sealant plug that expands in response to contact with moisture in a mammalian body is optimally positioned in a biopsy tract to seal the biopsy tract when a biopsy procedure is completed. In a first method, the leading end of the sealant plug is advanced through the lumen of a coaxial needle by a plunger until a leading end of a supporting leg abuts the patient's skin surface. A second method is performed with a pistol-shaped tool having a trigger that enables adjustment of the plunger. A third embodiment includes a plunger having a bifurcated end that grasps the plug. A fourth embodiment has a turning nut that causes compression of a gasket that clamps down on the plug. A supporting rod and coaxial needle are in parallel relation to one another in a fifth embodiment.

2003013, Jul 24, 2003

Mar 27, 2003

10/249266

John Fisher - Belleair FL, US
Frederick Ahari - Tucson AZ, US
Lucjan Hronowski - Bedford MA, US

A61B017/08

606/213000

Openings in a mammalian body made by any medical procedure or non-medical event are sealed with a bioabsorbable plug or sewn with a bioabsorbable suture. In one exemplary embodiment, the plug in dehydrated, unexpanded condition is pushed by a pushing device through the lumen of a needle until a first part of the plug is external to the opening and a second part is internal to the opening. The needle is then withdrawn while the position of the pushing device is maintained. The pushing device is then withdrawn, leaving the plug in sealing relation to the opening. The body's moisture causes the plug to expand to complete the sealing of the opening, or the expansion may be caused by exposure to air, light, or other stimulant. The opening may be formed in soft tissue, internal organs, or hard tissue. The plug seals the flow of liquid or gaseous biological fluids.