CRAIG DOUGLAS FRIEDMAN
Medical Practice in Westport, CT

2009031, Dec 24, 2009

Mar 23, 2007

12/294210

Ivan Sepetka - Los Altos CA, US
Maria G. Aboytes - Palo Alto CA, US
Hong Thu Doan - Milpitas CA, US
Ricardo Aboytes - East Palo Alto CA, US
Steven Hochberg - New York NY, US
Peter Costantino - Armonk NY, US
Craig F. Friedman - Westport CT, US
Arindam Datta - Hillsborough NJ, US

BIOMERIX CORPORATION - New York NY

A61B 17/08, A61M 25/00

606158, 604264

The self-expandable endovascular apparatus for aneurysm occlusion of the invention comprises a deformable shape memory frame with at least a partial segment covering comprised of a matrix implant material. The device can be folded and/or stretched to adopt a narrow profile for loading into a coaxial delivery device and expands in place as it adopts its original shape on release from the device into an aneurysm. A method of treating an aneurysm, comprises the steps of: (a) providing the self-expandable endovascular apparatus inserted into a lumen of a delivery device comprising a proximal end and a distal end, the distal end having a distal tip; (b) advancing the distal tip of the delivery device into an opening in an aneurysm having an interior sac; (c) advancing the apparatus through the lumen into the opening; and (d) withdrawing the delivery device, whereby the apparatus expands into the sac and covers the opening.

2011018, Jul 28, 2011

Aug 25, 2010

12/868521

Arindam Datta - Hillsborough NJ, US
Craig Friedman - Westport CT, US
John D. MacGillivray - Greenwich CT, US
Aisa Sendijarevic - Troy MI, US

Biomerix Corporation - New York NY

A61F 2/02

623 2372

This invention relates to reticulated elastomeric matrices, their manufacture, their post-processing, such as their reinforcement, compressive molding or annealing, and uses including uses for implantable devices into or for topical treatment of patients, such as humans and other animals, for surgical devices, tissue augmentation, tissue repair, therapeutic, nutritional, or other useful purposes.

2009031, Dec 24, 2009

Jun 23, 2009

12/490280

Yosef P. KRESPI - Ridgefield CT, US
Craig D. FRIEDMAN - Westport CT, US
Arindam DATTA - Hillsborough NJ, US
Lawrence P. LAVELLE - Rahway NJ, US

BIOMERIX CORPORATION - New York NY

A61F 2/28, A61B 17/56

623 1611, 128898

In an improved method for surgically treating a sleep-related breathing disorder, comprising hyoid distruction/expansion and hyo-mandibular suspension, an implant comprises a polypropylene and/or reticulated elastomeric biostable polyurethane matrix. The matrix is positioned between two or more segments of the distructed hyoid bone. A single or multiple midline or paramedian incisions are made under a patient's chin; soft tissues overlying the mandible are cleaned; a first screw is inserted into the edge of the mandible; a second screw is inserted into the inferior edge of the mandible; a second horizontal incision is made over the body of the hyoid; the infrahyoid muscles are separated from the body of the hyoid bone; the hyoid is refracted and stabilized; the sternohyoid and thyrohyoid muscles are detached from the body of the hyoid between the lesser cornuae; the hyoid bone is divided midline or paramedian into two or more segments; and an absorbable or nonabsorbable, rigid or semirigid, implant is positioned between segments of the hyoid bone. The hyoid bone is stabilized by the implant; and sutures or portions of polypropylene and/or polyurethane matrix are passed around the hyoid bone segments and implant to connect to muscle still attached to the upper portion of the hyoid bone, wherein the hypopharyngeal airway is expanded.

2006011, Jun 1, 2006

Sep 15, 2005

11/229044

Ivan Sepetka - Los Altos CA, US
Maria Aboytes - Palo Alto CA, US
Maybelle Jordan - Potomac MD, US
Craig Friedman - Westport CT, US
Arindam Datta - Hillsboro NJ, US

A61M 29/00

606200000

An aneurysm treatment device for in situ treatment of aneurysms comprises an occlusion device having a flexible, longitudinally extending elastomeric matrix member that assumes a non-linear shape to conformally fill a targeted vascular site. The occlusion device has one or more longitudinally extending filaments that can be varied to impart properties to the occlusion device.

7803395, Sep 28, 2010

May 17, 2004

10/848624

Arindam Datta - Hillsborough NJ, US
Craig Friedman - Westport CT, US
Daniel Klempner - West Bloomfield MI, US
Aisa Sendijarevic - Troy MI, US

Biomerix Corporation - New York NY

A61K 9/22

424426, 428160, 4284231, 6048901

This invention relates to biodurable, reticulated elastomeric matrices that are resiliently-compressible, their manufacture and uses including uses for implantable devices into or for topical treatment of patients, such as humans and other animals, for therapeutic, nutritional, or other useful purposes.

2006011, Jun 1, 2006

Apr 21, 2005

11/111487

Ivan Sepetka - Los Altos CA, US
Maria Aboytes - Palo Alto CA, US
Maybelle Jordan - Potomac MD, US
Craig Friedman - Westport CT, US
Arindam Datta - Hillsboro NJ, US

A61M 29/00

606200000

An aneurysm treatment device for in situ treatment of aneurysms comprises a collapsible member having a first shape wherein the first shape is an expanded geometric configuration, and a second shape, wherein the second shape is a collapsed configuration that is loadable into a catheter. The aneurysm treatment device is capable or returning to the first shape in the sac of an aneurysm upon deployment, where it occludes the aneurysm. In another embodiment an occlusion device comprises a flexible, longitudinally extending elastomeric matrix member that assumes a non-linear shape to conformally fill a targeted vascular site.

7763077, Jul 27, 2010

Dec 24, 2003

10/746563

Craig D. Friedman - Westport CT, US
Arindam Datta - Hillsborough NJ, US

Biomerix Corporation - New York NY

A61F 2/44, A61B 17/70

623 1716, 626279

The invention relates to the repair of spinal annular defects. An appartatus comprises a scaffold comprised of a biodurable, resiliently compressible, elastomeric reticulated composition to obliterate spinal/vertabral connective tissue defects, to obliterate spinal-annular nuclear tissue defects, and for spinal annulo-nucleoplasty regeneration. The apparatus comprises an at least partially cylindrical member.

2006011, Jun 1, 2006

Nov 26, 2004

10/998357

Ivan Sepetka - Los Altos CA, US
Maria Aboytes - Palo Alto CA, US
Maybelle Jordan - Potomac MD, US
Craig Friedman - Westport CT, US

A61M 29/00

606200000

An aneurysm treatment device for in situ treatment of aneurysms comprises a collapsible member having a first shape wherein the first shape is an expanded geometric configuration, and a second shape, wherein the second shape is a collapsed configuration that is loadable into a catheter. The aneurysm treatment device is capable of returning to the first shape in the sac of an aneurysm upon deployment, where it occludes the aneurysm.

2005016, Jul 28, 2005

Jul 27, 2004

10/900982

Maybelle Jordan - Potomac MD, US
Arindam Datta - Hillsboro NJ, US
Craig Friedman - Westport CT, US
George Sanderson - Clark NJ, US
John Kula - Birdsboro PA, US

A61F002/20

623009000

A device for treating or preventing a vascular condition at a mammalian vascular site, comprises an implant formed from a compressible, reticulated elastomeric matrix in a shape conducive to delivery through a delivery instrument. One or more implants are delivered in a compressed state to the mammmalian vascular site where each implant recovers substantially to its uncompressed state following deployment from a delivery instrument. In a preferred embodiment the matrix comprises cross-linked polycarbonate polyurethane-urea or cross-linked polycarbonate polyurea-urethane. In another preferred embodiment the matrix comprises a cross-linked polycarbonate polyurethane. In a yet further embodiment, the matrix comprises thermoplastic polycarbonate polyurethane or thermoplastic polycarbonate polyurethane-urea.

2005004, Feb 24, 2005

Dec 30, 2003

10/749742

Arindam Datta - Hillsborough NJ, US
Craig Friedman - Westport CT, US
Peter Costantino - Armonk NY, US
Ian Askill - Colorado Springs CO, US
Daniel Klempner - West Bloomfield MI, US
Arthur Tinkelenberg - Brooklyn NY, US
Aisa Sendijarevic - Troy MI, US

A61B001/00

600153000, 606191000

This invention relates to biodurable, reticulated elastomeric matrices that are resiliently-compressible, their manufacture and uses including uses for implantable devices into or for topical treatment of patients, such as humans and other animals, for therapeutic, nutritional, or other useful purposes.