Eduard Grinberg, Age 4810 Hickory Way, Sharon, MA 02067

2013032, Dec 5, 2013

Jun 5, 2012

13/489070

Mehmet Z. Sengun - Canton MA, US
Eduard Grinberg - Sharon MA, US
Michael S. Varieur - Portsmouth RI, US
Dennis M. Burke - Mansfield MA, US

DePuy Mitek, Inc. - Rayham MA

A61B 17/56

606 92

Methods and devices are provided for anchoring graft to bone. In one exemplary embodiment, a bone cavity is created in bone, a graft is partially advanced into the bone cavity, and a hardenable filler material is inserted into the cavity. The hardenable filler material can change from a viscous first state to a harder second state, compressing the graft against the walls of the bone cavity and thereby anchoring the graft within the cavity. The hardenable filler material can be inserted in an open sac, a closed sac, other carriers or housings, or directly into the bone cavity.

2023001, Jan 12, 2023

Jul 8, 2021

17/370688

- Le Locle, CH
Eduard Grinberg - Sharon MA, US
Michael Confoey - Westwood MA, US
Pedro J. Miguel - Fall River MA, US
Garrett Goode - Brighton MA, US

A61M 1/00

In general, devices, systems, and methods for arthroscopic pump saline management are provided. In an exemplary embodiment, a pump system including a pump is configured to manage fluid pumped by the pump to a surgical site during performance of a surgical procedure. The pump system being configured to manage fluid pumped to the surgical site can allow the pump system to manage fluid pressure at the surgical site by monitoring fluid loss at the surgical site.

2021008, Mar 25, 2021

Dec 2, 2020

17/109399

- Le Locle, CH
Eduard Grinberg - Sharon MA, US
Andre Francisco Guilherme - Raynham MA, US
Michael Confoey - Westwood MA, US
Jacob A. Marks - Foxboro MA, US

A61M 1/00
A61M 3/02
A61B 17/00

Various exemplary methods, systems, and devices for joint to pump elevation level user interfaces, autocalibration for joint elevation, and joint pressure estimation are provided. In general, an arthroscopic pump can be configured to estimate fluid pressure at a surgical site, e.g., at a joint, to provide an accurate indication of fluid pressure to users. In an exemplary embodiment, the fluid pressure estimation is based on a fluid pressure measurement at the pump that is adjusted at the pump, e.g., by a processor at the pump that executes instructions stored in a memory at the pump, using one or more control algorithms that adjust for one or more factors, such as pressure loss in tubing and sheath through which fluid flows between the pump and the surgical site and elevation difference between the pump and the surgical site.

2019007, Mar 7, 2019

Aug 28, 2018

16/114510

- Raynham MA, US
Eduard Grinberg - Sharon MA, US
Andre Francisco Guilherme - Raynham MA, US
Michael Confoey - Westwood MA, US

A61M 1/00
A61B 17/00

Various exemplary methods, systems, and devices for joint to pump elevation level user interfaces, autocalibration for joint elevation, and joint pressure estimation are provided. In general, an arthroscopic pump can be configured to estimate fluid pressure at a surgical site, e.g., at a joint, to provide an accurate indication of fluid pressure to users. In an exemplary embodiment, the fluid pressure estimation is based on a fluid pressure measurement at the pump that is adjusted at the pump, e.g., by a processor at the pump that executes instructions stored in a memory at the pump, using one or more control algorithms that adjust for one or more factors, such as pressure loss in tubing and sheath through which fluid flows between the pump and the surgical site and elevation difference between the pump and the surgical site.

2016028, Oct 6, 2016

Jun 9, 2016

15/177959

- New Brunswick NJ, US
Eduard Grinberg - Sharon MA, US
Michael S. Varieur - Portsmouth RI, US
Dennis M. Burke - Mansfield MA, US

A61B 17/88

Methods and devices are provided for anchoring graft to bone. In one exemplary embodiment, a bone cavity is created in bone, a graft is partially advanced into the bone cavity, and a hardenable filler material is inserted into the cavity. The hardenable filler material can change from a viscous first state to a harder second state, compressing the graft against the walls of the bone cavity and thereby anchoring the graft within the cavity. The hardenable filler material can be inserted in an open sac, a closed sac, other carriers or housings, or directly into the bone cavity.

2015007, Mar 12, 2015

Nov 14, 2014

14/542010

- New Brunswick NJ, US
Eduard Grinberg - Sharon MA, US
Michael S. Varieur - Portsmouth RI, US
Dennis M. Burke - Mansfield MA, US

A61F 2/08
A61B 17/56

606151

Methods and devices are provided for anchoring graft to bone. In one exemplary embodiment, a bone cavity is created in bone, a graft is partially advanced into the bone cavity, and a hardenable filler material is inserted into the cavity. The hardenable filler material can change from a viscous first state to a harder second state, compressing the graft against the walls of the bone cavity and thereby anchoring the graft within the cavity. The hardenable filler material can be inserted in an open sac, a closed sac, other carriers or housings, or directly into the bone cavity.