Aashish A Shah

US Patent:

20080300898, Dec 4, 2008

Filed:

May 30, 2007

Appl. No.:

11/807796

Inventors:

Belkacem Bacha - Canton MI, US
Joseph M. Gagnier - Birmingham MI, US
David A. Laporte - Livonia MI, US
Shaun Zak Abshire - Wyandotte MI, US
Douglas Semler - Dearborn Hts. MI, US
Michel Cordonnier - Ypsilanti MI, US
Aashish Shah - Flint MI, US
Bruce Young - Novi MI, US

International Classification:

G06Q 50/00
G06F 17/30

US Classification:

705 1

Abstract:

A document processing device is provided. A device service is configured to generate information concerning a document processed by the document processing device. A client interface is included in the device service and is configured to perform at least one of (a) publishing an event to a plurality of clients based on at least one of a status of the document processing device and the information and (b) providing an instruction to the document processing device based on a message from one of the plurality of clients. One or more application services are in selective communication with the device service and at least one of the clients.

US Patent:

20220370020, Nov 24, 2022

Filed:

Aug 1, 2022

Appl. No.:

17/878705

Inventors:

- Raynham MA, US
Darren Scarfe - LaSalle, CA
Aashish Shah - Ann Arbor MI, US
Jacob A. Marks - Mansfield MA, US
James G. Lee - South Weymouth MA, US

International Classification:

A61B 5/00
A61B 5/11
G06T 11/20

Abstract:

A neuromuscular sensing method includes transmitting an electrical stimulus from a distal end portion of an elongate stimulator extending within an intracorporeal treatment area of a subject and detecting an artificially induced response of at least two muscles of the subject in response to the transmitted electrical stimulus, each response being detected by a respective sensor in mechanical communication with the muscle. A graphical user interface (GUI) is transitioned from a first state to a second state; the first state indicating to the transmission of a stimulus with no artificially induced response detected, and the second state indicating the detection of the artificially induced response of the at least two muscles, and further identifying one of the at least two muscles as a primary muscle response.

US Patent:

20210093228, Apr 1, 2021

Filed:

Sep 27, 2019

Appl. No.:

16/586121

Inventors:

- Raynham MA, US
Darren Scarfe - LaSalle, CA
Aashish Shah - Ann Arbor MI, US
Jacob A. Marks - Mansfield MA, US
James G. Lee - South Weymouth MA, US

Assignee:

Depuy Synthes Products, Inc. - Raynham MA

International Classification:

A61B 5/11
A61B 5/00

Abstract:

A neuromuscular sensing method includes transmitting an electrical stimulus from a distal end portion of an elongate stimulator extending within an intracorporeal treatment area of a subject and detecting an artificially induced response of at least two muscles of the subject in response to the transmitted electrical stimulus, each response being detected by a respective sensor in mechanical communication with the muscle. A graphical user interface (GUI) is transitioned from a first state to a second state; the first state indicating to the transmission of a stimulus with no artificially induced response detected, and the second state indicating the detection of the artificially induced response of the at least two muscles, and further identifying one of the at least two muscles as a primary muscle response.

US Patent:

20210060337, Mar 4, 2021

Filed:

Nov 13, 2020

Appl. No.:

17/096947

Inventors:

- Raynham MA, US
Aashish Shah - Ann Arbor MI, US
Tarik Yardibi - Reading MA, US
Emir Osmanagic - Norwell MA, US
Darren Scarfe - LaSalle, CA

Assignee:

Depuy Synthes Products, Inc. - Raynham MA

International Classification:

A61N 1/36
A61B 5/0488
A61N 1/04

Abstract:

A sensing device for detecting an artificially induced neuromuscular response within a limb of a subject includes a carrier material and a plurality of mechanical sensors. The carrier material is operative to be secured around a portion of the limb, and each of the plurality of mechanical sensors are coupled with the carrier material. Each mechanical sensor is positioned on the carrier material such that it is operative to monitor a mechanical response of a different muscle group of the limb. Each mechanical sensor then generates a respective mechanomyography output signal corresponding to the monitored mechanical response of its adjacent muscle group.

US Patent:

20200113485, Apr 16, 2020

Filed:

Oct 12, 2018

Appl. No.:

16/158739

Inventors:

- Raynham MA, US
Aashish Shah - Ann Arbor MI, US
Tarik Yardibi - Reading MA, US
Emir Osmanagic - Norwell MA, US
Darren Scarfe - LaSalle, CA

Assignee:

Depuy Synthes Products, Inc. - Raynham MA

International Classification:

A61B 5/11
A61B 5/04

Abstract:

A sensing device for detecting an artificially induced neuromuscular response within a limb of a subject includes a plurality of mechanical sensors, wireless communication circuitry, and a processor in electrical communication with each of the plurality of mechanical sensors and wireless communication circuitry. Each sensor is operative to monitor a mechanical response of a different muscle group of the limb and generate a mechanomyography (MMG) output signal corresponding to the monitored motion. The processor receives and buffers a portion of each MMG output signal, determines if the MMG output signal from any one or more of the plurality of mechanical sensors is representative of an artificially induced neuromuscular response, and transmits one or more of the buffered MMG output signals to a host system only if the output signal from one or more of the sensors is determined to be representative of an artificially induced neuromuscular response.

US Patent:

20200114148, Apr 16, 2020

Filed:

Oct 12, 2018

Appl. No.:

16/158734

Inventors:

- Raynham MA, US
Aashish Shah - Ann Arbor MI, US
Tarik Yardibi - Reading MA, US
Emir Osmanagic - Norwell MA, US
Darren Scarfe - LaSalle, CA

Assignee:

Depuy Synthes Products, Inc. - Raynham MA

International Classification:

A61N 1/36
A61B 5/0488
A61N 1/04

Abstract:

A sensing device for detecting an artificially induced neuromuscular response within a limb of a subject includes a carrier material and a plurality of mechanical sensors. The carrier material is operative to be secured around a portion of the limb, and each of the plurality of mechanical sensors are coupled with the carrier material. Each mechanical sensor is positioned on the carrier material such that it is operative to monitor a mechanical response of a different muscle group of the limb. Each mechanical sensor then generates a respective mechanomyography output signal corresponding to the monitored mechanical response of its adjacent muscle group. These signals may then be communicated outbound from the device via communication circuitry provided on the device.

US Patent:

20190365288, Dec 5, 2019

Filed:

Jun 1, 2018

Appl. No.:

15/995879

Inventors:

- Raynham MA, US
Aashish Shah - Ann Arbor MI, US
Tarik Yardibi - Reading MA, US
Emir Osmanagic - Norwell MA, US
Darren Scarfe - LaSalle, CA

Assignee:

Depuy Synthes Products, Inc. - Raynham MA

International Classification:

A61B 5/11
A61B 5/00
A61N 1/36

Abstract:

A neural monitoring system for detecting an artificially-induced mechanical muscle response to a stimulus provided within an intracorporeal treatment area includes a mechanical sensor, a stimulator, and a processor. The processor is configured to provide a periodic stimulus via the stimulator, and monitor the output from the mechanical sensor in an expected response window that follows one stimulus, yet concludes before the application of the next, subsequent stimulus to determine if the stimulus induced a response of the muscle.

US Patent:

20150051506, Feb 19, 2015

Filed:

Aug 13, 2013

Appl. No.:

13/965457

Inventors:

- Southfield MI, US
Darren Scarfe - LaSalle, CA
Aashish Shah - Ann Arbor MI, US

Assignee:

Innovative Surgical Solutions, LLC - Southfield MI

International Classification:

A61B 5/11

US Classification:

600554

Abstract:

A neural monitoring system for detecting an artificially-induced mechanical muscle response to an electrical stimulus at a stimulation frequency includes a mechanical sensor and a processor in communication with the mechanical sensor. The mechanical sensor is configured to be placed in mechanical communication with the muscle and to generate a mechanomyography output signal corresponding to a sensed mechanical movement of the muscle. The processor is configured to receive the mechanomyography output signal from the mechanical sensor and determine a frequency component of the mechanomyography output signal that has a peak magnitude and to detect the occurrence of an artificially-induced mechanical muscle response therefrom.