Adam Kingsley Deitz

US Patent:

20090099481, Apr 16, 2009

Filed:

Oct 8, 2008

Appl. No.:

12/247552

Inventors:

Adam Deitz - San Francisco CA, US

International Classification:

A61B 5/103

US Classification:

600595

Abstract:

Apparatuses are disclosed that is adapted and configured to cause and control joint motion of a patient. Apparatuses comprise, for example, a first motion member configured to engage a patient proximal to a target joint; a second motion member configured to engage a patient distal to a target joint; and a coupling member configured to connect the first motion member to the second motion member and further adapted to allow rotation of the first and second motion member around an axis, wherein the apparatus is engageable with a medical diagnostic device and further configured to capture patient specific data.

US Patent:

20120130285, May 24, 2012

Filed:

Jan 31, 2012

Appl. No.:

13/362337

Inventors:

Adam Deitz - San Francisco CA, US

International Classification:

A61B 5/103

US Classification:

600595

Abstract:

Apparatuses are disclosed that is adapted and configured to cause and control joint motion of a patient. Apparatuses comprise, for example, a first motion member configured to engage a patient proximal to a target joint; a second motion member configured to engage a patient distal to a target joint; and a coupling member configured to connect the first motion member to the second motion member and further adapted to allow rotation of the first and second motion member around an axis, wherein the apparatus is engageable with a medical diagnostic device and further configured to capture patient specific data.

US Patent:

20120321168, Dec 20, 2012

Filed:

Sep 24, 2010

Appl. No.:

13/497386

Inventors:

Adam Deitz - Austin TX, US

International Classification:

A61B 6/02

US Classification:

382132

Abstract:

An integrated imaging system is invented for creating an optimal imaging session by importing information in real time from several sources and using that information to automatically and continuously adjust the parameters of the imaging session so as to create the optimal session for the prescribed testing session.

US Patent:

20130307955, Nov 21, 2013

Filed:

Dec 12, 2011

Appl. No.:

13/882022

Inventors:

Adam Deitz - Austin TX, US
Richard K. Grant - Sudbury MA, US

Assignee:

Ortho Kinematics, Inc., - Austin TX

International Classification:

H04N 7/18

US Classification:

348 77

Abstract:

Three components are proposed, each having at its core a system for producing measurements of the relative motion of anatomical structures of mammals (the “measurement system”). The measurement system in this case would be comprised of an apparatus for imaging the joint of through a prescribed motion, and a process and mechanism for deriving quantitative measurement output data from the resulting images. The components of the present invention include: (1) a software device for reporting measurement output of the measurement system and for allowing users to interact with the measurement output data; (2) an apparatus and method for utilizing measurement output of the measurement system for therapeutic and surgical applications such as surgical navigation and patient positioning during a therapeutic procedure; and (3) an apparatus providing input image data for the measurement system that assists with the imaging of joints connecting anatomical regions that are in motion during operation.

US Patent:

20070287900, Dec 13, 2007

Filed:

Apr 12, 2007

Appl. No.:

11/734623

Inventors:

Alan Breen - Cristchurch, GB
Adam Deitz - San Francisco CA, US

International Classification:

A61B 5/00
A61F 5/00

US Classification:

600407000, 606237000

Abstract:

An apparatus and process for measuring the motion of internal joint structures during and for measuring the function of muscles involved with the motion of a joint of a subject are disclosed. The apparatus can be configured in three forms: a horizontal, vertical, or butterfly motion control device. Each configuration comprises a static member and a moving member, in which the moving member operates to move or be moved by the subject being studied. Also disclosed are processes for using each apparatus to measure of the relative motion of a skeletal structures in a subject, in which the subject is positioned in the apparatus and commanded to move while diagnostic medical images are taken or captured. Additionally, processes for using each apparatus to specifically measure and collect data on the function of the subject's muscles are disclosed.

US Patent:

20230092357, Mar 23, 2023

Filed:

Sep 20, 2021

Appl. No.:

17/479303

Inventors:

- Rillieux-La-Pape, FR
Adam K. Deitz - Austin TX, US

Assignee:

Medicrea International - Rillieux-La-Pape

International Classification:

A61B 34/10
G16H 10/60
G16H 20/40
G06N 20/00

Abstract:

A method and system for automatically generating a pre-operative plan is disclosed that may include using a computing device to receive, from an electronic device associated with a physician, an identification message comprising identifying information associated with a target patient for a surgical procedure. The computing device may retrieve medical information associated with the target patient based on the identifying information, and apply machine learning models to identify a predicted condition of the target patient and to predict a surgical approach and one or more surgical components to use and may generate a surgical plan that comprises an indication of the surgical approach and an indication of the one or more surgical components.

US Patent:

20210220057, Jul 22, 2021

Filed:

Mar 1, 2021

Appl. No.:

17/188916

Inventors:

- Austin TX, US
Adam DEITZ - Austin TX, US

Assignee:

WENZEL SPINE, INC. - Austin TX

International Classification:

A61B 34/20
A61B 34/10
A61B 5/00

Abstract:

Disclosed are methods and systems used with surgical navigation systems that enable a user to generate an optimized anatomical dataset for a spine level of interest. The systems and methods allow users to determine a target geometry for a spinal level targeted for spinal surgery. Additionally, the user can project loads across the spinal orthopedic implants and determine a projected subsidence over time.

US Patent:

20200085507, Mar 19, 2020

Filed:

Sep 6, 2019

Appl. No.:

16/562567

Inventors:

- Austin TX, US
Adam DEITZ - Austin TX, US

Assignee:

STATERA SPINE, INC. - Austin TX

International Classification:

A61B 34/20
A61B 34/10
A61B 5/00

Abstract:

Disclosed are methods and systems used with surgical navigation systems that enable a user to generate an optimized anatomical dataset for a spine level of interest. The systems and methods allow users to determine a target geometry for a spinal level targeted for spinal surgery. Additionally, the user can project loads across the spinal orthopedic implants and determine a projected subsidence overtime.