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Madeleine C Jayme

from Cincinnati, OH
Age ~31
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Also known as:
Madeleine A Jayme, Jayme Madeleine
Related to:
Elizabeth B Hustwit, 52Mengste Bey, 43John H Mitchell, 61Mary A Glenn, 67Mengste Mitchell, 61Constance Mitchell, 65
Connected to:
Emily Jayme, 55Jovanny J Jayme, 33Lorainevict B Jayme, 33Backus Jaymes, 123Buffkin Jaymes, 31Candace M Jaymes, 30Cody M Jaymes, 36Dorothy L Jaymes, 90Ford Jaymes, 36Henderson Jaymes, 35

Madeleine Jayme Phones & Addresses

  • Cincinnati, OH
  • Pittsburgh, PA

Work

Company: Ethicon, inc. Jul 2017 Position: Research and development design engineer

Education

School / High School: Georgia Institute of Technology 2012 to 2016 Specialities: Biomedical Engineering, Bioengineering

Skills

Matlab • Statistical Data Analysis • Java • Solidworks • Rapid Prototyping • Public Speaking • Mathematical Modeling • Mathematica • Plas • Six Sigma Green Belt • Design of Experiments • Finite Element Analysis • Design For Manufacturing • Design For Assembly

Interests

Health

Industries

Biotechnology

Resumes

Resumes

Madeleine Jayme Photo 1

Research And Development Design Engineer

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Location:
Atlanta, GA
Industry:
Biotechnology
Work:
Ethicon, Inc.
Research and Development Design Engineer
Johnson & Johnson
Research and Development Co-Op For Ethicon-Endo Surgery
Georgia Institute of Technology
Undergraduate Teaching Assistant
Georgia Institute of Technology
Startup Lab
Education:
Georgia Institute of Technology 2012 - 2016
Skills:
Matlab
Statistical Data Analysis
Java
Solidworks
Rapid Prototyping
Public Speaking
Mathematical Modeling
Mathematica
Plas
Six Sigma Green Belt
Design of Experiments
Finite Element Analysis
Design For Manufacturing
Design For Assembly
Interests:
Health

Publications

Us Patents

Bezel With Light Blocking Features For Modular Energy System

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US Patent:
20220313357, Oct 6, 2022
Filed:
Mar 30, 2021
Appl. No.:
17/217436
Inventors:
- Guaynabo PR, US
Stephen M. Leuck - Milford OH, US
Madeleine C. Jayme - Cincinnati OH, US
Ryan M. Asher - Cincinnati OH, US
Kristen G. Denzinger - Cincinnati OH, US
International Classification:
A61B 18/18
F21V 31/00
F21V 31/03
F21V 23/06
Abstract:
A port module removably coupleable to an energy module of a module energy system is disclosed. The port module includes a light pipe and a receptacle defined by the light pipe. The receptacle is configured to receive a plug of an electrosurgical instrument therein. A seal is defined between the light pipe and the receptacle.

Methods For Estimating And Controlling State Of Ultrasonic End Effector

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US Patent:
20230000518, Jan 5, 2023
Filed:
Jun 7, 2022
Appl. No.:
17/834397
Inventors:
- Zug, CH
Foster B. Stulen - Johns Island SC, US
Fergus P. Quigley - Mason OH, US
John E. Brady - Cincinnati OH, US
Gregory A. Trees - Loveland OH, US
Amrita S. Sawhney - Cincinnati OH, US
Patrick J. Scoggins - Loveland OH, US
Kristen G. Denzinger - Cincinnati OH, US
Craig N. Faller - Batavia OH, US
Madeleine C. Jayme - Cincinnati OH, US
Alexander R. Cuti - Pittsburgh PA, US
Matthew S. Schneider - Blue Ash OH, US
Chad P. Boudreaux - Cincinnati OH, US
Brian D. Black - Loveland OH, US
Maxwell T. Rockman - Cincinnati OH, US
Gregory D. Bishop - Hamilton OH, US
Eric M. Roberson - Lebanon OH, US
Stephen M. Leuck - Milford OH, US
James M. Wilson - Cincinnati OH, US
International Classification:
A61B 17/32
A61B 18/12
A61B 18/14
A61B 17/3211
A61B 17/00
A61B 17/22
Abstract:
Various aspects of a generator, ultrasonic device, and method for estimating and controlling a state of an end effector of an ultrasonic device are disclosed. The ultrasonic device includes an electromechanical ultrasonic system defined by a predetermined resonant frequency, including an ultrasonic transducer coupled to an ultrasonic blade. A control circuit measures a complex impedance of an ultrasonic transducer, wherein the complex impedance as defined asThe control circuit receives a complex impedance measurement data point and compares the complex impedance measurement data point to a data point in a reference complex impedance characteristic pattern. The control circuit then classifies the complex impedance measurement data point based on a result of the comparison analysis and assigns a state or condition of the end effector based on the result of the comparison analysis. The control circuit estimates the state of the end effector of the ultrasonic device and controls the state of the end effector of the ultrasonic device based on the estimated state.

Determining The State Of An Ultrasonic Electromechanical System According To Frequency Shift

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US Patent:
20210153889, May 27, 2021
Filed:
Dec 21, 2020
Appl. No.:
17/128552
Inventors:
- Guaynabo PR, US
Fergus P. Quigley - Mason OH, US
Kevin L. Houser - Springboro OH, US
David C. Yates - Morrow OH, US
Patrick J. Scoggins - Loveland OH, US
Craig N. Faller - Batavia OH, US
Madeleine C. Jayme - Cincinnati OH, US
International Classification:
A61B 17/32
A61B 34/37
A61B 90/30
A61B 90/00
A61B 17/072
A61B 17/295
A61B 18/12
A61B 18/14
A61B 5/06
Abstract:
An ultrasonic electromechanical system for an ultrasonic surgical instrument may include an ultrasonic blade, a clamp arm disposed opposite the ultrasonic blade, an ultrasonic transducer configured to oscillate the ultrasonic blade in response to a drive signal, and a control circuit coupled to the ultrasonic transducer. The control circuit can be configured to determine a temperature of the ultrasonic blade, increase an amount of power of the drive signal when the temperature of the ultrasonic blade is less than a first predetermined value, and decrease the amount of power of the drive signal when the temperature of the ultrasonic blade is greater than a second predetermined value. The second predetermined value may be greater than the first predetermined value. An ultrasonic generator connectable to the ultrasonic electromechanical system may include the control circuit.

Backplane Connector Design To Connect Stacked Energy Modules

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US Patent:
20200078116, Mar 12, 2020
Filed:
Sep 5, 2019
Appl. No.:
16/562188
Inventors:
- Guaynabo PR, US
Eitan T. Wiener - Cincinnati OH, US
Wells D. Haberstich - Loveland OH, US
Madeleine C. Jayme - Cincinnati OH, US
Ryan M. Asher - Cincinnati OH, US
Kristen G. Denzinger - Cincinnati OH, US
International Classification:
A61B 34/35
A61B 18/12
A61B 34/20
A61B 90/00
A61B 34/00
A61B 17/32
Abstract:
A first module configured to engage with a second module in a stacked configuration to define a modular energy system is provided. The second module comprises a second bridge connector portion that comprises a second outer housing and a second electrical connection element. The first module comprises a first bridge connector portion comprising a first outer housing and a first electrical connection element. The first outer housing is configured to engage the second outer housing during assembly of the modular energy system prior to the first electrical connection element engaging the second electrical connection element.

Methods For Estimating And Controlling State Of Ultrasonic End Effector

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US Patent:
20190274706, Sep 12, 2019
Filed:
Sep 27, 2018
Appl. No.:
16/144383
Inventors:
- Guaynabo PR, US
Foster B. Stulen - Mason OH, US
Fergus P. Quigley - Mason OH, US
John E. Brady - Cincinnati OH, US
Gregory A. Trees - Loveland OH, US
Amrita S. Sawhney - Cincinnati OH, US
Patrick J. Scoggins - Loveland OH, US
Kristen G. Denzinger - Cincinnati OH, US
Craig N. Faller - Batavia OH, US
Madeleine C. Jayme - Cincinnati OH, US
Alexander R. Cuti - Pittsburgh PA, US
Matthew S. Schneider - Blue Ash OH, US
Chad P. Boudreaux - Cincinnati OH, US
Brian D. Black - Loveland OH, US
Maxwell T. Rockman - Cincinnati OH, US
Gregory D. Bishop - Hamilton OH, US
Eric M. Roberson - Lebanon OH, US
Stephen M. Leuck - Milford OH, US
James M. Wilson - Cincinnati OH, US
International Classification:
A61B 17/32
A61B 17/3211
A61B 18/14
A61B 18/12
A61B 17/00
Abstract:
Various aspects of a generator, ultrasonic device, and method for estimating and controlling a state of an end effector of an ultrasonic device are disclsoed. The ultrasonic device includes an electromechanical ultrasonic system defined by a predetermined resonant frequency, including an ultrasonic transducer coupled to an ultrasonic blade. A control circuit measures a complex impedance of an ultrasonic transducer, wherein the complex impedance is defined asThe control circuit receives a complex impedance measurement data point and compares the complex impedance measurement data point to a data point in a reference complex impedance characteristic pattern. The control circuit then classifies the complex impedance measurement data point based on a result of the comparison analysis and assigns a state or condition of the end effector based on the result of the comparison analysis. The control circuit estimates the state of the end effector of the ultrasonic device and controls the state of the end effector of the ultrasonic device based on the estimated state.

Vessel Sensing For Adaptive Advanced Hemostasis

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US Patent:
20190274711, Sep 12, 2019
Filed:
Sep 27, 2018
Appl. No.:
16/144434
Inventors:
- Guaynabo PR, US
Madeleine C. Jayme - Cincinnati OH, US
Kristen G. Denzinger - Cincinnati OH, US
Cameron R. Nott - Loveland OH, US
Craig N. Faller - Batavia OH, US
International Classification:
A61B 17/32
A61B 34/30
A61B 18/14
A61B 18/12
Abstract:
An ultrasonic device may include an electromechanical ultrasonic system that includes an ultrasonic transducer coupled to an ultrasonic blade. A method of delivering energy to the ultrasonic device may include sensing a vessel type in contact with the blade, determining that the vessel type is either a vein or an artery, and delivering power to the transducer based on the vessel type. Power may be applied to the transducer at a power level P that differs from a nominal power level Pn for a period T that differs from a nominal period Tn based on the vessel. The power level P may be lower than Pn for a period T that is longer than Tn when the vessel is a vein. Alternatively, the power level P my be greater than Pn for a period T that is shorter than Tn when the vessel is an artery.

Smart Blade Technology To Control Blade Instability

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US Patent:
20190274712, Sep 12, 2019
Filed:
Sep 27, 2018
Appl. No.:
16/144455
Inventors:
- Guaynabo PR, US
Madeleine C. Jayme - Cincinnati OH, US
Cameron R. Nott - Loveland OH, US
International Classification:
A61B 17/32
A61B 17/00
A61B 17/3211
A61B 18/12
A61B 18/14
Abstract:
A method of determining instability of an ultrasonic blade includes monitoring a phase angle φ between voltage Vg(t) and current Ig(t) signals applied to an ultrasonic transducer, coupled to an ultrasonic blade via an ultrasonic waveguide, inferring the blade temperature based on the phase angle φ, comparing the inferred temperature to an ultrasonic blade instability trigger point threshold, and adjusting a power level applied to the ultrasonic transducer to modulate the temperature of the blade. The method may also include determining a frequency/temperature relationship of an ultrasonic blade that exhibits a displacement or modal instability and compensating for a thermal induced instability of the ultrasonic blade. The method may be implemented in an ultrasonic surgical instrument or by a control circuit in a power generator for the ultrasonic surgical instrument.

Calcified Vessel Identification

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US Patent:
20190274713, Sep 12, 2019
Filed:
Sep 27, 2018
Appl. No.:
16/144460
Inventors:
- Guaynabo PR, US
Madeleine C. Jayme - Cincinnati OH, US
Kristen G. Denzinger - Cincinnati OH, US
Cameron R. Nott - Loveland OH, US
Craig N. Faller - Batavia OH, US
International Classification:
A61B 17/32
A61B 18/12
A61B 17/3211
A61B 18/14
A61B 17/00
Abstract:
An ultrasonic device may include an ultrasonic system including a transducer coupled to an ultrasonic blade, A method of delivering energy to the device may include sensing a vessel contacting the blade, identifying that the vessel is calcified, and generating a warning. In some aspects, the method further includes disabling one or more activation functions of the blade. In another aspect, the method further includes generating a message to apply compression to the vessel for a predetermined period, disabling activation functions of the blade during compression, and enabling activation functions after the expiration of the compression period. In yet another aspect, the method includes applying a compressive clamp force to the calcified vessel by driving a clamp arm toward the blade, disabling activation functions of the blade during compression, and enabling the activation functions after adjusting the compressive force. An ultrasonic surgical instrument may effect the method.
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Madeleine C Jayme from Cincinnati, OH, age ~31 Get Report