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Kinuko S Masaki

from Belvedere Tiburon, CA
Age ~51
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Also known as:
Kinu Masaki, Masaki Kinuko
Related to:
Victoria Elizabeth Masaki, 61Masaki Hashimoto, 46
Connected to:
Hayashi Masaki, 67Karen K Masaki, 74Noreen H Masaki, 65Stacy F Masaki, 44Stephen A Masakowski, 70Norbert F Masal, 72Gary D Masales, 78Ahmad Masalmeh, 42Anthony J Masalonis, 56Andrzej Masalski, 56

Kinuko Masaki Phones & Addresses

  • Belvedere Tiburon, CA
  • San Francisco, CA
  • Santa Monica, CA
  • Palo Alto, CA
  • Boxborough, MA
  • Boston, MA
  • Cambridge, MA

Work

Company: Voiceme.ai Dec 2018 Position: Chief executive officer and co-founder

Education

Degree: Doctorates, Doctor of Philosophy School / High School: Stanford University School of Medicine 2006 to 2009

Skills

Biomedical Engineering • Medical Devices • Signal Processing • Life Sciences • Cell • Biotechnology • Product Development • Matlab • Research • Science • Lifesciences • Programming • Clinical Trials • Labview • Statistics

Industries

Computer Software

Resumes

Resumes

Kinuko Masaki Photo 1

Chief Executive Officer And Co-Founder

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Location:
San Francisco, CA
Industry:
Computer Software
Work:
Voiceme.ai
Chief Executive Officer and Co-Founder
Earlens Corporation Jan 1, 2013 - Jan 1, 2015
Principal R and D Scientist
Smartear Jan 1, 2013 - Jan 1, 2015
Chief Executive Officer and Co-Founder
Earlens Corporation May 2013 - Jan 2015
Clinical Study Coordinator
Advanced Bionics Jul 2010 - Nov 2012
Principal Scientist
Education:
Stanford University School of Medicine 2006 - 2009
Doctorates, Doctor of Philosophy Massachusetts Institute of Technology 1996 - 2006
Doctorates, Masters, Doctor of Philosophy, Electrical Engineering and Computer Science, Computer Science, Electrical Engineering, Health Science, Engineering Massachusetts Institute of Technology 1992 - 1996
Bachelors, Bachelor of Science, Computer Science, Engineering, Computer Science and Engineering
Skills:
Biomedical Engineering
Medical Devices
Signal Processing
Life Sciences
Cell
Biotechnology
Product Development
Matlab
Research
Science
Lifesciences
Programming
Clinical Trials
Labview
Statistics

Publications

Us Patents

Systems And Methods For Fitting A Cochlear Implant System To A Patient Based On Stapedius Displacement

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US Patent:
20110137180, Jun 9, 2011
Filed:
Dec 2, 2010
Appl. No.:
12/958746
Inventors:
William L. Johnson - Santa Clarita CA, US
Kinuko Masaki - Santa Monica CA, US
Assignee:
Advanced Bionics AG, c/o Froriep Renggli - Zug
International Classification:
A61B 5/05
A61B 6/00
US Classification:
600478, 600554
Abstract:
An exemplary system includes an implantable cochlear stimulator configured to be implanted within a patient, a sound processor communicatively coupled to the implantable cochlear stimulator and configured to direct the implantable cochlear stimulator to generate and apply electrical stimulation to one or more stimulation sites within a cochlea of the patient, and a displacement sensor assembly configured to measure a displacement of the stapedius of the patient that occurs in response to the application of the electrical stimulation and transmit displacement data representative of the measured displacement to the sound processor. Corresponding systems and methods are also disclosed.

Systems And Methods For Facilitating Use Of A Middle Ear Analyzer In Determining One Or More Stapedius Reflex Thresholds Associated With A Cochlear Implant Patient

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US Patent:
20150297890, Oct 22, 2015
Filed:
Nov 30, 2012
Appl. No.:
14/648645
Inventors:
- Staefa, CH
Leonid M. Litvak - Los Angeles CA, US
Kinuko Masaki - San Francisco CA, US
Charles C. Finley - Stevenson Ranch CA, US
Assignee:
Advance Bionics AG - Staefa
International Classification:
A61N 1/36
A61N 1/02
A61N 1/05
Abstract:
An exemplary system includes a detection facility configured to 1) receive an acoustic signal transmitted by a middle ear analyzer and 2) detect a sound level of the acoustic signal, and a processing facility configured to 1) use the sound level of the acoustic signal to control a current level of electrical stimulation applied by a cochlear implant system by way of a first set of one or more electrodes implanted within a patient, 2) synchronize the middle ear analyzer with the cochlear implant system in accordance with a first mapping data set during a first stapedius reflex measurement session, 3) identify a current level of the electrical stimulation at which the stapedius reflex occurs, and 4) automatically generate a second mapping data set based on the identified current level for use during a second stapedius reflex measurement session subsequent to the first stapedius reflex measurement session.

Stapedius Reflex Measurement Safety Systems And Methods

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US Patent:
20140323905, Oct 30, 2014
Filed:
Nov 15, 2011
Appl. No.:
14/357903
Inventors:
Aniket Saoji - Ann Arbor MI, US
Kinuko Masaki - San Francisco CA, US
Assignee:
ADVANCED BIONICS AG - Staefa
International Classification:
H04R 25/00
A61B 5/00
A61N 1/36
US Classification:
600554, 600 25
Abstract:
An exemplary stapedius reflex measurement safety system includes a stimulation management facility configured to direct a cochlear implant system to apply an electrical stimulus to an auditory pathway of a patient and a detection facility configured to determine that a change in acoustic immittance that occurs as the electrical stimulus is being applied by the cochlear implant system is likely representative of a rise time phase associated with an occurrence of a stapedius reflex within the patient. The stimulation management facility is further configured to direct, in response to the determination, the cochlear implant system to cease applying the electrical stimulus.

Systems And Methods For Synchronizing An Operation Of A Middle Ear Analyzer And A Cochlear Implant System

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US Patent:
20140309712, Oct 16, 2014
Filed:
Nov 15, 2011
Appl. No.:
14/357896
Inventors:
Kinuko Masaki - San Francisco CA, US
Abhijit Kulkarni - Newbury Park CA, US
Aniket Saoji - Ann Arbor MI, US
Leonid M. Litvak - Los Angeles CA, US
Assignee:
ADVANCED BIONICS AG - Staefa
International Classification:
A61N 1/36
US Classification:
607 57
Abstract:
An exemplary system for synchronizing an operation of a middle ear analyzer and a cochlear implant system includes 1) a mapping facility configured to maintain mapping data representative of an association between a plurality of sound levels and a plurality of current levels and between a plurality of frequencies and a plurality of electrodes, 2) a detection facility configured to receive an acoustic signal transmitted by the middle ear analyzer and detect a sound level and a frequency of the acoustic signal, and 3) a processing facility configured to identify, based on the mapping data, a current level associated with the detected sound level and one or more electrodes associated with the detected frequency and direct the cochlear implant system to apply electrical stimulation having the identified current level to one or more stimulation sites within a patient by way of the identified one or more electrodes.
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Kinuko S Masaki from Belvedere Tiburon, CA, age ~51 Get Report