Expert Details
Medical Device Design and Analysis
ID: 726193
New Jersey, USA
He was responsible for developing devices and technology for patient gas monitoring devices, cardiac monitoring devices etc.
He was responsible for the development of several defibrillators.
He was responsible for the analysis of numerous electrocautery devices and their impact on burn causation, electric shock, fire injury, etc. as well as developing numerous devices used for patient monitoring and care.
He was responsible for the development and research of numerous patient monitoring devices.
He was responsible for the development of numerous devices used to monitor critically ill patients in a hospital environment including but not limited to oxygen monitors, anesthesia gas monitors, cardiac monitors, defibrillators, heart pumps, blood pressure monitors, temperature monitors, etc.
He was responsible for the development of numerous devices used to monitor critically ill patients in a hospital environment including but not limited to oxygen monitors, anesthesia gas monitors, cardiac monitors, defibrillators, heart pumps, blood pressure monitors, temperature monitors, etc., as well as researching new technology.
He was responsible for the analysis of numerous electrocautery devices and their impact on burn causation, electric shock, fire injury, interference, etc.
He was responsible for the analysis of numerous electrocautery devices and their impact on burn causation, electric shock, fire injury, interference, etc.
He was responsible for the development of numerous devices used to monitor critically ill patients in a hospital environment including but not limited to oxygen monitors, anesthesia gas monitors, cardiac monitors, defibrillators, heart pumps, blood pressure monitors, temperature monitors, etc.
He was responsible for the development of numerous devices used to monitor critically ill patients in a hospital environment including but not limited to oxygen monitors, anesthesia gas monitors, cardiac monitors, defibrillators, heart pumps, blood pressure monitors, temperature monitors, etc.
He was responsible for the development of manufacturing protocols for numerous devices used to monitor critically ill patients in a hospital environment including but not limited to oxygen monitors, anesthesia gas monitors, cardiac monitors, defibrillators, heart pumps, blood pressure monitors, temperature monitors, etc.
He was responsible for the development of numerous devices used to monitor critically ill patients in a hospital environment including but not limited to oxygen monitors, anesthesia gas monitors, cardiac monitors, defibrillators, heart pumps, blood pressure monitors, temperature monitors, etc.
He was responsible for the development of numerous devices used to monitor critically ill patients in a hospital environment including but not limited to oxygen monitors, anesthesia gas monitors, cardiac monitors, defibrillators, heart pumps, blood pressure monitors, temperature monitors, etc. He was also responsible for technology upgrades and improvements of existing devices.
He was responsible for the testing and development of numerous devices used to monitor critically ill patients in a hospital environment including but not limited to oxygen monitors, anesthesia gas monitors, cardiac monitors, defibrillators, heart pumps, blood pressure monitors, temperature monitors, etc. This included reliability testing of software and hardware.
He was responsible for maintaining national and international safety agency compliance.
He was responsible for the testing and development of numerous devices used to monitor critically ill patients in a hospital environment including but not limited to oxygen monitors, anesthesia gas monitors, cardiac monitors, defibrillators, heart pumps, blood pressure monitors, temperature monitors, etc. This included reliability testing of software and hardware.
He was responsible for the development of numerous devices used to monitor critically ill patients in a hospital environment including but not limited to oxygen monitors, anesthesia gas monitors, cardiac monitors, defibrillators, heart pumps, blood pressure monitors, temperature monitors, etc., as well as researching new technology.
He was responsible for the development of numerous devices used to monitor critically ill patients in a hospital environment including but not limited to oxygen monitors, anesthesia gas monitors, cardiac monitors, defibrillators, heart pumps, blood pressure monitors, temperature monitors, etc., as well as researching new technology.
He was responsible for the testing and development of numerous devices used to monitor critically ill patients in a hospital environment including but not limited to oxygen monitors, anesthesia gas monitors, cardiac monitors, defibrillators, heart pumps, blood pressure monitors, temperature monitors, etc. This included reliability testing of software.
Education
| Year | Degree | Subject | Institution |
|---|---|---|---|
| Year: 1975 | Degree: BEEE | Subject: Electrical Engineering | Institution: New York University |
Work History
| Years | Employer | Title | Department |
|---|---|---|---|
| Years: 1994 to Present | Employer: Undisclosed | Title: Owner | Department: |
Responsibilities:Available upon request. |
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| Years | Employer | Title | Department |
| Years: 1980 to 1994 | Employer: Datascope | Title: Director Research and Development | Department: Engineering, Technology Research |
Responsibilities:He was responsible for all new product development and new technology research for a large medical device manufacturer. Managed 55 designers both software and hardware. |
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| Years | Employer | Title | Department |
| Years: 1970 to 1980 | Employer: Buchler Instruments | Title: Chief Engineer | Department: Engineering, Product Development |
Responsibilities:He developed pharmaceutical research products used for, cancer research, automated bacteria detection systems, infra-red blood lead screening, sodium analyzers for cystic fibrosis screening, and tissue combustors. Managed electrical engineers and technical support staff. |
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| Years | Employer | Title | Department |
| Years: 1964 to 1970 | Employer: Chronetics, Atomic Research Device Manufacturer | Title: Manager, Quality Assurance | Department: |
Responsibilities:He assisted in the development, testing and quality assurance of a series of highly specialized products for use by atomic energy research facilities. These instruments consisted of high speed logic modules and event counters, used to research atomic particles and their physical properties. |
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Fields of Expertise
510(k) document, biomedical device manufacturing, defibrillator, biomedical engineering, biomedical instrument, electronic medical device, electronic medical device design, electrocautery instrument, electrosurgical product, medical device, medical device evaluation, medical device manufacturing, medical device product development, medical device product improvement, medical device reliability testing, medical device safety, medical device testing, medical instrument, medical product, medical software quality assurance