SAFEOP SURGICAL INC has a total of 49 patent applications. It increased the IP activity by 0.0%. Its first patent ever was published in 2010. It filed its patents most often in United States, China and EPO (European Patent Office). Its main competitors in its focus markets medical technology, computer technology and audio-visual technology are IOWA APPROACH INC, PACING INC E and FARAPULSE INC.
# | Country | Total Patents | |
---|---|---|---|
#1 | United States | 13 | |
#2 | China | 9 | |
#3 | EPO (European Patent Office) | 9 | |
#4 | WIPO (World Intellectual Property Organization) | 7 | |
#5 | Australia | 2 | |
#6 | Brazil | 2 | |
#7 | Canada | 2 | |
#8 | Hong Kong | 2 | |
#9 | Japan | 2 | |
#10 | Israel | 1 |
# | Industry | |
---|---|---|
#1 | Medical technology | |
#2 | Computer technology | |
#3 | Audio-visual technology |
# | Technology | |
---|---|---|
#1 | Diagnosis and surgery | |
#2 | Electrotherapy | |
#3 | Operating tables | |
#4 | Syringes | |
#5 | Healthcare informatics | |
#6 | Electric digital data processing | |
#7 | Special information storage |
# | Name | Total Patents |
---|---|---|
#1 | Snow Robert | 17 |
#2 | O'Brien Richard | 15 |
#3 | Mahon Cameron | 11 |
#4 | O'Brien Richard A | 10 |
#5 | Johns Gregg | 10 |
#6 | Stashuk Dan | 9 |
#7 | Johnson Samuel | 6 |
#8 | Labelle Curt | 6 |
#9 | O'Brien Richard Arthur | 6 |
#10 | Labelle Curt H | 5 |
Publication | Filing date | Title |
---|---|---|
US2018360336A1 | Systems, methods, and devices for detecting the threshold of nerve-muscle response using variable frequency of stimulation | |
US2018310849A1 | Medical systems and methods for detecting changes in electrophysiological evoked potentials | |
CN109937003A | System and method for placing spinal stimulator lead | |
US2018078210A1 | System and method for detecting and removing periodic non-physiological artifact from evoked potentials | |
WO2016179191A1 | System, method, and computer algorithm for measuring, displaying, and accurately detecting changes in electrophysiological evoked potentials | |
WO2016086176A1 | A device and means of assessing neuromuscular junction status with higher fidelity | |
CN111419179A | System for detecting neurological function | |
CN105764413A | Systems and methods for preventing contamination of recorded biological signals during surgery | |
CA2874743A1 | System, method, and computer algorithm for characterization and classification of electrophysiological evoked potentials |