SALUTARIS MEDICAL DEVICES INC has a total of 36 patent applications. It increased the IP activity by 100.0%. Its first patent ever was published in 2009. It filed its patents most often in United States, Australia and EPO (European Patent Office). Its main competitors in its focus markets medical technology and engines, pumps and turbines are PROXIMA THERAPEUTICS INC, CORTRAK MEDICAL INC and LITTLEFORD PHILIP O.
# | Country | Total Patents | |
---|---|---|---|
#1 | United States | 10 | |
#2 | Australia | 4 | |
#3 | EPO (European Patent Office) | 4 | |
#4 | Japan | 3 | |
#5 | Taiwan | 3 | |
#6 | WIPO (World Intellectual Property Organization) | 3 | |
#7 | EAPO (Eurasian Patent Organization) | 2 | |
#8 | Republic of Korea | 2 | |
#9 | Argentina | 1 | |
#10 | Canada | 1 | |
#11 | Chile | 1 | |
#12 | Hong Kong | 1 | |
#13 | Hungary | 1 |
# | Industry | |
---|---|---|
#1 | Medical technology | |
#2 | Engines, pumps and turbines |
# | Technology | |
---|---|---|
#1 | Electrotherapy | |
#2 | Syringes | |
#3 | Implantable devices | |
#4 | Diagnosis and surgery | |
#5 | X-ray microscopes | |
#6 | Energy from radioactive sources | |
#7 | Chemical element conversion |
# | Name | Total Patents |
---|---|---|
#1 | Hamilton Russell J | 29 |
#2 | Marsteller Laurence J | 24 |
#3 | Brigatti Luca | 20 |
#4 | Voevodsky Michael | 12 |
#5 | Voevodsky Mike | 9 |
#6 | Dicarlo Paul | 5 |
#7 | Meade Eric | 5 |
#8 | Degon Robert | 5 |
#9 | Lutz Wendell | 4 |
#10 | Hyman Samuel S | 4 |
Publication | Filing date | Title |
---|---|---|
US2018296855A1 | Brachytherapy applicator systems and methods | |
US2018229055A1 | Methods and devices for application of beta radiation treatment following glaucoma surgery | |
WO2017112891A1 | Brachytherapy applicator systems and methods | |
US10022558B1 | Methods and devices for minimally-invasive delivery of radiation to the eye | |
AU2015204094A1 | Methods and devices for minimally-invasive extraocular delivery of radiation to the posterior portion of the eye | |
WO2015105539A2 | Radiation system with emanating source surrounding an internal attenuation component | |
US2016375267A1 | Methods and devices for minimally-invasive delivery of radiation to the eye | |
US9056201B1 | Methods and devices for minimally-invasive delivery of radiation to the eye | |
WO2011053908A1 | Methods and devices for delivering appropriate minimally-invasive extraocular radiation | |
TW201722375A | Methods and devices for minimally-invasive extraocular delivery of radiation to the posterior portion of the eye | |
HUE028406T2 | Devices for minimally-invasive extraocular delivery of radiation to the posterior portion of the eye |