MICRODOSE THERAPEUTX INC has a total of 395 patent applications. It decreased the IP activity by 16.0%. Its first patent ever was published in 1997. It filed its patents most often in United States, EPO (European Patent Office) and WIPO (World Intellectual Property Organization). Its main competitors in its focus markets medical technology, pharmaceuticals and machines are DJUPESLAND PER GISLE, OPTINOSE AS and SANOFI-AVENTIS DOJCHLAND GMBKH.
# | Country | Total Patents | |
---|---|---|---|
#1 | United States | 44 | |
#2 | EPO (European Patent Office) | 42 | |
#3 | WIPO (World Intellectual Property Organization) | 36 | |
#4 | Canada | 32 | |
#5 | Australia | 31 | |
#6 | Israel | 25 | |
#7 | China | 23 | |
#8 | Mexico | 23 | |
#9 | Republic of Korea | 21 | |
#10 | Hong Kong | 18 | |
#11 | Brazil | 16 | |
#12 | Argentina | 14 | |
#13 | New Zealand | 13 | |
#14 | Taiwan | 11 | |
#15 | Japan | 8 | |
#16 | South Africa | 8 | |
#17 | EAPO (Eurasian Patent Organization) | 6 | |
#18 | Peru | 6 | |
#19 | Chile | 5 | |
#20 | Singapore | 4 | |
#21 | Uruguay | 4 | |
#22 | Colombia | 1 | |
#23 | India | 1 | |
#24 | Malaysia | 1 | |
#25 | Philippines | 1 | |
#26 | Ukraine | 1 |
# | Industry | |
---|---|---|
#1 | Medical technology | |
#2 | Pharmaceuticals | |
#3 | Machines | |
#4 | Computer technology | |
#5 | Measurement | |
#6 | Organic fine chemistry |
# | Technology | |
---|---|---|
#1 | Syringes | |
#2 | Medical preparations | |
#3 | Therapeutic chemical compounds | |
#4 | Diagnosis and surgery | |
#5 | Spraying devices | |
#6 | Healthcare informatics | |
#7 | Measuring volume | |
#8 | Heterocyclic compounds | |
#9 | Generating mechanical vibrations | |
#10 | Shaping of plastics |
# | Name | Total Patents |
---|---|---|
#1 | Gumaste Anand V | 74 |
#2 | Akouka Henri | 52 |
#3 | Weitzel Douglas | 44 |
#4 | Morrison Mark Steven | 43 |
#5 | Fleming Scott | 40 |
#6 | Chan Philip | 39 |
#7 | Weitzel Douglas E | 34 |
#8 | Bowers John | 27 |
#9 | Leonard Robert | 25 |
#10 | Gumaste Anand | 21 |
Publication | Filing date | Title |
---|---|---|
US2020398004A1 | Inhaler and Methods of Use Thereof | |
NZ757752A | Inhaler with synthetic jetting | |
CA3056655A1 | Tidal inhaler adaptive dosing | |
AU2018239431A1 | Optical dry powder inhaler dose sensor | |
BR112019011843A2 | inhalation devices | |
AU2017342012A1 | Inhaler and methods of use thereof | |
WO2018071423A1 | Inhaler and methods of use thereof | |
WO2018071425A1 | Inhaler and methods of use thereof | |
EP3304378A1 | Medical device notification system | |
TW201639606A | Blister strip advance mechanism | |
TW201620569A | Compliance monitoring module for an inhaler | |
EP3185939A1 | Tidal dry powder inhaler with miniature pressure sensor activation | |
EP3166666A1 | Inhalation device | |
EP3171920A1 | Dry powder nebulizer | |
WO2016014153A1 | Dry powder nebulizer | |
US2017132391A1 | Medical device communication | |
AU2014221279A1 | Rotary cassette system for dry powder inhaler | |
US2014261414A1 | Inhalation device, control method and computer program | |
US2014154323A1 | Method for treating bronchial diseases | |
MX2015008333A | Methods and compositions for administration of oxybutynin. |