Mark A. Moehring
35Patents
12h-index
36Co-inventors
81Inventor score
Filing activity: May 16, 1990 → Nov 15, 2023
Most-cited inventions
| Patent | Title | Area | Cited by | Status |
|---|---|---|---|---|
| US6635017B1 | Method and apparatus combining diagnostic ultrasound with therapeutic ultrasound to enhance thrombolysis | Human Necessities | 142 | Expired |
| US7771358B2 | System and method for grading microemboli monitored by a multi-gate doppler ultrasound system | Human Necessities | 119 | Active |
| US7537568B2 | Doppler ultrasound method and apparatus for monitoring blood flow | Physics | 117 | Expired |
| US6524249B2 | Doppler ultrasound method and apparatus for monitoring blood flow and detecting emboli | Human Necessities | 70 | Expired |
| US5052395A | Non-invasive ultrasonic pulse doppler cardiac output monitor | Human Necessities | 70 | Expired |
| US5348015A | Method and apparatus for ultrasonically detecting, counting and/or characterizing emboli | Human Necessities | 55 | Expired |
| US6196972A | Doppler ultrasound method and apparatus for monitoring blood flow | Physics | 53 | Expired |
| US7425198B2 | Method and apparatus for automatic location of blood flow with Doppler ultrasound | Human Necessities | 47 | Expired |
| US7128713B2 | Doppler ultrasound method and apparatus for monitoring blood flow and hemodynamics | Human Necessities | 44 | Expired |
| US6547736B1 | Doppler ultrasound method and apparatus for monitoring blood flow and detecting emboli | Electricity | 44 | Expired |
| US6616611B1 | Doppler ultrasound method and apparatus for monitoring blood flow | Physics | 42 | Expired |
| US8162837B2 | Medical doppler ultrasound system for locating and tracking blood flow | Physics | 23 | Active |
| US8394025B2 | Method and apparatus for determining the absolute value of intracranial pressure | Human Necessities | 11 | Active |
| US10660604B2 | Apparatus and method for characterization of acute otitis media | Human Necessities | 6 | Active |
| US10675001B2 | Apparatus and method for characterization of a ductile membrane, surface, and sub-surface properties | Performing Operations; Transporting | 6 | Active |
| US7771356B2 | Ultrasound tympanoscope | Human Necessities | 6 | Active |
| US10568515B2 | Optical coherence tomography device for otitis media | Human Necessities | 4 | Active |
| USD1082798S1 | Display screen portion having a graphical user interface with an animated icon of a tympanic membrane mobility scale | General | 3 | Active |
| US10357161B1 | Infrared otoscope for characterization of effusion | Physics | 2 | Active |
| US11627935B2 | Apparatus and method for characterization of acute otitis media | Human Necessities | 2 | Active |
| US11361434B2 | Machine learning for otitis media diagnosis | Physics | 2 | Active |
| US11660074B2 | Apparatus and method for characterization of a ductile membrane, surface, and sub-surface properties | Performing Operations; Transporting | 2 | Active |
| US11850091B2 | Small-scale capacitive ultrasound transducer devices and methods | Performing Operations; Transporting | 1 | Active |
| US11317811B2 | Infrared otoscope for characterization of effusion | Physics | 1 | Active |
| US11445942B2 | Acoustic otoscope | Human Necessities | 1 | Active |
Source: USPTO / EPO open patent data. Inventor disambiguation is heuristic; counts are objective bibliographic measures.