Matthias John
42Patents
7h-index
58Co-inventors
72Inventor score
Filing activity: May 10, 1999 → Feb 12, 2021
Most-cited inventions
| Patent | Title | Area | Cited by | Status |
|---|---|---|---|---|
| US8045780B2 | Device for merging a 2D radioscopy image with an image from a 3D image data record | Physics | 35 | Active |
| US10390780B2 | Method and X-ray device for temporal up-to-date representation of a moving section of a body, computer program product and data carrier | Human Necessities | 32 | Active |
| US9687204B2 | Method and system for registration of ultrasound and physiological models to X-ray fluoroscopic images | Human Necessities | 20 | Active |
| US8494245B2 | System and method for guiding transcatheter aortic valve implantations based on interventional C-Arm CT imaging | Physics | 17 | Active |
| US7889227B2 | Intuitive user interface for endoscopic view visualization | Physics | 9 | Active |
| US8724881B2 | Method and system for precise segmentation of the left atrium in C-arm computed tomography volumes | Physics | 8 | Active |
| US9384546B2 | Method and system for pericardium based model fusion of pre-operative and intra-operative image data for cardiac interventions | Physics | 7 | Active |
| US9384413B2 | Method and device for automatic or semi-automatic segmentation of a 3D image data set | Physics | 5 | Active |
| US8099155B2 | Method for assisting with percutaneous interventions | Physics | 5 | Active |
| US9824302B2 | Method and system for model-based fusion of multi-modal volumetric images | Physics | 4 | Active |
| US8655041B2 | Automatic detection of contrast injection | Physics | 4 | Active |
| US8644576B2 | Method and system for multi-part left atrium segmentation in C-arm computed tomography volumes using shape constraints | Physics | 4 | Active |
| US9014423B2 | Method and system for catheter tracking in fluoroscopic images using adaptive discriminant learning and measurement fusion | Physics | 4 | Active |
| US8165839B2 | Calibration of an instrument location facility with an imaging apparatus | Human Necessities | 3 | Active |
| US8724874B2 | Fusion of 3D volumes with CT reconstruction | Physics | 3 | Active |
| US9189851B2 | Method of motion compensation for trans-catheter aortic valve implantation | Physics | 3 | Active |
| US8253093B2 | Optoelectronic detector assembly and method of operating same | Physics | 3 | Active |
| US8005283B2 | Method and device for the combined representation of 2D fluoroscopic images and a static 3D image data set | Physics | 3 | Active |
| US9292917B2 | Method and system for model-based fusion of computed tomography and non-contrasted C-arm computed tomography | Physics | 3 | Active |
| US9155470B2 | Method and system for model based fusion on pre-operative computed tomography and intra-operative fluoroscopy using transesophageal echocardiography | Physics | 2 | Active |
| US8177835B2 | Method of imaging for heart valve implant procedure | Human Necessities | 2 | Active |
| US8712177B2 | Motion compensated overlay | Physics | 2 | Active |
| US9999399B2 | Method and system for pigtail catheter motion prediction | Physics | 1 | Active |
| US9036880B2 | High-resolution three-dimensional medical imaging with dynamic real-time information | Physics | 1 | Active |
| US6204965A | Microscope with table device | Physics | 1 | Expired |
Source: USPTO / EPO open patent data. Inventor disambiguation is heuristic; counts are objective bibliographic measures.