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EP4075446
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EP About this file: EP4075446
| EP4075446 - METHOD AND SYSTEM FOR MODELLING BLOOD VESSELS AND BLOOD FLOW UNDER HIGH-INTENSITY PHYSICAL EXERCISE CONDITIONS [Right-click to bookmark this link] | Status | Request for examination was made Status updated on 21.04.2023 Database last updated on 18.01.2025 | |
| Former | The application has been published Status updated on 16.09.2022 | Most recent event Tooltip | 29.04.2024 | New entry: Renewal fee paid | Applicant(s) | For all designated states Kardiolytics Inc. 296 Woodward Blvd. Tulsa, OK 74114 / US | [2022/42] | Inventor(s) | 01 /
MALOTA, Zbigniew Tychy / PL | 02 /
SADOWSKI, Wojciech Zabrze / PL | 03 /
SIEMIONOW, Kris Chicago / US | 04 /
LEWICKI, Paul Tulsa / US | [2022/42] | Representative(s) | Kancelaria Eupatent.pl Sp. z.o.o Ul. Kilinskiego 185 90-348 Lodz / PL | [2022/42] | Application number, filing date | 21169042.5 | 18.04.2021 | [2022/42] | Filing language | EN | Procedural language | EN | Publication | Type: | A1 Application with search report | No.: | EP4075446 | Date: | 19.10.2022 | Language: | EN | [2022/42] | Search report(s) | (Supplementary) European search report - dispatched on: | EP | 13.10.2021 | Classification | IPC: | G16H50/50 | [2022/42] | CPC: |
G16H50/50 (EP);
A61B34/10 (US);
G16H30/20 (US);
A61B2034/105 (US)
| Designated contracting states | AL, AT, BE, BG, CH, CY, CZ, DE, DK, EE, ES, FI, FR, GB, GR, HR, HU, IE, IS, IT, LI, LT, LU, LV, MC, MK, MT, NL, NO, PL, PT, RO, RS, SE, SI, SK, SM, TR [2023/21] |
| Former [2022/42] | AL, AT, BE, BG, CH, CY, CZ, DE, DK, EE, ES, FI, FR, GB, GR, HR, HU, IE, IS, IT, LI, LT, LU, LV, MC, MK, MT, NL, NO, PL, PT, RO, RS, SE, SI, SK, SM, TR | Extension states | BA | Not yet paid | ME | Not yet paid | Validation states | KH | Not yet paid | MA | Not yet paid | MD | Not yet paid | TN | Not yet paid | Title | German: | VERFAHREN UND SYSTEM ZUR MODELLIERUNG VON BLUTGEFÄSSEN UND BLUTFLUSS UNTER HOCHINTENSIVEN KÖRPERLICHEN ÜBUNGSBEDINGUNGEN | [2022/42] | English: | METHOD AND SYSTEM FOR MODELLING BLOOD VESSELS AND BLOOD FLOW UNDER HIGH-INTENSITY PHYSICAL EXERCISE CONDITIONS | [2022/42] | French: | PROCÉDÉ ET SYSTÈME DE MODÉLISATION DES VAISSEAUX SANGUINS ET DU FLUX SANGUIN DANS DES CONDITIONS D'EXERCICE PHYSIQUE DE HAUTE INTENSITÉ | [2022/42] | Examination procedure | 19.04.2023 | Amendment by applicant (claims and/or description) | 19.04.2023 | Examination requested [2023/21] | 19.04.2023 | Date on which the examining division has become responsible | Fees paid | Renewal fee | 28.04.2023 | Renewal fee patent year 03 | 28.04.2024 | Renewal fee patent year 04 |
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| Responsibility for the accuracy, completeness or quality of the data displayed under the link provided lies entirely with the Unified Patent Court. | Documents cited: | Search | [I]US9087147 (FONTE TIMOTHY A [US]) [I] 1-10* column 16, line 36 - column 77, line 11 * | by applicant | US2012041318 | US2014200867 | US2014249790 | US2015065846 | EP2845537 | US2017265831 | EP3629341 | - CRYSTAL GEORGE J, "Fractional Flow Reserve: Physiological Basis, Advantages and Limitations and Potential Gender Differences", Current Cardiology Reviews, (20150000), vol. 11, pages 209 - 219 | - FLETCHER GF et al., "Exercise Standards for Testing and Training. A Statement for Healthcare Professionals From the American Heart Association", Circulation, (20010000), vol. 104, pages 1694 - 1740 | - WOLTHUIS RA et al., "The response of healthy men to treadmill exercise", Circulation, (19770000), vol. 55, pages 153 - 157 | - MALOTA Z. et al., "Numerical analysis of the impact of flow rate, heart rate, vessel geometry, and degree of stenosis on coronary hemodynamic indices", BMC Cardiovascular Disorders, (20180000), vol. 18, doi:10.1186/s12872-018-0865-6, page 132, XP055647778 DOI: http://dx.doi.org/10.1186/s12872-018-0865-6 | - DUNCKER D et al., "Regulation of Coronary Blood Flow in Health and Ischemic Heart Disease", Prog Cardiovasc Dis., (20150000), vol. 57, no. 5, pages 409 - 422 | - HOWEVER, LO et al., "On outflow boundary conditions for CT-based computation of FFR: Examination using PET images", Med Eng Phys, (20200000), vol. 76, doi:10.1016/j.medengphy.2019.10.007, pages 79 - 87, XP085980269 DOI: http://dx.doi.org/10.1016/j.medengphy.2019.10.007 | - DOGE et al., "Lumen diameter of normal human coronary arteries. Influence of age, sex, anatomic variation, and left ventricular hypertrophy or dilation", Circulation, (19920000), vol. 86, pages 232 - 246 | - CHOY JS, "Scaling of Myocardial Mass to Flow and Morphometry of Coronary Arteries", J Appl Physiol, (20080000), vol. 104, no. 5, pages 1281 - 1286 | - RYUU K. TM. et al., "Importance of Accurate Geometry in the Study of the Total Cavopulmonary Connection: Computational Simulations and In Vitro Experiments", Annals of Biomedical Engineering, (20010000), vol. 29, pages 844 - 853 | - SPAAN JAE et al., "Physiological basis of clinically used coronary hemodynamic indices", Circulation, (20060000), vol. 113, doi:10.1161/CIRCULATIONAHA.105.587196, pages 446 - 455, XP055242363 DOI: http://dx.doi.org/10.1161/CIRCULATIONAHA.105.587196 | - DOLE WP et al., "Diastolic coronary artery pressure-flow velocity relationships in conscious man", Cardiovasc Res., (19840000), vol. 18, no. 9, pages 548 - 554 | - NANTO S et al., "Determination of coronary zero flow pressure by analysis of the baseline pressure - flow relationship in humans", Jpn Circ J, (20010000), vol. 65, no. 9, pages 793 - 796 |