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Extract from the Register of European Patents

EP About this file: EP3972685

EP3972685 - METHOD AND SYSTEM FOR REGULATION AND RESTORATION OF INDEPENDENT STEPPING FOR PATIENTS WITH MOTOR PATHOLOGY [Right-click to bookmark this link]
StatusThe application has been withdrawn
Status updated on  29.11.2024
Database last updated on 30.03.2026
FormerRequest for examination was made
Status updated on  25.02.2022
FormerThe international publication has been made
Status updated on  27.11.2020
Formerunknown
Status updated on  05.06.2020
Most recent event   Tooltip29.11.2024Withdrawal of applicationpublished on 01.01.2025  [2025/01]
Applicant(s)For all designated states
Cosyma Ltd
Territoriya innovatsionnogo tsentra "Skolkovo"
Ul.Bolshoy Bulvar, dom 42, stroenie 1, etazh 1
Ch.pom. 334
Moscow, 143026 / RU
[2022/13]
Inventor(s)01 / GERASIMENKO, Yuri Petrovich
Koltushi, 188680 / RU
02 / MOSHONKINA, Tatiana Romulievna
5 liniya V.O., dom 56, kv. 24
Sankt-Peterburg, 199004 / RU
03 / GRISHIN, Alexandr Alekseevich
ul. Sholokhova, d. 13, kv. 40
Moscow, 119634 / RU
 [2022/13]
Representative(s)Vanzini, Christian
Jacobacci & Partners S.p.A. Corso Emilia 8
10152 Torino / IT
[N/P]
Former [2022/13]Berggren Oy
P.O. Box 16
Eteläinen Rautatiekatu 10A
00101 Helsinki / FI
Application number, filing date20728573.505.02.2020
[2022/13]
WO2020RU50012
Priority number, dateRU2019011479220.05.2019         Original published format: RU 2019114792
[2022/13]
Filing languageEN
Procedural languageEN
PublicationType: A1 Application with search report
No.:WO2020236032
Date:26.11.2020
Language:EN
[2020/48]
Type: A1 Application with search report 
No.:EP3972685
Date:30.03.2022
Language:EN
The application published by WIPO in one of the EPO official languages on 26.11.2020 takes the place of the publication of the European patent application.
[2022/13]
Search report(s)International search report - published on:EP26.11.2020
ClassificationIPC:A61N1/36
[2022/13]
CPC:
A61N1/36014 (EP,IL,US); A61N1/36003 (EP,IL,US); A61F2/72 (RU);
A61N1/0456 (US); A61N1/36034 (US)
Designated contracting statesAL,   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 [2022/13]
TitleGerman:VERFAHREN UND SYSTEM ZUR REGELUNG UND WIEDERHERSTELLUNG VON UNABHÄNGIGEN SCHRITTEN FÜR PATIENTEN MIT ERKRANKUNGEN DES BEWEGUNGSAPPARATES[2022/13]
English:METHOD AND SYSTEM FOR REGULATION AND RESTORATION OF INDEPENDENT STEPPING FOR PATIENTS WITH MOTOR PATHOLOGY[2022/13]
French:MÉTHODE ET SYSTÈME DE RÉGULATION ET DE RESTAURATION DE PAS INDÉPENDANT POUR DES PATIENTS PRÉSENTANT UNE PATHOLOGIE MOTRICE[2022/13]
Entry into regional phase17.12.2021National basic fee paid 
17.12.2021Designation fee(s) paid 
17.12.2021Examination fee paid 
Examination procedure17.12.2021Amendment by applicant (claims and/or description)
17.12.2021Examination requested  [2022/13]
17.12.2021Date on which the examining division has become responsible
25.11.2024Application withdrawn by applicant  [2025/01]
Fees paidRenewal fee
17.12.2021Renewal fee patent year 03
21.02.2023Renewal fee patent year 04
22.02.2024Renewal fee patent year 05
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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.
Cited inInternational search[Y] WO2017035512  (UNIV CALIFORNIA et al.)
 [Y] US2014128939  (EMBREY DAVID G et al.)
 [A] CA2956427  (BIONESS NEUROMODULATION LTD et al.)
by applicant  MARCO CAPOGROSSO ET AL.: "A brain-spine interface alleviating gait deficits after spinal cord injury in primates", NATURE, vol. 539, 2016, pages 284 - 288
   PARAG GAD ET AL.: "Forelimb EMG-based trigger to control an electronic spinal bridge to enable hindlimb stepping after a complete spinal cord lesion in rats", JOURNAL OF NEUROENGINEERING AND REHABILITATION, 2012
   SYUSAKU SASADA ET AL.: "Volitional Walking via Upper Limb Muscle-Controlled Stimulation of the Lumbar Locomotor Center in Man", JOURNAL OF NEUROSCIENCE, vol. 34, no. 33, 13 August 2014 (2014-08-13)
   "Targeted neurotechnology restores independent stepping in humans with spinal cord injury", NATURE, vol. 563, 2018, pages 65 - 71
   ALEKSANDROV ET AL.: "Sustainable control of the posture and movements of a standing humanoid based on the principle of natural human synergies", RUSSIAN JOURNAL OF BIOMECHANICS, vol. 17, no. 59, 2013, pages 94 - 109
   ZEHR E.P.DUYSENS J.: "Regulation of arm and leg movement during human locomotion", NEUROSCIENTIST., vol. 10, no. 4, 2004, pages 347
   SELIONOV V.A. ET AL.: "INTERLIMB INTERACTIONS DURING CYCLIC IN-PHASE AND ANTIPHASE MOVEMENTS OF ARMS AND LEGS AND THEIR DEPENDENCE ON AFFERENT INFLUENCES", HUMAN PHYSIOLOGY, vol. 40, no. 4, 2014, pages 410 - 421
   ZEHR EPCHUA R: "Modulation of human cutaneous reflexes during rhythmic cyclical arm movement", EXP BRAIN RES, vol. 135, 2000, pages 241 - 50, XP019703503
   ZEHR EPKIDO A: "Neural control of rhythmic, cyclical human arm movement: task dependency, nerve specificity and phase modulation of cutaneous reflexes", J PHYSIOL (LOND, vol. 537, 2001, pages 1033 - 45
   ZEHR EPCOLLINS DFFRIGON AHOOGENBOOM N: "Neural control of rhythmic human arm movement: phase dependence and task modulation of Hoffmann reflexes in forearm muscles", J NEUROPHYSIOL, vol. 8, 2003, pages 12 - 21
   PUNT M. ET AL.: "Effect of arm swing strategy on local dynamic stability of human gait", GAIT & POSTURE, vol. 41, no. 2, 2015, pages 504 - 509, XP029215276, DOI: 10.1016/j.gaitpost.2014.12.002

DOI:   http://dx.doi.org/10.1016/j.gaitpost.2014.12.002
   KAUPP CPEARCEY GEKLARNER TSUN YCULLEN HBARSS TSZEHR EP: "Rhythmic arm cycling training improves stepping performance and neurophysiological integrity in chronic stroke: the arms can give legs a helping hand in rehabilitation", J NEUROPHYSIOL, vol. 119, 2018, pages 1095 - 1112
   INANICI F. ET AL.: "Transcutaneous Electrical Spinal Stimulation Promotes Long-term Recovery of Upper Extremity Function in Chronic Tetraplegia", IEEE TRANSACTIONS ON NEURAL SYSTEMS AND REHABILITATION ENGINEERING, 2018
   GAD P. ET AL.: "Noninvasive activation of cervical spinal networks after severe paralysis", JOURNAL OF NEUROTRAUMA, 2018
   GERASIMENKO Y. ET AL.: "Initiation and modulation of locomotor circuitry output with multisite transcutaneous electrical stimulation of the spinal cord in noninjured humans", JOURNAL OF NEUROPHYSIOLOGY, vol. 113, no. 3, 2014, pages 834 - 842
The EPO accepts no responsibility for the accuracy of data originating from other authorities; in particular, it does not guarantee that it is complete, up to date or fit for specific purposes.