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Extract from the Register of European Patents

EP About this file: EP3697464

EP3697464 - CATHETER PUMP SYSTEM AND METHOD OF CONTROLLING A CATHETER PUMP DRIVE [Right-click to bookmark this link]
StatusNo opposition filed within time limit
Status updated on  03.02.2023
Database last updated on 07.03.2026
FormerThe patent has been granted
Status updated on  25.02.2022
FormerGrant of patent is intended
Status updated on  29.11.2021
FormerRequest for examination was made
Status updated on  24.07.2020
FormerThe international publication has been made
Status updated on  26.04.2019
Formerunknown
Status updated on  15.12.2018
Most recent event   Tooltip27.09.2024Lapse of the patent in a contracting state
New state(s): MT		published on 30.10.2024  [2024/44]
Applicant(s)For all designated states
PulseCath B.V.
Nieuwe Stationsstraat 20
6811 KS Arnhem / NL
[2020/35]
Inventor(s)01 / MALKIN, Oren
c/o Nieuwe Stationsstraat 20
6811 KS Arnhem / NL
02 / KARMON, Yoram
c/o Nieuwe Stationsstraat 20
6811 KS Arnhem / NL
 [2020/35]
Representative(s)V.O.
P.O. Box 87930
2508 DH Den Haag / NL
[2020/35]
Application number, filing date18812361.619.10.2018
[2020/35]
WO2018NL50691
Priority number, dateEP2017019760820.10.2017         Original published format: EP 17197608
[2020/35]
Filing languageEN
Procedural languageEN
PublicationType: A2 Application without search report
No.:WO2019078723
Date:25.04.2019
Language:EN
[2019/17]
Type: A2 Application without search report 
No.:EP3697464
Date:26.08.2020
Language:EN
The application published by WIPO in one of the EPO official languages on 25.04.2019 takes the place of the publication of the European patent application.
[2020/35]
Type: B1 Patent specification 
No.:EP3697464
Date:30.03.2022
Language:EN
[2022/13]
Search report(s)International search report - published on:EP13.06.2019
ClassificationIPC:A61M60/135, A61M60/50, A61M60/562
[2021/51]
CPC:
A61M60/562 (EP,US); A61M60/414 (EP,US); A61M60/13 (EP,US);
A61M60/139 (EP,US); A61M60/148 (EP,US); A61M60/174 (EP,US);
A61M60/205 (EP,US); A61M60/405 (EP,US); A61M60/554 (EP,US);
A61M2205/3331 (US) (-)
Former IPC [2020/35]A61M1/10, A61M1/12
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 [2020/35]
Extension statesBA04.05.2020
ME04.05.2020
Validation statesMD04.05.2020
TN04.05.2020
TitleGerman:KATHETERPUMPENSYSTEM UND VERFAHREN ZUR STEUERUNG EINES KATHETERPUMPENANTRIEBS[2020/35]
English:CATHETER PUMP SYSTEM AND METHOD OF CONTROLLING A CATHETER PUMP DRIVE[2020/35]
French:SYSTÈME DE POMPE DE CATHÉTER ET PROCÉDÉ DE COMMANDE D'ENTRAÎNEMENT DE POMPE DE CATHÉTER[2020/35]
Entry into regional phase04.05.2020National basic fee paid 
04.05.2020Designation fee(s) paid 
04.05.2020Examination fee paid 
Examination procedure04.05.2020Examination requested  [2020/35]
04.05.2020Date on which the examining division has become responsible
11.11.2020Amendment by applicant (claims and/or description)
30.11.2021Communication of intention to grant the patent
22.02.2022Fee for grant paid
22.02.2022Fee for publishing/printing paid
22.02.2022Receipt of the translation of the claim(s)
Opposition(s)03.01.2023No opposition filed within time limit [2023/10]
Fees paidRenewal fee
22.09.2020Renewal fee patent year 03
21.09.2021Renewal fee patent year 04
Opt-out from the exclusive  Tooltip
competence of the Unified
Patent Court		 See the Register of the Unified Patent Court for opt-out data
Responsibility for the accuracy, completeness or quality of the data displayed under the link provided lies entirely with the Unified Patent Court.
Lapses during opposition  TooltipHU19.10.2018
AL30.03.2022
AT30.03.2022
CY30.03.2022
CZ30.03.2022
DK30.03.2022
EE30.03.2022
FI30.03.2022
HR30.03.2022
LT30.03.2022
LV30.03.2022
MC30.03.2022
MK30.03.2022
MT30.03.2022
PL30.03.2022
RO30.03.2022
RS30.03.2022
SE30.03.2022
SI30.03.2022
SK30.03.2022
SM30.03.2022
TR30.03.2022
BG30.06.2022
NO30.06.2022
GR01.07.2022
IS30.07.2022
PT01.08.2022
IE19.10.2022
LU19.10.2022
CH31.10.2022
FR31.10.2022
LI31.10.2022
[2024/44]
Former [2024/29]HU19.10.2018
AL30.03.2022
AT30.03.2022
CY30.03.2022
CZ30.03.2022
DK30.03.2022
EE30.03.2022
FI30.03.2022
HR30.03.2022
LT30.03.2022
LV30.03.2022
MC30.03.2022
MK30.03.2022
PL30.03.2022
RO30.03.2022
RS30.03.2022
SE30.03.2022
SI30.03.2022
SK30.03.2022
SM30.03.2022
TR30.03.2022
BG30.06.2022
NO30.06.2022
GR01.07.2022
IS30.07.2022
PT01.08.2022
IE19.10.2022
LU19.10.2022
CH31.10.2022
FR31.10.2022
LI31.10.2022
Former [2024/27]HU19.10.2018
AL30.03.2022
AT30.03.2022
CY30.03.2022
CZ30.03.2022
DK30.03.2022
EE30.03.2022
FI30.03.2022
HR30.03.2022
LT30.03.2022
LV30.03.2022
MC30.03.2022
MK30.03.2022
PL30.03.2022
RO30.03.2022
RS30.03.2022
SE30.03.2022
SI30.03.2022
SK30.03.2022
SM30.03.2022
BG30.06.2022
NO30.06.2022
GR01.07.2022
IS30.07.2022
PT01.08.2022
IE19.10.2022
LU19.10.2022
CH31.10.2022
FR31.10.2022
LI31.10.2022
Former [2024/24]HU19.10.2018
AL30.03.2022
AT30.03.2022
CY30.03.2022
CZ30.03.2022
DK30.03.2022
EE30.03.2022
FI30.03.2022
HR30.03.2022
LT30.03.2022
LV30.03.2022
MC30.03.2022
PL30.03.2022
RO30.03.2022
RS30.03.2022
SE30.03.2022
SI30.03.2022
SK30.03.2022
SM30.03.2022
BG30.06.2022
NO30.06.2022
GR01.07.2022
IS30.07.2022
PT01.08.2022
IE19.10.2022
LU19.10.2022
CH31.10.2022
FR31.10.2022
LI31.10.2022
Former [2024/21]AL30.03.2022
AT30.03.2022
CY30.03.2022
CZ30.03.2022
DK30.03.2022
EE30.03.2022
FI30.03.2022
HR30.03.2022
LT30.03.2022
LV30.03.2022
MC30.03.2022
PL30.03.2022
RO30.03.2022
RS30.03.2022
SE30.03.2022
SI30.03.2022
SK30.03.2022
SM30.03.2022
BG30.06.2022
NO30.06.2022
GR01.07.2022
IS30.07.2022
PT01.08.2022
IE19.10.2022
LU19.10.2022
CH31.10.2022
FR31.10.2022
LI31.10.2022
Former [2023/48]AL30.03.2022
AT30.03.2022
CZ30.03.2022
DK30.03.2022
EE30.03.2022
FI30.03.2022
HR30.03.2022
LT30.03.2022
LV30.03.2022
MC30.03.2022
PL30.03.2022
RO30.03.2022
RS30.03.2022
SE30.03.2022
SI30.03.2022
SK30.03.2022
SM30.03.2022
BG30.06.2022
NO30.06.2022
GR01.07.2022
IS30.07.2022
PT01.08.2022
IE19.10.2022
LU19.10.2022
CH31.10.2022
FR31.10.2022
LI31.10.2022
Former [2023/35]AL30.03.2022
AT30.03.2022
CZ30.03.2022
DK30.03.2022
EE30.03.2022
FI30.03.2022
HR30.03.2022
LT30.03.2022
LV30.03.2022
MC30.03.2022
PL30.03.2022
RO30.03.2022
RS30.03.2022
SE30.03.2022
SI30.03.2022
SK30.03.2022
SM30.03.2022
BG30.06.2022
NO30.06.2022
GR01.07.2022
IS30.07.2022
PT01.08.2022
LU19.10.2022
CH31.10.2022
FR31.10.2022
LI31.10.2022
Former [2023/30]AL30.03.2022
AT30.03.2022
CZ30.03.2022
DK30.03.2022
EE30.03.2022
FI30.03.2022
HR30.03.2022
LT30.03.2022
LV30.03.2022
MC30.03.2022
PL30.03.2022
RO30.03.2022
RS30.03.2022
SE30.03.2022
SI30.03.2022
SK30.03.2022
SM30.03.2022
BG30.06.2022
NO30.06.2022
GR01.07.2022
IS30.07.2022
PT01.08.2022
LU19.10.2022
Former [2023/25]AL30.03.2022
AT30.03.2022
CZ30.03.2022
DK30.03.2022
EE30.03.2022
FI30.03.2022
HR30.03.2022
LT30.03.2022
LV30.03.2022
MC30.03.2022
PL30.03.2022
RO30.03.2022
RS30.03.2022
SE30.03.2022
SI30.03.2022
SK30.03.2022
SM30.03.2022
BG30.06.2022
NO30.06.2022
GR01.07.2022
IS30.07.2022
PT01.08.2022
Former [2023/07]AL30.03.2022
AT30.03.2022
CZ30.03.2022
DK30.03.2022
EE30.03.2022
FI30.03.2022
HR30.03.2022
LT30.03.2022
LV30.03.2022
PL30.03.2022
RO30.03.2022
RS30.03.2022
SE30.03.2022
SK30.03.2022
SM30.03.2022
BG30.06.2022
NO30.06.2022
GR01.07.2022
IS30.07.2022
PT01.08.2022
Former [2023/01]AL30.03.2022
AT30.03.2022
CZ30.03.2022
EE30.03.2022
FI30.03.2022
HR30.03.2022
LT30.03.2022
LV30.03.2022
PL30.03.2022
RO30.03.2022
RS30.03.2022
SE30.03.2022
SK30.03.2022
SM30.03.2022
BG30.06.2022
NO30.06.2022
GR01.07.2022
IS30.07.2022
PT01.08.2022
Former [2022/51]AT30.03.2022
CZ30.03.2022
EE30.03.2022
FI30.03.2022
HR30.03.2022
LT30.03.2022
LV30.03.2022
PL30.03.2022
RO30.03.2022
RS30.03.2022
SE30.03.2022
SK30.03.2022
SM30.03.2022
BG30.06.2022
NO30.06.2022
GR01.07.2022
IS30.07.2022
PT01.08.2022
Former [2022/50]AT30.03.2022
CZ30.03.2022
EE30.03.2022
FI30.03.2022
HR30.03.2022
LT30.03.2022
LV30.03.2022
PL30.03.2022
RO30.03.2022
RS30.03.2022
SE30.03.2022
SK30.03.2022
SM30.03.2022
BG30.06.2022
NO30.06.2022
GR01.07.2022
PT01.08.2022
Former [2022/49]AT30.03.2022
CZ30.03.2022
EE30.03.2022
FI30.03.2022
HR30.03.2022
LT30.03.2022
LV30.03.2022
RO30.03.2022
RS30.03.2022
SE30.03.2022
SK30.03.2022
SM30.03.2022
BG30.06.2022
NO30.06.2022
GR01.07.2022
PT01.08.2022
Former [2022/48]AT30.03.2022
CZ30.03.2022
EE30.03.2022
FI30.03.2022
HR30.03.2022
LT30.03.2022
LV30.03.2022
RO30.03.2022
RS30.03.2022
SE30.03.2022
SM30.03.2022
BG30.06.2022
NO30.06.2022
GR01.07.2022
PT01.08.2022
Former [2022/47]AT30.03.2022
FI30.03.2022
HR30.03.2022
LT30.03.2022
LV30.03.2022
RO30.03.2022
RS30.03.2022
SE30.03.2022
SM30.03.2022
BG30.06.2022
NO30.06.2022
GR01.07.2022
PT01.08.2022
Former [2022/39]FI30.03.2022
HR30.03.2022
LT30.03.2022
LV30.03.2022
RS30.03.2022
SE30.03.2022
BG30.06.2022
NO30.06.2022
GR01.07.2022
Former [2022/36]HR30.03.2022
LT30.03.2022
LV30.03.2022
RS30.03.2022
SE30.03.2022
BG30.06.2022
NO30.06.2022
GR01.07.2022
Former [2022/35]HR30.03.2022
LT30.03.2022
RS30.03.2022
SE30.03.2022
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NO30.06.2022
Former [2022/33]LT30.03.2022
NO30.06.2022
Cited inInternational search[A] US2004034272  (DIAZ CESAR M et al.) [A] 8 * electro-pneumatic pulsator for generating a pneumatic wave for driving the pneumatic ventricular assist device;; figure 1 *
 [A] JPH07265410  (TERUMO CORP et al.) [A] 8 * paragraphs [0065] - [0069]; figures 16,17 *
 [A] DE102010011998  (ECP ENTWICKLUNGSGES MBH et al.) [A] 8 * the whole document * * figures 1,2 *
 [A] US4906229  (WAMPLER RICHARD K et al.) [A] 1-9 * gas powered rotary motor;pressurization means 41; flow adjustment mechanism 81.; paragraphs [0025] , [0050] , [0051] , [0055] , [0074]; figure 5 *
 [A] US2013085319  (EVANS DON W E et al.) [A] 1-9 * "When the IABP start switch on the switch panel 56 is turned on, the pump 59 is operated, the controller 55 controls the control valve 60 so as to perform repeated expansion and contraction of the pumping balloon 3. Further actuation, the PCPS start switch is turned on, the controller 55 controls the control valve 61, a first blood inhibit balloon and a second blood flow inhibition balloon alternately as described above is, together with to repeated expansion and contraction, sends a signal to the motor driver 54, a motor driving signal corresponding to the signal is sent to the pump motor 73 from the driver 54, the motor 73 is rotated, transmitting this rotation to the pump 72 is, blood is sent to the arterial catheter side of the blood removal catheter. "; paragraphs [0028] , [0033] - [0036] - [0052] *
 [A] EP2564883  (FUNDACJA ROZWOJU KARDIOCHIRURGII et al.) [A] 1,8 * paragraphs [0013] , [0014] , [0040] , [0041] *
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.