Imperial College London


Faculty of MedicineNational Heart & Lung Institute

Honorary Clinical Senior Lecturer



+44 (0)20 3313 1664m.koa-wing05




Cardiac Catheter Laboratory (EP)Hammersmith HospitalHammersmith Campus






BibTex format

author = {Jamil-Copley, SJ and Linton, NL and Koa-Wing, MK and Vergara, PV and Carbucicchio, CC and Whinnett, ZW and Lim, PB and Davies, DW and Peters, NS and Tondo, CT and Della, Bella PD and Kanagaratnam, PK},
doi = {europace/euu236.3},
journal = {Europace},
title = {3Development of a novel mapping system to visualise activation in ventricular scar.},
url = {},
volume = {16 Suppl 3},
year = {2014}

RIS format (EndNote, RefMan)

AB - Ventricular scar is characterised by fractionated electrograms (egm) and not well displayed by current 3D mapping systems. We hypothesised that displaying intracardiac egms on 3D geometry as dynamic bars changing height according to the voltage-time relationship relative to a fiduciary egm, would enable visualisation slow conduction channels (SCC) in the infarct scar.
AU - Jamil-Copley,SJ
AU - Linton,NL
AU - Koa-Wing,MK
AU - Vergara,PV
AU - Carbucicchio,CC
AU - Whinnett,ZW
AU - Lim,PB
AU - Davies,DW
AU - Peters,NS
AU - Tondo,CT
AU - Della,Bella PD
AU - Kanagaratnam,PK
DO - europace/euu236.3
PY - 2014///
TI - 3Development of a novel mapping system to visualise activation in ventricular scar.
T2 - Europace
UR -
UR -
VL - 16 Suppl 3
ER -