Alright, I think here is the answer. This paper shows that the outward radial force increases as the stent diameter decreases. Which would mean that the Poisson effect, in theory, should increase as the stent gets crushed. Cool cool. Paper: https://t.c
RT @PanickedFoodie: This paper seems like it is going to be important in figuring out what second stent needs to be put in my left common i…
RT @PanickedFoodie: This paper seems like it is going to be important in figuring out what second stent needs to be put in my left common i…
RT @PanickedFoodie: This paper seems like it is going to be important in figuring out what second stent needs to be put in my left common i…
This paper seems like it is going to be important in figuring out what second stent needs to be put in my left common iliac vein: https://t.co/H8NGNHVqdX
#TBT to #LaboratoryInvestigation published in February 2018: Physical Properties of #Venous Stents: An Experimental Comparison https://t.co/OR2Qn7Hh30 https://t.co/KoN2D5rFh7
@ImagingDoctor @CHICKVIR @rustyhofmannMD @LessneVIR @Safet_MD @drochohan @Medtronic @lukeurtz @TomBurt68359370 COF is actually higher when the stent is not fully expanded. https://t.co/loABlcsmJb
RT @gargtushark: Working on our poster (@JHoffmannIR @iRadRock) on venous stents for @ISETNews and came across this excellent article on th…
RT @gargtushark: Working on our poster (@JHoffmannIR @iRadRock) on venous stents for @ISETNews and came across this excellent article on th…
RT @gargtushark: Working on our poster (@JHoffmannIR @iRadRock) on venous stents for @ISETNews and came across this excellent article on th…
RT @gargtushark: Working on our poster (@JHoffmannIR @iRadRock) on venous stents for @ISETNews and came across this excellent article on th…
Working on our poster (@JHoffmannIR @iRadRock) on venous stents for @ISETNews and came across this excellent article on the physical properties of venous stents in @CVIR_Journal. https://t.co/efAKzykgZZ @SIRRFS #IRad https://t.co/kRAcLg8Chs
RT @CVIR_Journal: TBT: Crush test bench study for venous stents! Radial resistive force, chronic outward force & crush resistance were eval…
RT @CVIR_Journal: TBT: Crush test bench study for venous stents! Radial resistive force, chronic outward force & crush resistance were eval…
RT @CVIR_Journal: TBT: Crush test bench study for venous stents! Radial resistive force, chronic outward force & crush resistance were eval…
RT @CVIR_Journal: TBT: Crush test bench study for venous stents! Radial resistive force, chronic outward force & crush resistance were eval…
RT @CVIR_Journal: TBT: Crush test bench study for venous stents! Radial resistive force, chronic outward force & crush resistance were eval…
RT @CVIR_Journal: TBT: Crush test bench study for venous stents! Radial resistive force, chronic outward force & crush resistance were eval…
TBT: Crush test bench study for venous stents! Radial resistive force, chronic outward force & crush resistance were evaluated for the 7 most popular venous #stent models in this study. Some are doing better than other! https://t.co/LeZcp3wi4T #irad @m
RT @CVIR_Journal: Physical Properties of Venous Stents: An Experimental Comparison https://t.co/dcxfLit9UZ. Analysis of the radial resistiv…
👌👌👌
RT @CVIR_Journal: Physical Properties of Venous Stents: An Experimental Comparison https://t.co/dcxfLit9UZ. Analysis of the radial resistiv…
RT @CVIR_Journal: Physical Properties of Venous Stents: An Experimental Comparison https://t.co/dcxfLit9UZ. Analysis of the radial resistiv…
RT @CVIR_Journal: Physical Properties of Venous Stents: An Experimental Comparison https://t.co/dcxfLit9UZ. Analysis of the radial resistiv…
RT @CVIR_Journal: Physical Properties of Venous Stents: An Experimental Comparison https://t.co/dcxfLit9UZ. Analysis of the radial resistiv…
RT @CVIR_Journal: Physical Properties of Venous Stents: An Experimental Comparison https://t.co/dcxfLit9UZ. Analysis of the radial resistiv…
RT @CVIR_Journal: Physical Properties of Venous Stents: An Experimental Comparison https://t.co/dcxfLit9UZ. Analysis of the radial resistiv…
RT @CVIR_Journal: Physical Properties of Venous Stents: An Experimental Comparison https://t.co/dcxfLit9UZ. Analysis of the radial resistiv…
RT @CVIR_Journal: Physical Properties of Venous Stents: An Experimental Comparison https://t.co/dcxfLit9UZ. Analysis of the radial resistiv…
RT @CVIR_Journal: Physical Properties of Venous Stents: An Experimental Comparison https://t.co/dcxfLit9UZ. Analysis of the radial resistiv…
RT @CVIR_Journal: Physical Properties of Venous Stents: An Experimental Comparison https://t.co/dcxfLit9UZ. Analysis of the radial resistiv…
RT @CVIR_Journal: Physical Properties of Venous Stents: An Experimental Comparison https://t.co/dcxfLit9UZ. Analysis of the radial resistiv…
RT @CVIR_Journal: Physical Properties of Venous Stents: An Experimental Comparison https://t.co/dcxfLit9UZ. Analysis of the radial resistiv…
RT @CVIR_Journal: Physical Properties of Venous Stents: An Experimental Comparison https://t.co/dcxfLit9UZ. Analysis of the radial resistiv…
RT @CVIR_Journal: Physical Properties of Venous Stents: An Experimental Comparison https://t.co/dcxfLit9UZ. Analysis of the radial resistiv…
Physical Properties of Venous Stents: An Experimental Comparison https://t.co/dcxfLit9UZ. Analysis of the radial resistive force, the chronic outward force, as well as the crush resistance of seven stent models. #InterventionalRadiology https://t.co/Cp2MM4
@iRadRock @CHICKVIR @KyleCooperMD @EricSecemskyMD @SDhandMD @AlexCVIR @JVIRmedia @SIRRFS @SIRspecialists @keithppereira @medravi @Watts_IR @kmadass @RadDrDuke @baobui99 @SriniTummala Hello! Here is the article: https://t.co/dcxfLit9UZ. Cheers!
RT @CVIR_Journal: Miltos article tip: Crush test bench study for venous stents! Radial resistive force, chronic outward force & crush resis…
RT @CVIR_Journal: Miltos article tip: Crush test bench study for venous stents! Radial resistive force, chronic outward force & crush resis…
RT @CVIR_Journal: Miltos article tip: Crush test bench study for venous stents! Radial resistive force, chronic outward force & crush resis…
RT @CVIR_Journal: Miltos article tip: Crush test bench study for venous stents! Radial resistive force, chronic outward force & crush resis…
RT @CVIR_Journal: Miltos article tip: Crush test bench study for venous stents! Radial resistive force, chronic outward force & crush resis…
RT @CVIR_Journal: Miltos article tip: Crush test bench study for venous stents! Radial resistive force, chronic outward force & crush resis…
RT @CVIR_Journal: Miltos article tip: Crush test bench study for venous stents! Radial resistive force, chronic outward force & crush resis…
RT @CVIR_Journal: Miltos article tip: Crush test bench study for venous stents! Radial resistive force, chronic outward force & crush resis…
good to know when treating venous disease such as #MayThurner! https://t.co/RVvyvIPrn1
RT @CVIR_Journal: Miltos article tip: Crush test bench study for venous stents! Radial resistive force, chronic outward force & crush resis…
RT @CVIR_Journal: Miltos article tip: Crush test bench study for venous stents! Radial resistive force, chronic outward force & crush resis…
Very cool study 👌🏽 https://t.co/79GWKdZq0z
RT @CVIR_Journal: Miltos article tip: Crush test bench study for venous stents! Radial resistive force, chronic outward force & crush resis…
RT @CVIR_Journal: Miltos article tip: Crush test bench study for venous stents! Radial resistive force, chronic outward force & crush resis…
RT @CVIR_Journal: Miltos article tip: Crush test bench study for venous stents! Radial resistive force, chronic outward force & crush resis…
RT @CVIR_Journal: Miltos article tip: Crush test bench study for venous stents! Radial resistive force, chronic outward force & crush resis…
Miltos article tip: Crush test bench study for venous stents! Radial resistive force, chronic outward force & crush resistance were evaluated for the 7 most popular venous #stent models in this study. Some are doing better than other! https://t.co/pmZ2