[1] C.
A.
Theochari et al.,
“Heart transplantation versus left ventricular assist devices as destination therapy or bridge to transplantation for 1-year mortality: a systematic review and meta-analysis,” Ann Cardiothorac Surg,
vol.
7,
no.
1,
pp.
3–11,
Jan.
2018.
[2] J.
K.
Kirklin et al.,
“First Annual IMACS Report: A global International Society for Heart and Lung Transplantation Registry for Mechanical Circulatory Support,” The Journal of Heart and Lung Transplantation,
vol.
35,
no.
4,
pp.
407–412,
Apr.
2016.
[3] K.
Ghafourian et al.,
“Assessment of the LVAD Inflow Cannula Position by Cardiac CT,” The Journal of Heart and Lung Transplantation,
vol.
33,
no.
4,
p.
S200,
Apr.
2014.
[4] T.
Imamura et al.,
“Cannula and Pump Positions are Associated with Left Ventricular Unloading and Clinical Outcome in Patients with HeartWare Left Ventricular Assist Device,” Journal of Cardiac Failure,
vol.
24,
no.
3,
pp.
159–166,
Mar.
2018.
[5] G.
S.
Shroff et al.,
“CT Imaging of Complications Associated with Continuous-Flow Left Ventricular Assist Devices (LVADs),” Semin.
Ultrasound CT MRI,
vol.
38,
no.
6,
pp.
616–628,
Dec.
2017.
[6] V.
K.
Chivukula et al.,
“Left Ventricular Assist Device Inflow Cannula Angle and Thrombosis Risk,” Circ Heart Fail,
vol.
11,
no.
4,
p.
e004325,
Apr.
2018.
[7] E.
N.
Sorensen,
Z.
N.
Kon,
E.
D.
Feller,
S.
M.
Pham,
and B.
P.
Griffith,
“Quantitative Assessment of Inflow Malposition in Two Continuous-Flow Left Ventricular-Assist Devices,” Ann.
Thorac.
Surg.,
Jan.
2018.
[8] A.
M.
Scandroglio et al.,
“Diagnosis and Treatment Algorithm for Blood Flow Obstructions in Patients With Left Ventricular Assist Device,” J.
Am. Coll.
Cardiol.,
vol.
67,
no.
23,
pp.
2758–2768,
Jun.
2016.