Assessment of Left Ventricular Dissipative Energy Loss by Vector Flow Mapping in Patients With End-Stage Renal Disease

Yue Zhong; Yanting Liu; Ting Wu; Huizi Song; Zhongxiu Chen; Wei Zhu; Yuyan Cai; Wen Zhang; Wenjuan Bai; Hong Tang; Li Rao

doi:10.7863/ultra.15.06009

Assessment of Left Ventricular Dissipative Energy Loss by Vector Flow Mapping in Patients With End-Stage Renal Disease

J Ultrasound Med. 2016 May;35(5):965-73. doi: 10.7863/ultra.15.06009. Epub 2016 Apr 1.

Authors

Yue Zhong¹, Yanting Liu¹, Ting Wu¹, Huizi Song¹, Zhongxiu Chen¹, Wei Zhu¹, Yuyan Cai¹, Wen Zhang¹, Wenjuan Bai¹, Hong Tang¹, Li Rao²

Affiliations

¹ Department of Cardiology, West China Hospital of Sichuan University, Chengdu, China.
² Department of Cardiology, West China Hospital of Sichuan University, Chengdu, China. lrlz1989@163.com.

PMID: 27036165
DOI: 10.7863/ultra.15.06009

Abstract

Objectives: Dissipative energy loss derived from vector flow mapping represents the viscous dissipation of turbulent blood flow. We aimed to determine the left ventricular (LV) energy loss in patients with end-stage renal disease (ESRD).

Methods: Patients with ESRD and a preserved LV ejection fraction, who consisted of a group receiving peritoneal dialysis, a group receiving hemodialysis, and a group receiving preparation for dialysis initiation, were examined by echocardiography; a group of healthy control participants were examined as well. Vector flow mapping analysis was then performed from the apical 4-chamber view to calculate the energy loss during diastole and systole in the left ventricle.

Results: Conventional transthoracic echocardiography and LV energy loss calculations were successfully performed in 63 cases and 50 controls. The patients with ESRD had significantly higher diastolic energy loss [median (interquartile range), 71.73 (46.08-106.75) versus 23.32 (17.17-29.26) mW/m; P < .001] and higher systolic energy loss [25.28 (19.03-33.93) versus 12.52 (9.35-16.47) mW/m; P < .001]. A significant difference in diastolic energy loss between the peritoneal dialysis and preparation groups was found [54.92 (39.28-89.94) versus 84.82 (62.58-171.4) mW/m; P = .04]. In patients with ESRD, the log-transformed diastolic energy loss had a significant association with the peak early diastolic transmitral flow velocity (P = .011), peak early diastolic transmitral flow velocity-to-peak early diastolic mitral annular flow velocity ratio (P = .001), LV mass index (P = .017), and heart rate (P = .003).

Conclusions: Impaired blood flow efficiency was detected in patients with ESRD by using dissipative energy loss derived from vector flow mapping. The energy loss value could be a novel parameter for evaluating the ventricular workload of uremic hearts in terms of fluid mechanics.

Keywords: dissipative energy loss; echocardiography; end-stage renal disease; vector flow mapping.

MeSH terms

Adult
Aged
Blood Flow Velocity
Female
Heart Ventricles / diagnostic imaging
Heart Ventricles / physiopathology
Humans
Kidney Failure, Chronic / complications
Kidney Failure, Chronic / physiopathology*
Male
Middle Aged
Reproducibility of Results
Vectorcardiography / methods*
Ventricular Dysfunction, Left / complications
Ventricular Dysfunction, Left / diagnostic imaging*
Ventricular Dysfunction, Left / physiopathology*
Young Adult