Christodoulos Papadopoulos scite author profile

Approximately 85% of hemodialysis patients are hypertensive, but less than 30% achieve adequate blood pressure (BP) control. Reduction of volume overload is fundamental for BP control, but clinical criteria to estimate dry-weight are inaccurate. In the present study we examined the effect of dry-weight reduction with a lung-ultrasound-guided strategy on ambulatory BP in 71 clinically euvolemic hemodialysis patients with hypertension. Patients were equally randomized into an active group, following a strategy for dry-weight reduction guided by pre-hemodialysis lung ultrasound, and a control group with standard-of-care treatment. All patients underwent 48-hour ambulatory BP monitoring (ABPM) at baseline and after eight weeks. Overall, more patients in the active than in the control group had dry weight reduction, 54.3% compared to 13.9%, respectively. The ultrasonographic-B line change during follow-up was significantly different (-5.3±12.5 in active versus D2.2±7.6 in control group), which corresponded to significant differences in dry weight changes between the groups. The magnitude of reductions in 48-hour systolic BP (-6.61±9.57 vs.-0.67±13.07) and diastolic BP (-3.85±6.34 vs.-0.55±8.28) was significantly greater in the active group. Similarly, intradialytic BP, 44-hour BP, and daytime or night-time systolic/diastolic BP during both days of the interdialytic interval were significantly reduced in the active group but remained unchanged in the control group. The percentage of patients experiencing one or more intradialytic hypotensive episodes was marginally lower in the active group (34.3% vs. 55.6%). Thus, a lung-ultrasound-guided strategy for dry-weight reduction can effectively and safely reduce ambulatory BP levels in hemodialysis patients. Clinical implementation of this simple technique can help increase BP control in this population.

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Vascular endothelial injury assessed with functional techniques in systemic sclerosis patients with pulmonary arterial hypertension versus systemic sclerosis patients without pulmonary arterial hypertension: a systematic review and meta-analysis

Theodorakopoulou

Minopoulou

Sarafidis

et al. 2021

Rheumatol Int

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Lung Ultrasound–Guided Dry Weight Assessment and Echocardiographic Measures in Hypertensive Hemodialysis Patients: A Randomized Controlled Study

Loutradis

Papadopoulos

Sachpekidis

et al. 2020

American Journal of Kidney Diseases

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The Ebb and Flow of Echocardiographic Cardiac Function Parameters in Relationship to Hemodialysis Treatment in Patients with ESRD

Loutradis¹,

Sarafidis²,

Papadopoulos

et al. 2018

JASN

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Cardiovascular disease is the leading cause of mortality in patients receiving hemodialysis. Cardiovascular events in these patients demonstrate a day-of-week pattern; they occur more commonly during the last day of the long interdialytic interval and the first session of the week. The hemodialysis process causes acute decreases in cardiac chamber size and pulmonary circulation loading and acute diastolic dysfunction, possibly through myocardial stunning and other non-myocardial-related mechanisms; systolic function, in contrast, is largely unchanged. During interdialytic intervals volume overload, acid-base, and electrolyte shifts, as well as arterial and myocardial wall changes, result in dilatation of right cardiac chambers and pulmonary circulation overload. Recent studies suggest that these alterations are more extended during the long interdialytic interval or the first dialysis session of the week and are associated with excess volume overload or removal, respectively, thus adding a mechanism for the day-of-week pattern of mortality in patients receiving hemodialysis. This review summarizes the existing data from echocardiographic studies of cardiac morphology and function during the hemodialysis session, as well as during the interdialytic intervals.

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