Intradialytic Hypotension Clinical Trial
Official title:
The Effect of On-Line Hemodiafiltration Versus High Flux Hemodialysis on Hemodynamic Parameters in Patients With Intra-Dialytic Hypotension
Rationale and objectives
1. Patients on On Line Hemodiafiltration (OL- HDF) are more stable hemodynamically with
less Intra Dialytic Hypotension (IDH) episodes compared to conventional hemodialysis
(HD). The investigator will follow the hemodynamic parameters during the dialysis
sessions (HD and OL-HDF) by using the new non invasive technology, the NICAS device.
2. By switching each patient with IDH from HD to OL- HDF, the investigators will evaluate
the hemodynamic parameters and compare the two renal replacement treatment modalities,
and prove the superiority of OL-HDF over HD regarding the hemodynamic measures.
Intradialytic hypotension (IDH) or a significant fall in blood pressure (BP) is the most
common complication that occurs during hemodialysis (HD) treatment, occurring in up to 20-33%
of sessions.
Different mechanisms are involved in the pathogenesis of IDH including acute central
hypovolemia, may be precipitated by rapid or excessive ultrafiltration that lead to
intravascular volume depletion beyond the level of hemodynamic compensatory response. Other
proposed mechanisms of intra vascular depletion are volume shift into the extra-vascular
space due to rapid reduction in plasma osmolality, slow and incompatible vascular refilling
rate and incorrectly low prescribed dry weight.
Autonomic dysfunction occurs in considerable amount of dialysis patients up to about 50% .
This dysfunction reduces the ability to produce an adequate sympathetic response in the
setting of acute volume diminution.
Due to the complexity of the dialysis treatment and absence of non- invasive technology, few
studies followed the hemodynamic changes which occur during a dialysis session especially
during IDH episodes.
OL- HDF is a relatively new method of therapy that allows a larger volume of blood filtration
during a single dialysis therapy compared with standard hemodialysis.
Compared to conventional HD treatment, OL-HDF treatment was associated with lower incidence
of IDH and better hemodynamic stability.
Bioelectrical impedance analysis is a method for estimating body composition in most of the
cases. The Non-Invasive Cardiac System (NICaS) device (non-invasive cardiac system) applies
the principle of Whole Body Bio-Impedance and provides continuous data regarding the
hemodynamic status (i.e. heart rate, stroke volume, cardiac output, cardiac index, and total
peripheral vascular resistance) as well as respiration rate and total body water.
Following the hemodynamic changes, the NICaS device will allow to shed light on the
physiological mechanisms underlying the IDH phenomenon and prove the superiority of OL-HDF
over regular hemodialysis regarding the hemodynamic measures.
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