Cirrhosis Clinical Trial
Official title:
Mechanism and the Effect of Midodrine on Portal Pressures in Patients With Cirrhosis
Ascites is a frequent complication of patients with portal hypertension. As portal
hypertension progresses, a percentage of these patients develop refractory ascites.
Management options at that point include either TIPS or intermittent large volume
paracentesis (LVP), with its attendant risks, Portal hypertension is accompanied by systemic
circulatory dysfunction (decreased systemic vascular resistance and systolic BP), which is
exacerbated by large volume paracentesis, with resultant renal and cardiac dysfunction.
There are limited options for managing patients with acute decompensation, such as
hepatorenal syndrome, although midodrine and other vasoconstrictors have been used in such
patients. Midodrine has not been used as a possible therapeutic for ascites. Midodrine
however, has been found to change the hemodynamics related to portal hypertension and
ascites. There has been also change in mediators related to renal and circulation in studies
of short duration (7 days) but not found in studies of 1 month duration, however the
clinical effects of midodrine is found for longer duration in other similar conditions.
The purpose of the study is to assess the utility of midodrine in patients with obvious
systemic circulatory dysfunction (hypotension) in improving the outcome of patients with
refractory ascites and change in hemodynamic parameters and its mediators.
Specific endpoints include:
1) an objective reduction of the volume/rate of accumulation of ascites and 2) a decrease in
the frequency of LVP.
The pathophysiology of ascites is complex and various mechanisms have been proposed.
Splanchnic and systemic vasodilation related to excess nitric oxide has been associated with
systemic hypotension and increased portal flow.(8-10) This is associated with hemodynamic
compensatory mechanisms, including activation of the renin-angiotension aldosterone system
(RAAS), sympathetic nervous system (SNS), and non osmotic release of anti-diuretic hormones
(ADH).(11, 12) These ultimately result in renal dysfunction, associated with sodium and
fluid retention.(13) Several studies have shown reversal of HRS and decreased circulatory
dysfunction when vasoconstrictors are administered. Various vasoconstrictors (noradrenaline,
teleperessin, octreotide and midodrine) have been used in the management of hepato renal
syndrome (HRS). (14-17) Midodrine appears to have some advantages, including the benefit of
being an oral medication. (18) The beneficial effects have been noted as early as 6 hours
after the use of midodrine in patients with ascites with or without HRS (2) with decreased
plasma renin activity (PRA), antidiuretic hormone (ADH), nitrite and nitrate activity (NOx),
increased renal plasma flow (RPF), glomerular filtration rate (GFR), increased urine sodium
concentration (UNa) and volume, increased mean atrial pressure (MAP), decreased heart rate
(HR) and cardiac output (CO). There was also decreased aldosterone in non-azotemic cirrhotic
patients with or without ascites in patients studied for 7 days. (3) The renal function
improvement was not substantiated in other studies. In patients treated for a month along
with octreotide there was no significant improvement of renal function but marginal
reversible liver dysfunction with decreased body weight (paracentesis adjusted weight),(19)
A similar significant weight reduction was also noted in another study.(7) Midodrine has
been shown to be safe and effective in patients when used to prevent dialysis induced
hypotension, and has improved systolic pressure, without a significantly increased volume of
fluid filtered by dialysis and no change in body weight in patients studied.(20, 21) The
beneficial effects have been attributed to its modulating effects on autonomic function and
increasing peripheral vessel resistances.(22) The drug has been found to effective and safe
in acute and chronic use (21, 23) with minimal side effects.(24)
Vasoconstrictors in patients with ascites and hydrothorax In non azotemic cirrhotic patients
with ascites, the addition of octreotide improved diuresis and decreased renin, increased
MAP, decreased CO and improved renal function by increasing GFR, increased urine sodium and
volume excretion.(25) In patient with massive hydrothorax with mild ascites and no azotemia,
addition of midodrine to octreotide improves MAP, increases GFR, RPF and urine sodium and
volume; and prevents recurrence of hydrothorax. Vasoconstrictors have been recommended as
treatment for hydrothorax (4-6)and has been found beneficial in refractory ascites.(26)
Significance Vasoconstrictors like midodrine have been shown to be beneficial, with
improvement of circulatory dysfunction in various groups of patients including patients with
HRS type 1, type 2, non azotemic patients and in patients requiring hemodialysis. There are
suggestions of decreased body weight in some of these patients. In patients with
hydrothorax, addition of vasoconstrictors has helped in relieving the symptoms. The
investigators suggest that midodrine could also benefit patients with refractory ascites. By
decreasing the rate of ascitic fluid accumulation, it may be possible to decrease the volume
of ascites drained or lengthen the interval between paracentesis, giving comfort to the
patients. The beneficial effect on portal pressures and ascites could be due to other
mechanisms (such as autonomic function) rather than their effect on renal hemodynamics as
they are not sustained. There are no studies where this has been systematically analyzed.
;
Allocation: Non-Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Single Group Assignment, Masking: Open Label, Primary Purpose: Treatment
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