Atrial Fibrillation Clinical Trial
Official title:
Colchicine for the Prevention of Atrial Fibrillation Recurrence After Electrical Cardioversion of Persistent Atrial Fibrillation.
There is substantial evidence linking inflammation to the initiation and perpetuation of AF. Although the precise mechanism by which inflammation contributes to the development of AF remains unclear, it has been proposed that inflammation may lead to "atrial myocarditis" with subsequent electrical and structural changes involving both atrial myocytes and extracellular matrix, leading finally to initiation and maintenance of AF. The high incidence of AF in post-operative cardiac surgeries, a state of intense inflammatory process, points out this association. Similarly, in non operative AF, inflammation appears to play a prominent role in both etiology and maintenance of AF. Indeed an increase of inflammatory markers to both paroxysmal and persistent AF was shown by numerous studies.
In particular, CRP levels in patients with persistent AF are higher than in those with
paroxysmal AF, and levels in both groups are higher than those in the control group.
Moreover, hs-CRP and IL-6 levels have been reported as markers that may identify those
patients with a higher risk of AF recurrence after successful electrical cardioversion (EC),
providing prognostic information regarding the immediate and long-term success of EC.
CRP is an acute-phase protein and a reliable marker of systemic inflammation. CRP has been
shown to specifically bind to phosphatidylcholine on the membranes of myocardial cells which
inhibits the exchange of sodium and calcium ions in sarcolemma vesicles, promoting therefore
AF development. CRP may also play a part in the structural remodeling; it may induce
apoptotic loss of atrial myocytes because of calcium accumulation within atrial myocytes
during AF participating also in the clearance of apoptotic atrial myocytes as an opsonin.
Myocyte loss is typically accompanied by replacement fibrosis which provides substrate for AF
development. IL-6 is one of the most important stimuli of CRP release. As the strongest
stimuli of macrophage, TNF-α is in the upstream of this cascade by activating macrophage to
release a number of cytokines including IL-6.
Whether inflammatory effects are a consequence of AF or the presence of a pre-existing
systemic inflammatory status promotes AF development remains unclear. However, accumulative
proofs have implied that both mechanisms may interrelate, suggesting that inflammatory
markers are not only a consequence but also a cause.
Consequently, pharmacological interventions with pleiotropic/anti-inflammatory effects might
be efficacious in the prevention of AF by modulating inflammatory pathways.(17) Keeping with
this, several agents with anti inflammatotory properties as statins, fatty acids, oral
glucocorticoids, nonsteroidal anti-inflammatory drugs, angiotensin converting enzyme
inhibitors have been administered with controversial results.
Colchicine is a lipid-soluble drug classified as an anti-inflammatory agent. It exerts its
anti-inflammatory action without involving the arachidonic acid pathway affected by NSAIDs
and glucocorticosteroids. The anti-inflammatory effects of colchicine are attributed to its
ability to disrupt the assembly of microtubules in immune-mediated cells. By inhibiting
tubulin polymerization, colchicine prevents the activation, degranulation, and migration of
neutrophils, which are known initiating factors in inflammatory process. It has also been
found to increase leukocyte cyclic adenosine monophosphate levels, inhibit interleukin-1
(IL-1) production by activated neutrophils and down-regulate tumor necrosis factor alpha
(TNFa) receptors in macrophages and endothelial cells.
Clinical evidence support that colchicine administration reduced significantly the incidence
of AF post-cardiac surgery (POAF) or post-AF ablation and this effect was attributed to the
drug anti-inflammatory action. Of note, this effect was accompanied by a significant decrease
in inflammatory mediators, IL-6 and CRP as it was shown in post-AF ablation patients.(33)
Additional mechanisms may play also a role in the reduction of POAF or post-ablation AF as in
vitro or animal studies showed colchicine administration to exert electrophysiological
effects related to cytoskeletal disruption.
All patients will undergo echocardiography and blood examination (including thyroid function,
renal and liver function tests, lipid assessment, international normalized ratio and foul
blood cell count) before EC. Blood samples for CRP, IL-6 and TNFa measurement will be
obtained immediately before ECV (day 0), one day after successful ECV (day 1) and after 3
days of colchicine treatment (day 4). Anticoagulation therapy will be instituted according to
the current guidelines. If there is indication for transesophageal echocardiography this will
be performed prior to EC.
The protocol of electrical cardioversion will be as follows: a shock will be delivered with
external paddles positioned in the anterior-apex position connected to an external electrical
cardioverter for biphasic external cardioversion. The first shock energy will be delivered at
200 J following a step-up protocol (to 300 J). In case of unsuccessful ECV, a second attempt
in anteroposterior position could be made. ECV will be considered successful if sinus rhythm
remains 24 hrs after the procedure.
Successfully cardioverted patients will be entered the maintenance phase of the study and
treatment will be continued for up to 6 months
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