Since his old article, there are new FDA warnings on cardiac death from new postmarketing surveillance reports. Animal models can be helpful, but new quality empirical data must be incorporated in humans when there’s enough pointing in the other direction (all macrolides have roughly the same amount of torsades cases) and pathological understanding has changed with new mechanisms.
We know the classically linked pathways are not just KCNH2 (LQT2 or previous old name in the article HERG) potassium channels as he claims. The bulk is from that, KCNQ1 (LQT1) and SCN5A (LQT3) combined - with other pathways from basic science adding up besides those 3 for LQTS. It seems his pathophysiology understanding is either vastly oversimplifying or largely incomplete at the time of writing. Not surprising since it’s a relatively old article.
Torsades is not a done deal pathophysiological process where it is completely understood or even close to it, as he implies - thus we should be prudent when strong predictors such as QTc numbers give big warning signs. As he mentions, “azithromycin prolongs the action potential itself”. Action potential prolongation at the ventricular cardiac cell level sets up increased vulnerability for early afterdepolarizations and triggers activity via re-entrant mechanisms, which is torsadogenic to initiate ventricular ectopy and torsades which is associated with long QT intervals. Keep in mind, there are multiple proposed mechanisms as well as a novel mechanism later found with azithromycin.
Not only that, I mentioned azithromycin has highly potent p-gp drug interactions that affect rapa a lot among many many other drugs on top of weak CYP3A4 inhibition. So his claim - minimal drug interactions is not true. Here’s an obvious example - increased risk of statin-associated rhabdomyolysis.
See 2021 FDA warning on the increased risk of acute cardiovascular death among all patients taking azithromycin - this shows potentially increased risk of acute cardiovascular mortality with azithromycin compared with amoxicillin exposure (HR 1.71, 95% CI 1.06-2.76). This includes reports of torsades.
Keep in mind, that transplant patients might face different risks than “healthy” users of weekly rapa hence if one is targeting specific bugs - z-pak is chosen over others because the mortality from dying of infection is far worse than risking prolongation of QT relatively speaking, but we simply don’t know exactly how much it matters for “healthy”.
Also, since his 2015 opinion - there are other links with azithromycin and other drugs interacting for much longer QTc and torsades than the article is implying:
https://www.ahajournals.org/doi/10.1161/CIRCULATIONAHA.120.048238
It’s also no surprise the ACC/AHA has kept to the same guidelines with the last review - there is risk associated with azithromycin similar to other macrolides in humans. The association hasn’t changed since then to really be less concerned. If it did, I’d be more than happy because azithromycin has a decent range of bugs although there are some question marks regarding possibly higher likelihood of developing resistance. The generally cited reason for using azithromycin is more tolerability (particularly lower gastrointestinal toxicity) among patients than erythromycin.
Looking for contrary opinions might be useful in some cases, but one better have exceptional arguments with plenty of contexts (as the author himself warns) to go against the official recommendations in medicine because the base rate of contrarians being wrong is very high - while he has some points to consider, but there are clearly multiple inaccuracies in the article - so what he claims isn’t really a myth bust if I have to bust some of his myths.
Hence, I ask why exactly Dr. Green is using it first preferably straight from the source. Maybe he has something great to add that I haven’t thought of - or maybe he is just sticking to some old stuff as one suggested - I rather clarify.
Especially the newest extremely large datasets suggesting very high numbers of cardiac deaths relative to other antibiotics with azithromycin - if you just care about all-cause mortality (which is also far off the opposite against the author’s assertions of supposed low mortality) and don’t want to look into torsades in depth, as the causality is still not completely definitive, nor is the understanding extremely complete.
