New Twitter is an awful lot like old Twitter apparently.
The American Heart Association recently published an article warning of the potential dangers of mRNA vaccines.
The article specifically points out the possible connection between these vaccines and heart inflammation.
Twitter immediately flagged the article as “misleading content that could lead to real-world harm.”
That’s right, Twitter is censoring the American Heart Association over information on vaccines.
Twitter is very clearly claiming that they know more about heart inflammation and vaccine side effects.
who are you going to trust?…
Breitbart has the scoop:
Twitter is warning users that the website of the American Heart Association may be “unsafe,” after it published an abstract in one of its medical journals containing research linking mRNA COVID-19 jabs to heart inflammation.
The abstract was published in Circulation, a journal of the AHA on the 16th of November. In their research, a team led by former cardiac surgeon Steven Grundy applied a cardiac test to measure a patient’s 5-year risk of a new acute coronary syndrome.
Newsbusters has more details:
The abstract, published on the AHA site Nov. 8, described the research conducted by former cardiac surgeon Steven Gundry and his team. Gundry and team measured a patient’s “5 yr risk (percentage chance) of a new Acute Coronary Syndrome" through a PULS Cardiac Test. The study abstract denoted a 14 percent percentage point increase in heart risk signs post-mRNA COVID-19 vaccination.
The study abstract title included “warning” in its title: “Abstract 10712: Mrna COVID Vaccines Dramatically Increase Endothelial Inflammatory Markers and ACS Risk as Measured by the PULS Cardiac Test: a Warning.” The abstract ended, “We conclude that the mRNA vacs dramatically increase inflammation on the endothelium and T cell infiltration of cardiac muscle and may account for the observations of increased thrombosis, cardiomyopathy, and other vascular events following vaccination.” Thrombosis and cardiomyopathy can both be potentially deadly.