HORUS: Atherosclerosis Across 3,800 Years of Human History and Four Ancient Populations
In fact, data from the HORUS study released in 2011 indicated that a little less than half of a group of ancient Egyptian mummies had identifiable vascular calcification. New data from the expanded HORUS study, presented on March 10 at ACC.13, indicated that atherosclerosis existed even beyond the borders of Egypt. About one-third of all mummies examined from four geographical populations, including a group of hunter-gatherers, had probable or definite atherosclerosis."Commonly, we think of atherosclerosis as a consequence of modern lifestyles, mainly because it has increased in developing countries as they become more westernized," said ACC President-Elect John Gordon Harold, MD, MACC. "The data from the HORUS study of four ancient populations suggests a missing link in our understanding of heart disease, and we may not be so different from these ancient civilizations."
The results are bound to surprise.
Now the HORUS study has expanded, obtaining whole body CT scans of 137 mummies from four populations spanning a 3,800 year time horizon, from multiple locations in ancient Egypt, Peru and North America.
Although the results of the original study were surprising, the researchers wanted to examine ancient remains of people different from those in Egypt, where the culture or lifestyle might have lent itself to atherogenesis. In other words, if the original analysis looked at the hearts of the 1 percent, this second study was in the everyday man – the 99 percent.
Again, mummies underwent whole body CT scanning. Fifty-two of the 76 Egyptians mummies were reported on the first analysis. The overall rate of probably or definite atherosclerosis was found in 34 percent of the mummies. The rate of atherosclerosis varied by geographical region, but was still found in all: ancient Egyptians (29 of 76; 38 percent), early intermediate to late horizon people in present day Peru (13 of 51; 25 percent), Ancestral Puebloan in southwest American (two of five; 40 percent) and Unangan people from the Aleutian Island of modern day Alaska (three of five; 60 percent).
Similar to the initial study, associations between age and atherosclerosis were identified. The mean age of death among those with atherosclerosis was more than 10 years older than that of those without atherosclerosis (43 years vs. 32 years; p < 0.0001). In addition, an increasing mean age at death was associated with an increase in the number of arterial beds involved in disease (three to five beds: 44 years vs. one to two beds: 42 years vs. no atherosclerosis: 32 years; p < 0.0001).
Each decade increase in age was associated with a 69 percent increase in atherosclerosis severity (95 percent CI, 1.19-2.40). When these data were isolated to just those with definite atherosclerosis, the association remained with a 64 percent increase in atherosclerosis severity per decade of life (95 percent, CI, 1.14-2.35).
Atherosclerosis was most commonly found in the aorta (20 percent), but was also identified in the iliofemoral artery (18 percent), popliteal or tibial arteries (18 percent), carotid artery (12 percent) and coronary artery (4 percent).
"Physicians have blamed fast food, lack of exercise, smoking and lifestyle factors of modern life as explaining our predisposition to heart disease," Dr. Harold said. "We have to look beyond modern risk factors to fully understand atherosclerotic heart disease."
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