Exposure to environmental toxic metals such as arsenic, lead, copper, and mercury has become a major global health concern. The metals like arsenic, lead, copper and cadmium are linked to an increased risk of cardiovascular disease and coronary heart disease.
Arsenic and cadmium, for example, are known carcinogens, but there are increasing suggestions that exposure to toxic metals may be an independent risk factor for cardiovascular disease.
To investigate further, an international research team, led by Rajiv Chowdhury at the University of Cambridge, reviewed and analysed the results of epidemiological studies that had looked at the association of arsenic, lead, copper, cadmium, and mercury with coronary heart disease, stroke and composite cardiovascular disease.
They identified 37 separate studies published before December 2017 involving almost 350,000 participants. A total of 13,033 coronary heart disease, 4,205 stroke and 15,274 cardiovascular outcomes were reported across the studies.
The studies were designed differently and were of varying quality, but the researchers were able to allow for that in their analysis. Exposure to arsenic was found to be significantly associated with a 23% greater relative risk of coronary heart disease and a 30% greater relative risk of composite cardiovascular disease, but there was no evidence of an association with risk of stroke.
Exposure to cadmium and copper was also associated with increased relative risks of coronary heart disease and cardiovascular disease, while lead and cadmium were associated with an increased relative risk of stroke (63% and 72% respectively).
In contrast, mercury was not found to be associated with cardiovascular risk. The researchers point out that their review was solely based on observational data, which might be affected by unmeasured factors, making it difficult to draw firm conclusions about cause and effect.
Nevertheless, they say their findings “reinforce the (often under-recognised) importance of environmental toxic metals in enhancing global cardiovascular risk, beyond the roles of conventional behavioural risk factors, such as smoking, poor diet and inactivity.”
Furthermore, they say their study highlights the potential need for additional worldwide efforts and strategies “to reduce human exposures even in settings where there is a relatively lower average level of exposure (such as many Western countries).”