Association of exhaled carbon monoxide with risk of cardio-cerebral-vascular disease in the China Kadoorie Biobank cohort study

Gaokun Qiu,Ling Yang,Zheng Bian,Liming Li,Tangchun Wu,Kuai Yu,Yu Guo,Canqing Yu,Wending Li,Zhengming Chen,Jun Lv,Frank B Hu,Yiping Chen

doi:10.1038/s41598-020-76353-2

Abstract

Exhaled carbon monoxide (COex) level has been proposed as a noninvasive and easily-obtainable cardiovascular risk marker, however, with limited prospective evidence, and its association with stroke risk has been rarely explored. Measurements of COex were performed during 2004–2008 baseline examinations in the China Kadoorie Biobank study among 512,891 adults aged 30–79 years from 10 diverse study areas. After excluding participants with baseline cardiopulmonary diseases, stroke and cancer, 178,485 men and 267,202 women remained. Cox regression yielded hazard ratios (HRs) and 95% confidence intervals (CIs) for risk of cardio-cerebral-vascular disease (CCVD) associated with COex levels, with sequential addition of adjustment for proxy variables for CO exposure, including study area indexing ambient CO variations at large, and smoking and solid fuel use, apart from adjusting for traditional cardiovascular risk factors. During 7-year follow-up, we documented 1744 and 1430 major coronary events (myocardial infarction plus fatal ischemic heart disease), 8849 and 10,922 ischemic strokes, and 2492 and 2363 hemorrhagic strokes among men and women, respectively. The HRs with 95% CIs comparing the highest with lowest COex quintile were 2.15 [1.72, 2.69] for major coronary events, 1.65 [1.50, 1.80] for ischemic stroke, and 1.35 [1.13, 1.61] for hemorrhagic stroke among men, while among women higher associated risk was only observed for major coronary events (1.64 [1.35, 2.00]) and ischemic stroke (1.87 [1.73, 2.01]). The elevated risks were consistent when COex level was over 3 ppm. However, these associations were all attenuated until null by sequential addition of stratification by study areas, and adjustments of smoking and solid fuel use. Nevertheless, the association with ischemic stroke was maintained among the subgroup of male smokers even with adjustment for the depth and amount of cigarette smoking (HR [95% CI]: 1.37 [1.06, 1.77]), while a negative association with hemorrhagic stroke also appeared within this subgroup. Higher COex level (over 3 ppm) was associated with elevated risk of ischemic CCVD, but not independently of CO exposure. Our finding suggests that, though not an independent risk factor, COex could potentially provide a cost-effective biomarker for ischemic cardio-cerebral-vascular risk, given that CO exposure is ubiquitous.

Highlights

Exhaled carbon monoxide (COex) level has been proposed as a noninvasive and -obtainable cardiovascular risk marker, with limited prospective evidence, and its association with stroke risk has been rarely explored
Carbon moxide (CO) is eliminated almost exclusively through the lungs[7], and CO levels in exhaled breath (COex) could be closely reflecting integrated levels of CO exposure from various sources.There is evidence suporting the association between COex level and CO exposure from household air pollution[8, 9], and cigarette consumption[8, 10], with the latter being the primary source of short-term e xposure[4], though it has not been explored for COex level as indexing CO exposure from ambient air pollution
We prospectively investigated the association between COex levels and risk of ischemic stroke, hemorrhagic stroke and major coronary events as individual endpoints in the China Kadoorie Biobank study of 0.5 million adults, with and without adjustment for a number of proxy variables accounting for various sources of CO exposure

Summary

Introduction

Exhaled carbon monoxide (COex) level has been proposed as a noninvasive and -obtainable cardiovascular risk marker, with limited prospective evidence, and its association with stroke risk has been rarely explored. The adjustment of smoking tended to have an appreciable impact, though to an extent not yet determined, on the association between COex level and CCVD risk, which raised the concern about the independency of this association To address such concern, it entailed adequate adjustment for various sources of CO exposure, including ambient and household air pollution that were accounted for in none of these studies. We prospectively investigated the association between COex levels and risk of ischemic stroke, hemorrhagic stroke and major coronary events (including fatal ischemic heart disease and nonfatal myocardial infarction) as individual endpoints in the China Kadoorie Biobank study of 0.5 million adults, with and without adjustment for a number of proxy variables accounting for various sources of CO exposure

Methods

Results

Conclusion