The county of Shuangcheng, northeast China, was selected for study to represent the typical environmental region (characterized by cold weather, low elevation, farming communities, and plains). This study provides vital epidemiological data on the prevalence of retinal microvascular abnormalities and their associations with CCVds in this environment. Each retinal outcome was determined by the assessment of retinal digital images. First, we found that the overall prevalence of retinal microvascular abnormalities in the present population is relatively higher than that reported in other regions of the world, but the prevalence of retinopathy is lower. Second, we showed that retinopathy is associated with the self-reported diagnosis of a stroke while arteriovenous nicking is associated with a self-reported diagnosis of coronary heart diseases, but focal and generalized arteriolar narrowing and arteriolar sheathing are not consistently related to the self-reported diagnosis of coronary heart diseases or previous cerebrovascular events such as stroke. Thus, an examination of retinal microvascular characteristics may offer clues to CCVds and could be a potentially novel biomarker of CCVds risk.
In the present study, of the total sample, the prevalence of FAN, AVN, AS, retinopathy, and GAN were 9.1%, 8.9%, 6.6%, and 6.2%, respectively. In comparison, using almost the same methods of assessment, the prevalence for FAN, AVN, AS and GAN was 6.3%, 6.6%, 4.8%, and 4.3% respectively, in the Beijing Eye Study[23] (Chinese population: 40-101 years of age, including those with diabetes). Apparently, the prevalence of RVAs in the present study was relatively higher than those of the Beijing Eye Study. The prevalence of FAN, AVN, AS and retinopathy in persons without diabetes was 9.0%, 8.9%, 5.0%, and 6.8% respectively in the present study. In comparison, the ARIC study[3], which examined a non-diabetic study population aged 48 to 73 years, found that the prevalence was 7.3% for FAN, 6.0% for AVN, and 4.0% for retinopathy; And the CHS study[29], also with a non-diabetic population aged 69 to 97 years found that the prevalence was 9.6 % for FAN, 7.7% for AVN, and 8.3% for retinopathy. Obviously, the prevalence of RVAs in the present study was roughly equivalent to the data of CHS study but was relatively higher than that of the ARIC study. These differences might result from: first, sample selection and population characteristics (e.g., the average age[3,29,30], the frequency of hypertension[30-34] between these studies). Second, the average latitude of the survey area is relatively high(Figure 1), and the average annual temperature is about 4.5 degrees. The stimulation of cold air is a precipitating factor for CCVds[35,36]. Presumably, it may be related to the high frequency of RVA in this area. Third, the unique habits of the current sample (e.g. high salt diet, and high rates of smoking and alcohol drinking, which are already well-known risk factors for CCVds, and correlation with RVAs will be discussed later). In addition, our study employed a 40° non-mydriatic camera to obtain fundus images and used digital images to grade retinal lesions in the present study. These methods differ from those used in previous studies and thus may have also contributed to the difference in our results and previous findings.
It's also worth mentioning that the prevalence of retinopathy (5.1%) in persons with diabetes was lower than that of Chinese in Beijing (27.9%, ≥45 years)[37], Koreans (15.8%,≥40 years)[38], and Chinese in rural Handan (43.1%, ≥30 years)[39]. The specific reasons for the low prevalence were not clear, in addition to different examination techniques and the grading system, presumably associated with a still lower living standard, mainly physical labor and high salt diet. And interestingly, for all types of retinal lesions, no significant differences were detected between the subjects with and without diabetes of the whole sample, which is consistent with the Beijing study. That is to say, although retinopathy(e.g., microaneurysms, hemorrhages, soft exudates or cotton wool spots, hard exudates, and etc.) is a landmark of diabetic retinopathy, it is still common in nondiabetic subjects over 50 years old. We should be cautious about the diagnosis of diabetic retinopathy, especially for elderly subjects.
Stratifying the population by age and gender (Table 2), males and older subjects tended to have more frequent RVAs of all types than their counterparts. These findings are consistent with previous reports such as those from the ARIC study[3] and the National Health and Nutrition Examination Survey (NHANES)[40] but different from the Beijing Eye study[23] which even showed that the AS was more frequently found in females than in males.
The focus of the present study was the correlation between RVAs and CCVds, which was discussed respectively. In general, after adjusting for age, gender and left/right eyes, FAN, and AVN was found to be associated with self-reported histories of CHD (OR, 1.72; 95% CI, 1.31, 2.25; and OR, 1.89; 95% CI, 1.45, 2.46, respectively), and their risk factors (e.g., hypertension, hyperlipidemia, and habits of past /current smoking or drinking), and when we further adjusted for these above risk factors, the FAN association for CHD disappeared, suggesting that FAN was only related to the risk factors of CHD, but was not related to CHD at all; And the AVN-CHD association attenuated but still existed (OR, from 1.89 to 1.44) (Table 3, 4), suggesting that the changes of AVN could partly reflect the changes of cardiac-macrovascular, not only be restricted to the changes of microvascular. In the same way for retinopathy, when adjusting for age, gender and left/right eyes, retinopathy was associated with self-reported history of stroke(OR, 3.27; 95% CI, 1.93,5.54) and its risk factors(hypertension, hyperlipidemia, habits of past or current smoking, habits of past or current drinking), and when further adjusted for these above risk factors, the retinopathy–stroke association also weaken (OR, from 3.27 to 2.05) but still existed. Thus, these data suggest that point to point association may exist between retinal vascular changes and CCVds(eg, the AVN-CHD association or retinopathy–stroke association). A multicenter study even demonstrated that different retinopathy signs were associated with specific stroke subtypes:[20] for example, retinal arteriolar narrowing was associated with lacunar stroke, whereas retinal hemorrhages were linked with cerebral hemorrhages[9,13,20,41,42]. But the results of the CHS study[29] claim that only retinopathy was associated with prevalent CHD and stroke and the results of the Beijing eye study[23] which claim that RVAs are not related to the self-reported diagnosis of CHD or previous cerebrovascular events such as stroke. These inconsistent results might be caused by the different assessment methods and grading thresholds between these studies.
The rest, except for retinopathy, the other four types of RVA are not related to the self-reported diagnosis history of stroke, but are associated with its risk factors; AS, retinopathy and generalized arteriolar narrowing are not related to the self-reported history of CHD, but are associated with the risk factors of CHD (Table 3). Although RVA and CVDs share some of the same risk factors, they are different in structure. Certain types of retinal microvascular abnormalities appear to be associated with systemic processes but still different from macrovascular changes(e.g., structure, and pathological features), supporting the ARIC[3] and CHS study[29] findings in middle-aged people.
This survey was performed in the rural areas of northern China. Due to the low standard of living, lower health awareness of residents, and poor medical and health conditions, many chronic diseases, such as cardiovascular diseases and cerebrovascular diseases were allowed to follow their natural course without manual intervention. The assessment of each outcome for individuals is closely performed in untreated conditions, which is also one important reason that this survey was conducted in rural areas. However, some factors may influence our evaluation of the prevalence of RVAs and their possible correlation with CCVds. Firstly, images were not obtained in some of the participants; some photos could not be evaluated due to refractive interstitial opacity; and a higher proportion of these images were obtained from elderly patients, who generally have more RVAs. Secondly, the evaluation of retinal abnormalities was performed manually, which may lead to the relative low κ values, for intraobserver and interobserver variation. Lastly, due to the use of a cross-sectional study rather than a cohort study, the current study could not elucidate the evolution of RVAs and their real-time relationship to systemic diseases.
Then what is the clinical significance of the present study? First, previous studies show that retinal vascular changes could predict CCVds risk[7,9,12,13,18-22,40,43,44] independently of traditional risk factors(e.g., hypertension, hyperlipidemia, and smoking). The present study may further refinement the association between retinal vascular changes and CCVds. If such an association could be proved stable, we may need to pay more attention to the correlation between the specific type of RVAs and CCVds(e.g., the retinopathy–stroke association). Thus, the prediction of CCVds may become more targeted, especially in rural primary hospitals where medical equipment is relatively scarce. Second, the purpose of the present study is how to convert retinal vascular imaging into a clinical tool of the daily routine in assessing cardiovascular risk prediction. The semi-quantitative classification method of retinal vascular abnormalities was used in this study. Due to the use of digital fundus photographs and standard evaluation system(ARIC and Beijing), the variability among observers is significantly lower than that of using only a direct fundoscopic examination. Moreover, because it is low-cost and efficient and it does not need professional technicians and expensive professional software. It could be popularized and implemented in primary hospitals among undeveloped regions. Subjects with CCVds or at high CCVds risks can be detected earlier and treated earlier, which can greatly save the cost of medical treatment. However, due to the relatively limited geographical scope of this study, future studies need a large sample and multi-regional clinical study to clarify the stability of this correlation.
In summary, the study details retinal microvascular abnormalities in a rural population of northeast Chian at low altitude with a cold climate. The overall prevalence of retinal microvascular abnormalities in this population is relatively higher than that reported in other regions of the world. But the prevalence of retinopathy is lower, which may be associated with cold climate, high salt diets, and still lower living standards. Retinal microvascular abnormalities are common in older persons and are related to hypertension. Retinopathy is associated with a self-reported diagnosis of stroke history and arteriovenous nicking is associated with the self-reported diagnosis of coronary heart diseases history, but focal and generalized arteriolar narrowing and arteriolar sheathing are not consistently related to the self-reported diagnosis of coronary heart disease or previous cerebrovascular events such as stroke. Thus, an examination of retinal microvascular characteristics may offer clues to the cardiovascular and cerebrovascular diseases and could be a potentially novel biomarker of cardiovascular and cerebrovascular diseases risk.