Multiple and large simple renal cysts are associated with glomerular filtration rate decline: a cross-sectional study of Chinese population

Background

Although simple renal cyst (SRC) is a kind of structural alterations of kidney with age, the relationship between SRC and renal function is still obscure. We investigated the relationship between SRC and renal function in Chinese population.

Methods

The medical records of 41,842 individuals who underwent physical examinations at the Health Check-up Center at our institution in 2018 were reviewed. According to whether with SRC, they were divided into no-SRC and SRC groups. SRCs were classified into subgroups based on number (< 2 vs. ≥ 2) and size (< 2 cm vs. ≥ 2 cm). Logistic regression was used to examine the relationship between SRC and estimated glomerular filtration rate (eGFR).

Results

Multinomial logistic regression analysis showed that the adjusted odds ratio (OR) for eGFR slight decline in subjects with SRC was 1.26(95% confidence interval (95% CI):1.17–1.35, p < 0.001), and the OR for eGFR severe decline was 1.35(95% CI: 1.16–1.56, p < 0.001) compared with no-SRC. The adjusted OR of SRC number ≥ 2 and ≥ 2 cm on the risk of eGFR severe decline was the highest (OR:1.68, 95% CI:1.25–2.23, p < 0.01) of four SRC subgroups.

Conclusions

SRC is related to eGFR decline, especially when the person with one more SRCs and the size of SRC is more than 2 cm. SRC could be a warning sign for clinicians to judge the decline of renal function.

The kidney is one of the most susceptible organs to aging [1, 2]. Structural and functional alterations occur in the kidney with age. Kidney function declines with age is mainly manifested as a decline in glomerular filtration rate (GFR) [3, 4]. Renal cyst is one of the structural alterations of kidney with age. According to the malignant tendency, renal cysts are categorized into four Bosniak classes baes on ultrasound, computed tomography (CT) and/or magnetic resonance imaging (MRI). Bosniak I renal cysts are the most common and are usually called simple renal cysts (SRCs) [5, 6]. On ultrasonic images, SRC is characterized by homogeneous cystic cavity, regular contour, clear boundary, thin smooth wall, no echo, and no septa or calcifications [5]. In the past, it was considered that SRC had no obvious clinical symptoms, low malignant tendency, little impact on body function, and no follow-up was required [5, 6]. Recently, more and more researchers believe that SRC is not as simple as previously thought [7,8,9,10]. Clinical studies found that the prevalence of SRC increased with age [11]. In the age-related comorbidity population, such as diabetes, arteriosclerosis, hyperuricemia and hypertension, the SRC prevalence is high [7, 8, 12,13,14].

The relationship between SRC and renal function is still controversial [15,16,17,18]. Some scholars such as HJ Chin [19], Ozdemir [18] believe that SRC has nothing to do with the decline of renal function, while other scholars such as Kong X [15], AL-Said J [17] believe that SRC is related to the decline of renal function. Therefore, this study intends to explore the relationship between SRC and renal function in Chinese population through a cross-sectional study.

Study population

The subjects of this cross-sectional study were individuals who underwent physical examinations from January to December 2018 at the Health Check-up Center of The Affiliated People’s Hospital of Jiangsu University, which is a tertiary teaching hospital in China. A total of 41,842 participants were collected for this study and fulfilled the following criteria:

Inclusion criteria: (1) age ≥ 18 years; (2) no malignant disease, no acute heart failure, no sever disease or infection disease;(3) without pregnancy. Exclusion criteria: (1) not Chinese ethnic origin, (2) a history of renal transplantation; (2)images of polycystic kidney disease(PKD), solitary kidney, partial nephrectomy, renal tumor, or ectopic kidney; (3) missing data for other variables. For subjects with multiple physical examinations, only the first exam record was used. The flowchart of subject inclusion is summarized in Fig. 1.

Flowchart of the enrolled subjects

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This study was reviewed and approved by the Ethics Committee of The Affiliated People’s Hospital of Jiangsu University (ZFPH No: K-20220061-W). Given the retrospective study design, the need for formal consent was waived. The authors complied strictly with the Declaration of Helsinki and covered patient data confidentiality.

Clinical variables

Body mass index (BMI) was calculated based on body weight (kilograms)/height(meters) squared. All data were obtained retrospectively via the hospital electronic database. Basic demographic characteristics, height, weight, systolic blood pressure, diastolic blood pressure, fasting plasma glucose (FPG), glycosylated hemoglobin (HbA1c), total cholesterol (TC), triglyceride (TG), high-density lipoprotein cholesterol (HDL-C), serum creatinine and other data were recorded.

Hypertension was defined as systolic blood pressure ≥ 140 mmHg or diastolic blood pressure ≥ 90 mmHg or with a positive history of hypertension. Mean blood pressure = (systolic blood pressure₊ diastolic blood pressure × 2)/3.

Diabetes mellitus was defined as FPG ≥ 7.0 mmol/L or HbA1c > 6.5% or with a positive history of diabetes mellitus.

SRC diagnosis

Ultrasonic diagnosis: According to Bosniak method, SRC was diagnosed on the basis that: (1) round or oval cystic cavity; (2) regular outline of the cystic cavity and clear boundary; (3) homogeneous cystic cavity without separation or calcification;(4) thin and smooth wall without echo, and (5) enhanced echo of the posterior wall [5].

CT diagnosis: CT images showed uniform water attenuation (range -10hu to 20hu), thin and smooth wall, no calcification, septum or mural nodules [5, 20]. If the subject not only had kidney ultrasound record, but also had abdominal CT record, the CT record were prevailed. The subjects with SRC were further stratified according to the maximum diameter of SRC (< 2 cm vs. ≥ 2 cm) and the number of SRC (< 2 vs. ≥ 2).

eGFR calculation

The estimated glomerular filtration rate (eGFR) was calculated by Chronic Kidney Disease Epidemiology Collaboration (CKD-EPI) creatinine Eq. (2009) [21]. The equation is as follows:

for females,

if SCr ≤ 0.7 mg/dl, eGFR = 144 × (SCr/0.7) ^−0.329 × (0.993) ^age,

and if SCr > 0.7 mg/dl, eGFR = 144 × (SCr/0.7) ^−1.209 × (0.993) ^age;

for males,

if SCr ≤ 0.9 mg/dl, eGFR = 141 × (SCr/0.9) ^−0.411 × (0.993) ^age,

and if SCr > 0.9 mg/dl, eGFR = 141 × (SCr/0.9) ^−1.209 × (0.993) ^age,where Scr is serum creatinine (mg/dl).

Statistical analysis

All subjects were divided into no simple renal cyst group (no-SRC group) and simple renal cyst group (SRC group) according to whether they had simple renal cyst. The SRC group was further divided into subgroups based on the number and size of cysts (SRC number < 2 and size < 2 cm, SRC number < 2 and size ≥ 2 cm, SRC number ≥ 2 and size < 2 cm and SRC number ≥ 2 and size ≥ 2 cm). Categorical variables were presented as counts (percentages). Continuous variables were described as mean ± standard deviation or the median (interquartile range) according to normal or skewed distribution. Student’s t-test was used to compare between two groups of normally distributed data, and the Mann–Whitney U test was used for skewed distributions. One-way analysis of variance (ANOVA) test was used to analyze the significance among multi-groups. The counting data were tested using Chi-square test. Logistic regression was employed to identify associations between SRC prevalence and eGFR. Using IBM ® SPSS ® Statistical version 23.0 (IBM, New York, USA) for statistical analysis. Two tailed p value < 0.05 was considered statistically significant. Prism 9.0 (Graphpad, San Diego, CA, USA) was used for plotting graphs.

Baseline characteristics

According to the inclusion and exclusion criteria, 41,842 subjects were finally included, as shown in Fig. 1. Among them, there were 5758 subjects in the simple renal cyst group (SRC group) and 36,084 subjects in the no simple renal cyst group (no-SRC group). The age of these subjects ranged from 18 to 101 years old with the average of 50.6 ± 14.8 years old. Baseline characteristics are shown in Table 1. Compared to no-SRC group, subjects in SRC group were older, and with higher proportion of males, higher systolic blood pressure, higher diastolic blood pressure, higher mean arterial pressure, higher HbA1c, higher FPG, higher TG, higher urea nitrogen, higher serum creatinine, higher uric acid, but lower HDL-C and lower eGFR (p < 0.05).

SRC and age

In accordance with their ages, subjects were stratified 7 layers: 18–29 years old, 30–39 years old, 40–49 years old, 50–59 years old, 60–69 years old, 70–79 years old, 80 years old and above. The prevalence of SRC in each layer was 4.9%, 7. 3%, 11. 2%, 16. 2%, 18. 8%, 21. 6% and 25.8%, respectively, showing an increasing trend (p < 0.001) (Fig. 2). When combining both cyst number and size in the analysis, the increasing trend stood still (Fig. 3).

The prevalence of simple renal cyst (SRC) stratified according to age

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The prevalence of simple renal cyst (SRC) combining both cyst number and size. a Prevalence of SRC number < 2 and size < 2 cm. b Prevalence of SRC number < 2 and size ≥ 2 cm. c Prevalence of SRC number ≥ 2 and size < 2 cm. d Prevalence of SRC number ≥ 2 and size ≥ 2 cm

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SRC and eGFR

As shown in Fig. 4, eGFR of no-SRC, SRC number < 2 and size < 2 cm, SRC number < 2 and size ≥ 2 cm, SRC number ≥ 2 and size < 2 cm and SRC number ≥ 2 and size ≥ 2 cm were 99.94 ± 17.16 ml/min per 1.73m², 94.71 ± 16.97 ml/min per 1.73m², 94.97 ± 16.78 ml/min per 1.73m² and 91.83 ± 17.72 91.82 ± 17.85 ml/min per 1.73m², showing a decreasing trend (p for trend < 0.001), and the eGFR of SRC number ≥ 2 and size ≥ 2 cm was the lowest of all. eGFR of the two SRC number ≥ 2 groups were lower than those of SRC number < 2 groups(p < 0.05). However, there were no statistically significant differences between the two SRC number ≥ 2 groups (p ≥ 0.05). And there were no statistically significant differences between the two SRC number < 2 either (p ≥ 0.05).

Comparisons of eGFR among subjects with simple renal cyst (SRC) and those without SRC (no-SRC). Error bars indicate standard errors. The same letter on the column indicates that the difference is not significant (p ≥ 0.05), and different letters a–c indicate that the difference is significant (p < 0.05). eGFR estimated glomerular filtration rate calculated by the 2009 CKD-EPI formula

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Association between SRC and eGFR

A negative association was displayed between the prevalence of SRC and eGFR (β = -0.430, p < 0.05) after adjusted for gender, age (per 10 years), systolic blood pressure, fast glucose, serum uric acid and body mass index. In elderly population (age ≥ 60 years old), this kind of association was not statically significant (β = − 0.102, p > 0.05) after adjusted for clinical influencing factors, even though which was appeared before adjusted (β = − 1.173, p > 0.01). The negative association (β = − 0.660, p < 0.01) between the prevalence of SRC and eGFR was appeared still in adults (age < 60 years old) after adjusted. It could be noted that the prevalence of SRC showed stronger negative correlation with eGFR in younger adults than in the older adults (Table 2).

Association between SRC and eGFR decline

The association between eGFR decline and SRC was further analyzed. When eGFR slight decline (60 ≤ eGFR < 90 ml/min per1.73m²) and severe decline (eGFR < 60 ml/min per 1.73m²) were taken as dependent variables, the parallel line test failed (p < 0.05). Therefore, subsequent studies on the above dependent variables were conducted by multinomial logistic regression analysis instead of ordinal logistic regression analysis (Additional file 1: Table S1).

The presence of SRC was independently associated with eGFR slight decline and severe decline after adjusting for some clinical variables such as older age, gender, hypertension, fasting plasma glucose, uric acid, and triglyceride. Compared with no-SRC, the adjusted odds ratio (OR) for eGFR slight decline in subjects with SRC was 1.26 (95% confidence interval (95%CI): 1.17–1.35, p < 0.001), and the OR for eGFR severe decline was 1.35 (95%CI: 1.16–1.56, p < 0.001), increased by 9% than which of eGFR slight decline (Fig. 5).

The association of eGFR decline and SRC. Adjusted by age, gender, hypertension, fasting plasma glucose, uric acid, and triglyceride. eGFR slight decline,60 ≤ eGFR < 90 ml/min per1.73m²; eGFR severe decline, eGFR < 60 ml/min per1.73m². OR odds ratio, CI confidence interval, eGFR estimated glomerular filtration rate calculated by the 2009 CKD-EPI formula, SRC simple renal cyst

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After adjusting for clinical variables such as age, gender, hypertension, fasting plasma glucose, uric acid, and triglyceride, the adjusted OR of SRC number ≥ 2 and ≥ 2 cm on the risk of eGFR severe decline was the highest of all (OR:1.68, 95% CI:1.25–2.23, p < 0.01) (Fig. 6). The association did not change after stratified by age. The adjusted OR of SRC number ≥ 2 and ≥ 2 cm on the risk of eGFR severe decline was 2.13(CI:1.24–3.67, p < 0.01) in adults (age < 60 years old), and 1.45(CI:1.02–2.07, p < 0.05) in older (age ≥ 60 years old) (Fig. 7).

The association of eGFR decline and SRC four combinates. Adjusted by age, gender, hypertension, fasting plasma glucose, uric acid, and triglyceride. eGFR slight decline, 60 ≤ eGFR < 90 ml/min per1.73m²; eGFR severe decline, eGFR < 60 ml/min per1.73m². OR odds ratio, CI confidence interval, eGFR estimated glomerular filtration rate calculated by the 2009 CKD-EPI formula, SRC simple renal cyst

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The association of eGFR decline and SRC four combinates stratified by age. Adjusted by gender, hypertension, fasting plasma glucose, uric acid, and triglyceride. eGFR slight decline, 60 ≤ eGFR < 90 ml/min per1.73m²; eGFR severe decline, eGFR < 60 ml/min per1.73m²; OR odds ratio, CI confidence interval; eGFR estimated glomerular filtration rate calculated by the 2009 CKD-EPI formula, SRC simple renal cyst

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SRCs are common renal cysts and commonly asymptomatic. With the advances in imaging technology, more and more SRCs are incidentally found during imaging examination for other reasons [6]. Due to different races, different complications, different imaging methods used, and other factors, the prevalence of SRC varies between 4.2% to 55% [22,23,24]. The detection rate of SRC by CT or MRI is higher than that by ultrasound [25]. The prevalence of SRC in the physical examination population is 7.7–10.5% [15, 26], and the prevalence of SRC in individuals with diabetes mellitus, hypertension is 21.1% [27] and 20.3% [28], respectively. The prevalence of SRC increases with age, and is reported to be up to 31.9% in the elderly [12]. The prevalence of SRC in this study was 13.8%, slightly higher than the study carried out by Chinese scholar Kong X et al. [15]. The reason is possibly caused by the fact that our study included CT examination results, which improved the detection rate. Our results showed the prevalence of SRC increased with age, which was consistent with previous studies. Concerning SRC number and size, the increasing trend with age stood still.

Some scholars hold the view that SRC could be a variant of "normal" [29], which has no special significance in clinical diagnosis or treatment and does not need follow-up [6, 30]. However, other scholars believe that SRC could be a kind of variant “without known pathologic associations” but for “with unknown pathologic associations” [31]. And its clinical significance still needs to be explored [12, 24, 32, 33]. SRC, simple renal cyst may not be as simple as we think. As early as 1977, a study by Baert L et al. [34] pointed out that before the identification of SRC by imaging, there had been microstructural changes in the kidney, including the formation of diverticula and micro-cysts. His study found that all kidneys of adults and elderly people had diverticula on the distal tubule, the number increasing with age. This change is consistent with our result that the prevalence of SRC increases with age.

SRC is not only related to aging, but also related to hypertension [8, 28], diabetes [12], arteriosclerosis[7] and hyperuricemia [13].In this study, we also found that the blood pressure, fasting plasma glucose, blood lipid, uric acid and serum creatinine in SRC group were higher than those in no-SRC group (p < 0.001), and eGFR in SRC group was lower than those in no-SRC group (p < 0.001).

The relationship between SRC and renal function is still controversial [15,16,17,18]. Some studies consider that SRC has nothing to do with the reduced renal function [18, 19], while others suggest that SRC is related to the decline of renal function [15, 17]. In this study, the presence of SRC was independently associated with eGFR slight decline and severe decline after adjustment. Analyzing SRCs with characteristics of both number and size, four SRC subgroups were all independently associated with eGFR slight decline and severe decline when other clinical variables were not adjusted (Additional file 2: Fig. S1). After adjusting for clinical variables, all four SRC subgroups were associated with eGFR slight decline, but were not all statistically associated with eGFR severe decline. The association of SRC number < 2 and size ≥ 2 cm and eGFR severe decline was not statistically significant. Except for "single large cyst", the OR on risk of eGFR severe decline was gained with the increase of SRC number and diameter. Among four SRC subgroups, the adjusted OR of SRC number ≥ 2 and ≥ 2 cm on the risk of eGFR severe decline was the highest of all (OR:1.68, 95% CI:1.25–2.23, p < 0.01). The association did not change after stratified by age, even though it was attenuated in older layer.

The following factors may explain the association between SRC and renal function decline. The association between SRC and renal function may be related to the aging process and primary renal diseases, which are accompanied by an increased number and enlarged size of cysts. SRC originated from distal convoluted tubule or collecting duct, and its precursor structure, renal tubular diverticulum or microcyst, is considered to be secondary to nephron loss [34]. With the advancing age and the occurrence of kidney diseases, the mass of renal cortex decreases, and nephrons losing increase the workload of the remaining nephrons, and may lead to hypertrophy or proliferation of renal tubular cells, leading to the formation of cysts [11]. On the other hand, some studies have shown the prevalence of SRC is related to the increased renin release which due to renal ischemia caused by cyst expansion [28, 35]. With the stimulation of renin angiotensin aldosterone system, the elevated blood pressure leads to endothelial dysfunction and microvascular ischemia, glomerulosclerosis, loss of nephron, and decline of renal function, which in turn causes the occurrence of renal cyst [36, 37]. The presence of SRC and the increase of SRC number or larger diameter will aggravate renal ischemia, because the effect of cyst expansion is more serious. Therefore, it is more likely to generate higher internal hydrostatic pressure to compress the surrounding renal tissue, leading to renal ischemia.

To sum up, this study believes that SRC has a certain correlation with the decline of eGFR. The greater the number and diameter of SRC, the lower the eGFR may be. This study has some limitations. 1.This study is a cross-sectional study that limits causal inference: we see correlations, but we cannot confirm the direction or causal relationship of these correlations. 2. Although this study included some abdominal CT results, the imaging basis of most subjects was ultrasound. Although renal ultrasound is a reliable tool for estimating renal length, it is not as sensitive as CT or MRI, so some smaller cysts may be missed in the study.3. The subjects of the study are ethnic Chinese. Whether the results of this study are applicable to other ethnic groups needs further research. 4. In this study, molecular genetic tests were not performed on every subject, especially the SRC group, to exclude PKD. Some people in our study may have PKD. In the follow-up, further studies were conducted to explore the causal relationship between SRC and eGFR decline.

In conclusion, we believe that SRC is related to the decrease of eGFR, especially when the person with one more SRCs and the diameter of the biggest SRC is more than 2 cm. SRC may be a warning sign for clinicians to judge the decline of renal function.

The datasets used and analyzed during the current study are available from the corresponding author on reasonable request.

SRC:

Simple renal cyst

OR:

Odds ratio

CI:

Confidence interval

eGFR:

Estimated glomerular filtration rate

CT:

Computed tomography

MRI:

Magnetic resonance imaging

PKD:

Polycystic kidney disease

BMI:

Body mass index

FPG:

Fasting plasma glucose

HbA1c:

Glycosylated hemoglobin

TC:

Total cholesterol

TG:

Triglyceride

HDL-C:

High-density lipoprotein cholesterol

CKD-EPI:

Chronic Kidney Disease Epidemiology Collaboration

ANOVA:

One-way analysis of variance

The authors acknowledge the efforts of Huang Peng for his guidance on statistics. And the authors would like to thank the Health Check-up Center of The Affiliated People’s Hospital of Jiangsu University for the help in providing clinical data.

This study was supported by the grants from the National Key R&D Program of China (2018YFC2002100, 2018YFC2002102), National Natural Science Foundation of China (82171585), Jiangsu Province Older Adults Health Introduction New Technique Project (LX2021003), Jiangsu Province Hospital Clinical Ability Improvement Project (JSPH-MC-2022-22), Jiangsu Province Graduate Training Innovation Project (SJCX21_0620), Jiangsu Province Cadres Health Care Project (BJ17018), Jiangsu Province Hospital 511 Project (JSPH-511A-2018-5) and The Affiliated People’s Hospital of Jiangsu University Clinical Ability Project(Y2022015).

Authors and Affiliations

1. Division of Nephrology, Department of Geriatric, The First Affiliated Hospital of Nanjing Medical University, No. 300 Guangzhou Road, Nanjing, 210029, Jiangsu, China

   Cheng Jin, Lu Wei, Zhenzhu Yong, Yao Ma, Bei Zhu, Xiaohua Pei & Weihong Zhao

2. Department of Geriatrics, The Affiliated People’s Hospital of Jiangsu University, Zhenjiang, 212002, Jiangsu, China

   Cheng Jin & Canhong Zhu

Contributions

CJ contributed to the study design, acquisition, analysis and interpretation of data, drafting and revising the article, and final approval of the version to be published. LW, ZZY, YM, BZ and XHP contributed to revising the article for important intellectual content and final approval of the version to be published. CHZ contributed to acquisition of data and final approval of the version to be published. WHZ contributed to conception and design, analysis and interpretation of data, revising the article for important intellectual content, and final approval of the version to be published. All authors read and approved the final manuscript.

Corresponding author

Correspondence to Weihong Zhao.

Ethics approval and consent to participate

This study was approved by the ethical review committee of The Affiliated People’s Hospital of Jiangsu University waived off the requirement for informed consent and approved the study (ZFPH No: K-20220061-W). All subject records and data were deidentified and anonymized prior to analysis. This study was conducted in accordance with the Declaration of Helsinki.

Consent for publication

Not applicable.

Competing interests

The authors declare that they have no competing interests.

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