Table 1.
Main characteristics of the studies included in this meta-analysis of the association between short sleep duration and NAFLD/MAFLD
| Country | Study design | Sample size | Sex, female | Age (years) | Sleep duration category (h) | Measurement of sleep duration | Definition of NAFLD/MAFLD | Measurement of NAFLD/MAFLD | Confounder adjustment | Quality assessment (Newcastle–Ottawa Scale) | |
|---|---|---|---|---|---|---|---|---|---|---|---|
| Kim et al. 2013 [21] | Korean | Cross-sectional | 45,293 | 42.4% | 39.7 ± 5.9 |
Short = ≤ 5 Reference = > 7 |
Self-administered questionnaire |
Fatty liver detected by ultrasonography in the absence of any known causes of chronic liver disease or alcohol intake ≥ 20 g/day |
Liver ultrasound | Age, smoking status, alcohol intake, physical activity, SBP, education level, marital status, presence of job, sleep apnea, loud snoring, and BMI |
Selection: 3 Comparability: 2 Outcome: 3 |
| Imaizumi et al. 2015 [28] | Japan | Cross-sectional | 2172 | 66.3% | 60.9 ± 12.7 |
Short = ≤ 6 Reference = 6–7 |
Self-administered questionnaire |
Fatty liver detected by ultrasonography in the absence of other causes of chronic liver disease or alcoholic consumption ≥ 20 g/day |
Liver ultrasound | Age, smoking status, no breakfast, snacking, regular exercise, and BMI |
Selection: 4 Comparability: 2 Outcome: 3 |
| Miyake et al. 2015 [23] | Japan | Cohort | 2429 | 72.5% | 40.4 ± SD* |
Short = ≤ 6 Reference = 7–8 |
Self-administered questionnaire |
Fatty liver detected by ultrasonography in the absence of other causes of chronic liver disease or alcoholic misuse |
Liver ultrasound | Age, BMI, SBP, TG, HDL-C, FPG, UA, ALT, Cre, snacking habit, and periodic exercise habit |
Selection: 4 Comparability: 2 Outcome: 2 |
| Yu et al. 2015 [30] | Korean | Cross-sectional | 335 | 49.9% | 54.8 ± SD* |
Short = < 5 Reference = ≥ 5 |
Self-administered questionnaire |
Fatty liver detected by abdominal CT in the absence of other causes of chronic liver disease or alcoholic consumption ≥ 140 g/week |
Abdominal CT | Age, sex, exercise, alcohol, smoking, DM, HTN, CVD, and BMI |
Selection: 2 Comparability: 2 Outcome: 2 |
| Liu et al. 2016 [31] | China | Cohort | 8965 | 56.6% | 61.6 ± 7.8 |
Short = < 6 Reference = 7–8 |
Self-administered questionnaire |
Imaging or histologic evidence of hepatic steatosis, and no other cause for secondary hepatic fat accumulation |
Liver ultrasound |
Age, sex, education, marriage, smoking, alcohol consumption, physical activity, diabetes, sleep quality, napping, and BMI |
Selection: 4 Comparability: 2 Outcome: 3 |
| Peng et al. 2017 [32] | China | Cross-sectional | 8559 | 63.7% | 58.5 ± 9.0 |
Short = ≤ 6 Reference = > 9 |
Self-administered questionnaire |
Fatty liver detected by ultrasonography in the absence of other causes of chronic liver disease or alcoholic consumption ≥ 140 g/week for men or ≥ 70 g/week for women |
Liver ultrasound | Age, sex, current smoker, current drinker, physical activity, marital status, habitation status, work status, ALT, HDL-C, LDL-C, TC, HTN, DM, and BMI |
Selection: 4 Comparability: 2 Outcome: 3 |
| Kim et al. 2018 [33] | USA | Cross-sectional | 17,245 | 51.3% | 45.7 ± SD* |
Short = ≤ 5 Reference = ≥ 9 |
Self-administered questionnaire |
NAFLD is defined by US fatty liver index (USFLI) more than 30 in the absence of viral hepatitis or significant alcohol consumption |
US fatty liver index | Age, sex, ethnicity, education level, marital status, economic status, BMI, waist circumference, smoking, diabetes, HTN, and TC |
Selection: 3 Comparability: 2 Outcome: 2 |
| Kim et al. 2019 [25] | Korean | Cohort | 5427 | 51.8% | 50.8 ± SD* |
Short = < 6 Reference = 7–8 |
Self-administered questionnaire | NAFLD is defined by fatty liver index (FLI) more than 60 in the absence of hepatitis history, positive serologic markers for hepatitis B and C or significant alcohol consumption | Fatty liver index | Age, sex, BMI, SBP, DBP, TG, HDL, FDG, physical activity, smoking, daytime napping, and night-time shifting |
Selection: 3 Comparability: 2 Outcome: 2 |
| Okamura et al. 2019 [22] | Japan | Cohort | 12,306 | 52.5% | 42.0 ± SD* |
Short = ≤ 5 Reference = > 7 |
Self-administered questionnaire |
Fatty liver detected by ultrasonography in the absence of viral hepatitis or alcoholic consumption ≥ 140 g/week for men or ≥ 70 g/week for women |
Liver ultrasound | Age, BMI, ALT, TG, HDL-C, SBP, exercise habit, alcohol consumption, smoking, and FPG |
Selection: 4 Comparability: 2 Outcome: 2 |
| Takahashi et al. 2020 [29] | Japan | Cross-sectional | 4828 | 61.4% | 56.2 ± SD* |
Short = < 5 Reference = > 7 |
Self-administered questionnaire |
Fatty liver detected by ultrasonography in the absence of viral hepatitis or alcoholic consumption ≥ 30 g/day for men or ≥ 20 g/day for women |
Liver ultrasound | Age, smoking habits, physical activity, and BMI |
Selection: 3 Comparability: 2 Outcome: 3 |
| Hu et al. 2020 [34] | China | Case–control | 1960 | 72.5% | 59.4 ± SD* |
Short = < 8 Reference = ≥ 8 |
Self-administered questionnaire |
Fatty liver detected by ultrasonography in the absence of other causes of chronic liver disease or alcoholic consumption ≥ 140 g/week for men or ≥ 70 g/week for women |
Liver ultrasound | Age, sex, smoking, drinking, education. Physical activity, work status, SBP, TG, ALT, BMI, bedtime, daytime napping status, sleep quality, and sleep medication use |
Selection: 3 Comparability: 2 Outcome: 2 |
| Weng et al. 2021 [35] | USA | Cross-sectional | 1786 | 50.7% | 50.0 ± 17.9 |
Short = < 6 Reference = ≥ 6 |
Self-administered questionnaire |
MAFLD was diagnosed based on the evidence of hepatic steatosis and any of the following three conditions: over weight/obesity, diabetes mellitus, or metabolic dysfunction |
Fibroscan | Age, gender, race, diabetes, HTN, waist circumstance, overweight, TG, uric acid, HDL-C, and circadian misalignment |
Selection: 4 Comparability: 2 Outcome: 3 |
| Um et al. 2021 [20] | Korean | Cohort | 143,306 | 61.5% | 36.6 ± 6.6 |
Short = ≤ 5 Reference = 7 |
Self-administered questionnaire |
Fatty liver detected by ultrasonography in the absence of other causes of chronic liver disease or alcoholic consumption ≥ 30 g/day for men or ≥ 20 g/day for women |
Liver ultrasound | Age, sex, center, year of screening examination, season, alcohol consumption, smoking, physical activity, total energy intake, marital status, education level, depression, diabetes, HTN, BMI, and waist circumference |
Selection: 4 Comparability: 2 Outcome: 2 |
| Taheri et al. 2021 [36] | Iran | Case–control | 1932 | 60.9% | 49.2 ± 8.8 |
Short = < 5 Reference = > 7 |
Self-administered questionnaire | MAFLD was defined as having a fatty liver index (FLI) ≥ 60 plus at least one of the following: being overweight or obese, having a T2DM diagnosis or having any evidence of metabolic dysregulation, and in the absence of other causes of chronic liver disease or alcoholic misuse | Fatty liver index | Age, sex, educational level, marital status, socioeconomic status, and total energy intake |
Selection: 3 Comparability: 2 Outcome: 2 |
| Yang et al. 2022 [24] | China | Cross-sectional | 5011 | 60.0% | 63.6 ± 10.8 |
Short = < 7 Reference = 7–8 |
Self-administered questionnaire | MAFLD was diagnosed based on ultrasound examination of hepatic steatosis and the presence of any one of the following three criteria: overweight/obesity, presence of diabetes mellitus, or evidence of metabolic dysregulation | Liver ultrasound | Age, sex, drinking, smoking, sedentary time, diet diversity, education level, medication, HTN, diabetes, and obesity |
Selection: 4 Comparability: 2 Outcome: 3 |