Diabetic endothelial microangiopathy and pulmonary dysfunction

Zhang, Lanlan; Jiang, Faming; Xie, Yingying; Yan, Ming; Zhang, Xin; Liu, Chuntao

doi:10.3389/fendo.2023.1073878

Cited by 8 publications

(8 citation statements)

References 188 publications

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“…This is the fundamental cause of diabetic microvascular complications ( 81 ). At the same time, reductions in FVC and FEV1 are correlated with increased levels of Hypoxia-Inducible Factor-1 (HIF-1) and VEGF ( 51 ), thereby heightening the likelihood of endothelial vascular lesions related to diabetes.…”

Section: Discussionmentioning

confidence: 99%

Evaluation of bi-directional causal association between obstructive sleep apnoea syndrome and diabetic microangiopathy: a Mendelian randomization study

Liu,

Chang,

Lian

et al. 2024

Front. Cardiovasc. Med.

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BackgroundThe relationship between obstructive sleep apnea syndrome (OSAS) and diabetic microangiopathy remains controversial.ObjectiveThis study aimed to use bidirectional two-sample Mendelian Randomization (MR) to assess the causal relationship between OSAS and diabetic microangiopathy.MethodsFirst, we used the Linkage Disequilibrium Score Regression(LDSC) analysis to assess the genetic correlation. Then, the bidirectional two-sample MR study was conducted in two stages: OSAS and lung function-related indicators (forced vital capacity (FVC) and forced expiratory volume in 1 s (FEV1)) were investigated as exposures, with diabetic microangiopathy as the outcome in the first stage, and genetic tools were used as proxy variables for OSAS and lung function-related measures in the second step. Genome-wide association study data came from the open GWAS database. We used Inverse-Variance Weighted (IVW), MR-Egger regression, Weighted median, Simple mode, and Weighted mode for effect estimation and pleiotropy testing. We also performed sensitivity analyses to test the robustness of the results. Furthermore, we performed multivariate and mediation MR analyses.ResultsIn the LDSC analysis, We found a genetic correlation between OSAS, FVC, FEV 1, and diabetic microangiopathy. In the MR analysis, based on IVW analysis, genetically predicted OSAS was positively correlated with the incidence of diabetic retinopathy (DR), diabetic kidney disease (DKD), and diabetic neuropathy (DN). In the subgroup analysis of DR, there was a significant causal relationship between OSAS and background diabetic retinopathy (BDR) and proliferative diabetic retinopathy (PDR). The reverse MR did not show a correlation between the incidence of diabetic microangiopathy and OSAS. Reduced FVC had a potential causal relationship with increased incidence of DR and PDR. Reduced FEV1 had a potential causal relationship with the increased incidence of BDR, PDR, and DKD. Multivariate MR analysis showed that the association between OSAS and diabetic microangiopathy remained significant after adjusting for confounding factors. However, we did not find the significant mediating factors.ConclusionOur results suggest that OSAS may be a cause of the development of diabetic microangiopathy, and OSAS may also be associated with a high risk of diabetic microangiopathy, providing a reference for a better understanding of the prevention of diabetic microangiopathy.

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Section: Discussionmentioning

confidence: 99%

Evaluation of bi-directional causal association between obstructive sleep apnoea syndrome and diabetic microangiopathy: a Mendelian randomization study

Liu,

Chang,

Lian

et al. 2024

Front. Cardiovasc. Med.

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“…[ 3 ] Additionally, in individuals with diabetes, lung endothelial dysfunction and thickening of the interstitial lung layer may be caused by chronic systemic inflammation linked to oxidative stress and loss of antioxidant capacity. [ 33 , 34 ] According to recent research, NADPH oxidase or the polyol pathway activation may be the mechanism causing diabetic lung damage. [ 3 , 34 ] In hyperglycemia, a rise in the STAT3 (‘Signal Transducer and Activator of Transcription 3’) genes also contributes to cell injury.…”

Section: Discussionmentioning

confidence: 99%

“…[ 33 , 34 ] According to recent research, NADPH oxidase or the polyol pathway activation may be the mechanism causing diabetic lung damage. [ 3 , 34 ] In hyperglycemia, a rise in the STAT3 (‘Signal Transducer and Activator of Transcription 3’) genes also contributes to cell injury. [ 4 , 34 ] At the same time, the cellular mechanisms for these abnormalities are still unclear.…”

Section: Discussionmentioning

confidence: 99%

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Persistent Hyperglycemia Worsens the Oleic Acid Induced Acute Lung Injury in Rat Model of Type II Diabetes Mellitus

Yadav,

Kailashiya,

Sharma

et al. 2023

Journal of Pharmacy and Bioallied Sciences

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Aim: This research aimed to study the impacts of persistent hyperglycemia on oleic acid (OA)–induced acute lung injury (ALI) in a rat model of type II diabetes mellitus. Materials and Methods: Healthy adult male albino rats that weigh 150 to 180 g were divided into four groups (n = 6). Group I-saline (75 μL i.v.) was injected and served as a control; group II-OA (75 μL i.v.) was injected to induce ALI. Group III-pretreated with a high-fat diet and streptozotocin (35 mg/kg), was injected with saline, and served as a control for group IV. Group IV was pretreated with a high-fat diet, and streptozotocin (35 mg/kg) was injected with OA (75 μL i.v). Urethane was used to anesthetize the animal. The jugular venous cannulation was done for drug/saline administration, carotid artery cannulation was done to record blood pressure, and the tracheal cannulation was done to maintain the respiratory tract’s patent. Heart rate, mean arterial pressure, and respiratory frequency were recorded on a computerized chart recorder; an arterial blood sample was collected to measure PaO2/FiO2. Additionally, the pulmonary water content and lung histology were examined. Result: Hyperglycemic rats showed no significant change in the cardio-respiratory parameter. Histology of the lungs shows fibroblastic proliferation; however, rats survived throughout the observation period. There was an early deterioration of all the cardio-respiratory parameters in hyperglycemic rats when induced ALI (OA- induced), and survival time was significantly less compared to nonhyperglycemic rats. Conclusion: Persistent hyperglycemia may cause morphological changes in the lungs, which worsens the outcome of acute lung injury.

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“…Endothelial dysfunction, as a hallmark of generalized microangiopathy in humans, is not only a key node in the occurrence of a series of cardiovascular diseases but also a trait stage of diabetes that can in uence the pathophysiology of diabetic vasculopathy and ultimately lead to clinical CVD [6][7][8]. The recent evidence on the relationship between SCH and endothelial dysfunction [7,9] suggests that careful attention must be paid to endothelial function early, especially in T2DM patients with SCH. In the past few years, non-invasive indicators of endothelial dysfunction that e ciently assess early vascular changes have increasingly attracted the interest of researchers.…”

Section: Introductionmentioning

confidence: 99%

Relationship between subclinical hypothyroidism and endothelial dysfunction in patients with type 2 diabetes: A cross-sectional study

Yu,

Fan

2023

Preprint

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Purpose: To investigate the relationship between subclinical hypothyroidism (SCH) and vascular endothelial function in patients with type 2 diabetes mellitus (T2DM). Methods: The reactive hyperemia index (RHI) as a surrogate marker of endothelial function was measured using a fingertip peripheral arterial tonometry device in 247 T2DM patients with or without SCH. The 75-g oral glucose tolerance test was conducted, and the brachial-ankle pulse wave velocity was measured. Results: Compared with patients with euthyroidism (n=135), patients with SCH (n=112) had a lower RHI (1.60 ± 0.37 vs. 1.75 ± 0.41, P = 0.003), low-density lipoprotein cholesterol level (2.74 ± 0.91 vs. 2.99 ± 0.96 mmol/L, P = 0.037), estimated glomerular filtration rate (93.89 ± 23.23 vs. 100.3 ± 15.41 mL/min/1.73 m2, P = 0.016), and 30-min insulinogenic index (median, 17.76 [interquartile range: 8.72–27.75] vs. 39.40 [22.00–97.89], P < 0.001), and higher body mass index (26.13 ± 4.06 vs. 24.83 ± 3.17 kg/m2, P = 0.006) and area under the insulin curve (764.95 [493.04–1088.49] vs. 563.23 [345.71–887.20] pmol×h/L, P < 0.001). Patients with SCH was at increased risk of endothelial dysfunction (odds ratio = 2.845, 95% confidence interval: 1.090–7.427; P = 0.033), and the interaction between (BMI) and RHI (Pint = 0.02) was stronger in these patients than in patients with euthyroidism. Conclusion: SCH is likely associated with the deterioration of endothelial function in patients with T2DM, and thus, examination of thyroid function is recommended for patients with T2DM. Further research is needed to clarify the mechanism underlying this association.

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Diabetic endothelial microangiopathy and pulmonary dysfunction

Cited by 8 publications

References 188 publications

Evaluation of bi-directional causal association between obstructive sleep apnoea syndrome and diabetic microangiopathy: a Mendelian randomization study

Evaluation of bi-directional causal association between obstructive sleep apnoea syndrome and diabetic microangiopathy: a Mendelian randomization study

Persistent Hyperglycemia Worsens the Oleic Acid Induced Acute Lung Injury in Rat Model of Type II Diabetes Mellitus

Relationship between subclinical hypothyroidism and endothelial dysfunction in patients with type 2 diabetes: A cross-sectional study

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