Mei Shi scite author profile

Cardiovascular disease now is the leading cause of mortality among patients with type 1 diabetes (T1D). The risk of death from cardiovascular events in subjects with T1D is 2–10 times higher than the general population, depending on blood glucose control. Although complications of cardiovascular disease occur in middle and old age, pathological processes begin in childhood. Some methods used to evaluate subclinical cardiovascular disease, such as carotid intima‐media thickness and pulse wave velocity, can detect early cardiovascular abnormalities in adolescence. The effect of risk factors including hypertension, dyslipidemia and diabetic nephropathy on cardiovascular disease has been well studied. According to the current clinical practice recommendations from the American Diabetes Association, cardiovascular risk factors should be systematically assessed at least annually and treated as recommended. And yet, the effects of intensive insulin therapy on cardiovascular risk, as well as the mechanisms of cardiac autoimmunity require further studying. This review concentrates on the cardiovascular risk in type 1 diabetes in order to provide a comprehensive outlook of its epidemiology, early assessment, risk factors and possible relations with cardiac autoimmunity, aiming to propose promising therapeutic strategies.

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Three‐phasic pattern of C‐peptide decline in type 1 diabetes patients with partial remission

Shi

Xie

Tang

et al. 2021

Diabetes Metabolism Res

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Aims To explore the different patterns of C‐peptide decline in patients with and without partial remission of newly diagnosed type 1 diabetes (T1D). Materials and methods A total of 298 patients with new‐onset T1D were followed up regularly at 3 months' interval to investigate the loss of C‐peptide. Partial remission was determined by postprandial C‐peptide ≥300 pmol/L or insulin dose‐adjusted A1c ≤ 9 in the absence of C‐peptide. Beta‐cell function was defined as preserved, residual or failed by postprandial C‐peptide of ≥200 pmol/L, 50–200 pmol/L or ≤50 pmol/L, respectively. Results Altogether, 199 out of 298 patients (125 adults) had partial remission. The pattern of C‐peptide change in patients with partial remission was three‐phasic, demonstrating an upward trend followed by a downward trend of fast first and then slow, while the pattern in patients without partial remission was biphasic, showing an initial fast fall and a subsequent slower decrease. The patterns remained consistent when patients were stratified by the age of onset. At 3 years, there were 71% of the patients with partial remission still had preserved or residual beta‐cell function, while 89% of the patients who had no partial remission developed beta‐cell function failure. In patients whose partial remission ended, the average C‐peptide was still higher than duration‐matched patients without partial remission. Conclusions Patients with partial remission of T1D have a distinct three‐phasic pattern of C‐peptide decline, other than the widely recognized biphasic pattern. The effect of partial remission still exists after remission ends.

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Insulin resistance is more frequent in type 1 diabetes patients with long disease duration

Xie

Shi

et al. 2023

Diabetes Metabolism Res

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AimsTo investigate the clinical status of insulin resistance (IR) and its correlation with disease duration in patients with type 1 diabetes (T1D).Materials and MethodsCross‐sectional data from a T1D cohort were obtained (n = 923). IR‐related metabolic disorders including hypertension, obesity, and dyslipidemia were used as outcome variables to explore the cut‐off point for estimated glucose disposal rate (eGDR) by restricted cubic spline (RCS) curve. Regression models were used for multivariate analysis of the clinical factors associated with IR. The correlation between the status of IR and diabetes duration was depicted with the RCS curve.ResultsIR‐related metabolic disorders were observed in 39.4% of patients, with 9.1% meeting the criteria for metabolic syndrome. Specifically, patients with ≥10 years of T1D were more likely to have IR‐related metabolic disorders (54.7% vs. 36.9%, p < 0.05). The presence of IR, defined as an eGDR ≤9.0 mg/kg/min, was observed in 42.2% of patients. Patients with IR had a longer diabetes duration (3.5 vs. 2.7, years, p = 0.003) and higher insulin dose (0.5 vs. 0.4, units per kg per day, p < 0.001). Moreover, the presence of IR showed a gradual increase during 10 years' disease duration and further analysis showed that diabetes duration ≥10 years was a key element behind the development of IR and IR‐related metabolic disorders.ConclusionsThe status of IR is common in T1D patients, especially in those with ≥10 years of disease duration. Therapies targeting balancing glycaemic control and IR are needed to decrease the future risk of cardiovascular diseases in T1D.Clinical trial registration: ClinicalTrials.gov NCT03610984 (cohort study of patients with type 1 diabetes).

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Using Glycated Albumin and Stimulated C-Peptide to Define Partial Remission in Type 1 Diabetes

Shi

Xie

et al. 2022

Front. Endocrinol.

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ObjectiveTo propose a new definition of partial remission (PR) for patients with type 1 diabetes (T1D) of all-ages using insulin dose and glycated albumin (GA), and find the optimal cut-off values for stimulated C-peptide to diagnose PR in different age-groups.Research Design and MethodsPatients with newly diagnosed T1D (n=301) were included. GA/insulin dose was used to diagnose PR, and insulin dose-adjusted glycated albumin (IDAGA) was proposed to facilitate clinical application. The optimal diagnostic levels of IDAGA and stimulated C-peptide were determined in different age-groups (≤ 12y, 12-18y and ≥ 18y). Furthermore, the diagnostic consistency between different PR definitions was studied.ResultsGA≤ 23%/insulin dose ≤ 0.5u/kg/day was used to define PR, and IDAGA (GA (%) + 40 * insulin dose(u/kg/day)) ≤ 40 was feasible in all age-groups. Whereas, the optimal diagnostic level showed difference for stimulated C-peptide (265.5, 449.3 and 241.1 pmol/L for the ≤ 12y, 12-18y and ≥ 18y age-group, respectively). About 40% of patients met the PR definition by stimulated C-peptide but not GA/insulin dose or IDAGA, who showed dyslipidemia and higher insulin resistance.ConclusionsA new definition of the PR phase is proposed using GA/insulin dose, and the calculated IDAGA≤ 40 applies to all age-groups. The stimulated C-peptide to diagnose PR is the highest in the 12-18y age-group, which reflects the effect of puberty on metabolism. For patients with insulin resistance, it is not recommended to use stimulated C-peptide alone to diagnose PR.

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Mei Shi

Cardiovascular disease in patients with type 1 diabetes: Early evaluation, risk factors and possible relation with cardiac autoimmunity

Three‐phasic pattern of C‐peptide decline in type 1 diabetes patients with partial remission

Insulin resistance is more frequent in type 1 diabetes patients with long disease duration

Using Glycated Albumin and Stimulated C-Peptide to Define Partial Remission in Type 1 Diabetes

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