Effects of vitamin D supplementation on glucose and lipid metabolism in patients with type 2 diabetes mellitus and risk factors for insulin resistance

Li-Jie Sun,Ji-Xuan Lu,Xin-Yu Li,Tian-Sheng Zheng,Xiao-Rong Zhan

AbstractBACKGROUND Type 2 diabetes mellitus (T2DM) is a chronic metabolic disease featured by insulin resistance (IR) and decreased insulin secretion.Currently,vitamin D deficiency is found in most patients with T2DM,but the relationship between vitamin D and IR in T2DM patients requires further investigation.AIM To explore the risk factors of IR and the effects of vitamin D supplementation on glucose and lipid metabolism in patients with T2DM.METHODS Clinical data of 162 T2DM patients treated in First Affiliated Hospital of Harbin Medical University between January 2019 and February 2022 were retrospectively analyzed.Based on the diagnostic criteria of IR,the patients were divided into a resistance group (n=100) and a non-resistance group (n=62).Subsequently,patients in the resistance group were subdivided to a conventional group (n=44) or a joint group (n=56) according to the treatment regimens.Logistic regression was carried out to analyze the risk factors of IR in T2DM patients.The changes in glucose and lipid metabolism indexes in T2DM patients with vitamin D deficiency were evaluated after the treatment.RESULTS Notable differences were observed in age and body mass index (BMI) between the resistance group and the non-resistance group (both P ＜ 0.05).The resistance group exhibited a lower 25-hydroxyvitamin D3 (25(OH)D3) level,as well as notably higher levels of 2-h postprandial blood glucose (2hPG),fasting blood glucose (FBG),and glycosylated hemoglobin (HbA1c) than the non-resistance group (all P ＜ 0.0001).Additionally,the resistance group demonstrated a higher triglyceride (TG) level but a lower high-density lipoprotein-cholesterol (HDL-C) level than the non-resistance group (all P ＜ 0.0001).The BMI,TG,HDL-C,25(OH)D3,2hPG,and HbA1c were found to be risk factors of IR.Moreover,the posttreatment changes in levels of 25(OH)D3,2hPG,FBG and HbA1c,as well as TG,total cholesterol,and HDL-C in the joint group were more significant than those in the conventional group (all P ＜ 0.05).CONCLUSION Patients with IR exhibit significant abnormalities in glucose and lipid metabolism parameters compared to the noninsulin resistant group.Logistic regression analysis revealed that 25(OH)D3 is an independent risk factor influencing IR.Supplementation of vitamin D has been shown to improve glucose and lipid metabolism in patients with IR and T2DM.

Key Words: Vitamin D;Type 2 diabetes mellitus;Glucose and lipid metabolism;Insulin resistance;Risk factors

lNTRODUCTlON

Diabetes mellitus (DM) is a chronic disease affecting hundreds of millions of patients worldwide[1].According to the data from the World Health Organization,there are approximate 425 million DM patients globally,and it is estimated that this number will increase to 700 million by 2045[2].Over the past few years,with the improvement of living standards and changes in lifestyle,the number of DM patients in China has increased dramatically[3].According to an estimation,there are approximate 114 million DM patients in China,accounting for 1/4 of the global number of patients[4].As a public health problem,DM places a heavy burden on the economic and medical systems[5].Without timely and effective treatment,patients with DM are prone to various complications,such as cardiovascular diseases,nephropathy,retinopathy,and neuropathy,which seriously compromise the quality of life and lifespan of the patients[6,7].

Insulin,a hormone produced by the pancreas,plays a crucial role in facilitating the absorption of blood glucose by cells for energy production.Insulin resistance (IR) refers to a condition in which the body becomes less responsive to insulin[8],leading to an increase in blood glucose level.In response to hyperglycemia,the pancreas tries to compensates by secreting higher amounts of insulin[9].However,over time,the pancreas may not be able to produce sufficient insulin to meet the demand,resulting in DM[10].Patients with type 2 diabetes mellitus (T2DM) often develop IR first,followed by a gradual decline in insulin secretion,which eventually triggers the inability to effectively regulate blood glucose levels[11].

Vitamin D is a fat-soluble hormone that plays a crucial role in the metabolism of calcium and phosphorus,and it is also implicated in many physiological processes,including immune regulation,inflammation and insulin synthesis and secretion[12].In recent years,vitamin D supplementation has attracted much attention in promoting blood glucose control,suppressing inflammation,enhancing insulin secretion and improving muscle function in T2DM patients[13].Reportedly,about 50% of T2DM patients have vitamin D deficiency,and approximately 1/3 to 2/3 of them are accompanied with decreased bone density,which increases the risk of falls,fractures and death in elderly patients[14].

This study aimed to analyze the risk factors for IR in T2DM patients and the effects of vitamin D supplementation on glucose and lipid metabolism in the patients.

MATERlALS AND METHODS

Subjects

Clinical data of 332 T2DM patients treated in First Affiliated Hospital of Harbin Medical University between January 2019 and February 2022 were retrospectively analyzed.This study was performed with approval from the Medical Ethics Committee of First Affiliated Hospital of Harbin Medical University.

Inclusion and exclusion criteria

Patients were eligible if they met the diagnostic criteria in Guidelines for Prevention and Treatment of Type 2 Diabetes Mellitus in China (2020)[15] and held complete clinical data.

Patients were excluded if they had diabetes other than T2DM,recently suffered from acute infection or acute complications of DM,or had a history of mental illness.

Criteria of IR

The homeostasis model assessment of IR (HOMA-IR) was adopted for the evaluation of the IR degree.According to the Consensus of Chinese Diabetes Experts,IR is indicated by HOMA-IR ≥ 2.69.

Criteria of vitamin D deficiency

According to the criteria of vitamin D deficiency in the Consensus of Clinical Application of Vitamin D and Its Analogs[16],vitamin D deficiency is indicated by serum 25-hydroxyvitamin D (25(OH)D3) less than 50 nmol/L.

Grouping of patients

A total of 332 patients were screened based on the inclusion and exclusion criteria,and 162 patients who met the criteria were finally included.Based on the criteria of IR,the patients were divided into a resistance group (n=100) and nonresistance group (n=62).Subsequently,patients in the resistance group were subdivided into a conventional group (conventional treatment for DM,n=44) or a joint group (conventional treatment for DM plus vitamin D supplementation,n=56) according to the treatment regimens.The patient screening flow chart is shown in Figure 1.

Figure 1 Flowchart.

Therapeutic regimens

Patients in both groups received routine treatment and nursing interventions,and healthcare records were established for each patient during hospitalization.All patients were given metformin [Merck &Co.Inc,State Food and Drug Administration (SFDA) approval number: H20023370] and insulin pump (biosynthetic human insulin,Novo Nordisk,SFDA approval number: S20153001).Metformin was administered with a small initial dosage (0.50 g,twice daily,or 0.85 g,once daily,taken with meals),and the dosage was gradually increased based on the patient's conditions.Insulin is administered subcutaneously using an insulin pump at a dose of 0.15 IU/kg of body weight.The patients were required to take the medication as prescribed,and provided with relevant healthcare and exercise instruction manuals for disease knowledge education.After discharge,the patients were followed up every month and provided with personalized diet and exercise advice according to the changes in blood glucose level.Each patient received continuous intervention for 3 months,during which they were reminded to regularly monitor their blood glucose levels,maintain a reasonable diet,and engage in regular exercise.

Patients in the joint group received additional vitamin D supplementation by giving oral calcium carbonate D3tablets (Wyeth Company,SFDA approval number: H10950029),once a day,one tablets each time,for three consecutive months.

Clinical data collection

The laboratory indicators and baseline data of patients were collected from the hospital electronic medical records.The laboratory indicators included 25(OH)D3,2-h postprandial blood glucose (2hPG),fasting blood glucose (FBG),glycosylated hemoglobin (HbA1c),triglyceride (TG),total cholesterol (TC),high-density lipoprotein-cholesterol (HDL-C),low-density lipoprotein-cholesterol (LDL-C),and HOMA-IR,Using a Hitachi 7600 fully automatic biochemical analyzer for testing.The baseline data included sex,age,course of disease,body mass index (BMI),smoking history and alcoholism history.

Outcome measures

Primary outcome measure was the risk factors for IR,which was analyzed by Logistic regression analysis in the included patients.

Secondary outcome measures were changes in glucose metabolism indexes (25(OH)D3,2hPG,FBG,and HbA1c) and lipid metabolism indexes (TG,TC,HDL-C,and LDL-C) in T2DM patients with IR after treatment.

Statistical analysis

SPSS 26.0 software was used for statistical analysis.The measurement data conforming to a normal distribution were expressed by mean ± SD,and the inter-group comparisons were conducted usingttest.Counting data were described by cases (%),and their inter-group comparisons were conducted using chi-square test.Logistic regression analysis was used for analyzing the risk factors for IR in T2DM patients.GraphPad Prism 9.0 software was adopted for data visualization.P＜ 0.05 was considered a significant difference.

RESULTS

Comparison of baseline data

The baseline data were compared between the resistance group and the non-resistance group.The results showed that there were no statistically significant differences in gender,disease duration,smoking history,and alcohol consumption between the Resistance group and the Non-resistance group (allP＞ 0.05,Table 1).However,the proportion of patients aged ＞ 60 years and with BMI ＞ 25 kg/m2was higher in the Resistance group compared to the Non-resistance group.Additionally,the Resistance group had lower levels of 25 (OH) D3compared to the Non-resistance group (allP＜ 0.05,Table 1).

Table 1 Clinical data

Comparison of glucose metabolism indexes between the resistance group and the non-resistance group

Comparison of glucose metabolism indexes between the Resistance group and Non-resistance group.The results showed that Patients in the Resistance group had higher levels of 2hPG,FBG,and HbA1c compared to the non-resistance group (allP＜ 0.0001,Figure 2).

Figure 2 Comparison of glucose metabolism indexes between patients with or without insulin resistance. A: Comparison of 2 h postprandial blood glucose;B: Comparison of fasting blood glucose;C: Comparison of glycosylated hemoglobin.2hPG: 2 h postprandial blood glucose;FBG: Fasting blood glucose;HbA1c: Glycosylated hemoglobin.dP ＜ 0.0001.

Comparison of lipid metabolism indexes between the resistance group and the non-resistance group

When comparing the lipid metabolism indexes between the Resistance group and the Non-resistance group,no significant differences were found in the levels of LDL-C and TC (allP＞ 0.05).However,the Resistance group exhibited significantly higher levels of TG compared to the Non-resistance group,while the Resistance group had lower levels of HDL-C than the Non-resistance group (allP＜ 0.0001,Figure 3).

Figure 3 Comparison of lipid metabolism indexes between patients with or without insulin resistance. A: Comparison of triglyceride;B: Comparison of total cholesterol;C: Comparison of high-density lipoprotein-cholesterol;D: Comparison of low-density lipoprotein-cholesterol.TG: Triglyceride;TC: Total cholesterol;HDL-C: High-density lipoprotein-cholesterol;LDL-C: Low-density lipoprotein-cholesterol.dP ＜ 0.0001.

Analysis of risk factors for IR

A logistic regression analysis was performed using the collected and assigned significant variables (Table 2).The results revealed that BMI (OR:16.802,95%CI: 2.557-110.43),HDL-C (OR:0.069,95%CI: 0.009-0.540),25(OH)D3(OR:26.109,95%CI: 4.285-159.098),2hPG(OR:31.804,95%CI: 5.567-181.709) and HbA1c (OR:90.379,95%CI: 13.622-599.650) (allP＜ 0.05,Table 3).

Table 2 Assignment

Table 3 Analysis of risk factors

Effects of vitamin D supplementation on glucose metabolism in T2DM patients with IR

In order to determine the effects of vitamin D supplementation on glucose metabolism in patients with T2DM and IR,we analyzed the changes of glucose metabolism indicators before and after the treatment.It was found that the levels of 2hPG,FBG,and HbA1c in both the conventional group and the joint group decreased notably after treatment (allP＜ 0.01,Figure 4),but the joint group demonstrated more significant decreases in all the three indices than the conventional group (allP＜ 0.05,Figure 4).

Figure 4 Changes of glucose metabolism indexes in type 2 diabetes mellitus patients with insulin resistance before and after the treatment. A: Comparison of 2-h postprandial blood glucose between the joint group and the conventional group;B: Comparison of fasting blood glucose between the joint group and the conventional group;C: Comparison of glycosylated hemoglobin between the joint group and the conventional group.2hPG: 2-h postprandial blood glucose;FBG: Fasting blood glucose;HbA1c: Glycosylated hemoglobin.aP ＜ 0.05,bP ＜ 0.01,dP ＜ 0.0001.

Effect of vitamin D supplementation on lipid metabolism indexes in T2DM patients with IR

In order to determine the effect of vitamin D supplementation on lipid metabolism in T2DM patients with IR,we analyzed the changes in lipid metabolism before and after treatment.It was found that both groups exhibited decreased TG and TC,as well as increased HDL-C after treatment (allP＜ 0.05,Figure 5).Furthermore,the joint group presented notably lower TG and TC levels but a considerably higher HDL-C level than the conventional group (allP＜ 0.05,Figure 5).However,no significant different was observed in the LDL-C level between the two groups and between before and after treatment.

Figure 5 Comparison of lipid metabolism index in type 2 diabetes mellitus patients with insulin resistance before and after the treatment. A: Comparison of triglyceride between the joint group and the conventional group;B: Comparison of total cholesterol between the joint group and the conventional group;C: Comparison of high-density lipoprotein-cholesterol between the joint group and the conventional group;D: Comparison of low-density lipoprotein-cholesterol between the joint group and the conventional group.TG: Triglyceride;TC: Total cholesterol;HDL-C: High-density lipoprotein-cholesterol;LDL-C: Low-density lipoprotein-cholesterol.aP ＜ 0.05,bP ＜ 0.01,cP ＜ 0.001,dP ＜ 0.0001.

DlSCUSSlON

IR plays a crucial role in the development of T2DM[17-19].Primarily,IR is manifested with a decrease of insulin sensitivity in the body,which leads to the secretion of a large amount of insulin by the pancreas to maintain the stability of blood glucose,thus triggering hyperinsulinemia[20].IR affects the efficiency of glucose intake in DM patients and further triggers metabolic disorders of glucose,fat and protein,which underlie the common pathogenesis of hypertension,dyslipidemia,coronary heart diseases and obesity[21-23].Therefore,effectively improving IR is crucial for the treatment of T2DM and contributes to the prevention and treatment of related diseases.

This study evaluated the risk factors for IR in T2DM patients and found that BMI,TG,HDL-C,25(OH)D3,2hPG,and HbA1c were the independent risk factors for IR.Previous studies also reported TG,HDL-C,2hPG and HbA1c as risk factors for IR in T2DM patients[24,25].We also investigated the effects of vitamin D supplementation on glucose and lipid metabolism in the patients with T2DM and IR.Vitamin D is a fat-soluble vitamin that is transformed into the active form 1,25(OH)2D3through the action of the liver and kidney[26].According to prior research[27],vitamin D is essential to stimulate insulin secretion and maintain normal glucose tolerance under physiological conditions.Vitamin D deficiency can lead to a decrease in β cell insulin secretion,exacerbating IR and increasing the risk of DM[28].By binding to the receptor,vitamin D regulates the expression of immune-and apoptosis-related genes in pancreatic tissues,protecting islet β cells and weakening apoptosis[29].In addition,vitamin D can affect insulin secretion and release by regulating intracellular calcium levels,and further improves insulin sensitivity by regulating insulin receptor expression and glucose transport sensitivity[30].In this study,BMI was found to be an independent risk factor for IR in T2DM patients[31].A previous study[32] also reported that the increase of BMI was associated with the increased risk of IR,especially for those of overweight and obesity.A high BMI is often indicative of excessive body fat,especially visceral fat.Adipocytes can secrete pro-inflammatory factors and hormones that may interfere with insulin signal transduction,thus leading to IR.

Recent studies[33,34] have revealed that approximately 50% of T2DM patients have vitamin D deficiency,and the level of vitamin D impacts insulin secretion,sensitivity and resistance.In this study,after vitamin D supplementation,the joint group showed more notable decreases in 2hPG,FBG,HbA1c and a more notable increase in 25(OH)D3than the conventional group.In addition,the joint group presented lower TG and TC levels but a higher HDL-C level than the conventional group.These results indicate that vitamin D supplementation can improve the glucose and lipid metabolism in T2DM patients with IR.We believe this is mainly because vitamin D can improve IR and insulin sensitivity,posing a positive effect on glucose metabolism.By increasing the expression of insulin receptor and promoting glucose transport,vitamin D is helpful to reduce blood glucose level and alleviate the glucose metabolic disorder in T2DM patients.In addition,vitamin D also has a regulatory effect on lipid metabolism.It can lower the level of inflammatory factors released by adipocytes,thus improving IR.Moreover,vitamin D can regulate the adipohormone secreted by adipocytes,promote the oxidation of fatty acids,and help to lower the blood lipid level[35,36].

However,the study still has some limitations.Firstly,the long-term prognosis of patients was followed up in this study,so whether vitamin D supplementation has a long-term efficacy still needs to be further studied.Secondly,this is a single-center study with limited participants,which may lead to bias in the results.We hope to carry out further clinical experiments in future to verify and improve the research conclusions.

CONCLUSlON

Patients with IR exhibit significant abnormalities in glucose and lipid metabolism parameters compared to the noninsulin resistant group.Logistic regression analysis revealed that 25(OH)D3is an independent risk factor influencing IR.Supplementation of vitamin D has been shown to improve glucose and lipid metabolism in patients with IR and T2DM.

ARTlCLE HlGHLlGHTS

Research background

This study was founded on the understanding of the crucial role of insulin resistance (IR) in the development of type 2 diabetes mellitus (T2DM).A lack of insulin sensitivity in the body leads to increased insulin secretion by the pancreas,triggering hyperinsulinemia,and affecting the efficiency of glucose intake,ultimately leading to metabolic disorders.

Research motivation

Given that these metabolic disorders underlie several other conditions such as hypertension,dyslipidemia,coronary heart diseases,and obesity,finding effective ways to improve IR is a critical part of treating T2DM and preventing related diseases.The motivation was to evaluate risk factors for IR and study the effects of vitamin D supplementation on glucose and lipid metabolism in patients with T2DM and IR.

Research objectives

To identify independent risk factors for IR in T2DM patients and investigate the effects of vitamin D supplementation on their glucose and lipid metabolism.

Research methods

The study carried out a comprehensive evaluation of risk factors for IR in T2DM patients,including parameters like BMI,TG,HDL-C,25(OH)D3,2hPG,and HbA1c.Furthermore,it explored the impact of vitamin D supplementation on glucose and lipid metabolism in T2DM patients with IR.

Research results

The study found that BMI,TG,HDL-C,25(OH)D3,2hPG,and HbA1c were independent risk factors for IR.After vitamin D supplementation,the test group showed notable decreases in 2hPG,FBG,HbA1c and a notable increase in 25-hydroxyvitamin D (25(OH)D3),as well as lower TG and TC levels but higher HDL-C level than the control group.

Research conclusions

Patients with IR exhibit significant abnormalities in glucose and lipid metabolism parameters compared to the noninsulin-resistant group.The study concluded that 25(OH)D3is an independent risk factor influencing IR and supplementation of vitamin D has been shown to improve glucose and lipid metabolism in patients with IR and T2DM.

Research perspectives

While promising,the study has some limitations including the need for long-term patient prognosis and the possibility of bias due to it being a single-center study with limited participants.Further clinical experiments are needed to verify and improve the research conclusions,especially to assess the long-term efficacy of vitamin D supplementation.

FOOTNOTES

Author contributions:Zhan XR conceived and designed the study;Sun LJ,Lu JX,Li XY,and Zheng TS collected the data;Sun LJ and Zhan XR analyzed the findings;Sun LJ and Lu JX wrote the manuscript;and all authors revised and approved the final version.

lnstitutional review board statement:This study was reviewed and approved by the Ethical Committees of the First Affiliated Hospital of Harbin Medical University.

lnformed consent statement:All patient data obtained,recorded,and managed only used for this study,and all patient information are strictly confidential,without any harm to the patient,so the informed consent was waived by the Ethics Committee of First Affiliated Hospital of Harbin Medical University.

Conflict-of-interest statement:All the authors report no relevant conflicts of interest for this article.

Data sharing statement:No additional data are available.

Open-Access:This article is an open-access article that was selected by an in-house editor and fully peer-reviewed by external reviewers.It is distributed in accordance with the Creative Commons Attribution NonCommercial (CC BY-NC 4.0) license,which permits others to distribute,remix,adapt,build upon this work non-commercially,and license their derivative works on different terms,provided the original work is properly cited and the use is non-commercial.See: https://creativecommons.org/Licenses/by-nc/4.0/

Country/Territory of origin:China

ORClD number:Xiao-Rong Zhan 0009-0002-4222-0004.

S-Editor:Chen YL

L-Editor:A

P-Editor:Yu HG