Glucagon like peptide-1 receptor agonists (GLP-1 RA), as a new generation of hypoglycemic drugs, can simulate the physiological effects of GLP-1 and have multiple clinical advantages such as lowering blood sugar, weight loss, and cardiovascular benefits 1.Dulaglutide belongs to GLP-1RA and was approved for marketing in China in 2019 2. Common adverse drug reactions (ADRs) are mainly gastrointestinal reactions 3. At present, there are relatively few case reports on ADR. Based on existing case reports at home and abroad, this study aims to analyze the characteristics of ADR occurrence and development related to this drug, and provide reference for safe clinical use.Retrieve databases from China National Knowledge Infrastructure, Wanfang, and VIP PubMed、Web of Science。 The Chinese search terms are "dulaglutide", "adverse reactions", and "case reports"; The English search terms are "dulaglutide", "dulaglutide induced", "dulaglutide related", "adverse reaction", and "case report". The search period is from September 2014 to March 2025, excluding literature with unclear descriptions and duplicate cases. A total of 21 articles (involving 22 patients) were obtained that meet the criteria, including 20 English articles involving 21 patients; One Chinese literature article involving one patient.The basic information of each ADR case study was counted, with information on gender, age, underlying disease, dulaglutide administration, and time of ADR occurrence, clinical presentation, management and regression of all patients.A total of 21 case studies containing 22 patients were included in this study. All of these cases were reported from 2017 to 2024, of which 10 were from the United States, 2 were from Ireland, 2 were from China, and individual cases from countries such as Denmark, France, and Greece were also included, and their basic profiles are shown in Table 1.The 22 patients included in the study consisted of 12 males and 10 females, and their underlying diseases were all diabetes mellitus, except for one case 21, which was type 1 diabetes mellitus (T1DM) and one 24 had latent autoimmune diabetes mellitus (LADA) in adults, all other patients had type 2 diabetes mellitus (T2DM). Common comorbidities in these patients included hypertension, hyperlipidemia, obesity, coronary artery disease, hyperuricemia, hyperthyroidism or disorders, chronic obstructive pulmonary disease (COPD), heart failure, coronary artery disease (CAD), and chronic obstructive pulmonary disease (COPD). The dosage of dulaglutide was 0.75 or 1.5 mg per week in all patients except for 6 6,9,12,15,20,24patients with incomplete information, 1 14 patient with a dulaglutide dosing regimen of 2 mg per week and 1 18 patient with a dulaglutide dosing regimen of 3 mg per week.In addition, it is noteworthy that 4 7,18,21,22 patients had ADRs that occurred only after the dosing dose had risen, and the original dosing dose did not contribute to the occurrence of the ADRs. The correlation between ADRs and the use of Dulaglutide in 22 patients was evaluated as "possible" according to the Measures for the Reporting and Monitoring of Adverse Drug Reactions. Most of the patients used 1-4 kinds of combination drugs, mainly hypoglycemic drugs, antihypertensive drugs, lipid regulating drugs and antiplatelet drugs.Common hypoglycemic agents are metformin, sulfonylurea hypoglycemic agents and insulin, common antihypertensive agents are amlodipine and bisoprolol, common lipid regulating agents are simvastatin and resuvastatin, and antiplatelet agents are mainly aspirin. Referring to the drug inserts of the above co-administered drugs, no significant interaction with Dulaglutide has been observed. However, maintenance or gradual reduction of insulin dose should be considered when using Dulaglutide, which may increase the risk of diabetic ketoacidosis if the dose is reduced or discontinued too rapidly. The gender and age distribution of the patients is shown in Table 2. The vast majority of patients experienced ADR within 15 months after medication (21 cases, 95.45%), with a higher incidence within 2 months after medication (19 cases, 86.36%). It is worth noting that in 3 patients 7,[2122, the dosage of dulaglutide increased from 0.75mg per week to 1.5mg per week, and in 1 patient 18, it increased from 1.5mg per week to 3mg per week. No adverse drug reactions occurred before the dosage doubled. The occurrence time and clinical manifestations of ADR are detailed in Table 3. The organs or systems most commonly affected by ADR are the skin and its appendages (6 cases, 27.27%), the digestive system (5 cases, 22.73%), and the circulatory system (5 cases, 22.73%). The organs/systems and clinical symptoms affected by ADR are shown in Table 4.Among all 22 patients, 21 improved after discontinuation of medication or symptomatic supportive treatment, while 1 patient 15 had a poor prognosis due to severe allergic reactions and developed ischemic brain injury. The ADR observed in this patient is Kounis syndrome 25, also known as ST segment elevation acute coronary syndrome associated with allergies. It occurs due to allergic reactions to disease, food, medication, or environmental factors, which may be accompanied by rash, urticaria, skin itching, nausea, vomiting, wheezing, and angioedema; This disease has an impact on the coronary artery system, leading to the occurrence of acute coronary syndrome. At present, the academic community's attention and research depth on this disease are clearly insufficient. Although there are some related reports, most of them are individual case reports. The control of ADR is symptomatic treatment, such as the use of antihistamines or glucocorticoids for allergic reactions, wound drainage for severe skin infections, the use of cardiovascular disease-related drugs for circulatory system symptoms, or surgical treatment for severe cases. It should be noted that two patients did not stop using dulaglutide. One case 11 had hypoglycemia due to not following the weekly dosage of 1.5mg dulaglutide as prescribed by the doctor, but instead using 1.5mg dulaglutide daily. After following the correct doctor's advice and reducing insulin dosage appropriately, her symptoms improved significantly. The other patient 14 underwent cholecystectomy to treat acute cholecystitis induced by dulaglutide. The patient continued to use dulaglutide after surgery, and there was no recurrence of gallstones or other abdominal symptoms 8 months after the initial cholecystitis event. The performance, handling, and outcome of ADR are detailed in Table 5. The common ADRs in the drug instructions of Dulaglutide are gastrointestinal reactions, including nausea, vomiting, and diarrhea. In addition, there are conditions such as hypoglycemia, acute pancreatitis, increased heart rate, allergic reactions, aggravation of cholecystitis and atrial fibrillation. However, gangrenous pyoderma, measles like drug eruption, bullous pemphigoid, and the risk of liver damage associated with drugs that involve the skin are not included in their instructions and should be considered as new ADRs. Among them, gangrenous pyoderma and bullous pemphigoid have a more severe degree of occurrence and are considered as new severe ADRs.The gender difference of the cases included in this study was not significant, and the age was more than 50 years old (17 cases, 77.27%), which is consistent with the common age of onset of T2DM. With increasing age, the body's hepatic and renal metabolic capacity decreases, which is one of the factors for the increase in ADR. The dosage of the drug in 14 patients in this study was 0.75-1.5 mg per week, which is a routine dosage. Although a study 26 no significant difference in the incidence of ADRs in patients after using dulaglutide at high doses (3.0 mg and 4.5 mg per week) compared to 1.5 mg per week, it is still recommended to use it according to the drug's instructions and should not arbitrarily increase the dose. The results of this study showed that the time span of ADR occurrence of dulaglutide was relatively large, with an extreme value gap of more than 15 months. Therefore, it is important to closely monitor patients when starting Dulaglutide.Skin and adnexa: It has been shown that dipeptidyl peptidase-4 (DPP-4) inhibitors are correlated with herpetic pemphigoid 27, and GLP-1RA may also damage the skin due to the expression of the GLP-1 receptor in cutaneous fibroblasts and keratin-forming cells 28.Therefore, GLP-1RA and DPP-4 inhibitors may have similar mechanisms for causing skin and adnexal damage, and it is recommended that patients should be specifically asked in detail about their past drug history and allergy history before administration. Circulatory system: GLP-1 receptors are found in the human pancreas, intestine and heart 29. Animal experiments haveshown that activation of GLP-1 receptors in the autonomic nervous system enhances the activity of the sympathetic nervous system and attenuates the activity of the parasympathetic nervous在此处键入system. It has been suggested that overactivation of myocardial GLP-1 receptors may increase the risk of exacerbation of atrial fibrillation in patients with paroxysmal atrial fibrillation 30. In addition, regarding the formation of cerebral venous thrombosis may be related to dehydration due to nausea and vomiting in patients. Although the incidence of circulatory ADRs with dulaglutide is low, it still needs to be emphasized and should be used with caution in patients with previous arrhythmias. Digestive system: Gastrointestinal reactions are the most common type of ADR with Dulaglutide. According to a survey in China, gastrointestinal reactions were most pronounced in the first 2 weeks of treatment 31, and the dulaglutide drug insert also mentions a cumulative 104-week reported incidence of gastrointestinal adverse events when dulaglutide 0.75 mg and 1.5 mg were used weekly, respectively, including nausea (12.9% and 21.2%), diarrhea (10.7% and 13.7%), and vomiting (6.9% and 11.5%), mostly mild or moderate, so patients need to be evaluated for gastrointestinal disorders prior to administration. In addition, the drug delays gastric emptying and prolongs gallbladder contraction, which may increase the risk of gallbladder-related disorders.An adverse reaction signal mining study based on the OpenFDA database 32 showed that GLP-1RA analogs were highly associated with ADRs such as pancreatitis, cholelithiasis, hypoglycemia, dizziness, urticaria, and injection site reactions. Liraglutide and exenatide had a higher incidence of digestive ADRs compared to dulaglutide. In addition, liraglutide had the highest incidence of acute kidney injury, exenatide had the highest incidence of hypoglycemia, and the use of dulaglutide was associated with a lower probability of ADRs involving the gastrointestinal, urinary, and endocrine systems compared with the former two. However, dulaglutide and exenatide were more prone to injection site reactions, such as localized augmentation and inflammation, compared to other types of GLP-1RAs. Taking into account the cases collected in this study and the actual clinical application, it is recommended that medical personnel start using dulaglutide at a small dose, pay attention to the patients' previous drug history and allergy history before use, and promptly deal with ADRs when they are detected.Usually, patients with hepatic impairment do not need to adjust the dosage, but the monitoring of在此处键入hepatic and renal functions should be strengthened during the use of the drug. In addition, the drug should be used with caution in patients with previous cardiac arrhythmias and acute and chronic renal impairment. If pancreatitis is suspected, it should be discontinued gradually. Dulaglutide should not be reused in patients with pancreatitis.To sum up, dulaglutide, as a new hypoglycemic drug, provides a new choice for the treatment of diabetes, but its ADR cannot be ignored. The ADR caused by dulaglutide included in this study involves multiple systems, and some ADRs are not included in its drug instructions. With the widespread use of the drug, there may be more unknown ADRs. Medical staff need to continuously strengthen their understanding of dulaglutide ADR, especially in strengthening medication monitoring for patients with multiple comorbidities. Meanwhile, further research is needed on the mechanism of ADR of dulaglutide.
Zhou et al. (Fri,) studied this question.