The Efficacy of IDegLira (Insulin Degludec/Liraglutide Combination) in Adults with Type 2 Diabetes Inadequately Controlled with a GLP-1 Receptor Agonist and Oral Therapy: DUAL III Randomized Clinical Trial

Due to the progressive nature of type 2 diabetes, current therapies, including glucagon-like peptide-1 receptor agonists (GLP-1RAs), usually do not provide sustained glycemic control, so treatment intensification is necessary in many patients [1, 2]. Insulin remains the most efficacious glucose-lowering therapy, and is typically initiated when patients are unable to achieve glycemic control with lifestyle changes, oral antidiabetic drugs (OADs), and GLP-1RAs [2, 3]. GLP-1RAs can offer significant reductions in HbA_1c with a low risk of hypoglycemia and significant weight loss [4]. Several studies have demonstrated the clinical benefits of using basal insulin and GLP-1RAs together [5‐9], and their co-use is supported by treatment guidelines [2]. Thus, intensification with basal insulin is seen as a natural progression for patients whose blood glucose is not controlled by a GLP-1RA and OADs.

Insulin degludec/liraglutide (IDegLira) is the first combination of a basal insulin (insulin degludec) and a GLP-1RA (liraglutide). The complementary modes of action of the two molecules can help to control both fasting plasma glucose (FPG) and postprandial glucose (PPG). IDegLira is available as a single once-daily injection that can be taken at any time of day, but preferably at the same time each day [10]. IDegLira is administered and titrated in a treat-to-target manner as dose steps, with each dose step containing 1 unit (U) of insulin degludec and 0.036 mg of liraglutide, up to a maximum of 50 dose steps (50 U insulin degludec and 1.8 mg liraglutide) daily [10].

The DUAL phase 3 clinical trial program investigated the efficacy and safety of IDegLira in patients with type 2 diabetes. DUAL I and its 26-week extension showed that IDegLira provided clinical advantages and improved glycemic control compared with its monocomponents given alone in insulin-naïve patients [11, 12]. DUAL II investigated the contribution of liraglutide in IDegLira in insulin-experienced patients, with patients on IDegLira achieving superior glycemic control versus those on insulin degludec (which was capped at 50 U per day) [13]. DUAL IV investigated the efficacy and safety of IDegLira in insulin-naïve patients inadequately controlled with sulfonylurea with or without metformin, where it demonstrated superior glycemic control versus placebo [14]. DUAL V compared IDegLira with the uptitration of insulin glargine 100 units/mL in patients who were inadequately controlled on 20–50 U of insulin glargine 100 units/mL, with IDegLira resulting in superior HbA_1c, a lower rate of hypoglycemia, and weight loss versus insulin glargine 100 units/mL [15].

The primary objective of the DUAL III clinical trial was to confirm the superiority of IDegLira compared with continuing on unchanged GLP-1RA therapy in controlling glycemia in insulin-naïve adult patients with type 2 diabetes who were inadequately controlled with the maximum approved or tolerated dose of a GLP-1RA and OADs. The secondary objective of the trial was to compare the general efficacy and safety of IDegLira with unchanged GLP-1RA.

Of the 704 patients screened, 438 were randomized to receive trial product; 292 to IDegLira and 146 to unchanged GLP-1RA (Figure S1 in the ESM). Pre-trial, and in the unchanged GLP-1RA group, 79.5% of patients were treated with liraglutide and 20.5% with exenatide twice daily. A total of 94.5% of those randomized to IDegLira completed the trial versus 80.1% of those who were randomized to unchanged GLP-1RA. The baseline and demographic characteristics were similar for the treatment groups (Table 1). Patients continued with their pretrial OADs, with similar proportions of patients on one, two, or three OADs in each treatment group (Table 1). After 26 weeks, the mean IDegLira dose was 43 dose steps, equating to 43 U of insulin degludec and 1.5 mg of liraglutide.

Over the 26-week trial, the observed mean [standard deviation (SD)] HbA_1c decreased from a baseline of 7.8% (0.6) [61.5 mmol/mol (6.2)] to 6.4% (0.8) [46.9 mmol/mol (9.0)] with IDegLira and from 7.7% (0.5) [60.8 mmol/mol (6.7)] to 7.4% (1.0) [57.1 mmol/mol (10.9)] with unchanged GLP-1RA. The mean reductions in HbA_1c were 1.3% (0.8) [14.5 mmol/mol (9.3)] and 0.3% (0.9) [3.8 mmol/mol (10.0)] with IDegLira and unchanged GLP-1RA, respectively (Fig. 1a). IDegLira was superior to unchanged GLP-1RA, with an estimated treatment difference (ETD) of −0.94% (−1.11; −0.78)_{95% CI}, [−10.3 mmol/mol (−12.2; –8.5)_{95% CI}], p < 0.001. Furthermore, the robustness of the primary analysis was substantiated by three sensitivity analyses (the repeated measurement analysis, per protocol analysis, and completer analysis), all of which confirmed the superiority of IDegLira (data not shown).

Overall, 75% of patients on IDegLira achieved the HbA_1c target of <7.0% (53 mmol/mol) versus 36% on unchanged GLP-1RA therapy; estimated odds ratio (EOR) of 6.84 [4.28; 10.94]_{95% CI}, p < 0.001. Similarly, significantly more patients on IDegLira (63%) versus those on unchanged GLP-1RA (23%) attained the HbA_1c target ≤6.5% (48 mmol/mol); EOR: 7.53 (4.58; 12.38)_{95% CI}, p < 0.001 (Fig. 1b).

During the trial, there was a statistically significantly greater improvement in laboratory-measured FPG from baseline with IDegLira versus unchanged GLP-1RA, resulting in end-of-trial mean (SD) values of 6.0 mmol/L (1.6) and 8.8 mmol/L (2.7), respectively. The mean (SD) reductions in FPG were 2.98 mmol/L (2.28) with IDegLira and 0.60 mmol/L (2.74) with unchanged GLP-1RA, ETD: −2.64 mmol/L (−3.03; −2.25)_{95% CI}, p < 0.001 (Fig. 1c).

After 26 weeks, the mean nine-point SMBG profile had decreased with both treatments versus baseline. The end-of-trial mean of the nine-point SMBG profile was statistically significantly lower with IDegLira versus unchanged GLP-1RA, with an ETD of −1.78 mmol/L (−2.13; −1.43)_{95% CI}, p < 0.001. At all nine time points, measured SMBG values were statistically significantly lower with IDegLira versus unchanged GLP-1 RA (Fig. 1d, post hoc analysis). Importantly, glucose control did not deteriorate during the first 4 weeks with IDegLira after transfer from the pre-trial GLP-1RA dose (Fig. 2) [1.2 or 1.8 mg liraglutide (mean daily dose at baseline 1.7 mg) or 5 or 10 μg exenatide twice daily (mean daily dose at baseline 18.4 μg) maximum dose, depending on local label or maximum tolerated dose] to the IDegLira starting dose of 16 dose steps (16 U insulin degludec and 0.6 mg liraglutide).

After 26 weeks, observed mean (SD) body weight increased by 2.0 kg (3.9) from baseline with IDegLira and decreased by 0.8 kg (3.0) with unchanged GLP-1RA, corresponding to a statistical significant ETD of 2.89 kg (2.17; 3.62)_{95% CI}, p < 0.001, in favor of unchanged GLP-1RA (Fig. 3). Body weight was also summarized according to whether patients were treated with concomitant sulfonylurea therapy. With IDegLira, the increase from baseline in body weight was more pronounced in the sulfonylurea-treated (3.3 kg) compared with the non-sulfonylurea-treated patients (1.6 kg). With unchanged GLP-1RA, the change from baseline in body weight was −0.7 versus −0.8 kg in sulfonylurea-treated versus non-sulfonylurea-treated patients, respectively.

With IDegLira there were 2.82 episodes of confirmed hypoglycemia per patient-years of exposure (PYE) versus 0.12 episodes per PYE with unchanged GLP-1RA, corresponding to an estimated rate ratio (ERR) of 25.36 (10.6; 60.5)_{95% CI}, p < 0.001 (Table 3 in the ESM). One episode of severe hypoglycemia was reported in the IDegLira group. The rate of nocturnal confirmed hypoglycemia was statistically significantly higher with IDegLira (0.454 episodes per PYE) compared with unchanged GLP-1RA (0.015 episodes per PYE), ERR: 32.82 (4.13; 261.04)_{95% CI}, p < 0.001 (Table S3 in the ESM). Hypoglycemic episodes were also summarized according to whether patients were receiving concomitant sulfonylurea therapy. With IDegLira, the rate of confirmed hypoglycemia was 6.34 events per PYE in sulfonylurea-treated patients (n = 68) versus 1.75 events per PYE in non-sulfonylurea-treated patients (n = 223). With unchanged GLP-1RA, the event rate was 0.51 events per PYE in sulfonylurea-treated patients (n = 34) and 0 events per PYE in non-sulfonylurea-treated patients (n = 111) (Table S4 in the ESM).

Overall, the proportions and rates of treatment-emergent adverse events and serious adverse events reported with IDegLira and unchanged GLP-1RA were similar (Table 2). The overall rates of adverse events were 410.1 events per 100 PYE with IDegLira and 364.3 events per 100 PYE with unchanged GLP-1RA; the majority of these events were non-serious and were evaluated as mild in severity by the investigator. The most frequently reported adverse events were nasopharyngitis, upper respiratory tract infection, lipase increased, headache and diarrhea. The rates of serious adverse events were nine and five events per 100 PYE with IDegLira and unchanged GLP-1RA, respectively (Table 2); none were reported as possibly or probably related to the trial product. No deaths were reported during the trial.

In three patients, adverse events resulted in withdrawal: one with IDegLira (drug hypersensitivity) and two with unchanged GLP-1RA (abdominal discomfort and foot fracture). Nausea occurred in 3.1% of patients with IDegLira compared with 4.1% of patients with unchanged GLP-1RA, with 7.8 versus 10.6 events per 100 PYE, respectively. Two major adverse cardiovascular events (MACE) were sent for adjudication; both were confirmed by the external blinded event adjudication committee as stroke and they occurred in the IDegLira group. Seven potential neoplasms occurred during the trial and were sent for adjudication. Three of these were confirmed events of neoplasm, two events with IDegLira, and one with unchanged GLP-1RA. No medullary thyroid carcinoma events were reported. An additional event (lymphadenopathy) was also sent for adjudication but was not confirmed as a neoplasm. No pancreatitis or thyroid-related adverse events occurred in either treatment group.

Overall, the changes from baseline to week 26 in fasting lipid levels were small for both treatment groups. At the end of the trial, total cholesterol [estimated treatment ratio (ETR): 0.96 (0.93; 1.00)_{95% CI}, p = 0.025], very low density lipoprotein cholesterol [ETR: 0.90 (0.85; 0.96)_{95% CI}, p < 0.001], triglycerides [ETR: 0.88 (0.82; 0.94)_{95% CI}, p < 0.001], and free fatty acids [ETR: 0.71 (0.65; 0.77)_{95% CI}, p < 0.001] were statistically significantly lower with IDegLira versus unchanged GLP-1RA. A decrease in lipase activity from baseline to the end of the trial was observed both with IDegLira (mean change −1.0 units/L) and unchanged GLP-1RA (mean change −1.8 units/L) (Table S5 in the ESM). An increase in amylase activity was observed with IDegLira (mean change 6.2 units/L) compared with a decrease with unchanged GLP-1RA (mean change −1.0 units/L) (Table S5 in the ESM). No clinically relevant differences were observed between treatment groups in mean calcitonin levels, physical examination, or fundoscopy during the trial. There were no statistically significant differences in systolic or diastolic blood pressure between treatment groups. After 26 weeks of treatment, there was a statistically significant difference in mean pulse between IDegLira and unchanged GLP-1RA; ETD of 1.78 beats/min (0.22; 3.33)_{95% CI}, p = 0.025.

The PRO scores improved with both treatments from baseline to the end of the trial, but to a greater extent with IDegLira. After 26 weeks of treatment with IDegLira, the TRIM-D total score was statistically significantly higher (indicating a better health state/outcome) than with unchanged GLP-1 RA, with an ETD of 5.0 units (2.9; 7.2)_{95% CI}, p < 0.001 (Table S6 in the ESM). In both treatment groups, all TRIM-D subdomain scores and the total score increased throughout the trial. In all subdomains, the score increases were statistically significantly higher with IDegLira versus unchanged GLP-1RA (Table 6 in the ESM). After 26 weeks of treatment, the DTSQs treatment satisfaction score was statistically significantly higher with IDegLira compared with unchanged GLP-1RA, with an ETD of 2.0 units (1.1; 2.8)_{95% CI}, p < 0.001. Hypoglycemia and hyperglycemia were scored significantly higher and lower, respectively, by patients treated with IDegLira versus unchanged GLP-1RA, indicating a higher perceived frequency of hypoglycemia and a lower perceived frequency of hyperglycemia with IDegLira (Table S6 in the ESM).

Due to the progressive nature of type 2 diabetes, many patients need to intensify their treatment in order to maintain glycemic control. A commonly used approach is the initiation of a GLP-1RA after one or more OADs fail to keep a patient at the target HbA_1c [21]. There are currently several options for treatment intensification in patients on a GLP-1RA, and the addition of basal insulin is a recognized option in the ADA/EASD guidelines [2]. Initiating basal insulin, and therefore the use of IDegLira, is a natural progression in the treatment of type 2 diabetes for those uncontrolled on a GLP-1RA, where beta-cell failure continues and endogenous insulin secretion declines. This trial investigated the efficacy and safety of IDegLira in patients with type 2 diabetes uncontrolled on a GLP-1RA. It demonstrates that when transferring from maximum dose GLP-1RA to the IDegLira starting dose of 16 dose steps, there was no deterioration in blood glucose during the first 4 weeks of treatment. After 26 weeks, patients on IDegLira achieved superior HbA_1c, and had a statistically significant reduction in FPG and nine-point SMBG profile compared with those who continued unchanged GLP-1RA therapy. IDegLira also enabled significantly more patients to reach the HbA_1c targets of <7.0% (53 mmol/mol) and ≤6.5% (48 mmol/mol).

Overall, the safety and tolerability profile of IDegLira was consistent with previous findings [11‐14]. Initiation of IDegLira resulted in a statistically significantly increase in weight and a higher rate of hypoglycemia compared with unchanged GLP-1RA, however, this is to be expected following the introduction of insulin, and has been observed in other trials of insulin-naïve patients [22‐25]. Moreover, the rate of hypoglycemia was low in both groups. The concomitant use of sulfonylurea in ~23% of the patients in the IDegLira group may have also contributed to the hypoglycemia and weight gain. A post hoc summary showed that hypoglycemia was more frequent in the IDegLira plus sulfonylurea-treated patients versus those on IDegLira without sulfonylurea; this was also observed with unchanged GLP-1RA. This is consistent with the results of the DUAL IV clinical trial, where IDegLira was investigated as an add-on to sulfonylurea therapy and the rate of hypoglycemia was higher [14] compared with other IDegLira trials where concomitant sulfonylurea treatment was not part of the background OAD therapy [11, 13]. It is recognized that insulin and sulfonylurea is a frequently used combination [26]. According to the IDegLira prescribing information, a reduction in the dose of sulfonylurea should be considered when IDegLira is added to sulfonylurea therapy [10], whereas pre-trial doses were maintained during this trial unless there was a safety concern. The DUAL III trial had an FPG target of 4–5 mmol/L. In DUAL IV, the FPG target was 4–6 mmol/L (72–108 mg/dL) and the rate of confirmed hypoglycemia with IDegLira plus sulfonylurea was 3.5 versus 1.4 episodes per PYE with placebo [14]. The ADA have recently raised their glycemic target from 3.9–7.2 to 4.4–7.2 mmol/L (70–130 to 80–130 mg/dL) [27]. Therefore, we can speculate that lower rates of hypoglycemia may be observed in real-life clinical practice with IDegLira, where sulfonylurea doses would be reduced and glycemic targets individualized if the patient experienced hypoglycemia. The frequency of nausea was low with both treatments (occurring in 3.1% with IDegLira and 4.1% with unchanged GLP-1RA); a low frequency of nausea has also been observed with IDegLira in other clinical trials [28].

Overall, IDegLira treatment had a positive impact on PROs compared with unchanged GLP-1RA. The change from baseline score for TRIM-D in the IDegLira group was greater than that in the unchanged GLP-1RA group. In the DTSQ, patients treated with IDegLira reported greater treatment satisfaction versus those on unchanged GLP-1RA. According to the DTSQs, patients on IDegLira perceived the frequency of hypoglycemia to be higher and hyperglycemia to be lower than in patients on unchanged GLP-1RA. This is in line with the clinical results of the trial.

A limitation of this trial is that IDegLira was compared to an unchanged pre-trial comparator, and it would be interesting to compare the initiation of IDegLira in patients uncontrolled on a GLP-1RA with an active comparator, e.g., basal insulin. Also, due to the open-label nature of the trial, an improvement in PRO may be expected in the patients receiving the trial product compared with those continuing their existing therapy.

In conclusion, in patients inadequately controlled on maximum dose GLP-1RA and OADs, IDegLira resulted in a superior HbA_1c reduction and enabled patients to achieve a lower FPG and nine-point SMBG profile compared with patients continuing unchanged GLP-1RA therapy. Patients treated with IDegLira gained more weight and experienced more hypoglycemia versus unchanged GLP-1RA therapy; these results are consistent with previous findings on GLP-1RA intensification with insulin-containing therapy. Treatment with IDegLira resulted in a low rate of nausea and improved PROs versus unchanged GLP-1RA. IDegLira represents an efficacious and simple approach to intensifying therapy in patients uncontrolled on GLP-1RAs.