Health status and hypoglycaemia with insulin degludec versus insulin glargine: a 2-year trial in insulin-naïve patients with type 2 diabetes.

Insulin degludec (IDeg) is a new basal insulin with an ultra-long and stable glucose-lowering effect. We compared once-daily IDeg and insulin glargine (IGlar), both in combination with metformin ± dipeptidyl peptidase-4 inhibitors, in a 52-week, open-label, treat-to-target trial in patients with type 2 diabetes followed by a 52-week extension trial in which subjects [n = 725/1030 (70.4%)] maintained their initial randomised treatment. Health status was assessed at baseline and 105 weeks using the Short Form-36 (SF-36 v2) questionnaire. SF-36 scores were analysed (ITT population) using anova, with adjustments for covariates. At 105 weeks, the overall physical component score was significantly better with IDeg versus IGlar [treatment contrast (TC): 1.1 (0.1; 2.1)95% CI , p < 0.05]. This was largely because of significantly better physical functioning [TC: 1.1 (0.0; 2.3)95% CI , p < 0.05] and bodily pain sub-domain scores [TC: 1.5 (0.2; 2.9)95% CI , p < 0.05]. Improvements in health status with IDeg compared to IGlar were maintained after 2 years.

RCT Entities:   Population Interventions Outcomes

Introduction

Diabetes therapies can negatively affect health status/health-related quality of life (HRQoL) because of regimen complexity or rigidity, fear of injections, hypoglycaemia and fear of hypoglycaemia 1,2. Thus, reducing hypoglycaemia and providing a more predictable treatment regimen might be expected to improve HRQoL. Insulin degludec (IDeg) is a new basal insulin that offers advantages over previous basal insulins. IDeg forms soluble multi-hexamers upon subcutaneous injection, achieving a stable time–action profile, an ultra-long duration of action lasting beyond 42 h, and low within-patient variability 3. Seven randomised, open-label, controlled, phase 3 trials of 26- or 52-weeks‘ duration using a treat-to-target non-inferiority design, all confirmed similar glycaemic control for IDeg compared to insulin glargine (IGlar) as expected in treat-to-target trials. However, individual trials, as well as a prospectively planned meta-analysis, showed advantages for IDeg over IGlar with respect to hypoglycaemia 4. HRQoL, another important treatment outcome, was measured in all of these trials using the SF-36 v2 questionnaire 5 and additional meta-analyses have shown that HRQoL 6, health utility 7 and mental health 8 are improved with IDeg compared to IGlar.

The analysis presented here includes previously unreported data from insulin-naïve patients with type 2 diabetes who were studied for a total of 2 years in a 52-week trial with a 52-week extension; this was the largest of the phase 3 trials in the IDeg clinical development programme 9. As previously reported 10, at 105 weeks, HbA1c was similar for IDeg and IGlar (estimated treatment difference [ETD] 0.12%-points [−0.01 to 0.25]95% CI, p = 0.078). Observed mean reductions in laboratory-measured fasting plasma glucose (FPG) were greater with IDeg (ETD −0.38 mmol/l [−0.70 to −0.06]95% CI, p = 0.019). Importantly, these improvements in glycaemic control were accompanied by a lower risk of hypoglycaemia over the entire treatment period. Nocturnal confirmed hypoglycaemia was 43% lower with IDeg than with IGlar (estimated rate ratio [ERR], IDeg/IGlar: 0.57 [0.40; 0.81]95%CI, p = 0.002) and rate of severe hypoglycaemia was 69% lower with IDeg (ERR 0.31 [0.11; 0.85]95%CI, p = 0.023). Overall confirmed hypoglycaemia (plasma glucose < 3.1 mmol/l or severe) was similar between IDeg and IGlar; estimated rate ratio (IDeg/IGlar): ERR 0.84 [0.68; 1.04]95%CI, p = 0.115 10.

Given that the clinical benefit of reduced hypoglycaemia occurred in conjunction with improved glucose control after 2 years of treatment, improvements in HRQoL might also be expected. In the original 52-week trial, participants treated with IDeg showed improvements in clinical measures and reported greater improvements in ‘overall physical’ and ‘physical functioning’ Short Form 36 (SF-36) scores compared with IGlar 9.

The aim of this subanalysis at 105 weeks was to compare IDeg versus IGlar with respect to change in health status from baseline (initiation of basal insulin therapy) in patients with type 2 diabetes, using the SF-36 v2 questionnaire.

Methods

Subjects provided informed consent and re-started treatment with IDeg or IGlar at the same dose levels at end-of-treatment in the main trial 9 with optional adjustment at the discretion of the investigator. At the end of the core trial, patients were transferred to neutral protamine Hagedorn insulin for 7 days to allow for insulin antibody evaluation. The insulin dose at the end of the core trial was used as a starting point, and was titrated to a target FPG of 3.9–4.9 mmol/l based upon the mean pre-breakfast self-measured blood glucose for the preceding 2–3 consecutive days.

All assessments for efficacy and safety in this extension trial were as described for the core trial 9. Health status was measured at baseline (time of randomisation of the core trial), at 52 weeks, and at 105 weeks using the SF-36 v2 questionnaire. The SF-36 scale is a validated multi-purpose questionnaire that has raw, norm-based scores with a mean (standard deviation) of 50 (10). The SF-36 questions are grouped into eight domains (Figure 1), including a physical component summary (PCS) score and a mental component summary score. The scales are compressed compared to the raw scores. The questionnaire was translated and linguistically validated in all languages relevant to the study. Patients were provided with instructions and given privacy to complete the questionnaires, which were sealed in envelopes and not reviewed by local investigators or study nurses.

Figure 1

Overview of the Short Form 36 (SF-36 v2) questionnaire.

Scores from the intent-to-treat population were analysed using anova, with treatment, therapy at screening, sex and region as fixed factors, and age and relevant baseline values as covariates. The long study duration was considered sufficient to ensure that any initial patient reporting bias was minimal.

Results

As previously reported, 607 (79%) of 773 patients randomised to IDeg and 197 (77%) of 257 randomised to IGlar completed the core trial of 52 weeks 10. A total of 551 (71%) of those initially randomised to IDeg and 174 (68%) of those initially randomised to IGlar continued into the extension study on the core phase treatment allocation, with 505 (65%) of those continuing on IDeg and 154 (60%) continuing on IGlar completing the entire 104 weeks of treatment. Baseline characteristics have previously been reported, and were well-matched between treatment groups 10.

Health status results for the full analysis set are summarised in Table1. At 105 weeks, the changes from baseline in overall PCS score, physical functioning score and bodily pain score were statistically significantly (p < 0.05) in favour of IDeg compared with IGlar, with ETDs (IDeg/IGlar) of 1.1 [0.1; 2.1]95%CI, 1.1 [0.0; 2.3]95%CI and 1.5 [0.2; 2.9]95%CI, respectively. Other SF-36 domain scores showed no significant differences between groups. When only completers were used, scores tended to further improve in favour of IDeg compared to the full analysis set, but because of the lower number of respondents and loss of statistical power, only the bodily pain domain remained statistically significant.

Table 1

Short Form 36 (SF-36) scores at end-of-trial

SF-36 component	IDeg OD (n = 773)	IGlar OD (n = 257)	Treatment contrast IDeg − IGlar [95% CI]
Physical component score (PCS)	46.3 (0.3)	45.2 (0.5)	1.1 [0.1; 2.1]*
Physical functioning score	45.5 (0.3)	44.4 (0.5)	1.1 [0.0; 2.3]*
Role-physical score	45.8 (0.3)	45.6 (0.5)	0.2 [−1.0; 1.3]
Bodily pain score	48.7 (0.4)	47.1 (0.6)	1.5 [0.2; 2.9]*
General health score	45.7 (0.3)	45.3 (0.5)	0.3 [−0.7; 1.4]
Mental component score (MCS)	48.9 (0.3)	49.2 (0.5)	−0.3 [−1.5; 0.9]
Vitality score	50.3 (0.3)	49.7 (0.5)	0.5 [−0.6; 1.7]
Social functioning score	48.1 (0.3)	48.1 (0.6)	−0.0 [−1.2; 1.2]
Role-emotional score	45.5 (0.4)	45.7 (0.6)	−0.2 [−1.6; 1.2]
Mental health score	48.8 (0.3)	48.7 (0.5)	0.1 [−1.1; 1.3]

CI, confidence interval; IDeg, insulin degludec; IGlar, insulin glargine; OD, once daily.

Significantly better (p < 0.05). Data are estimated mean ± standard error of the mean, full analysis set. The score and change from baseline in the score at 105 weeks were analysed using an ancova model. Missing values are imputed by last observation carried forward.

Discussion

The statistically significant difference in PCS, physical functioning score in favour of IDeg was maintained after 2 years treatment as also reported in the core 52 weeks of the trial 9. In addition to sustaining the significant difference in PCS and physical functioning, the bodily pain domain also was significantly in favour of IDeg after 2 years. These results are consistent with meta-analysis results of previous studies of IDeg reporting improvements in SF-36 scores 6 and improvements in health utility versus IGlar 7. Similarly, earlier studies have reported improvements in various patient-reported outcomes when IGlar was compared against oral therapy or other basal insulins 11.

With respect to the clinical implications of these results, in diabetes, it has been estimated that a 1-point difference on PCS and physical functioning scores, for example, is associated with a 5–9% increase in mortality risk, a 2–4% increased risk of hospitalisation within 6 months and a 7–12% increased risk of being unable to work 12. Although the SF-36 does not have an established minimal important difference in diabetes, the SF-36 v2 user manual suggests that even small differences in these compressed scores (<1) are relevant in other chronic diseases. For example, having an allergy reduces the SF-36 scores by 0.1–0.8 points 5.

The precise reason for the improvement in SF-36 scores has not been determined. However, as mentioned earlier, IDeg has been shown to have a beneficial effect on hypoglycaemia compared to IGlar 4. Hypoglycaemic events, both non-severe and severe, are known to be a key marker for reduced HRQoL in diabetes 1. Also, the SF-36 physical functioning score includes measures of vigorous activity, which may be enhanced if hypoglycaemia is less of a concern. Given that clinical trials exclude people at high risk of hypoglycaemia, the benefit may be even greater in real-world settings.

Although an open-label design could have affected results of this study, the baseline values for SF-36 were collected prior to randomisation, and the long duration of the main trial plus extension study should have allowed any bias associated with initiation of a particular therapy to be minimised. This study emphasises that patient-reported outcomes, which are an important measure of any diabetes treatment, can be improved with IDeg.