Aims: In the Add-on Lantus <sup>®</sup> to Oral Hypoglycaemic Agents 2 (ALOHA 2) Study in Japanese adults with type 2 diabetes mellitus (T2DM), data on the safety and efficacy of combination therapy with insulin glargine (Lantus<sup>®</sup> ) and oral anti-hyperglycaemic drugs (OADs) including dipeptidyl peptidase-4 (DPP-4) inhibitors in a real-life setting were collected and analyzed. Methods: This postmarketing surveillance was a prospective, observational, 24-week study that complied with the pharmaceutical affairs law and the ministerial ordinance of “Good Post-Marketing Study Practice (GPSP)” in Japan. Safety, efficacy and patient-reported outcomes (PROs); patients’ satisfaction with treatment (DTSQs and DTSQc) and patients’ self-reported health (EQ-5D and EQ-VAS) of combination therapy of insulin glargine and OADs were evaluated. Results: A total of 2,630 patients were enrolled. Of the 2,602 patients in the safety analysis population, 161 patients experienced 175 cases of adverse drug reactions, and the major adverse drug reaction was hypoglycaemia (140 patients, 5.38%). Out of those with hypoglycaemia, 11 patients (0.42%) had severe hypoglycaemia and the incidence rate (episodes per patient-year) was 0.019. Basal supported oral therapy (BOT) with insulin glargine substantially reduced the HbA1c, FPG and 2 hour-PPG levels for 24 weeks by -1.61%, -54.4 mg/dL and -74.5 mg/dL respectively. The mean weight was increased, however the change was +0.50 kg. In addition, the treatment satisfaction scores of DTSQs (mean treatment satisfaction score increased 3.6 from baseline to last observation) and DTSQc, EQ-5D index scores and EQ-VAS scores were significantly improved. Conclusion: Insulin glargine and OADs combination therapy was suggested to be effective and well tolerated. Patients’ satisfaction with treatment and their self-reported health improved in spite of the addition of injections to oral agents. The combination therapy of insulin glargine and OADs including DPP-4 inhibitors is likely to be considered an important therapeutic option in the diabetic patients.
A basal supported oral therapy (BOT) with insulin products from the early stage in patients with inadequate gly- caemic control on oral anti-hyperglycaemic drugs (OADs) has rapidly become prevalent in the treatment of T2DM [
Insulin glargine (LantusÒ) is a long-acting soluble insulin analog [
Following the recent approval of 6 DPP-4 inhibitors in Japan, they are used to treat T2DM as OADs by im- proving glycaemic control, while being unlikely to cause hypoglycaemia [
Patient-reported outcomes (PROs) as the patients’ satisfaction with treatment or their self-reported health were also important factors for therapeutic options since satisfaction and flexibility of dosing could result in a better therapy from the viewpoint of adherence. The assessment questionnaires for them were developed as Diabetes Treatment Satisfaction Questionnaires (status version: DTSQs and change version: DTSQc) or EuroQOL five- dimensions questionnaire (EQ-5D) [
In the present ALOHA 2 Study (a post-marketing surveillance study), the safety, efficacy and PROs of the combination therapy with insulin glargine and OADs including DPP-4 inhibitors in a real-life setting were sur- veyed in Japanese T2DM patients.
A total of 2630 patients were enrolled from 619 hospitals and clinics in Japan between January and November 2012 and observed for 24 weeks. Insulin glargine naïve T2DM patients treated with OADs who started BOT with insulin glargine were enrolled if aged ≥ 20 years, with HbA1c value of ≥6.5 during previous 4 weeks, and provided informed consent. The patients with basal-bolus regimen ± OADs and basal-only regimen were not in- cluded by the protocol.
This post-marketing surveillance was a prospective, observational, 24-week study that complied with the phar- maceutical affairs law and the ministerial ordinance of “Good Post-Marketing Study Practice (GPSP)” in Japan and was conducted after a contract was signed with each medical institution participating in the survey. All treatment decisions were made by the attending physicians, and data regarding the administration times and doses (units/day) of insulin glargine including compliance as well as types and doses of OADs used in combina- tion treatment were collected.
To evaluate safety, adverse drug reactions and abnormal variations in laboratory test parameters (hematology test, clinical biochemical test, urine analysis and vital signs) were collected. When adverse events were observed, attending physicians assessed the events in terms of type, seriousness, outcomes, and causal relationship with insulin glargine. The presence or absence of hypoglycaemia, an accompanying symptom of hypoglycaemia, the presence or absence of care assistance, the presence or absence of nocturnal hypoglycaemia and the plasma glu- cose level at the incidence of hypoglycaemia were surveyed. All events besides those determined to have “no causal relationship with insulin glargine” were considered as adverse drug reactions. Adverse drug reactions were classified according to the Medical Dictionary for Regulatory Activities/Japanese version (MedDRA/J) 16.0. Hypoglycaemia was categorized for the analysis as follows:
1) Severe hypoglycaemia: serious or required assistance of another person;
2) Documented symptomatic hypoglycaemia: typical symptoms of hypoglycaemia accompanied by plasma glucose concentration ≤ 70 mg/dL;
3) Nocturnal hypoglycaemia: reported as nocturnal hypoglycaemia by the attending physicians.
HbA1c, FPG and 2 hour-PPG levels were collected before treatment to the endpoint, the values determined by LOCF method. HbA1c data were collected as JDS values or NGSP values. If the data were JDS values, they were converted to NGSP equivalent values by the following conversion formula: HbA1c (NGSP) = 1.02 × HbA1c (JDS) + 0.25% [
At the end of observation period, attending physicians classified the compliance status (good compliance ≥ 75%, poor compliance ≥ 50%, < 75% and noncompliance < 50%) of therapies including insulin glargine treat- ment, exercise and diet therapies.
PROs were evaluated before, during treatment (Weeks 6-14), and at the end of the observation using DTSQs, EQ-5D and EQ-VAS scores, and DTSQc was evaluated at the end of the observation only. The patients’ satis- faction with treatment was evaluated using DTSQs and DTSQc, and their self-reported health was evaluated us- ing EQ-5D and EQ-VAS [
In the DTSQs questionnaire, Questions 1 and 4-8 concern the patients’ satisfaction with treatment, these were concerned with general satisfaction with treatment convenience, flexibility, satisfaction with own understanding of their diabetes, likelihood of their recommending a treatment to others and willingness to continue present treatment. The scores from these 6 questions were summed to a treatment satisfaction score, ranging from 0 (most dissatisfied) to 36 (most satisfied). Questions 2 and 3 are concerned the perceived frequency of hypergly- caemia and hypoglycaemia. Question 2 (hyperglycaemia) and Question 3 (hypoglycaemia) were evaluated sep- arately, questions are scored from 0 (not at all) to 6 (most of the time).
DTSQc was completed at endpoint. The DTSQc uses the same questions as the DTSQs but the instructions ask respondents to compare their satisfaction with their current treatment with their satisfaction with the treat- ment used before the study began. Response options range from 3 (i.e. much more satisfied now) to −3 (i.e. much less satisfied now) and responses to Questions 1 and 4-8 are again summed, to produce change in satisfac- tion scores ranging from 18 to −18 with a midpoint of zero representing no change. P-value of satisfaction score, hyperglycaemia score and hypoglycaemia score were estimated by comparing the DTSQc value obtained against zero which is the response that would indicate no change.
The EQ-5D consists of 2 sections which involved a 5-item method (EQ-5D index score) to assess health sta- tus on 5 dimensions (mobility, self-care, usual activities, pain/discomfort and anxiety/depression) and the visual assessment method (EQ-VAS, 0 - 100 points). This questionnaire was conducted to assess the outcomes on health condition before and during treatment (Weeks 6-14) and at the endpoint.
The Fisher’s exact test or Cochran-Armitage test was used for the analysis of risk factors of hypoglycaemia. The mean differences in HbA1c, FPG, 2 hour-PPG levels and weight from the baseline to the endpoint were analyzed using the paired t-test, and the changes of DTSQs, EQ-5D index and EQ-VAS scores were evaluated using the Wilcoxon signed-rank test.
A total of 2630 patients with T2DM from 619 institutions in Japan were enrolled (
The remaining 2602 patients who received insulin glargine were included in the safety analysis. Of them, pa- tients with protocol deviations such as those being treated with other insulin before the observation, those not being treated with BOT during the observation (treated with basal-bolus therapy or not treated with OADs dur- ing the observation), those without data of HbA1c level in the 4 weeks prior to the initiation of insulin glargine and a few others were excluded from the efficacy analysis population.
The efficacy analysis population included 1629 patients who were treated with OADs without insulin before the enrollment and started BOT with insulin glargine. PROs results were analyzed in the efficacy analysis population.
The baseline characteristics of the safety analysis population and efficacy analysis population are shown in
Number of patients (%) | ||
---|---|---|
Safety analysis population (n = 2602) | Efficacy analysis population (n = 1629) | |
Sex | ||
Male | 1566 (60.2) | 1022 (62.7) |
Female | 1036 (39.8) | 607 (37.3) |
Age (mean, years)a) | 62.6 | 61.8 |
Weight (mean, kg)a) | 64.6 | 65.7 |
BMI (mean, kg/m2)a)b) | 24.8 | 25.0 |
Duration of diabetes (years)a) | ||
<1 | 70 (2.7) | 49 (3.0) |
≥1, <5 | 315 (12.1) | 212 (13.0) |
≥5, <10 | 448 (17.2) | 305 (18.7) |
≥10, <15 | 493 (19.0) | 318 (19.5) |
≥15 | 720 (27.7) | 389 (23.9) |
Unknown/not specified | 556 (21.4) | 356 (21.9) |
Complications | ||
Diabetic nephropathy | 624 (24.0) | 367 (22.5) |
Diabetic retinopathy | 412 (15.8) | 237 (14.6) |
Diabetic neuropathy | 430 (16.5) | 243 (14.9) |
Hypertension | 1311 (50.4) | 778 (47.8) |
Dyslipidaemia | 1376 (52.9) | 846 (51.9) |
Ischemic heart disease | 179 (6.9) | 91 (5.6) |
Ischemic cerebrovascular disease | 129 (5.0) | 71 (4.4) |
Peripheral arterial occlusive disease | 105 (4.0) | 56 (3.4) |
Laboratory valuesc) | ||
HbA1c (mean, %)b) | 9.35 | 9.58 |
FPG (mean, mg/dL)b) | 198.1 | 204.6 |
2h-PPG (mean, mg/dL)b) | 263.4 | 272.8 |
Fasting plasma CPR (mean, ng/mL)b) | 1.97 | 2.14 |
e-GFR (mean, mL/min/1.73 m2)b) | 79.0 | 81.2 |
Treatment regimen | ||
Anti-diabetes drugs regimen at baseline | ||
Basal-bolus ± OADb) | 177 (6.8) | 0 (0.0) |
Basal only | 93 (3.6) | 0 (0.0) |
BOT | 2270 (87.2) | 1629 (100.0) |
Number of OAD: 1 | 744 (28.6) | 477 (29.3) |
Number of OAD: 2 | 786 (30.2) | 566 (34.8) |
Number of OAD: 3 | 558 (21.5) | 438 (26.9) |
Number of OAD: ≥4 | 182 (7.0) | 148 (9.1) |
Others | 62 (2.4) | 0 (0.0) |
a)The numbers of patients were age: 2547 and 1596; weight: 2232 and 1251; BMI: 2051 and 1373; and duration: 2046 and 1273 in safety population and efficacy population, respectively; b)BMI, body mass index; HbA1c, hemoglobin A1c; FPG, fasting plasma glucose; 2h-PPG, 2h postprandial glu- cose; CPR, C-peptide reactivity; e-GFR, estimated glomerular filtration rate; OAD, oral anti-diabetic drugs; c)The numbers of patients were HbA1c levels: 2437 and 1629; FPG levels: 935 and 621; 2h-PPG levels: 615 and 416; Fasting plasma CPR: 204 and 125; e-GFR: 1644 and 1059 in safety population and efficacy population, respectively.
body mass index (BMI) prior to treatment were 64.6 kg and 24.8 kg/m2, respectively. As for complications, 24.0% had diabetic nephropathy, 15.8% had diabetic retinopathy, and 16.5% had diabetic neuropathy. Patients with ³5 years of diabetic duration accounted for 63.8%. The mean HbAlc, FPG and 2 hour-PPG levels were 9.35%, 198.1 mg/dL and 263.4 mg/dL, respectively. At baseline, 28.6%, 30.2%, 21.5% and 7.0% of the patients used 1, 2, 3 and ≥4 OADs, respectively. The characteristics and baseline values in the efficacy analysis population were similar to those of the safety analysis population.
The percent of concomitant OADs during the study period in the safety and efficacy analysis populations is shown in
In the efficacy analysis population, treated with BOT and having had no pre-treatment insulin, the mean doses of insulin glargine in the initial and final administration were 6.3 U/day and 9.8 U/day, respectively (
Number of patients (%) | ||
---|---|---|
Concomitant drugs | Safety analysis population (n = 2602)a) | Efficacy analysis population (n = 1629) |
At baseline | ||
DPP-4 inhibitorsb) | 1342 (51.6) | 884 (54.3) |
Sulfonylureas | 1460 (56.1) | 1142 (70.1) |
Biguanides | 1101 (42.3) | 737 (45.2) |
Thiazolidinediones | 327 (12.6) | 249 (15.3) |
α-glucosidase inhibitors | 680 (26.1) | 433 (26.6) |
Insulin secretagogues | 124 (4.8) | 74 (4.5) |
During study period | ||
DPP-4 inhibitorsb) | 1545 (59.4) | 988 (60.7) |
Sulfonylureas | 1510 (58.0) | 1164 (71.5) |
Biguanides | 1205 (46.3) | 792 (48.6) |
Thiazolidinediones | 352 (13.5) | 269 (16.5) |
α-glucosidase inhibitors | 780 (30.0) | 490 (30.1) |
Insulin secretagogues | 178 (6.8) | 109 (6.7) |
a)The DPP-4 inhibitors, sulfonylureas, biguanides, thiazolidinediones α-glucosidase inhibitors and insulin secretagogues data at baseline were unavailable for 4, 6, 6, 8, 6 and 8 patients, respectively. The DPP-4 inhibitors, Sulfonylureas, Biguanides, Thiazolidinediones, α-glucosidase inhibitors and Insulin secretagogues data during the study were unavailable for 1, 5, 6, 8, 6 and 8 patients, respectively; b)DPP-4, dipeptidyl peptidase.
Of 2602 patients in the safety analysis population, 161 patients (6.19%) experienced 175 cases of adverse drug reactions (
Efficacy analysis population (n = 1629) | |||
---|---|---|---|
Observed period | Number of patients | Mean insulin glargine dosage (U/day) | |
Baseline | 1627 | 6.3 | |
4 week | 1612 | 7.6 | |
8 week | 1570 | 8.5 | |
12 week | 1534 | 9.0 | |
16 week | 1489 | 9.4 | |
20 week | 1445 | 9.8 | |
24 week | 1419 | 10.1 | |
LOCFa) | 1627 | 9.8 | |
a)LOCF: last observational carried forward.
Number of patients (%) | |
---|---|
Evaluation items | Efficacy analysis population (n = 1629) |
Compliance status of insulin glargine treatmenta) | |
Good compliance | 1482 (91.0) |
Poor compliance | 121 (7.4) |
Non-compliance | 24 (1.5) |
Unknown/not specified | 2 (0.1) |
Compliance status of exercise therapy | |
No direction | 373 (22.9) |
Good compliance | 463 (28.4) |
Poor compliance | 532 (32.7) |
Non-compliance | 260 (16.0) |
Unknown/not specified | 1 (0.1) |
Compliance status of diet therapy | |
No direction | 113 (6.9) |
Good compliance | 556 (34.1) |
Poor compliance | 699 (42.9) |
Non-compliance | 260 (16.0) |
Unknown/not specified | 1 (0.1) |
a)Classification: good compliance ≥ 75%; poor compliance ≥ 50%, <75%; non-compliance < 50%.
Safety analysis population (n = 2602) | Efficacy analysis population (n = 1629) | |
---|---|---|
Number of patients with adverse drug reactions | 161 | 103 |
Number of cases of adverse drug reactions | 175 | 114 |
Incidence (%) of adverse drug reactions | 6.19% | 6.32% |
Types of adverse drug reactions | Incidence of adverse drug reactions by type Number of patients (%) | |
Metabolism and nutrition disorders | - | - |
Hypoglycaemiaa) | 140 (5.38) | 90 (5.52) |
Severe hypoglycaemia | 11 (0.42) | 7 (0.43) |
Documented symptomatic hypoglycaemia | 54 (2.08) | 35 (2.15) |
Nocturnal hypoglycaemia | 14 (0.54) | 6 (0.37) |
Other hypoglycaemia | 91 (3.50) | 58 (3.56) |
Diabetes mellitus inadequate control | 1 (0.04) | 0 (0.00) |
Nervous system disorders | - | - |
Diabetic neuropathy | 2 (0.08) | 2 (0.12) |
Eye disorders | 1 (0.04) | 1 (0.06) |
Diabetic retinopathy | 1 (0.04) | 1 (0.06) |
Gastrointestinal disorders | 2 (0.08) | 2 (0.12) |
Diarrhea* | 1 (0.04) | 1 (0.06) |
Gastritis* | 1 (0.04) | 1 (0.06) |
Hepatobiliary disorders | 2 (0.08) | 1 (0.06) |
Hepatic function disorder | 2 (0.08) | 1 (0.06) |
Skin and subcutaneous tissue disorders | 3 (0.12) | 2 (0.12) |
Eczema | 1 (0.04) | 1 (0.06) |
Rash | 1 (0.04) | 1 (0.06) |
Pruritus generalised | 1 (0.04) | 0 (0.00) |
Renal and urinary disorder | 1 (0.04) | 0 (0.00) |
Dysuria* | 1 (0.04) | 0 (0.00) |
General disorders and administration site conditions | 9 (0.35) | 6 (0.37) |
Death* | 1 (0.04) | 1 (0.06) |
Hunger* | 1 (0.04) | 1 (0.06) |
Oedema | 1 (0.04) | 1 (0.06) |
Injection site erythema | 2 (0.08) | 2 (0.12) |
Injection site induration | 1 (0.04) | 1 (0.06) |
Injection site pain | 1 (0.04) | 0 (0.00) |
Injection site pruritus | 2 (0.08) | 1 (0.06) |
Injection site rash | 1 (0.04) | 1 (0.06) |
Injection site swelling | 1 (0.04) | 1 (0.06) |
Injection site reaction | 1 (0.04) | 0 (0.00) |
Laboratory tests | 9 (0.35) | 5 (0.31) |
Alanine aminotransferase increased | 1 (0.04) | 1 (0.06) |
Aspartate aminotransferase increased | 1 (0.04) | 1 (0.06) |
Blood glucose level increased | 3 (0.12) | 1 (0.06) |
Blood pressure increased* | 1 (0.04) | 1 (0.06) |
HbA1c level increasedb) | 1 (0.04) | 1 (0.06) |
Weight increased* | 1 (0.04) | 0 (0.00) |
Anti-insulin antibody positive* | 2 (0.08) | 1 (0.06) |
*Adverse drug reactions/infections that could not be predicted according to the “Precautions”; a)Includes hypoglycaemic seizure and hypoglycaemic unconsciousness, which are classified as “Nervous system disorders” in the SOC; b)HbA1c, hemoglobin A1c.
documented symptomatic, 0.099; and nocturnal, 0.023. Serious adverse drug reactions are presented in
Safety analysis population (n = 2602) | Efficacy analysis population (n = 1629) | |
---|---|---|
Number of patients | 2602 | 1629 |
Number of patients with adverse drug reactions | 14 | 8 |
Number of cases of adverse drug reactions | 15 | 9 |
Incidence (%) of adverse drug reactions | 0.54% | 0.49% |
Types of adverse drug reactions | Incidence of serious adverse drug reactions by type number of patients (%) | |
Metabolism and nutrition disorders | 9 (0.35) | 4 (0.25) |
Inadequate glycaemic control | 1 (0.04) | 0 (0.00) |
Hypoglycaemia | 8 (0.31) | 4 (0.25) |
Nervous system disorders | 1 (0.04) | 1 (0.06) |
Hypoglycaemic seizure | 1 (0.04) | 1 (0.06) |
Hypoglycaemic unconsciousness | 1 (0.04) | 1 (0.06) |
Eye disorders | 1 (0.04) | 1 (0.06) |
Diabetic retinopathy | 1 (0.04) | 1 (0.06) |
General disorders and administration site conditions | 1 (0.04) | 1 (0.06) |
Death* | 1 (0.04) | 1 (0.06) |
Laboratory tests | 2 (0.08) | 1 (0.06) |
Blood glucose level increased | 2 (0.08) | 1 (0.06) |
*Adverse drug reactions/infections that could not be predicted according to the “Precautions”.
14 patients, 15 cases of serious adverse drug reactions were reported, including serious hypoglycaemia (n = 8), hypoglycaemic seizure (n = 1) and hypoglycaemic unconsciousness (n = 1). A patient with diabetes mellitus in- adequate control was reported as serious due to poor glycaemic control and inpatient diabetes education.
The incidences of adverse drug reaction in the efficacy analysis population were similar to those in the safety analysis population.
There were 2 fatal cases reported in the surveillance and they were reported as the events of death and hy- poglycaemia. The patient with “death” for which the causative events were not identified clearly, was reported later from the patient’s family to the attending physician. The patient was 84 years old and the duration of dia- betes was 32 years at the baseline. As for another hypoglycaemia case, the attending physician reported that the patient’s family noticed the death of the patient and the relationship with hypoglycaemia could not be denied. The patient was 82 years old and the diabetes duration was 39.5 years at the baseline.
In the major cardiovascular events, non-fatal stroke (n = 3, 0.12%) and cardiovascular death (n = 2, 0.08%) were observed for the observation period of 24 week. These patients had no hypoglycaemic events during the study.
As mentioned above, the major adverse drug reaction was hypoglycaemia which was of the most concern in the insulin therapy. Using the 1629 patients treated with a BOT regimen during the study period and did not have pre-treated insulins, patient characteristics (mean dose, timing of administration, types of concomitant OADs, baseline HbA1c level, etc.) that might have influenced the occurrence of hypoglycaemia while being treated with a BOT regimen were investigated.
The incidences of hypoglycaemia by baseline characteristics are shown in
Incidence of hypoglycaemia | |||
---|---|---|---|
Total number of patients | % of patients with hypoglycaemia | Analysisa)b) | |
Analysis population | 1629 | 5.52 | - |
Sex | |||
Male | 1022 | 4.40 | p = 0.0132* |
Female | 607 | 7.41 | |
Age (years) | |||
<20 | 0 | - | p = 0.0726 n.s. |
≥20, <30 | 11 | 0.00 | |
≥30, <40 | 65 | 4.62 | |
≥40, <50 | 197 | 4.06 | |
≥50, <60 | 352 | 4.26 | |
≥60, <70 | 506 | 5.73 | |
≥70, <80 | 363 | 6.61 | |
≥80 | 102 | 6.86 | |
Unknown/not specified | 33 | 12.1 | - |
Age (years, elderly patients) | |||
<65 | 903 | 4.54 | p = 0.0938 n.s. |
≥65 | 693 | 6.49 | |
Unknown/not specified | 33 | 12.1 | - |
Duration of diabetes (years) | |||
<1 | 49 | 4.08 | p = 0.0542 n.s. |
≥1, <5 | 212 | 5.19 | |
≥5, <10 | 305 | 3.93 | |
≥10, <15 | 318 | 6.92 | |
≥15 | 389 | 7.71 | |
Unknown/not specified | 356 | 3.65 | - |
Complications | |||
Hepatic function disorder | |||
Absent | 1313 | 5.41 | p = 0.6809 n.s. |
Present | 316 | 6.01 | |
Renal function disorder | |||
Absent | 1251 | 4.88 | p = 0.0404* |
Present | 378 | 7.67 | |
Diabetic nephropathy | |||
Absent | 1262 | 4.91 | p = 0.0513 n.s. |
Present | 367 | 7.63 | |
Diabetic retinopathy | |||
Absent | 1392 | 5.17 | p = 0.1642 n.s. |
Present | 237 | 7.59 | |
Diabetic neuropathy | |||
Absent | 1386 | 5.05 | p = 0.0658 n.s. |
Present | 243 | 8.23 | |
Hypertension | |||
Absent | 851 | 4.94 | p = 0.2801 n.s. |
Present | 778 | 6.17 | |
Dyslipidaemia | |||
Absent | 783 | 3.58 | p = 0.0010** |
Present | 846 | 7.33 | |
Dose and the administration time of insulin glargine | |||
Mean dose of insulin glargine (unit/day) | |||
<5 | 302 | 9.60 | p = 0.0004*** |
≥5, <10 | 832 | 5.41 | |
≥10, <15 | 358 | 3.35 | |
≥15, <20 | 93 | 4.30 | |
≥20, <30 | 38 | 0.00 | |
≥30, <40 | 4 | 0.00 | |
≥40 | 0 | - | |
Unknown/not specified | 2 | 0.00 | - |
Mean insulin glargine per day (unit/kg of actual weight) | |||
---|---|---|---|
<0.05 | 50 | 6.00 | p = 0.0733 n.s. |
≥0.05, <0.1 | 491 | 7.74 | |
≥0.1, <0.2 | 788 | 4.70 | |
≥0.2, <0.3 | 164 | 3.66 | |
≥0.3, <0.4 | 39 | 7.69 | |
≥0.4, <0.5 | 4 | 0.00 | |
≥0.5 | 0 | - | |
Unknown/not specified | 93 | 3.23 | - |
Administration time of insulin glargine at baseline | |||
Once daily | p = 0.6830 n.s. | ||
Morning | 739 | 6.09 | |
Day time | 34 | 2.94 | |
Night | 241 | 6.22 | |
Before bedtime | 612 | 4.74 | |
Twice daily | |||
Morning and night | 1 | 0.00 | |
Morning and before bedtime | 0 | - | |
Unknown/not specified | 2 | 0.00 | - |
Administration time of insulin glargine at LOCFc) | |||
Once daily | p = 0.3121 n.s. | ||
Morning | 741 | 6.07 | |
Day time | 29 | 0.00 | |
Night | 241 | 7.05 | |
Before bedtime | 599 | 4.51 | |
Twice daily | |||
Morning and night | 9 | 0.00 | |
Morning and before bedtime | 8 | 12.5 | |
Unknown/not specified | 2 | 0.00 | - |
Concomitant OADsc) | |||
DPP-4 inhibitorsc) | |||
Absent | 641 | 5.77 | p = 0.7399 n.s. |
Present | 988 | 5.36 | |
Sulfonylureas | |||
Absent | 465 | 3.01 | p = 0.0039** |
Present | 1164 | 6.53 | |
Biguanides | |||
Absent | 837 | 5.62 | p = 0.9138 n.s. |
Present | 792 | 5.43 | |
Thiazolidinediones | |||
Absent | 1360 | 4.93 | p = 0.0271* |
Present | 269 | 8.55 | |
α-glucosidase inhibitors | |||
Absent | 1139 | 5.09 | p = 0.2395 n.s. |
Present | 490 | 6.53 | |
Insulin secretagogues | |||
Absent | 1520 | 5.66 | p = 0.5152 n.s. |
Present | 109 | 3.67 | |
Number of concomitant OADs at baselinec) | |||
1 | 477 | 3.77 | p = 0.0709 n.s. |
2 | 566 | 5.83 | |
3 | 438 | 6.85 | |
≥4 | 148 | 6.08 |
Number of concomitant OADs at LOCFc) | |||
---|---|---|---|
1 | 424 | 3.77 | p = 0.0647 n.s. |
2 | 611 | 5.40 | |
3 | 433 | 7.16 | |
≥4 | 137 | 5.84 | |
Laboratory values | |||
HbA1c (%) at baselinec) | |||
<6.5 | 4 | 0.00 | p = 0.1515 n.s. |
≥6.5, <7.5 | 123 | 8.94 | |
≥7.5, <8.5 | 343 | 6.71 | |
≥8.5, <9.5 | 420 | 5.00 | |
≥9.5, <10.5 | 308 | 3.90 | |
≥10.5, <11.5 | 205 | 6.34 | |
≥11.5, <12.5 | 104 | 3.85 | |
≥12.5 | 122 | 4.92 | |
FPG (mg/dL) at baselinec) | |||
<80 | 4 | 0.00 | p = 0.0277 * |
≥80, <110 | 22 | 0.00 | |
≥110, <130 | 46 | 2.17 | |
≥130, <160 | 112 | 2.68 | |
≥160 | 437 | 6.64 | |
Unknown/not specified | 1008 | 5.65 | - |
Change in HbA1c from baseline to the endpoint (%)c) | |||
<0.5 | 417 | 5.28 | p = 0.4450 n.s. |
≥0.5, <1 | 225 | 5.33 | |
≥1, <2 | 394 | 4.82 | |
≥2 | 484 | 6.61 | |
Unknown/not specified | 109 | 4.59 | - |
Status of blood glucose self-monitoring | |||
Absent | 575 | 4.52 | p = 0.2126 n.s. |
Present | 1053 | 6.08 | |
Frequency of self-monitoring | p = 0.5664 n.s. | ||
Every day | 814 | 5.53 | |
1 - 6 times/week | 184 | 7.61 | |
<1 time/week | 12 | 0.00 | |
Unknown/not specified | 1 | 0.00 | - |
a)n.s.: not significant,*<0.05, **<0.01, ***<0.001; b)The ratios of patients were analyzed. The analysis was conducted with Fisher’s exact test, or Cochran-Armitage test; c)LOCF: last observational carried forward; OAD, oral anti-diabetic drugs; DPP-4, dipeptidyl peptidase; HbA1c, hemoglobin A1c; FPG, fasting plasma glucose.
baseline FPG.
With regard to age, the incidence of hypoglycaemia in elderly patients (≥65 years) was higher than that in pa- tients aged < 65 years though not statistically significant (p = 0.0938). The risk for hypoglycaemia in patients with longer diabetes duration was higher but without statistical significance. The patients with diabetic compli- cations did not have a higher incidence rate. There was no significant difference between the incidence of hy- poglycaemia and the type of concomitant OADs except for SUs and thiazolidinediones or the numbers of com- bined OADs, or the status of self-monitoring of blood glucose. Among the OADs, SUs and thiazolidinediones showed significant differences, on the other hand, DPP-4 inhibitors did not show it. There were no significant differences in the administration timing of insulin glargine; however, the results were from all hypoglycaemia including daytime hypoglycaemia and nocturnal hypoglycaemia. With regard to nocturnal hypoglycaemia, of the 1629 BOT patients, nocturnal hypoglycaemia in 6 patients (7 events) was observed. The timings of adminis- tration when nocturnal hypoglycaemia occurred were before bedtime in 4 patients (5 events) and at the time of breakfast and dinner in 1 patient (1 event, each). Of the 6 patients (7 events), 1 patient (2 events) was reported to be in a serious condition, and excessive alcohol use was considered as one of the other possible causes of the 2 cases for this patient. As for the other 5 of the 5 patients, only 1 event was observed in each patient, and the treatment was continued after each patient experienced the event.
In the 1629 efficacy population, BOT with insulin glargine significantly reduced HbA1c, FPG and 2 hour-PPG levels from the baseline to the endpoint with −1.61%, −54.4 mg/dL and −74.5 mg/dL (p < 0.0001,
The effect of BOT with insulin glargine on patients’ satisfaction with treatment according to the DTSQs and DTSQc as well as patients’ self-reported health according to the EQ-5D and EQ-VAS scores is shown in
In DTSQs, the mean treatment satisfaction score (the sum of Questions 1 and 4-8) was increased by 3.6 (p < 0.0001) from the baseline to the endpoint. The scores of Questions 2 and 3 in DTSQs represent patients’ satis- faction with respect to hyperglycaemia and hypoglycaemia, respectively; a higher score indicates greater per- ceived frequency of hyperglycaemia and hypoglycaemia. Compared to the baseline score, the mean hypergly- caemia score at the endpoint was decreased by −1.1 (p < 0.0001). The mean hypoglycaemia score was increased by 0.4 (p < 0.0001).
In DTSQc, the mean treatment satisfaction score (the sum of Questions 1 and 4-8) was 9.3, on a scale from 18 (much more satisfied now) to −18 (much less satisfied now). Also, the hyperglycaemia and hypoglycaemia scores were −0.2 and −0.5, respectively on scales ranging from 3 (much more often now) to −3 (much less often now), and these results meant that patients reported a reduced frequency of hyperglycaemia and hypoglycaemia(p < 0.0001).
The EQ-5D index and EQ-VAS scores were significantly improved from 0.890 and 61.5 at baseline to 0.909
Mean | |||||
---|---|---|---|---|---|
Evaluation items | Number of patients | Baseline | LOCFa) | (LOCFa)-Baseline) | Analysisb) |
HbA1c (%)a) | 1520 | 9.56 | 7.94 | −1.61 | p < 0.0001 |
FPG (mg/dL)a) | 402 | 203.0 | 148.6 | −54.4 | p < 0.0001 |
2h-PPG (mg/dL)a) | 269 | 267.0 | 192.5 | −74.5 | p < 0.0001 |
Weight (kg) | 1251 | 65.7 | 66.1 | 0.5 | p < 0.0001 |
a)LOCF: last observational carried forward; HbA1c, hemoglobin A1c; FPG, fasting plasma glucose; 2h-PPG, 2h postprandial glucose; b)p-value: paired t-test.
Mean | |||||
---|---|---|---|---|---|
Evaluation items | Number of patients | Baseline | LOCFa) | (LOCFa)-Baseline) | Analysisb) |
DTSQsa) | |||||
Treatment satisfaction (Sum of Questions 1, 4-8) | 856 | 21.9 | 25.5 | 3.6 | p < 0.0001 |
Perceived frequency of hyperglycaemia (Question 2) | 890 | 3.9 | 2.7 | −1.1 | p < 0.0001 |
Perceived frequency of hypoglycaemia (Question 3) | 884 | 1.0 | 1.4 | 0.4 | p < 0.0001 |
DTSQca) | |||||
Change in treatment satisfaction (Sum of Questions 1, 4-8) | 978 | - | 9.3 | - | p < 0.0001 |
Change in perceived frequency of hyperglycaemia (Question 2) | 987 | - | −0.2 | - | p < 0.0001 |
Change in perceived frequency of hypoglycaemia (Question 3) | 984 | - | −0.5 | - | p < 0.0001 |
EQ-5Da) and EQ-VASa) | |||||
EQ-5D Index score | 856 | 0.890 | 0.909 | 0.019 | p = 0.0005 |
EQ-VAS score | 879 | 61.5 | 69.4 | 7.8 | p < 0.0001 |
a)LOCF: last observational carried forward; DTSQs and DTSQc, Diabetes Treatment Satisfaction Questionnaire, status and change editions; EQ-5D and EQ-VAS, EuroQol Health-Related Quality of Life Questionnaire and Visual Analogue Scale; b)p-value: Wilcoxon signed-rank test.
(p = 0.0005) and 69.4 (p < 0.0001) at the endpoint, respectively.
From these results, BOT with insulin glargine significantly improved patients’ satisfaction as shown by the DTSQs and DTSQc, and also improved patients’ self-reported health on the EQ-5D index and EQ-VAS scores.
In the ALOHA 2 Study, post-marketing surveillance, the combination therapy of insulin glargine and OADs in- cluding DPP-4 inhibitors significantly reduced not only HbA1c and FPG levels but also PPG levels. The inci- dence of adverse drug reactions was generally low, and the major adverse drug reactions included hypoglycae- mia (5.38%; with severe hypoglycaemia, 0.42%). They occurred at the following incidence rates (episodes per patient-year): all hypoglycaemia, 0.273; severe, 0.019; documented symptomatic, 0.099; and nocturnal, 0.023, and the combination therapy was tolerated. The incidence of severe hypoglycaemia in this present study was similar to that in previous reports. The incidence of severe hypoglycaemia in insulin glargine [
The effects of insulin glargine used in BOT on glycaemic control have already been reported in several pre- vious studies [
In addition to the significant improvement of glycaemic control, the treatment satisfaction scores of DTSQs and DTSQc, EQ-5D index and EQ-VAS scores were improved in this study although insulin was added to oral agents. The perceived frequency of hypoglycaemia score with DTSQc was a minus score that meant lower fre- quency of hypoglycaemia, and had a different trend from that of DTSQs. It is possible that patients did give these contrary responses due to halo effects of being pleased with other outcomes associated with BOT or be- cause different patients were included in the two analyses. In any case, the changes with each assessment were both small, so it was considered that the change of the frequency of hypoglycaemia was not as large as the pa- tients’ actual feeling. From the result of EQ-5D, little changes were observed throughout the study. It might be because most of the patients had “no problems” with their condition at baseline. The proportions of the patients who had “no problems” at baseline ranged from 75.3% to 94.4% in the 5 questions. However, one of the impor- tant points was that these scores were not decreased in spite of the addition of injections to oral agents; therefore, it might result in a high compliance rate of insulin glargine treatment. From these PROs results, BOT with insu- lin glargine was acceptable for the patients and could be a good option for diabetes.
In the assessment of risk factors for hypoglycaemia showed in
In the present ALOHA 2 Study, BOT with insulin glargine including DPP-4 inhibitors was suggested to be ef- fective and well tolerated. In addition, it is suggested to improve the patients’ satisfaction and their self-reported health in spite of the addition of injections to oral agents. From these points, BOT with insulin glargine includ- ing DPP-4 inhibitors is likely to be considered an important therapeutic option in diabetic patients. However, combination therapy needs to be continuously evaluated in clinical trials or large sample analysis mainly due to the limitations of observational study/post-marketing surveillance and because OADs with new mechanisms have recently become available.
The authors are grateful to all physicians at the hospitals and clinics attending in the ALOHA 2 Study. The au- thors are also grateful to the developers of the DTSQs and DTSQc, Professor Clare Bradley and Health Psy- chology Research Ltd. (www.healthpsychologyresearch.com), for granting us permission to use the instrument in our study. Statistical analysis was performed by EPS Corp. and editorial support was provided by Honyaku Center Inc., both under the contracts with Sanofi K.K. All named authors meet the ICMJE criteria for authorship for this manuscript, take responsibility for the integrity of the work as a whole, and have given final approval to the version to be published. Sanofi had responsibility for the study design, the statistical analysis plan and the drafting and approval of the manuscript and this study was sponsored by Sanofi K.K.
MK, ST, YI and YS are employees of Sanofi K.K., Tokyo, Japan. Insulin glargine is marketed by Sanofi under the name Lantus.