Elena Lundberg scite author profile

OBJECTIVE To evaluate the efficacy of aluminum-formulated intralymphatic glutamic acid decarboxylase (GAD-alum) therapy combined with vitamin D supplementation in preserving endogenous insulin secretion in all patients with type 1 diabetes (T1D) or in a genetically prespecified subgroup. RESEARCH DESIGN AND METHODS In a multicenter, randomized, placebo-controlled, double-blind trial, 109 patients aged 12–24 years (mean ± SD 16.4 ± 4.1) with a diabetes duration of 7–193 days (88.8 ± 51.4), elevated serum GAD65 autoantibodies, and a fasting serum C-peptide >0.12 nmol/L were recruited. Participants were randomized to receive either three intralymphatic injections (1 month apart) with 4 μg GAD-alum and oral vitamin D (2,000 IE daily for 120 days) or placebo. The primary outcome was the change in stimulated serum C-peptide (mean area under the curve [AUC] after a mixed-meal tolerance test) between baseline and 15 months. RESULTS Primary end point was not met in the full analysis set (treatment effect ratio 1.091 [CI 0.845–1.408]; P = 0.5009). However, GAD-alum–treated patients carrying HLA DR3-DQ2 (n = 29; defined as DRB1*03, DQB1*02:01) showed greater preservation of C-peptide AUC (treatment effect ratio 1.557 [CI 1.126–2.153]; P = 0.0078) after 15 months compared with individuals receiving placebo with the same genotype (n = 17). Several secondary end points showed supporting trends, and a positive effect was seen in partial remission (insulin dose–adjusted HbA1c ≤9; P = 0.0310). Minor transient injection site reactions were reported. CONCLUSION Intralymphatic administration of GAD-alum is a simple, well-tolerated treatment that together with vitamin D supplementation seems to preserve C-peptide in patients with recent-onset T1D carrying HLA DR3-DQ2. This constitutes a disease-modifying treatment for T1D with a precision medicine approach.

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ProAct Study: New Features of Insulin Pumps Improve Diabetes Management and Glycemic Control in Patients after Transition of Continuous Subcutaneous Insulin Infusion Systems

Ziegler¹,

Tubili

Chico³

et al. 2013

Diabetes Technology & Therapeutics

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Transition from older pump systems to the Accu-Chek Combo system in a large patient population resulted in stable glycemic control with significant improvements in HbA1c in patients with unsatisfactory baseline HbA1c and shorter pump use. Increased frequency of self-monitoring of blood glucose and decrease of bolus frequency could suggest a more confident diabetes management and a reduced need for correction boluses.

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Growth Hormone Dose-Dependent Pubertal Growth: A Randomized Trial in Short Children with Low Growth Hormone Secretion

et al. 2014

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Background/Aims: Growth hormone (GH) treatment regimens do not account for the pubertal increase in endogenous GH secretion. This study assessed whether increasing the GH dose and/or frequency of administration improves pubertal height gain and adult height (AH) in children with low GH secretion during stimulation tests, i.e. idiopathic isolated GH deficiency. Methods: A multicenter, randomized, clinical trial (No. 88-177) followed 111 children (96 boys) at study start from onset of puberty to AH who had received GH 33 µg/kg/day for ≥1 year. They were randomized to receive 67 µg/kg/day (GH⁶⁷) given as one (GH^67×1; n = 35) or two daily injections (GH^33×2; n = 36), or to remain on a single 33 µg/kg/day dose (GH^33×1; n = 40). Growth was assessed as height_SDSgain for prepubertal, pubertal and total periods, as well as AH_SDS versus the population and the midparental height. Results: Pubertal height_SDSgain was greater for patients receiving a high dose (GH⁶⁷, 0.73) than a low dose (GH^33×1, 0.41, p < 0.05). AH_SDS was greater on GH⁶⁷ (GH^67×1, -0.84; GH^33×2, -0.83) than GH³³ (-1.25, p < 0.05), and height_SDSgain was greater on GH⁶⁷ than GH³³ (2.04 and 1.56, respectively; p < 0.01). All groups reached their target height_SDS. Conclusion: Pubertal height_SDSgain and AH_SDS were dose dependent, with greater growth being observed for the GH⁶⁷ than the GH³³ randomization group; however, there were no differences between the once- and twice-daily GH⁶⁷ regimens.

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IGF-1 and Growth Response to Adult Height in a Randomized GH Treatment Trial in Short Non-GH-Deficient Children

Kriström

Lundberg

Jonsson

et al. 2014

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Growth hormone (GH) dose-dependent IGF-I response relates to pubertal height gain

et al. 2015

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BackgroundResponsiveness to GH treatment can be estimated by both growth and ∆IGF-I. The primary aim of the present study was to investigate if mimicking the physiological increase during puberty in GH secretion, by using a higher GH dose could lead to pubertal IGFs in short children with low GH secretion. The secondary aim was to explore the relationship between IGF-I, IGFBP-3 and the IGF-I/IGFBP-3 ratio and gain in height.MethodsA multicentre, randomized, clinical trial (TRN88-177) in 104 children (90 boys), who had received GH 33 μg/kg/day during at least 1 prepubertal year. They were followed from GH start to adult height (mean, 7.5 years; range, 4.6–10.7). At onset of puberty, children were randomized into three groups, to receive 67 μg/kg/day (GH67) given once (GH67x1; n = 30) or divided into two daily injection (GH33x2; n = 36), or to remain on a single 33 μg/kg/day dose (GH33x1; n = 38). The outcome measures were change and obtained mean on-treatment IGF-ISDS, IGFBP3SDS and IGF-I/IGFBP3 ratioSDS during prepuberty and puberty. These variables were assessed in relation to prepubertal, pubertal and total gain in heightSDS.ResultsMean prepubertal increases 1 year after GH start were: 2.1 IGF-ISDS, 0.6 IGFBP3SDS and 1.5 IGF-I/IGFBP3ratioSDS. A significant positive correlation was found between prepubertal ∆IGFs and both prepubertal and total gain in heightSDS. During puberty changes in IGFs were GH dose-dependent: mean pubertal level of IGF-ISDS was higher in GH67 vs GH33 (p = 0.031). First year pubertal ∆IGF-ISDS was significantly higher in the GH67vs GH33 group (0.5 vs −0.1, respectively, p = 0.007), as well as ∆IGF-ISDS to the pubertal mean level (0.2 vs −0.2, p = 0.028). In multivariate analyses, the prepubertal increase in ‘∆IGF-ISDS from GH start’ and the ‘GH dose-dependent pubertal ∆IGF-ISDS’ were the most important variables for explaining variation in prepubertal (21 %), pubertal (26 %) and total (28 %) gain in heightSDS.Trial registrationTRN 88–177, not applicable 1988.ConclusionThe dose-dependent change in IGFs was related to a dose-dependent pubertal gain in heightSDS. The attempt to mimic normal physiology by giving a higher GH dose during puberty was associated with both an increase in IGF-I and a dose-dependent gain in heightSDS.Electronic supplementary materialThe online version of this article (doi:10.1186/s12902-015-0080-8) contains supplementary material, which is available to authorized users.

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Elena Lundberg

Intralymphatic Glutamic Acid Decarboxylase With Vitamin D Supplementation in Recent-Onset Type 1 Diabetes: A Double-Blind, Randomized, Placebo-Controlled Phase IIb Trial

ProAct Study: New Features of Insulin Pumps Improve Diabetes Management and Glycemic Control in Patients after Transition of Continuous Subcutaneous Insulin Infusion Systems

Growth Hormone Dose-Dependent Pubertal Growth: A Randomized Trial in Short Children with Low Growth Hormone Secretion

IGF-1 and Growth Response to Adult Height in a Randomized GH Treatment Trial in Short Non-GH-Deficient Children

Growth hormone (GH) dose-dependent IGF-I response relates to pubertal height gain

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