1.
Pulmonary Function and Sleep Breathing: Two New Targets for Type 2 Diabetes Care.
Lecube, A, Simó, R, Pallayova, M, Punjabi, NM, López-Cano, C, Turino, C, Hernández, C, Barbé, F
Endocrine reviews. 2017;(6):550-573
Abstract
Population-based studies showing the negative impact of type 2 diabetes (T2D) on lung function are overviewed. Among the well-recognized pathophysiological mechanisms, the metabolic pathways related to insulin resistance (IR), low-grade chronic inflammation, leptin resistance, microvascular damage, and autonomic neuropathy are emphasized. Histopathological changes are exposed, and findings reported from experimental models are clearly differentiated from those described in humans. The accelerated decline in pulmonary function that appears in patients with cystic fibrosis (CF) with related abnormalities of glucose tolerance and diabetes is considered as an example to further investigate the relationship between T2D and the lung. Furthermore, a possible causal link between antihyperglycemic therapies and pulmonary function is examined. T2D similarly affects breathing during sleep, becoming an independent risk factor for higher rates of sleep apnea, leading to nocturnal hypoxemia and daytime sleepiness. Therefore, the impact of T2D on sleep breathing and its influence on sleep architecture is analyzed. Finally, the effect of improving some pathophysiological mechanisms, primarily IR and inflammation, as well as the optimization of blood glucose control on sleep breathing is evaluated. In summary, the lung should be considered by those providing care for people with diabetes and raise the central issue of whether the normalization of glucose levels can improve pulmonary function and ameliorate sleep-disordered breathing. Therefore, patients with T2D should be considered a vulnerable group for pulmonary dysfunction. However, further research aimed at elucidating how to screen for the lung impairment in the population with diabetes in a cost-effective manner is needed.
2.
[Twice-daily and weekly exenatide: Clinical profile of two pioneer formulations in incretin therapy].
Lecube, A, Bueno, M, Suárez, X
Medicina clinica. 2014;:23-7
Abstract
GLP-1 receptors agonists have been a substantial change in treatment of type 2 diabetes mellitus, and its weekly administration has broken pre-established schemes. Daily exenatide is administered every 12 hours (BID) subcutaneously, while weekly exenatide is administered once a week. Both molecules share a common mechanism of action but have differential effects on basal and postprandial glucose. We review the major clinical trials with both exenatide BID and weekly exenatide. It can be concluded that exenatide BID shows a hypoglycemic effect similar to other treatments for type 2 DM but adding significant weight loss with low incidence of hypoglycemia. Weekly exenatide decreases HbA1c similar to liraglutide but larger than exenatide BID, both glargine and biphasic insulin, sitagliptin, and pioglitazone, maintaining weight loss and adding to gastrointestinal intolerance the induration at the injection site as a side effect.