Zinc Oxide Nanoparticles Induce an Adverse Effect on Blood Glucose Levels Depending On the Dose and Route of Administration in Healthy and Diabetic Rats.
Adolfo Virgen-OrtizAlejandro Apolinar-IribeIrene Díaz-RevalHortensia Parra-DelgadoSaraí Limón-MirandaEnrique Alejandro Sánchez-PastorLuis Castro-SánchezSantos Jesús CastilloAdan Dagnino-AcostaEdgar Bonales-AlatorreAlejandrina Rodríguez-HernándezPublished in: Nanomaterials (Basel, Switzerland) (2020)
Different studies in experimental diabetes models suggest that zinc oxide nanoparticles (ZnONPs) are useful as antidiabetic agents. However, this evidence was performed and measured in long-term treatments and with repeated doses of ZnONPs. This work aimed to evaluate the ZnONPs acute effects on glycemia during the next six h after an oral or intraperitoneal administration of the treatment in healthy and diabetic rats. In this study, the streptozotocin-nicotinamide intraperitoneal administration in male Wistar rats were used as a diabetes model. 10 mg/kg ZnONPs did not modify the baseline glucose in any group. Nevertheless, the ZnONPs short-term administration (100 mg/kg) induced a hyperglycemic response in a dose and route-dependent administration in healthy (130 ± 2 and 165 ± 10 mg/dL with oral and intraperitoneal, respectively) and diabetic rats (155 ± 2 and 240 ± 20 mg/dL with oral, and intraperitoneal, respectively). The diabetic rats were 1.5 fold more sensitive to ZnONPs effect by the intraperitoneal route. In conclusion, this study provides new information about the acute response of ZnONPs on fasting glycemia in diabetic and healthy rat models; these data are essential for possible future clinical approaches.
Keyphrases
- diabetic rats
- oxide nanoparticles
- oxidative stress
- blood glucose
- type diabetes
- glycemic control
- liver failure
- cardiovascular disease
- respiratory failure
- drug induced
- insulin resistance
- metabolic syndrome
- emergency department
- skeletal muscle
- hepatitis b virus
- current status
- aortic dissection
- electronic health record
- artificial intelligence
- endothelial cells
- acute respiratory distress syndrome
- stress induced
- combination therapy
- replacement therapy