Effects of atmospheric pressure change during flight on insulin pump delivery and glycaemic control of pilots with insulin-treated diabetes: an in vitro simulation and a retrospective observational real-world study.

MLA

Garden, Gillian L., et al. “Effects of Atmospheric Pressure Change during Flight on Insulin Pump Delivery and Glycaemic Control of Pilots with Insulin-Treated Diabetes: An in Vitro Simulation and a Retrospective Observational Real-World Study.” Diabetologia, Nov. 2024. EBSCOhost, https://doi.org/10.1007/s00125-024-06295-1.

APA

Garden, G. L., Fan, K. S., Paterson, M., Shojaee-Moradie, F., Borg Inguanez, M., Manoli, A., Edwards, V., Lee, V., Frier, B. M., Hutchison, E. J., Maher, D., Mathieu, C., Mitchell, S. J., Heller, S. R., Roberts, G. A., Shaw, K. M., Koehler, G., Mader, J. K., King, B. R., & Russell-Jones, D. L. (2024). Effects of atmospheric pressure change during flight on insulin pump delivery and glycaemic control of pilots with insulin-treated diabetes: an in vitro simulation and a retrospective observational real-world study. Diabetologia. https://doi.org/10.1007/s00125-024-06295-1

Chicago

Garden, Gillian L, Ka Siu Fan, Megan Paterson, Fariba Shojaee-Moradie, Monique Borg Inguanez, Antonios Manoli, Victoria Edwards, et al. 2024. “Effects of Atmospheric Pressure Change during Flight on Insulin Pump Delivery and Glycaemic Control of Pilots with Insulin-Treated Diabetes: An in Vitro Simulation and a Retrospective Observational Real-World Study.” Diabetologia, November. doi:10.1007/s00125-024-06295-1.