2022
A Comparison of Postprandial Glucose Control in the Medtronic Advanced Hybrid Closed-Loop System Versus 670G
Weinzimer S, Bailey RJ, Bergenstal RM, Nimri R, Beck RW, Schatz D, Ambler-Osborn L, Schweiger DS, von dem Berge T, Sibayan J, Johnson ML, Calhoun P, Phillip M, Bergenstal R, Phillip M, Criego A, Bergenstal R, Carlson A, Martens T, Beasley S, Johnson M, Whipple D, Hyatt J, Punel A, Grieme A, Thomas L, LaFrance A, Hasledalen C, Laffel L, Isganaitis E, Freiner E, Ambler-Osborn L, Desrochers H, Turcotte C, Naik N, Roethke L, Fisher M, Nimri R, Nevo M, Bello R, Hamou A, Hermon O, Horesh O, Shiovitch Mantzuri G, Drotz I, Yehiel N, Naveh R, Schatz D, Haller M, Albanese-O'Neill A, Sheehan E, Leey J, Smith M, Jacobsen L, Adams J, Hosford J, Whyte L, Battelino T, Dovč K, Bratina N, Šmigoc Schweiger D, Sever U, Gianini A, Murn Berkopec B, Mali B, Weinzimer S, Weyman K, Carria L, Zgorski M, Danne T, Biester T, von dem Berge T, Weiskorn J, Kordonouri O, Biester S, Aschemeier B, Remus K, Pisarek N, Sibayan J, Beck R, Mouse T, Davis J, Bailey R, Hellmann A, Reese N, Calhoun P, Strayer H, Cohen N, Henderson R, Kollman C, Kennedy J, Woodall W, Mahr I, Hood K, Arreaza-Rubin G, Eggerman T, Green N, Janicek R, Gabrielson D, Belle S, Castle J, Green J, Legault L, Willi S, Wysham C, Eggerman T. A Comparison of Postprandial Glucose Control in the Medtronic Advanced Hybrid Closed-Loop System Versus 670G. Diabetes Technology & Therapeutics 2022, 24: 573-582. PMID: 35363054, PMCID: PMC9353997, DOI: 10.1089/dia.2021.0568.Peer-Reviewed Original ResearchConceptsHybrid closed-loop systemGlucose levelsGlycemic controlGlycemic excursionsAdvanced hybrid closed-loop systemG armPostprandial glycemic excursionsPostprandial glycemic controlType 1 diabetesPostprandial glucose controlPrandial insulin deliveryTreatment armsCrossover trialGlucose controlMedtronic MiniMedSecondary analysisMeal sizeOvernight improvementInsulin deliveryHyperglycemiaOutcomesArmLevel 2HypoglycemiaPremeal
2020
Sensory Discrimination of Blood and Floral Nectar by Aedes aegypti Mosquitoes
Jové V, Gong Z, Hol F, Zhao Z, Sorrells T, Carroll T, Prakash M, McBride C, Vosshall L. Sensory Discrimination of Blood and Floral Nectar by Aedes aegypti Mosquitoes. Neuron 2020, 108: 1163-1180.e12. PMID: 33049200, PMCID: PMC9831381, DOI: 10.1016/j.neuron.2020.09.019.Peer-Reviewed Original ResearchConceptsBlood componentsSpecific blood componentsBlood-feeding mosquitoesAdditional blood componentsAedes aegypti mosquitoesAedes aegypti femalesCalcium imagingNeuron classesBloodMeal sizeSpecialized neuronsAegypti mosquitoesMetabolic fateMillions of peopleAegypti femalesBlood mealSensory discriminationDisease transmissionFeeding programsNeuronsSensory detectionMosquitoesTaste qualityVector-borne disease transmissionMeal
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