2000
Effects of Caffeine on Muscle Glycogen Utilization and the Neuroendocrine Axis during Exercise1
Laurent D, Schneider K, Prusaczyk W, Franklin C, Vogel S, Krssak M, Petersen K, Goforth H, Shulman G. Effects of Caffeine on Muscle Glycogen Utilization and the Neuroendocrine Axis during Exercise1. The Journal Of Clinical Endocrinology & Metabolism 2000, 85: 2170-2175. PMID: 10852448, DOI: 10.1210/jcem.85.6.6655.Peer-Reviewed Original ResearchConceptsMuscle glycogen contentMuscle glycogen utilizationGlycogen contentCaffeine ingestionNeuroendocrine axisGlycogen utilizationGlycogen-sparing effectFree fatty acid concentrationsBeta-endorphin levelsCaffeine-treated groupExercise-induced glycogen depletionMaximal oxygen consumptionEffects of caffeineHigher muscle glycogen contentPlacebo groupExercise enduranceFatty acid concentrationsPlasma concentrationsNeuroendocrine hormonesCortisol releaseProlonged exerciseGlycogen depletionPlasma lactateNormal valuesThigh muscles
1999
Leptin and the Perioperative Neuroendocrinological Stress Response1
Kain Z, Zimolo Z, Heninger G. Leptin and the Perioperative Neuroendocrinological Stress Response1. The Journal Of Clinical Endocrinology & Metabolism 1999, 84: 2438-2442. PMID: 10404818, DOI: 10.1210/jcem.84.7.5850.Peer-Reviewed Original ResearchConceptsSurgical stressLeptin decreaseHigh-dose opioid techniqueCortisol increasePhase IHigh-dose fentanylSurgical stress responseTotal abdominal hysterectomyCardiac surgery patientsBaseline 2 hPossible adverse outcomesBaseline 24 hPhase IIAcute stress responseDose fentanylAbdominal hysterectomyPostoperative morbiditySurgery patientsHysterectomy patientsLeptin levelsAnesthetic techniqueAdverse outcomesAdrenocortical axisCardiac patientsNeuroendocrine hormones
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