Ichiyama, Ronaldo M; Waldrop, Tony G; Iwamoto, Gary A (2004) Neurons in and near insular cortex are responsive to muscular contraction and have sympathetic and/or cardiac-related discharge. Brain Res 1008:273-7
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Kramer, J M; Waldrop, T G (1998) Neural control of the cardiovascular system during exercise. An integrative role for the vestibular system. J Vestib Res 8:71-80
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Horn, E M; Waldrop, T G (1997) Oxygen-sensing neurons in the caudal hypothalamus and their role in cardiorespiratory control. Respir Physiol 110:219-28
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Nolan, P C; Waldrop, T G (1996) Ventrolateral medullary neurons show age-dependent depolarizations to hypoxia in vitro. Brain Res Dev Brain Res 91:111-20
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Iwamoto, G A; Wappel, S M; Fox, G M et al. (1996) Identification of diencephalic and brainstem cardiorespiratory areas activated during exercise. Brain Res 726:109-22
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Iwamoto, G A; Waldrop, T G (1996) Lateral tegmental field neurons sensitive to muscular contraction: a role in pressor reflexes? Brain Res Bull 41:111-20
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Ryan, J W; Waldrop, T G (1995) Hypoxia sensitive neurons in the caudal hypothalamus project to the periaqueductal gray. Respir Physiol 100:185-94
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Nolan, P C; Dillon, G H; Waldrop, T G (1995) Central hypoxic chemoreceptors in the ventrolateral medulla and caudal hypothalamus. Adv Exp Med Biol 393:261-6
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Shonis, C A; Waldrop, T G (1995) In vitro effects of GABA and hypoxia on posterior hypothalamic neurons from spontaneously hypertensive and Wistar-Kyoto rats. Brain Res Bull 36:461-6
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Horn, E M; Waldrop, T G (1994) Modulation of the respiratory responses to hypoxia and hypercapnia by synaptic input onto caudal hypothalamic neurons. Brain Res 664:25-33
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