Adrenergic Fibers

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  Subject Areas on Research

  • 6-hydroxydopamine destruction of central adrenergic neurones prevents or reverses developing DOCA-salt hypertension in rats. 
  • Adrenergic control of DNA synthesis in developing rat brain regions: effects of intracisternal administration of isoproterenol. 
  • Do catecholamines contribute to the effects of neonatal hypoxia on development of brain and heart? Influence of concurrent alpha-adrenergic blockade on ornithine decarboxylase activity. 
  • Effects of acute hypoxia on neonatal rat brain: regionally selective, long-term alterations in catecholamine levels and turnover. 
  • Exaggerated peripheral responses to catecholamines contributes to stress-induced hyperglycemia in the ob/ob mouse. 
  • Maturation of sympathetic neurotransmission in the rat heart. I. Ontogeny of the synaptic vesicle uptake mechanism and correlation with development of synaptic function. Effects of neonatal methadone administration on development of synaptic vesicles. 
  • Maturation of sympathetic neurotransmission in the rat heart. II. Enhanced development of presynaptic and postsynaptic components of noradrenergic synapses as a result of neonatal hyperthyroidism. 
  • Modulation of the BP response to diet by genes in the renin-angiotensin system and the adrenergic nervous system. 
  • Neonatal hyperthyroidism causes premature development of baroreceptor-mediated cardiac sympathetic reflexes. 
  • Nitric oxide-mediated central sympathetic excitation promotes CNS and pulmonary O₂ toxicity. 
  • Patterns of cardiovascular responses to stress as a function of race and parental hypertension in men. 
  • Perinatal exposure to methadone: how do early biochemical alterations cause neurofunctional disturbances? 
  • Postnatal nutritional status influences development of cardiac adrenergic receptor binding sites. 
  • Segmental organization of sympathetic preganglionic neurons in the mammalian spinal cord.