BACKGROUND: Cocaine is thought to stimulate the cardiovascular system by blocking peripheral norepinephrine reuptake. This study was designed to test the novel hypotheses that cocaine also stimulates the human cardiovascular system by (1) increasing central sympathetic outflow, or (2) decreasing parasympathetic control of heart rate. METHODS AND RESULTS: In 14 healthy cocaine-naive humans, we measured blood pressure, heart rate, and skin sympathetic nerve activity (SNA) with intraneural microelectrodes before, during, and for 90 minutes after intranasal cocaine (2 mg/kg, n=7) or lidocaine (2 mg/kg, n=7). Intranasal cocaine caused an initial but transient 3. 3-fold increase in skin SNA during the period of intranasal administration followed by a sustained 2.4-fold increase lasting for up to 90 minutes after cocaine. Unlike cocaine, intranasal lidocaine caused only a small transient increase in skin SNA due to local nasal irritation. The cocaine-induced increase in SNA was accompanied by decreased skin blood flow, increased skin vascular resistance, and increased heart rate. In 11 additional subjects, we showed that the cocaine-induced increase in heart rate was eliminated by beta-adrenergic receptor blockade (propranolol) but unaffected by muscarinic receptor blockade (atropine), indicating sympathetic mediation. CONCLUSIONS: These studies provide direct microneurographic evidence in humans that intranasal cocaine stimulates central sympathetic outflow. This central sympathetic activation appears to be targeted not only to the cutaneous circulation promoting peripheral vasoconstriction but also to the heart promoting tachycardia.
BACKGROUND:Cocaine is thought to stimulate the cardiovascular system by blocking peripheral norepinephrine reuptake. This study was designed to test the novel hypotheses that cocaine also stimulates the human cardiovascular system by (1) increasing central sympathetic outflow, or (2) decreasing parasympathetic control of heart rate. METHODS AND RESULTS: In 14 healthy cocaine-naive humans, we measured blood pressure, heart rate, and skin sympathetic nerve activity (SNA) with intraneural microelectrodes before, during, and for 90 minutes after intranasal cocaine (2 mg/kg, n=7) or lidocaine (2 mg/kg, n=7). Intranasal cocaine caused an initial but transient 3. 3-fold increase in skin SNA during the period of intranasal administration followed by a sustained 2.4-fold increase lasting for up to 90 minutes after cocaine. Unlike cocaine, intranasal lidocaine caused only a small transient increase in skin SNA due to local nasal irritation. The cocaine-induced increase in SNA was accompanied by decreased skin blood flow, increased skin vascular resistance, and increased heart rate. In 11 additional subjects, we showed that the cocaine-induced increase in heart rate was eliminated by beta-adrenergic receptor blockade (propranolol) but unaffected by muscarinic receptor blockade (atropine), indicating sympathetic mediation. CONCLUSIONS: These studies provide direct microneurographic evidence in humans that intranasal cocaine stimulates central sympathetic outflow. This central sympathetic activation appears to be targeted not only to the cutaneous circulation promoting peripheral vasoconstriction but also to the heart promoting tachycardia.
Authors: Erik J Mersereau; Shelby L Poitra; Ana Espinoza; Dane A Crossley; Tristan Darland Journal: Comp Biochem Physiol C Toxicol Pharmacol Date: 2015-04-03 Impact factor: 3.228
Authors: Kristen Metzler-Wilson; Kumika Toma; Dawn L Sammons; Sarah Mann; Andrew J Jurovcik; Olga Demidova; Thad E Wilson Journal: J Neurophysiol Date: 2015-07-01 Impact factor: 2.714
Authors: William E Hobbs; Emily E Moore; Rebecca A Penkala; Douglas D Bolgiano; José A López Journal: Arterioscler Thromb Vasc Biol Date: 2013-03-28 Impact factor: 8.311
Authors: Anisiia Doytchinova; Jonathan L Hassel; Yuan Yuan; Hongbo Lin; Dechun Yin; David Adams; Susan Straka; Keith Wright; Kimberly Smith; David Wagner; Changyu Shen; Vicenta Salanova; Chad Meshberger; Lan S Chen; John C Kincaid; Arthur C Coffey; Gang Wu; Yan Li; Richard J Kovacs; Thomas H Everett; Ronald Victor; Yong-Mei Cha; Shien-Fong Lin; Peng-Sheng Chen Journal: Heart Rhythm Date: 2016-09-23 Impact factor: 6.343