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Cocaine intoxication

January 07, 2024

Cocaine intoxication refers to the subjective, desired and adverse effects of cocaine on the mind and behavior of users. Both self-induced and involuntary cocaine intoxication have medical and legal implications (even in absence of relevant adverse effects).

Cocaine intoxication
Other namesCocaine toxicity, Cocaine poisoning, Cocaine overdose
Cocaine
SpecialtyToxicology

Adverse effects can develop over time due to repeated use and so become chronic conditions. However, even a one-time intake of the substance can result in severe acute intoxication.

Recurrent cocaine use and dependence to the drug inevitably leads to the reduction of the desired effects perceived by the users, while the occurrence of adverse effects of intoxication increase. The last can sometimes be completely reversed without bearing consequences but they can also potentially kill the users (e.g., in cases of untreated or non-manageable overdoses).

Signs and symptoms edit

Cocaine increases alertness, feelings of well-being, euphoria, energy, sociability, and sexuality. The former are some of the desired effects of cocaine intoxication. Not having the normal use of mental faculties by reason of the introduction of cocaine is defined drug intoxication by the laws in America, Europe, and most of the rest of the World, and it is a serious crime in specific contexts (e.g., in drug-impaired driving).[1][2]

Mild adverse effects include anxiety, increased temperature, paranoia, restlessness, and teeth grinding. With prolonged use, the drug can cause chronic complications like insomnia, weight loss, anorexia, persistent tachycardia, heart failure, kidney failure, hallucinations, and paranoid delusions.[3]

Depression with suicidal ideation may develop in heavy users.[4] Finally, a loss of vesicular monoamine transporters, neurofilament proteins, and other morphological changes appear to indicate a long-term damage to dopamine neurons.[5] Chronic intranasal usage can degrade the cartilage separating the nostrils (the nasal septum), which can eventually lead to its complete disappearance.[6]

Studies have shown that cocaine usage during pregnancy triggers premature labor[7] and may lead to abruptio placentae.[8]

In cases of severe acute intoxication, potentially lethal adverse effects include prolonged episodes of arrhythmia (i.e., a group of abnormal heart rhythms that also include tachycardia), heavy hypoglycemia, tremors, convulsions, hyperthermia (i.e., markedly increased core temperature), untreated uremia, myocardial infarction, stroke, and sudden cardiac arrest.[9]

Overdose edit

 
US yearly overdose deaths involving cocaine.[10]
 
US. Opioid involvement in cocaine overdose deaths. Green line is cocaine and any opioid. Gray line is cocaine without any opioids. Yellow line is cocaine and other synthetic opioids.[10]

Cocaine can be snorted, swallowed, injected, or smoked. Most deaths due to cocaine are accidental but may also be the result of body packing or stuffing with rupture in the gastrointestinal tract. Use of cocaine causes abnormally fast heart rhythms and a marked elevation of blood pressure (hypertension), which can be life-threatening. This can lead to death from acute myocardial infarction, acute respiratory failure (i.e., hypoxemia, with or without hypercapnia), stroke, cerebral hemorrhage, and sudden cardiac arrest.[11] Cocaine overdose may result in hyperthermia as stimulation and increased muscular activity cause greater heat production. Heat loss is also inhibited by the cocaine-induced vasoconstriction. Cocaine and/or associated hyperthermia may cause muscle cell destruction (rhabdomyolysis) and myoglobinuria resulting in kidney failure. Individuals with cocaine overdose should be transported immediately to the nearest emergency department, preferably by ambulance in case cardiac arrest occurs en route. According to the National Institute on Drug Abuse, approximately 14,600 deaths occurred in the US in 2017 due to an overdose where cocaine was somehow involved in any capacity, defined or undefined.[10] Because of the increase in heart rate, cocaine users can be prone to elevated body temperatures, tremors, chest pains, and subject to nausea and vomiting. Some psychological symptoms due to an overdose include paranoia, delirium, anxiety as well as panicked feelings. Some signs of an overdose of cocaine are difficulty breathing, loss of urine control, bluish color of the skin, loss of awareness or surroundings, and high blood pressure. Death can be also be caused from an over intoxication of cocaine, especially if high doses are taken.[12] Most severe overdoses occur when users combine cocaine with other substances like alcohol or heroin, which increase the effects and heighten the chances of having a dangerous overdose. Treating an overdose can be done by bringing back blood flow to the heart, and restoring the body with oxygen rich blood, especially for the brain to reduce the risk of stroke.[13] Cocaine overdoses have fluctuated over the years. From 2006 to 2010 there has been a decline in the number of reported cases. Though, from 2010 to 2015 there has been an increase in the reported cases involving over cocaine Intoxication. Males appear to have a much higher chance of overdosing than females. The ratio of male to female cocaine overdoses is 3:1.

Withdrawal edit

Cocaine withdrawal is not as severe as the withdrawal from other substances. For example, substances like heroin, alcohol and benzodiazepines can involve severe physical withdrawal symptoms while cocaine results in mostly psychological symptoms. Physiological changes caused by cocaine withdrawal include vivid and unpleasant dreams, insomnia, hypersomnia, anger, increased appetite, weight gain, psychomotor retardation, agitation, depression, and anxiety. According to a study done by Gawin and Kleber in 1986, there are three phases in the withdrawal process. They observed the behavior of 30 cocaine-dependent individuals. Phase one, the crash, is characterized by acute dysphoria, irritability and anxiety, increased desire for sleep, exhaustion, increased appetite, decreased craving to use. Phase two, withdrawal, is characterized by increasing craving to use, poor concentration, some irritability and some lethargy, which persisted for up to 10 weeks. Lastly, phase three is characterized by the intermittent craving to use in the context of external cues.[14] Cocaine and its metabolites are eliminated from the body by 3 days.[15] There are not any FDA-approved medications that specifically help treat cocaine withdrawal, however, there are some useful medications that could possibly help individuals overcome their addiction. One example is propranolol. Propranolol is a beta blocker that has been approved to treat hypertension, angina, anxiety, and other related psychological problems. Buprenorphine and naltrexone are two substances that act as an effective treatment in the earlier stages of withdrawal.

Pathophysiology edit

Cocaine pharmacodynamics involve multiple complex mechanisms. Although it has a short half-life (~ 1 hour),[15] cocaine metabolites, which rise in concentrations several hours after cocaine ingestion, persist in circulation for up to 24 hours, and may cause delayed or recurrent coronary vasoconstriction.[16] This drug binds and blocks monoamine (dopamine, epinephrine, norepinephrine, and serotonin) re-uptake transporters with equal affinity. Monoamines accumulate in the synaptic cleft resulting in enhanced and prolonged sympathetic effects. Cocaine's acute effect in the central nervous system is to raise the amount of dopamine and serotonin in the nucleus accumbens (the pleasure center in the brain). When this effect ceases due to metabolism of cocaine, depletion of associated neurotransmitters, and receptor down-regulation (tachyphylaxis), the cocaine user may experience dysphoria, or a "crash" after the initial high. The principal actions of cocaine on the cardiovascular system are from alpha- and beta-1-adrenoceptor stimulation resulting in increased heart rate, systemic arterial pressure, and myocardial contractility, which are major determinants of myocardial oxygen demand. Cocaine and its metabolites may cause arterial vasoconstriction hours after use. Epicardial coronary arteries are especially vulnerable to these effects, leading to decreased myocardial oxygen supply. Cocaine-induced platelet activation and thrombus formation is another deleterious effect, caused by alpha-adrenergic- and adenosine diphosphate-mediated increase in platelet aggregation.[17] Plasminogen activator inhibitor is also increased following cocaine use, thereby promoting thrombosis. Cocaine acts like a class I antiarrhythmic agent by blocking sodium and potassium channels, in a similar way of local anesthetics such as lidocaine, and interferes with action potential propagation.[18][19] This Vaughn-Williams class IC effect increases the risk of conduction disturbance and tachyarrhythmias. Adding to its complex toxicity, cocaine targets muscarinic acetylcholine, N-methyl-D-aspartate (NMDA), sigma, and kappa-opioid receptors.[20][21][22][23]

Management edit

 
A "cocaine alert" sign posted by GGD Amsterdam: the sign reminds people to "Call 112 for an ambulance."

There is no specific antidote for cocaine. Emergency treatment of cocaine-associated high body temperature consists of giving a benzodiazepine and physical cooling. Immediate administration of aspirin is required for patients reporting cocaine-associated chest pain.[19][24][25] Cooling is best accomplished with tepid water misting and cooling with a fan.[26][27] Antipyretics (e.g., paracetamol) have no effect in lowering high temperature because cocaine is an muscarinic receptor agonist.

The chest pain, high blood pressure, and increased heart rate caused by cocaine may be also treated with benzodiazepines.[28] Multiple and escalating dose of benzodiazepines may be necessary to achieve effect, which increases risk of over-sedation and respiratory depression. A review of cocaine cardiovascular toxicity found benzodiazepines may not always reliably lower heart rate and blood pressure.[29] Lidocaine and intravenous lipid emulsion have been successfully used for serious ventricular tachyarrhythmias in several case reports.

People who are agitated are best treated with benzodiazepines, though antipsychotics such as haloperidol and olanzapine may also be useful.[29] The alpha-2 agonist dexmedetomidine may also be useful for agitation, but effects on heart rate and blood pressure are variable based on several studies and case reports.[29]

Vasodilators edit

Nitric-oxide mediated vasodilators, such as nitroglycerin and nitroprusside, are effective at lowering blood pressure and reversing coronary arterial vasoconstriction, but not heart rate.[29] Nitroglycerin is useful for cocaine-induced chest pain, but the possibility of reflex tachycardia must be considered.[30]

Alpha blockers edit

Alpha-blockers such as phentolamine have been recommended[28] and may be used to treat cocaine-induced hypertension and coronary arterial vasoconstriction, but these agents do not reduce heart rate.[29][31] Furthermore, phentolamine is rarely used, not readily available in many emergency departments, and many present-day clinicians are unfamiliar with its use.

Beta blockers edit

Although the use of beta blockers is still controversial, notwithstanding decades of practice, despite research papers and systematic reviews on this subject[32] (more details are in the next section), the intravenous racemic mixture[33] of labetalol, a non-selective β blocker and selective α1 blocker is recommended for treating concomitant hypertension and tachycardia.[29][34][35] Furthermore, the use of labetalol is approved by a AHA/ACC guideline for people who have used cocaine and methamphetamine with unstable angina/non-STEMI.[25]

A relative contraindication to the use of beta-blockers is still evident in some guidelines for the treatment of cocaine toxicity despite limited evidence. The phenomenon of "unopposed alpha-stimulation," in which blood pressure increases or coronary artery vasoconstriction worsens after blockade of beta-2 vasodilation in people using cocaine, is controversial.[36][37] This rarely-encountered and unpredictable adverse effect has resulted in some clinicians advocating for an absolute contraindication of all beta-blockers, including specific, non-specific, and mixed.[38] Many clinicians have disregarded this dogma and administer beta-blockers for cocaine-related chest pain and acute coronary syndrome, especially when there is demand ischemia from uncontrolled tachycardia.[39][40][41][42][43] Of the 1,744 people in the aforementioned systematic review,[29] only 7 adverse events were from putative cases of "unopposed alpha-stimulation" due to propranolol (n=3), esmolol (n=3), and metoprolol (n=1).[44][45][46][47][48] Some detractors of beta-blockers for cocaine-induced chest pain have cited minimal acute mortality and the short half-life of the medication, making it unnecessary to aggressively treat any associated tachycardia and hypertension.[38][49] However, the long-term effect of cocaine use and development of heart failure, with early mortality, high morbidity, and tremendous demand on hospital utilization should be taken under consideration.[50][51][52]

Calcium channel blockers edit

Calcium channel blockers may also be used to treat hypertension and coronary arterial vasoconstriction,[53] but fail to lower tachycardia based on all cocaine-related studies.[29] Non-dihydropyridine calcium channels blockers such as diltiazem and verapamil are preferable, as dihydropyridine agents such as nifedipine have much higher risk of reflex tachycardia (however, clinicians can prevent reflex tachycardia by administering beta-blockers some minutes before using the latter class of CCBs).

See also edit

References edit

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  53. ^ Negus, Brian H.; Willard, John E.; Hillis, L.David; Glamann, D.Brent; Landau, Charles; Snyder, Richard W.; Lange, Richard A. (1994-03-01). "Alleviation of cocaine-induced coronary vasoconstriction with intravenous verapamil". The American Journal of Cardiology. 73 (7): 510–513. doi:10.1016/0002-9149(94)90684-x. ISSN 0002-9149. PMID 8141094.

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January 07, 2024
cocaine, intoxication, refers, subjective, desired, adverse, effects, cocaine, mind, behavior, users, both, self, induced, involuntary, cocaine, intoxication, have, medical, legal, implications, even, absence, relevant, adverse, effects, other, namescocaine, t. Cocaine intoxication refers to the subjective desired and adverse effects of cocaine on the mind and behavior of users Both self induced and involuntary cocaine intoxication have medical and legal implications even in absence of relevant adverse effects Cocaine intoxicationOther namesCocaine toxicity Cocaine poisoning Cocaine overdoseCocaineSpecialtyToxicologyAdverse effects can develop over time due to repeated use and so become chronic conditions However even a one time intake of the substance can result in severe acute intoxication Recurrent cocaine use and dependence to the drug inevitably leads to the reduction of the desired effects perceived by the users while the occurrence of adverse effects of intoxication increase The last can sometimes be completely reversed without bearing consequences but they can also potentially kill the users e g in cases of untreated or non manageable overdoses Contents 1 Signs and symptoms 1 1 Overdose 1 2 Withdrawal 2 Pathophysiology 3 Management 3 1 Vasodilators 3 2 Alpha blockers 3 3 Beta blockers 3 4 Calcium channel blockers 4 See also 5 References 6 External linksSigns and symptoms editCocaine increases alertness feelings of well being euphoria energy sociability and sexuality The former are some of the desired effects of cocaine intoxication Not having the normal use of mental faculties by reason of the introduction of cocaine is defined drug intoxication by the laws in America Europe and most of the rest of the World and it is a serious crime in specific contexts e g in drug impaired driving 1 2 Mild adverse effects include anxiety increased temperature paranoia restlessness and teeth grinding With prolonged use the drug can cause chronic complications like insomnia weight loss anorexia persistent tachycardia heart failure kidney failure hallucinations and paranoid delusions 3 Depression with suicidal ideation may develop in heavy users 4 Finally a loss of vesicular monoamine transporters neurofilament proteins and other morphological changes appear to indicate a long term damage to dopamine neurons 5 Chronic intranasal usage can degrade the cartilage separating the nostrils the nasal septum which can eventually lead to its complete disappearance 6 Studies have shown that cocaine usage during pregnancy triggers premature labor 7 and may lead to abruptio placentae 8 In cases of severe acute intoxication potentially lethal adverse effects include prolonged episodes of arrhythmia i e a group of abnormal heart rhythms that also include tachycardia heavy hypoglycemia tremors convulsions hyperthermia i e markedly increased core temperature untreated uremia myocardial infarction stroke and sudden cardiac arrest 9 Overdose edit nbsp US yearly overdose deaths involving cocaine 10 nbsp US Opioid involvement in cocaine overdose deaths Green line is cocaine and any opioid Gray line is cocaine without any opioids Yellow line is cocaine and other synthetic opioids 10 Cocaine can be snorted swallowed injected or smoked Most deaths due to cocaine are accidental but may also be the result of body packing or stuffing with rupture in the gastrointestinal tract Use of cocaine causes abnormally fast heart rhythms and a marked elevation of blood pressure hypertension which can be life threatening This can lead to death from acute myocardial infarction acute respiratory failure i e hypoxemia with or without hypercapnia stroke cerebral hemorrhage and sudden cardiac arrest 11 Cocaine overdose may result in hyperthermia as stimulation and increased muscular activity cause greater heat production Heat loss is also inhibited by the cocaine induced vasoconstriction Cocaine and or associated hyperthermia may cause muscle cell destruction rhabdomyolysis and myoglobinuria resulting in kidney failure Individuals with cocaine overdose should be transported immediately to the nearest emergency department preferably by ambulance in case cardiac arrest occurs en route According to the National Institute on Drug Abuse approximately 14 600 deaths occurred in the US in 2017 due to an overdose where cocaine was somehow involved in any capacity defined or undefined 10 Because of the increase in heart rate cocaine users can be prone to elevated body temperatures tremors chest pains and subject to nausea and vomiting Some psychological symptoms due to an overdose include paranoia delirium anxiety as well as panicked feelings Some signs of an overdose of cocaine are difficulty breathing loss of urine control bluish color of the skin loss of awareness or surroundings and high blood pressure Death can be also be caused from an over intoxication of cocaine especially if high doses are taken 12 Most severe overdoses occur when users combine cocaine with other substances like alcohol or heroin which increase the effects and heighten the chances of having a dangerous overdose Treating an overdose can be done by bringing back blood flow to the heart and restoring the body with oxygen rich blood especially for the brain to reduce the risk of stroke 13 Cocaine overdoses have fluctuated over the years From 2006 to 2010 there has been a decline in the number of reported cases Though from 2010 to 2015 there has been an increase in the reported cases involving over cocaine Intoxication Males appear to have a much higher chance of overdosing than females The ratio of male to female cocaine overdoses is 3 1 Withdrawal edit Cocaine withdrawal is not as severe as the withdrawal from other substances For example substances like heroin alcohol and benzodiazepines can involve severe physical withdrawal symptoms while cocaine results in mostly psychological symptoms Physiological changes caused by cocaine withdrawal include vivid and unpleasant dreams insomnia hypersomnia anger increased appetite weight gain psychomotor retardation agitation depression and anxiety According to a study done by Gawin and Kleber in 1986 there are three phases in the withdrawal process They observed the behavior of 30 cocaine dependent individuals Phase one the crash is characterized by acute dysphoria irritability and anxiety increased desire for sleep exhaustion increased appetite decreased craving to use Phase two withdrawal is characterized by increasing craving to use poor concentration some irritability and some lethargy which persisted for up to 10 weeks Lastly phase three is characterized by the intermittent craving to use in the context of external cues 14 Cocaine and its metabolites are eliminated from the body by 3 days 15 There are not any FDA approved medications that specifically help treat cocaine withdrawal however there are some useful medications that could possibly help individuals overcome their addiction One example is propranolol Propranolol is a beta blocker that has been approved to treat hypertension angina anxiety and other related psychological problems Buprenorphine and naltrexone are two substances that act as an effective treatment in the earlier stages of withdrawal Pathophysiology editCocaine pharmacodynamics involve multiple complex mechanisms Although it has a short half life 1 hour 15 cocaine metabolites which rise in concentrations several hours after cocaine ingestion persist in circulation for up to 24 hours and may cause delayed or recurrent coronary vasoconstriction 16 This drug binds and blocks monoamine dopamine epinephrine norepinephrine and serotonin re uptake transporters with equal affinity Monoamines accumulate in the synaptic cleft resulting in enhanced and prolonged sympathetic effects Cocaine s acute effect in the central nervous system is to raise the amount of dopamine and serotonin in the nucleus accumbens the pleasure center in the brain When this effect ceases due to metabolism of cocaine depletion of associated neurotransmitters and receptor down regulation tachyphylaxis the cocaine user may experience dysphoria or a crash after the initial high The principal actions of cocaine on the cardiovascular system are from alpha and beta 1 adrenoceptor stimulation resulting in increased heart rate systemic arterial pressure and myocardial contractility which are major determinants of myocardial oxygen demand Cocaine and its metabolites may cause arterial vasoconstriction hours after use Epicardial coronary arteries are especially vulnerable to these effects leading to decreased myocardial oxygen supply Cocaine induced platelet activation and thrombus formation is another deleterious effect caused by alpha adrenergic and adenosine diphosphate mediated increase in platelet aggregation 17 Plasminogen activator inhibitor is also increased following cocaine use thereby promoting thrombosis Cocaine acts like a class I antiarrhythmic agent by blocking sodium and potassium channels in a similar way of local anesthetics such as lidocaine and interferes with action potential propagation 18 19 This Vaughn Williams class IC effect increases the risk of conduction disturbance and tachyarrhythmias Adding to its complex toxicity cocaine targets muscarinic acetylcholine N methyl D aspartate NMDA sigma and kappa opioid receptors 20 21 22 23 Management edit nbsp A cocaine alert sign posted by GGD Amsterdam the sign reminds people to Call 112 for an ambulance There is no specific antidote for cocaine Emergency treatment of cocaine associated high body temperature consists of giving a benzodiazepine and physical cooling Immediate administration of aspirin is required for patients reporting cocaine associated chest pain 19 24 25 Cooling is best accomplished with tepid water misting and cooling with a fan 26 27 Antipyretics e g paracetamol have no effect in lowering high temperature because cocaine is an muscarinic receptor agonist The chest pain high blood pressure and increased heart rate caused by cocaine may be also treated with benzodiazepines 28 Multiple and escalating dose of benzodiazepines may be necessary to achieve effect which increases risk of over sedation and respiratory depression A review of cocaine cardiovascular toxicity found benzodiazepines may not always reliably lower heart rate and blood pressure 29 Lidocaine and intravenous lipid emulsion have been successfully used for serious ventricular tachyarrhythmias in several case reports People who are agitated are best treated with benzodiazepines though antipsychotics such as haloperidol and olanzapine may also be useful 29 The alpha 2 agonist dexmedetomidine may also be useful for agitation but effects on heart rate and blood pressure are variable based on several studies and case reports 29 Vasodilators edit Nitric oxide mediated vasodilators such as nitroglycerin and nitroprusside are effective at lowering blood pressure and reversing coronary arterial vasoconstriction but not heart rate 29 Nitroglycerin is useful for cocaine induced chest pain but the possibility of reflex tachycardia must be considered 30 Alpha blockers edit Alpha blockers such as phentolamine have been recommended 28 and may be used to treat cocaine induced hypertension and coronary arterial vasoconstriction but these agents do not reduce heart rate 29 31 Furthermore phentolamine is rarely used not readily available in many emergency departments and many present day clinicians are unfamiliar with its use Beta blockers edit Although the use of beta blockers is still controversial notwithstanding decades of practice despite research papers and systematic reviews on this subject 32 more details are in the next section the intravenous racemic mixture 33 of labetalol a non selective b blocker and selective a1 blocker is recommended for treating concomitant hypertension and tachycardia 29 34 35 Furthermore the use of labetalol is approved by a AHA ACC guideline for people who have used cocaine and methamphetamine with unstable angina non STEMI 25 A relative contraindication to the use of beta blockers is still evident in some guidelines for the treatment of cocaine toxicity despite limited evidence The phenomenon of unopposed alpha stimulation in which blood pressure increases or coronary artery vasoconstriction worsens after blockade of beta 2 vasodilation in people using cocaine is controversial 36 37 This rarely encountered and unpredictable adverse effect has resulted in some clinicians advocating for an absolute contraindication of all beta blockers including specific non specific and mixed 38 Many clinicians have disregarded this dogma and administer beta blockers for cocaine related chest pain and acute coronary syndrome especially when there is demand ischemia from uncontrolled tachycardia 39 40 41 42 43 Of the 1 744 people in the aforementioned systematic review 29 only 7 adverse events were from putative cases of unopposed alpha stimulation due to propranolol n 3 esmolol n 3 and metoprolol n 1 44 45 46 47 48 Some detractors of beta blockers for cocaine induced chest pain have cited minimal acute mortality and the short half life of the medication making it unnecessary to aggressively treat any associated tachycardia and hypertension 38 49 However the long term effect of cocaine use and development of heart failure with early mortality high morbidity and tremendous demand on hospital utilization should be taken under consideration 50 51 52 Calcium channel blockers edit Calcium channel blockers may also be used to treat hypertension and coronary arterial vasoconstriction 53 but fail to lower tachycardia based on all cocaine related studies 29 Non dihydropyridine calcium channels blockers such as diltiazem and verapamil are preferable as dihydropyridine agents such as nifedipine have much higher risk of reflex tachycardia however clinicians can prevent reflex tachycardia by administering beta blockers some minutes before using the latter class of CCBs See also editCocaine Anonymous Cocaine dependence Crack cocaine Crack lung List of deaths from drug overdose and intoxicationReferences edit Driving While Intoxicated DWI Texas Law SAPUTO Law Retrieved 2021 04 11 Legal Dictionary Law com Law com Legal Dictionary Retrieved 2021 04 11 Glauser Jonathan Queen John R 2007 02 01 An overview of non cardiac cocaine toxicity The Journal of Emergency Medicine 32 2 181 186 doi 10 1016 j jemermed 2006 05 044 ISSN 0736 4679 PMID 17307630 Narvaez Joana C M Jansen Karen Pinheiro Ricardo T Kapczinski Flavio Silva Ricardo A Pechansky Flavio Magalhaes Pedro V 2014 08 01 Psychiatric and substance use comorbidities associated with lifetime crack cocaine use in young adults in the general population Comprehensive Psychiatry 55 6 1369 1376 doi 10 1016 j comppsych 2014 04 021 ISSN 1532 8384 PMID 24933652 Little Karley Y Ramssen Eric Welchko Ryan Volberg Vitaly Roland Courtney J Cassin Bader 2009 08 15 Decreased brain dopamine cell numbers in human cocaine users Psychiatry Research 168 3 173 180 doi 10 1016 j psychres 2008 10 034 ISSN 0165 1781 PMID 19233481 S2CID 27618292 Trimarchi M Bussi M Sinico R A Meroni Pierluigi Specks U 2013 02 01 Cocaine induced midline destructive lesions an autoimmune disease Autoimmunity Reviews 12 4 496 500 doi 10 1016 j autrev 2012 08 009 ISSN 1873 0183 PMID 22940554 Cain Mary A Bornick Patricia Whiteman Valerie 2013 03 01 The maternal fetal and neonatal effects of cocaine exposure in pregnancy Clinical Obstetrics and Gynecology 56 1 124 132 doi 10 1097 GRF 0b013e31827ae167 ISSN 1532 5520 PMID 23314714 Flowers D Clark J F Westney L S 1991 03 01 Cocaine intoxication associated with abruptio placentae Journal of the National Medical Association 83 3 230 232 ISSN 0027 9684 PMC 2627035 PMID 2038082 Zimmerman Janice L 2012 10 01 Cocaine intoxication Critical Care Clinics 28 4 517 526 doi 10 1016 j ccc 2012 07 003 ISSN 1557 8232 PMID 22998988 a b c Overdose Death Rates By National Institute on Drug Abuse NIDA O Leary Michael E Hancox Jules C 2010 Role of voltage gated sodium potassium and calcium channels in the development of cocaine associated cardiac arrhythmias British Journal of Clinical Pharmacology 69 5 427 442 doi 10 1111 j 1365 2125 2010 03629 x ISSN 0306 5251 PMC 2856043 PMID 20573078 Cocaine intoxication MedlinePlus Medical Encyclopedia medlineplus gov Retrieved 2019 10 21 Abuse National Institute on Drug Cocaine www drugabuse gov Retrieved 2019 10 21 Department of Health The cocaine withdrawal syndrome www1 health gov au Archived from the original on 2020 12 03 Retrieved 2019 10 29 a b Jufer R A Wstadik A Walsh S L Levine B S Cone E J 2000 10 01 Elimination of cocaine and metabolites in plasma saliva and urine following repeated oral administration to human volunteers Journal of Analytical Toxicology 24 7 467 477 doi 10 1093 jat 24 7 467 ISSN 0146 4760 PMID 11043648 Brogan Walter C Lange Richard A Kim Anatole S Moliterno David J Hillis L David 1991 08 01 Alleviation of cocaine induced coronary vasoconstriction by nitroglycerin Journal of the American College of Cardiology 22nd Bethesda Conference Congenital heart disease after childhood An edpanding patient population 18 2 581 586 doi 10 1016 0735 1097 91 90617 I ISSN 0735 1097 PMID 1906905 Heesch C M Wilhelm C R Ristich J Adnane J Bontempo F A Wagner W R 2000 06 01 Cocaine activates platelets and increases the formation of circulating platelet containing microaggregates in humans Heart 83 6 688 695 doi 10 1136 heart 83 6 688 ISSN 1468 201X PMC 1760877 PMID 10814631 Hariman Robert J Liu Dong Loeb Henry S McKieman Thomas L Scanlon Patrick J Bauman Jerry L 1996 02 01 Competitive binding between cocaine and lidocaine Journal of the American College of Cardiology 27 2 80 doi 10 1016 S0735 1097 96 80520 1 a b Schwartz Bryan G Rezkalla Shereif Kloner Robert A 2010 12 14 Cardiovascular Effects of Cocaine Circulation 122 24 2558 2569 doi 10 1161 CIRCULATIONAHA 110 940569 PMID 21156654 Williams Mark J Adinoff Bryon 2008 07 01 The role of acetylcholine in cocaine addiction Neuropsychopharmacology 33 8 1779 1797 doi 10 1038 sj npp 1301585 ISSN 0893 133X PMC 2667818 PMID 17928814 Haile Colin N Mahoney James J Newton Thomas F De La Garza Richard 2012 05 01 Pharmacotherapeutics directed at deficiencies associated with cocaine dependence focus on dopamine norepinephrine and glutamate Pharmacology amp Therapeutics 134 2 260 277 doi 10 1016 j pharmthera 2012 01 010 ISSN 1879 016X PMC 3341931 PMID 22327234 Narayanan Sanju Mesangeau Christophe Poupaert Jacques H McCurdy Christopher R 2011 01 01 Sigma receptors and cocaine abuse Current Topics in Medicinal Chemistry 11 9 1128 1150 doi 10 2174 156802611795371323 ISSN 1873 4294 PMID 21050176 Kivell Bronwyn M Ewald Amy W M Prisinzano Thomas E 2014 01 01 Salvinorin A analogs and other k opioid receptor compounds as treatments for cocaine abuse Advances in Pharmacology Vol 69 pp 481 511 doi 10 1016 B978 0 12 420118 7 00012 3 ISBN 9780124201187 ISSN 1557 8925 PMC 4128345 PMID 24484985 Gresnigt Femke M J Gubbels Nanda P Riezebos Robert K 2021 01 01 The current practice for cocaine associated chest pain in the Netherlands Toxicology Reports 8 23 27 doi 10 1016 j toxrep 2020 12 011 ISSN 2214 7500 PMC 7770504 PMID 33384944 a b Anderson Jeffrey L Adams Cynthia D Antman Elliott M Bridges Charles R Califf Robert M Casey Donald E Chavey William E Fesmire Francis M Hochman Judith S 2013 06 11 2012 ACCF AHA focused update incorporated into the ACCF AHA 2007 guidelines for the management of patients with unstable angina non ST elevation myocardial infarction a report of the American College of Cardiology Foundation American Heart Association Task Force on Practice Guidelines Journal of the American College of Cardiology 61 23 e179 347 doi 10 1016 j jacc 2013 01 014 ISSN 1558 3597 PMID 23639841 Smith Caroline J Johnson John M 2016 04 01 to hyperthermia pdf Responses to hyperthermia Optimizing heat dissipation by convection and evaporation Neural control of skin blood flow and sweating in humans PDF Autonomic Neuroscience Basic amp Clinical 196 25 36 doi 10 1016 j autneu 2016 01 002 ISSN 1872 7484 PMID 26830064 S2CID 3790152 a href Template Cite journal html title Template Cite 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in the acute management of cocaine associated chest pain The American Journal of Emergency Medicine 31 3 613 616 doi 10 1016 j ajem 2012 09 027 ISSN 1532 8171 PMID 23122421 Fanari Zaher Kennedy Kevin K Lim Michael J Laddu Abhay A Stolker Joshua M 2014 06 01 Comparison of in hospital outcomes for beta blocker use versus non beta blocker use in patients presenting with cocaine associated chest pain The American Journal of Cardiology 113 11 1802 1806 doi 10 1016 j amjcard 2014 03 010 ISSN 1879 1913 PMID 24742472 Gupta Navdeep Washam Jeffrey B Mountantonakis Stavros E Li Shuang Roe Matthew T de Lemos James A Arora Rohit 2014 03 01 Characteristics management and outcomes of cocaine positive patients with acute coronary syndrome from the National Cardiovascular Data Registry The American Journal of Cardiology 113 5 749 756 doi 10 1016 j amjcard 2013 11 023 ISSN 1879 1913 PMID 24388623 Ramoska Edward Sacchetti Alfred D 1985 11 01 Propranolol induced hypertension in treatment of cocaine intoxication Annals of Emergency Medicine 14 11 1112 1113 doi 10 1016 s0196 0644 85 80934 3 ISSN 0196 0644 PMID 4051280 Fareed Fareed N Chan Gar Hoffman Robert S 2007 12 01 Death temporally related to the use of a Beta adrenergic receptor antagonist in cocaine associated myocardial infarction Journal of Medical Toxicology 3 4 169 172 doi 10 1007 bf03160934 ISSN 1556 9039 PMC 3550023 PMID 18072171 Sand I Charles Brody Steven L Wrenn Keith D Slovis Corey M 1991 03 01 Experience with esmolol for the treatment of cocaine associated cardiovascular complications The American Journal of Emergency Medicine 9 2 161 163 doi 10 1016 0735 6757 91 90182 j ISSN 0735 6757 PMID 1671639 Lange Richard A Cigarroa Ricardo G Flores Eduardo D McBride Wade Kim Anatole S Wells Peter J Bedotto John B Danziger Robert S Hillis L David 1990 06 15 Potentiation of Cocaine Induced Coronary Vasoconstriction by Beta Adrenergic Blockade Annals of Internal Medicine 112 12 897 903 doi 10 7326 0003 4819 112 12 897 ISSN 0003 4819 PMID 1971166 Izquierdo Gomez Maria Manuela Dominguez Rodriguez Alberto Galvez Rodriguez Manuel Marrero Rodriguez Francisco 2009 04 01 Reflections on beta adrenergic receptor blockers and cocaine use A case in point Revista Espanola de Cardiologia 62 4 455 456 doi 10 1016 s1885 5857 09 71677 9 ISSN 1579 2242 PMID 19401135 S2CID 43245025 Hollander Judd December 28 2011 Update on Cocaine Myocardial Ischemia Archived from the original on January 11 2017 Casartelli Alessandro Dacome Lisa Tessari Michela Pascali Jennifer Bortolotti Federica Trevisan Maria Teresa Bosco Oliviero Cristofori Patrizia Tagliaro Franco 2014 01 01 Cocaine associated increase of atrial natriuretic peptides an early predictor of cardiac complications in cocaine users Heart Asia 6 1 100 107 doi 10 1136 heartasia 2013 010482 ISSN 1759 1104 PMC 4832714 PMID 27326180 Liaudet Lucas Calderari Belinda Pacher Pal 2014 11 01 Pathophysiological mechanisms of catecholamine and cocaine mediated cardiotoxicity PDF Heart Failure Reviews 19 6 815 824 doi 10 1007 s10741 014 9418 y ISSN 1573 7322 PMID 24398587 S2CID 22420796 Walsh David W McVey Molly C Gass Abigal Zhang Jingwen Mauldin Patrick D Rockey Don C 2016 06 24 Identification of high resource utilizing patients on internal medicine hospital services Journal of Investigative Medicine 64 7 jim 2016 000118 doi 10 1136 jim 2016 000118 ISSN 1708 8267 PMID 27342424 S2CID 4547095 Negus Brian H Willard John E Hillis L David Glamann D Brent Landau Charles Snyder Richard W Lange Richard A 1994 03 01 Alleviation of cocaine induced coronary vasoconstriction with intravenous verapamil The American Journal of Cardiology 73 7 510 513 doi 10 1016 0002 9149 94 90684 x ISSN 0002 9149 PMID 8141094 External links edit Retrieved from https en wikipedia org w index php title Cocaine intoxication amp oldid 1190810254, wikipedia, wiki, book, books, library,

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