www.medicalppt.blogspot.com for more lectures ANESTHETICS Dr.Shadi- Sarahroodi Pharm.D & PhD PUBLISHED BY www.medicalppt.blogspot.com www.medicalppt.blogspot.com for more lectures

www.medicalppt.blogspot.com for more lectures General Anesthetics Signs and Stages of Anesthesia (Somewhat related to the response from Diethyl Ether): Stage I—Analgesia Stage II—Excitement Stage III—Surgical anesthesia Stage IV—Medullary paralysis www.medicalppt.blogspot.com for more lectures

Patient Factors in Selection of Anesthesia Liver and kidney Respiratory system Cardiovascular system Nervous system Pregnancy www.medicalppt.blogspot.com for more lectures

Summary of anesthetics www.medicalppt.blogspot.com for more lectures

www.medicalppt.blogspot.com for more lectures MOA modulating ligand-gated ion channels activating GABA channels (hyperpolarizing cells) blocking excitatory receptors (like NMDA-glutamate receptors). www.medicalppt.blogspot.com for more lectures

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Inhalation Anesthetics Modern inhalation anesthetics are nonflammable, nonexplosive nitrous oxide halothane, desflurane, enflurane, isoflurane, sevoflurane, and methoxyflurane (easily vaporized liquid halo-genated hydrocarbons) www.medicalppt.blogspot.com for more lectures

Inhalation Anesthetics ether [which is highly flammable] chloroform [which has toxic properties] are no longer used as general anesthetics www.medicalppt.blogspot.com for more lectures

www.medicalppt.blogspot.com for more lectures important concepts minimal alveolar concentration (MAC) blood:gas partition coefficient www.medicalppt.blogspot.com for more lectures

MAC(minimal alveolar concentration) concentration of anesthetic agent that renders 50% of patients immobile during surgery this is measured as the percentage of the agent in inspired air MAC is a direct measure of the potency of a drug influenced by the age and physiologic state of the patient and by the presence of other pharmacologic agents www.medicalppt.blogspot.com for more lectures

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blood:gas partition coefficient solubility of the agent in blood and is a measure of how quickly the inhalation anesthetic will equilibrate between lungs and blood and ultimately the target site in the brain low blood:gas coefficient (e.g., desflurane) equilibrate quickly lower the blood:gas coefficient faster the induction and the faster the recovery www.medicalppt.blogspot.com for more lectures

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speed of induction of anesthetic effects Solubility Inspired gas partial pressure-high partial pressure in the lungs rapid achievement of anesthetic levels in the blood Ventilation rate Pulmonary blood flow—high pulmonary blood flows onset of anesthesia is reduced. www.medicalppt.blogspot.com for more lectures

Alveolar Blood Concentration www.medicalppt.blogspot.com for more lectures

Blood: Gas Partition Coefficient Minimum Alveolar Concentration (%)* Anesthetic Blood: Gas Partition Coefficient Minimum Alveolar Concentration (%)* Metabolism Nitrous oxide 0.47 >100 None Desflurane 0.42 6.5 <0.1% Sevoflurane 0.69 2.0 2-5% (fluoride) Isoflurane 1.40 1.4 <2% Enflurane 1.80 1.7 8% Halothane 2.30 0.75 >40% Methoxyflurane 12 0.16 >70% (fluoride) www.medicalppt.blogspot.com for more lectures

www.medicalppt.blogspot.com for more lectures elimination redistribution of the drug from the brain to the blood and elimination of the drug through the lungs. www.medicalppt.blogspot.com for more lectures

www.medicalppt.blogspot.com for more lectures desflurane, sevoflurane low blood solubility shorter recovery www.medicalppt.blogspot.com for more lectures

effects of inhaled anesthetics CNS effects: decrease brain metabolic rate. reduce vascular resistance increase cerebral blood flow. High concentrations of enflurane may cause spike-and-wave activity and muscle twitching, nitrous oxide has low anesthetic potency (ie, a high MAC), it exerts marked analgesic and amnestic actions. www.medicalppt.blogspot.com for more lectures

effects of inhaled anesthetics Cardiovascular effects decrease arterial blood pressure moderately Enflurane and halothane: myocardial depressants isoflurane, desflurane, and sevoflurane: peripheral vasodilation Nitrous oxide: less likely to lower blood pressure www.medicalppt.blogspot.com for more lectures

effects of inhaled anesthetics Respiratory effects: dose-dependent decrease in tidal volume and minute ventilation increase in arterial CO2 tension Bronchodilation except desflurane(pulmonary irritant). www.medicalppt.blogspot.com for more lectures

www.medicalppt.blogspot.com for more lectures Toxicities Halothane: Postoperative hepatitis (rarely) (formation of reactive metabolites that cause direct toxicity or initiate immune-mediated responses.) Methoxyflurane, enflurane and sevoflurane: Fluoride release renal insuffi­ciency nitrous oxide: megaloblastic anemia anesthetics + neuromuscular blockers (Susceptible patients): malignant hyperthermia mutations in the gene loci corresponding to the ryanodine receptor (RyRl) Dantrolene www.medicalppt.blogspot.com for more lectures

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Intravenous Anesthetics Barbiturates: Thiopental and methohexital Benzodiazepines: Midazolam ketamine Opioids: Morphine and fentanyl propofol etomidate www.medicalppt.blogspot.com for more lectures

www.medicalppt.blogspot.com for more lectures Barbiturates high lipid solubility rapid entry into the brain surgical anesthesia in one circulation time (< 1 min). short surgical procedures hepatic metabolism respiratory and circulatory depressants depress cerebral blood flow decrease intracranial pressure. www.medicalppt.blogspot.com for more lectures

Redistribution of Thiopental www.medicalppt.blogspot.com for more lectures

www.medicalppt.blogspot.com for more lectures Benzodiazepines The onset of its CNS effects is slower than that of thiopental flumazenil, accelerates recovery from midazolam and other benzodiazcpines. www.medicalppt.blogspot.com for more lectures

www.medicalppt.blogspot.com for more lectures ketamine dissociative anesthesia patient remains conscious marked catatonia, analgesia, and amnesia. phencyclidine (PCP) cardiovascular stimulant increase in intracranial pressure. disorientation, excitation, and hallucinations occur during recovery www.medicalppt.blogspot.com for more lectures

www.medicalppt.blogspot.com for more lectures opioids Morphine and fentanyl Intravenous opioids :chest wall rigidity Respiratory depression Neuroleptanesthesia (state of analgesia and amnesia): fentanyl is used with droperidol and nitrous oxide. Alfentanil and remifentanil (NEW) www.medicalppt.blogspot.com for more lectures

www.medicalppt.blogspot.com for more lectures propofol Rapid as the intravenous barbiturates antiemetic prolonged sedation marked hypotension during induction of anesthesia Total body clearance is greater than hepatic blood flow, suggesting elimination includes other mechanisms in addition to metabolism by liver enzymes. www.medicalppt.blogspot.com for more lectures

www.medicalppt.blogspot.com for more lectures etomidate rapid induction minimal change in cardiac function minimal change in respiratory rate not analgesic cause pain and myoclonus on injection and nausea postoperatively Prolonged administration may cause adrenal suppression. www.medicalppt.blogspot.com for more lectures

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