* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download PRE-ANESTHETIC AGENTS
Effects of long-term benzodiazepine use wikipedia , lookup
Nicotinic agonist wikipedia , lookup
Atypical antipsychotic wikipedia , lookup
Environmental impact of pharmaceuticals and personal care products wikipedia , lookup
Pharmaceutical industry wikipedia , lookup
Pharmacogenomics wikipedia , lookup
Prescription costs wikipedia , lookup
Non-specific effect of vaccines wikipedia , lookup
Norepinephrine wikipedia , lookup
Pharmacognosy wikipedia , lookup
Neuropharmacology wikipedia , lookup
Drug interaction wikipedia , lookup
History of general anesthesia wikipedia , lookup
CHAPTERS 1 & 3 TERMINOLOGY OF ANESTHESIA Anesthesia may be defined as “loss of sensation”, but this only describes one of its effects. It is used daily in most veterinary practices to provide sedation, tranquilization, immobility, muscle relaxation, unconsciousness, and pain control for a diverse range of indications including surgery, dentistry, grooming, diagnostic imaging, wound care, and capture/transport of wild animals TERMINOLOGY OF ANESTHESIA Sedation refers to drug-induced CNS depression and drowsiness that vary in intensity from light to deep. Patient can be aroused by noxious stimuli Tranquilizaion is a drug-induced state of calm in which the patient is reluctant to move and is aware of but unconcerned about its surroundings. Often used interchangeable with sedation TERMINOLOGY OF ANESTHESIA Hypnosis is a sleeplike state from which the patient can be aroused with sufficient stimulation. Narcosis refers to a drug-induced sleep from which the patient is not easily aroused and that is most often associated with the administration of narcotics. TERMINOLOGY OF ANESTHESIA General anesthesia may be defined as a reversible state of unconsciousness, immobility, muscle relaxation, and loss of sensation throughout the entire body produced by administration of one or more anesthetic agents. Surgical anesthesia is a specific stage of general anesthesia in which there is sufficient degree of analgesia(loss of sensitivity to pain) and muscle relaxation to allow surgery to be performed without patient pain or movement. Fully conscious Awake Light sedation Moderate sedation Sedation Deep sedation Border between Consciousness and unconsciousness Hypnosis Narcosis Light surgical anesthesia Unconscious Moderate surgical anesthesia Deep surgical anesthesia Anesthetic overdose General anesthesia TERMINOLOGY OF ANESTHESIA Local anesthesia refers to loss of sensation in a small area of the body produced by administration of a local anesthetic agent in proximity to the area of interest. Topical anesthesia is the loss of sensation of a localized area produced by administration of a local anesthetic directly to a body surface or to a wound. Regional anesthesia refers to a loss of sensation in a limited area (larger area than with local anesthetics)of the body produced by administration of local anesthetic agent in proximity to sensory nerves. TERMINOLOGY OF ANESTHESIA Balanced anesthesia refers to the practice of administering multiple drugs concurrently in smaller quantities than would be required if each were given alone. Maximizes benefits of each drug Minimizes adverse effects Allows anesthetist to produce CNS depression, immobilization, and pain relief that is appropriate for the patient and the procedure. PRE-ANESTHETIC AGENTS & ADJUNCTS ANESTHETIC AGENT: any drug used to induce a loss of sensation with or without unconsciousness. ADJUNCTS: a drug that is not a true anesthetic but that is used during anesthesia to produce other desired effects such as sedation, muscle relaxation, analgesia, reversal, neuromuscular blockade, or parasympathetic blockade Ex: muscle relaxants, neuromuscular blockers, reversal agents PRE-ANESTHETIC AGENTS & ADJUNCTS CHOOSING THE APPROPRIATE AGENTS AVAILABILITY: most clinics will not have the option of choosing from every drug on the market. FAMILIARITY: drugs are often chosen based on the veterinarian’s familiarity PROCEDURE: drugs that are appropriate for one procedure may not be appropriate for another Some drugs are short-acting and would not be appropriate for long surgeries Some drugs may be appropriate for a spay but not a c-section PRE-ANESTHETIC AGENTS COST: It is ok to use a cheaper anesthetic as long as it is just as safe as the more expensive one. TIME TO ONSET OF ACTION: in emergency situations, fast-acting drugs may be necessary The anesthetic protocol, dose, and route are chosen by the veterinarian Many clinics have a routine protocol, but is important to consider all aspects of the patient’s minimum database PRE-ANESTHETIC AGENTS Drugs that are administered to an animal prior to general anesthesia May be a single drug or combination of drugs Do not mix two or more drugs unless you have reliable evidence that it is safe to do so. REASONS TO ADMINISTER PRE-ANESTHETIC AGENTS To calm or sedate an excited or fractious animal PRE-ANESTHETIC AGENTS REASONS TO ADMINISTER PRE-ANESTHETIC AGENTS To counteract the effects of other injectable or inhalant anesthetics Ex: some anesthetic agents cause hypersalivation, we can use atropine or glycopyrrolate to counteract this effect. To reduce the amount of general anesthetic agents required If the patient is already sedated, it takes less drug to bring them into the unconscious state. This is a safer practice than using large amounts of drugs Using smaller amount of both pre-anesthetics and anesthetic agents in combination is known as balanced anesthesia. PRE-ANESTHETIC AGENTS REASONS TO GIVE PRE-ANESTHETIC AGENTS To reduce pain & discomfort: some pre-anesthetic agents last long enough to be effective post-operatively CLASSES OF PREANESTHETIC AGENTS ANTICHOLINERGICS TRANQUILIZERS and SEDATIVES Phenothiazines Benzodiazepines Alpha-2 agonists OPIODS Agonists Partial agonists Agonist-antagonists antagonists aka parasympatholytics or sympathomimetics ANESTHETIC & SURGICAL TECHNIQUES MAY STIMULATE THE VAGUS NERVE The vagus nerve provides parasympathetic innervation to numerous target organ such as: Heart Lungs GI tract (viscerovagal reflex) Secretory glands Iris(oculovagal reflex) When the vagus nerve is stimulated by endotracheal intubation, GI traction, or manipulation of the eye, what effect does it have on the organs above? ANTICHOLINERGICS Acetylcholine is the primary neurotransmitter in the PNS responsible for parasympathetic effects (cholinergic effects) Ach Ach ANTICHOLINERGICS These drugs are given to counteract the effects caused by vagal stimulation EXAMPLES: Atropine, Glycopyrrolate ANTICHOLINERGICS Ach Ach ANTICHOLINERGICS ONLY AFFECT MUSCARINIC RECEPTORS ON THE TARGET ORGANS WHAT EFFECT DO ANTICHOLINERGICS HAVE ON THE VARIOUS BODY SYSTEMS? EFFECTS: ADVERSE EFFECTS: WHAT EFFECT DO ANTICHOLINERGICS HAVE ON THE VARIOUS BODY SYSTEMS? EFFECTS: ADVERSE EFFECTS: WHAT EFFECT DO ANTICHOLINERGICS HAVE ON THE VARIOUS BODY SYSTEMS? EFFECTS: ADVERSE EFFECTS: WHAT EFFECT DO ANTICHOLINERGICS HAVE ON THE VARIOUS BODY SYSTEMS? EFFECTS: ADVERSE EFFECTS: WHAT EFFECT DO ANTICHOLINERGICS HAVE ON THE VARIOUS BODY SYSTEMS? WHAT EFFECT DO ANTICHOLINERGICS HAVE ON THE VARIOUS BODY SYSTEMS? WHAT EFFECT DO ANTICHOLINERGICS HAVE ON THE VARIOUS BODY SYSTEMS? ATROPINE vs. GLYCOPYRROLATE: A COMPARISON Both drugs can be given SQ or IM (preanesthetic purposes) or IV (emergency treatment of bradycardia/cardiac arrest) Atropine is generally preferred for emergencies due to the quicker onset of action Onset of Action/Duration of Action Atropine IM: 5min, peak @ 10-20min, duration 60-90min Atropine IV: 1 min, peak @ 3-4 min, duration several minutes Glycopyrrolate IM: similar onset time to atropine, peak @ 30-45min, duration 2-3 hrs ATROPINE vs GLYCOPYRROLATE: A COMPARISON Glycopyrrolate causes less tachycardia Glycopyrrolate is better at decreasing salivation TOXICITY With overdoses drowsiness, excitement, dry mouth, ataxia, muscle tremors, dilated pupils, hyperthermia, and tachycardia may be seen REVERSED with PHYSOSTIGMINE Reversal is uncommon ANTICHOLINERGICS ARE NOT CONTROLLED PHENOTHIAZINES BENZODIAZEPINES ALPHA-2 AGONISTS GENERAL INFO ON TRANQUILIZERS/SEDATIVES Tranquilizers reduce anxiety, but may not decrease awareness Sedatives reduce mental activity and awareness and induce sleepiness These terms are often used interchangeably Patients that have received a tranquilizer/sedative may still be easily aroused and could potentially get aggressive or injure themselves http://www.youtube.com/watch?v=AkaGW wTHD5g ACEPROMAZINE CHLORPROMAZINE GENERAL INFO on PHENOTHIAZINES These drugs have no analgesic effects These drugs are not controlled These drugs do not have a reversal agent Examples: Acepromazine, Chlorpromazine WHAT ARE THE EFFECTS THAT PHENOTHIAZINES HAVE ON THE VARIOUS BODY SYSTEMS? EFFECTS: ADVERSE EFFECTS: EFFECTS: ADVERSE EFFECTS: WHAT ARE THE EFFECTS THAT PHENOTHIAZINES HAVE ON THE VARIOUS BODY SYSTEMS? EFFECTS: ADVERSE EFFECTS: EFFECTS: ADVERSE EFFECTS: OTHER EFFECTS & ADVERSE EFFECTS of PHENOTHIAZINES: ANTIHISTAMINE EFFECT PENILE PROLAPSE DECREASED PCV Onset of action/duration of action 15min after IM injection, peak@ 30-60 min Duration: 4-8 hrs( could be up to 48hrs) THINGS TO CONSIDER WITH PHENOTHIAZINES Sedative effects can be overridden if patient is stimulated to a sufficient degree Use a max of 3mg in dogs and 1mg in cats Boxers and giant breed dogs by have increased sensitivity Terriers and cats are more resistant to its effects Chlorpromazine is used in veterinary medicine as an antiemetic, but not as an anesthetic adjunct. DIAZEPAM MIDAZOLAM ZOLAZEPAM GENERAL INFO ON BENZODIAZEPINES Benzodiazepines depress the CNS by increasing activity of endogenous gamma-aminobutyric acid (GABA), an inhibitory neurotransmitter in the brain. These drugs are controlled These drugs can be reversed Flumazenil is the benzodiazepine antagonist. It is rarely used due to the very low incidence of adverse effects and the high cost. These drugs provide no analgesia These drugs have unreliable sedative effects & could induce dysphoria, excitement, or ataxia in young, healthy animals, esp. when given alone EXAMPLES: DIAZEPAM, MIDAZOLAM, ZOLAZEPAM WHATEFFECTS DO BENZODIAZEPINES HAVE ON THE VARIOUS SYSTEMS OF THE BODY? EFFECTS: EFFECTS: ADVERSE EFFECTS: WHAT EFFECTS DO BENZODIAZEPINES HAVE ON THE VARIOUS SYSTEMS OF THE BODY? EFFECTS: EFFECTS: THINGS TO CONSIDER ABOUT BENZODIAZEPINES Diazepam is not water-soluble and cannot be mixed with water-soluble agents except ketamine Midazolam and zolazepam are water-soluble and can be mixed with other agents Diazepam is is painful and poorly absorbed when administered intramuscularly Midazolam is more readily absorbed via IM and SQ routes Zolazepam is available only mixed with tiletamine to produce the combination product Telazol. Diazepam is very soluble in plastic and over time is absorbed by syringes, IV bags, and IV tubing THINGS TO CONSIDER ABOUT BENZODIAZEPINES Diazepam and midazolam are light-sensitive Onset of action/duration of action Less than or equal to 15 min after IM injection Duration: 1-4 hours XYLAZINE DEXMEDETOMIDINE GENERAL INFO ON ALPHA-2 AGONISTS These drugs are not controlled These drugs can be reversed These drugs do provide analgesic effects These drugs act on alpha-2 adrenergic receptors in the CNS and PNS causing a decrease in the neurotransmitter norepinephrine WHAT EFFECTS DO ALPHA-2 AGONISTS HAVE ON THE VARIOUS BODY SYSTEMS? EFFECTS: ADVERSE EFFECTS: EFFECTS: ADVERSE EFFECTS: WHAT EFFECTS DO ALPHA-2 AGONISTS HAVE ON THE VARIOUS BODY SYSTEMS? EFFECTS: ADVERSE EFFECTS: EFFECTS: ADVERSE EFFECTS: OTHER EFFECTS OF ALPHA-2 AGONISTS Hyperglycemia: alpha-2 agonists reduce the secretion of insulin by the pancreas Hypothermia: alpha-2 agonists decrease thermoregulation and shivering Premature parturition Can be absorbed through the skin and abrasions – as little as 0.1ml of dexmedetomidine can cause hypotension and sedation in humans. THINGS TO CONSIDER ABOUT ALPHA-2 AGONISTS Xylazine is largely reserved for use in large animals Cattle are sensitive and only require 1/10 of the dose used in horses Dexmedetomidine is largely used in small animals and is more potent than xylazine Both drugs are commonly mixed with other drugs such as ketamine, and an opioid such as butorphanol or morphine Animals can undergo minor and major surgical procedures with these combinations THINGS TO CONSIDER ABOUT ALPHA-2 AGONISTS These drugs can be reversed with Yohimbine (reverses xylazine) and Atipamezole (reverses dexmedetomidine) Atipamezole is sold in combination with dexmedetomidine and is given in a 1:1 ratio It is not recommended to treat bradycardia with anticholinergics, but rather the appropriate reversal agent Reversal takes only 5-10min AGONISTS PARTIAL AGONISTS AGONIST-ANTAGONISTS ANTAGONISTS GENERAL INFO ON OPIOIDS MODE OF ACTION 3 Primary receptor in the brain and spinal cord Mu, kappa, delta SEDATION ONSET OF ACTION:15min after IM administration DURATION: 1-3 hrs for most (buprenorphine 6-8 hrs) ANALGESIA *excellent somatic and visceral analgesia WHAT EFFECTS DO OPIOIDS HAVE ON THE VARIOUS BODY SYSTEMS? EFFECTS: ADVERSE EFFECTS: EFFECTS: ADVERSE EFFECTS: WHAT EFFECT DO OPIOIDS HAVE ON THE VARIOUS BODY SYSTEMS? EFFECTS: ADVERSE EFFECTS: EFFECTS: ADVERSE EFFECTS: OTHER EFFECTS OF OPIOIDS Allergic reactions: morphine for example may cause facial swelling and hypotension after rapid Iv administration Changes in body temperature: there is a resetting of the thermoregulatory center in the brain resulting in the dog panting and possibly lowering the body temperature Cats may have an elevated body temperature for unknown reasons. Miosis in dogs; mydriasis in cats GENERAL INFO on OPIOIDS These are controlled substances with human abuse potential Opioids used in combination with a tranquilizer achieve a state of profound sedation and analgesia termed neuroleptanalgesia These drugs can be reversed with the opioid antagonist NALOXONE (works within 2 min IV and 5 min IM) Agonist-antagonists such as butorphanol can also be used to reverse the effects of pure agonists These will be discussed further and in more detail in week 5- 6