managing postoperative complications related to anesthesia · pharmacy, anesthesia, and...
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Managing Postoperative Complications Related to Anesthesia
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Please be advised that this activity is being audio recorded for archival purposes and, in some cases, for repurposing of the content for enduring materials.
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Managing Postoperative Complications Related to Anesthesia
A G E N D A
6:15 a.m. – 6:45 a.m. Registration and Breakfast 6:45 a.m. – 6:50 a.m. Welcome – Introductory Remarks
Tricia Meyer, Pharm.D., M.S., FASHP 6:50 a.m. – 7:40 a.m. Managing Postoperative Complications Related to
Anesthesia 7:40 a.m. – 7:45 a.m. Questions & Answers F A C U L T Y
Tricia Meyer, Pharm.D., M.S., FASHP Senior Director – Department of Pharmacy Scott & White Healthcare Temple, Texas Associate Professor Department of Anesthesiology The Texas A&M Health Science Center - College of Medicine Temple, Texas Associate Professor Irma Lerma Rangel College of Pharmacy Texas A&M Health Science Center Kingsville, Texas
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Managing Postoperative Complications Related to Anesthesia
D I S C L O S U R E S T A T E M E N T
In accordance with the Accreditation Council for Continuing Medical Education’s Standards for Commercial Support and the Accreditation Council for Pharmacy Education’s Guidelines for Standards for Commercial Support, ASHP Advantage requires that all individuals involved in the development of activity content disclose their relevant financial relationships. A person has a relevant financial relationship if the individual or his or her spouse/partner has a financial relationship (e.g., employee, consultant, research grant recipient, speakers bureau, or stockholder) in any amount occurring in the last 12 months with a commercial interest whose products or services may be discussed in the educational activity content over which the individual has control. The existence of these relationships is provided for the information of participants and should not be assumed to have an adverse impact on presentations. All faculty and planners for ASHP Advantage education activities are qualified and selected by ASHP Advantage and required to disclose any relevant financial relationships with commercial interests. ASHP Advantage identifies and resolves conflicts of interest prior to an individual’s participation in development of content for an educational activity. The faculty and planners report the following relationships: Tricia Meyer, Pharm.D., M.S., FASHP
Dr. Meyer declares that Scott and White is the recipient of a multisite grant from Merck. Peggy S. Bickham, Pharm.D.
Dr. Bickham declares that she has no relationships pertinent to this activity. Erika Thomas, M.B.A., B.S.Pharm.
Ms. Thomas declares that she has no relationships pertinent to this activity. Kristi N. Hofer, Pharm.D.
Dr. Hofer declares that she has no relationships pertinent to this activity. Susan R. Dombrowski, M.S., B.S.Pharm.
Ms. Dombrowski declares that she has no relationships pertinent to this activity. ASHP staff has no relevant financial relationships to disclose.
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Managing Postoperative Complications Related to Anesthesia
A C T I V I T Y O V E R V I E W
The Centers for Disease Control and Prevention estimates that there are 48 million inpatient surgical procedures each year in the U.S. Over the last 25 years, anesthesia has become significantly safer resulting in a dramatic decrease in anesthesia-related mortality rates. The American Society of Anesthesiologists estimates that an individual is approximately 40 times more likely to be struck by lightning than he or she is to die from anesthesia-related complications. However, anesthesia and anesthetic drugs can cause adverse events in some surgical patients. This symposium will focus on selected postoperative complications related to anesthesia drugs. Whether anesthetic drugs are administered in the hospital setting or in an ambulatory surgery center, pharmacists should be aware of the risks in order to assist in managing anesthesia drug-related complications. This symposium will highlight recommendations for the management of common complications of anesthesia, such as postoperative nausea and vomiting, neuromuscular residual paralysis, and other adverse events, emphasizing the important role of pharmacists in perioperative patient care. A C T I V I T Y O B J E C T I V E S
At the conclusion of this application-based educational activity, participants should be able to
Describe common anesthesia-related complications that occur in the early postoperative phase.
Discuss pharmacologic strategies for managing postoperative complications related to anesthesia drugs.
Apply clinical evidence and emerging therapy for the management of a postoperative patient with complications related to anesthesia drugs.
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Managing Postoperative Complications Related to Anesthesia
C O N T I N U I N G E D U C A T I O N A C C R E D I T A T I O N
The American Society of Health-System Pharmacists is accredited by the Accreditation Council for Pharmacy Education as a provider of continuing pharmacy education. This activity provides 1.0 hour (0.1 CEU) of continuing pharmacy education credit (ACPE activity #0204-0000-12-439-L01-P).
Attendees must complete a Continuing Pharmacy Education Request online and may immediately print their official statements of continuing pharmacy education credit at the ASHP CE Center at http://ce.ashp.org following the activity. Complete instructions for receiving your statement of continuing pharmacy education online are found at the front of the CE in the Mornings handout booklet. Be sure to record the SESSION CODE beginning with “A” announced during the activity.
Your educational opportunities extend beyond today’s symposium…
A live webinar to be conducted February 28, 2013, where Tricia Meyer, Pharm.D., M.S., FASHP will explore issues raised by participant questions in today’s symposium (1 hour of CPE). E-Newsletters featuring tips for incorporating information from this symposium into practice, as well as updates on emerging information. Web-based activity based on today’s live symposium (1 hour of CPE, but please note that individuals who claim CPE credit for the live symposium are ineligible to claim credit for the web-based activity).
For more information and to sign up to receive e-mail updates, visit
www.cemornings.com
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Managing Postoperative Complications Related to Anesthesia
Tricia A. Meyer, M.S., Pharm.D., FASHP Senior Director – Department of Pharmacy Scott & White Healthcare Temple, Texas Associate Professor Department of Anesthesiology The Texas A&M Health Science Center - College of Medicine Temple, Texas Associate Professor Irma Lerma Rangel College of Pharmacy Texas A&M Health Science Center Kingsville, Texas Tricia A. Meyer, M.S., Pharm.D., FASHP, is Senior Director – Department of Pharmacy at Scott and White Healthcare in Temple, Texas. Dr. Meyer is also Associate Professor of Anesthesiology for the Department of Anesthesiology at the Texas A&M University College of Medicine at the Temple campus and Adjunct Associate Professor of Pharmacy Practice at the Texas A&M Irma Lerma Rangel College of Pharmacy. Dr. Meyer earned her Bachelor of Science degree in pharmacy with honors at the University of Texas in Austin, Texas, Master of Science degree from Texas State University in San Marcos, Texas, and Doctor of Pharmacy degree from Shenandoah University in Winchester, Virginia. Dr. Meyer has published and presented extensively on the topics of perioperative pharmacy, anesthesia, and post-operative nausea, and vomiting. She is a member of the American Society of Health-System Pharmacists (ASHP) and was recognized as a fellow of ASHP in 2001. She is also a member of the Texas Society of Health-System Pharmacists and the Anesthesia Patient Safety Foundation.
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Managing Postoperative Complications Related To Anesthesia
Tricia Meyer, Pharm.D., M.S., FASHPSenior Director, Department of PharmacyScott & White Healthcare, Temple, Texas
Associate Professor , Department of AnesthesiologyThe Texas A&M Health Science Center ‐ College of Medicine
Temple, Texas
Learning Objectives
• Describe common anesthesia-related complications that occur in the early postoperative phase.
• Discuss pharmacologic strategies for managing postoperative complications related to anesthesia drugs.
• Apply clinical evidence and emerging therapy for the management of a postoperative patient with complications related to anesthesia drugs.
Surgical Stats
• 46 million inpatient procedures in 2006
• 53 million outpatient surgical and non‐surgical procedures for ambulatory surgery visits in U.S.
• 24 million surgeries in U.S. involve general anesthesia
• 6% postoperative complication for non‐cardiac surgeries in U.S.
• >30% postoperative complications for high risk surgeries in U.S.
Cullen. 2006 Ambulatory Surgery in the U.S. National Health Statistics Report. 2009.;Kassin et al.JACS. 2012;215(3):322-330; Bratzler.CID.2006:43;322-30; National Hospital Discharge Survey: 2006. summary.
National Center for Health Statistics. Vital Health Stat 13 (168).2010.
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Types of Postoperative Complications
• Complications common to any procedure– Major and minor complications
• Complications common to specific procedurep– Major and minor complications
• Anesthesia related complications– Major and minor complications
Complications can be immediate, early in postoperative period or delayed
Postoperative Surgical Complications
• Wound complications– dehiscence, infection, hematoma, bleeding
• Cardiovascular– hypertension, arrhythmias, hemorrhage, shock, MI, DVT
• Renal– urinary retention, acute renal failure
• Hepatic• Gastrointestinal
– ileus
• Cerebral– Seizure, stroke
• Nerve injury• Pulmonary
Postoperative Anesthesia Complications
• Bronchospasm
• Laryngospasm
• Airway obstruction
• Delayed emergence
• Aspiration of gastric contents
• Residual paralysis
• Cognitive dysfunction
• Vision loss or blindness
• Drug‐induced respiratory depression
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Other Postoperative Complications
• Pain
• Shivering
• Delirium/Agitation
• Nausea, vomiting and retching
• Sore throat
• Fever
• General‐headache, dizziness, drowsiness
Agents Used in General Anesthesia
• Induction agents (e.g., propofol)
• Analgesics (e.g., fentanyl, sufentanil )
• Neuromuscular Blocking Agents (e.g., rocuronium, vecuronium, cisatracurium, pancuronium)
• Inhalational Agents (e.g., desflurane, sevoflurane, isoflurane)
• Antagonism of non‐depolarizing NMBA* (e.g., neostigmine, edrophonium, pyridostigmine)
• Antiemetics (e.g., ondansetron, dexamethasone, droperidol, promethazine, aprepitant)
*MNBA is neuromuscular blocking agent
Surgical Case for the Day
• M.S. is a 81 year‐old female
• Scheduled for inpatient surgery colon resection (open abdominal), scheduled for 4 hrs. OR time
• Wt. = 98 Kg, Ht. = 5’4”
• ASA Physical Class = 2/5
• Allergies: penicillin cephalosporin• Allergies: penicillin, cephalosporin
• PMH: PONV, motion sickness on last cruise, asthma, non‐smoker
• PSH: Mastectomy; pt. stated “difficult to wake up”
• General anesthesia: propofol, desflurane; pancuronium, fentanyl, antiemetics‐TBD
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Neuromuscular Blocking Agents and Residual Paralysis
Use of Neuromuscular Blocking Agents During Surgery
• Total muscle relaxation is needed to help achieve best operating conditions/visual field
• Adds to safety of the patient during delicate or critical surgeries
• Additional use of NMBA for muscle relaxation for endotracheal intubation
• 100,000 annually patients suffer respiratory complications after surgery due to residual paralysis
• Lack of standard for monitoring post‐surgery weakness
Marcus, A. Clinical Anesthesiology. Residual Paralysis: The problem that won’t go away. Anesthesiology News. July 2012; Volume38:7
Residual Neuromuscular Blockade/Paralysis
• Incomplete recovery from non‐depolarizing neuromuscular blocking agents; prolonged neuromuscular blockade in recovery
• Frequency of residual paralysis ranges from 2‐64%
• Most clinical trials examining postoperative residual paralysis now use a train‐of‐four (TOF) ratio <0.9 to define incomplete neuromuscular recovery
• TOF‐ratio >0.9 indicates sufficient recovery of neuromuscular transmission for awakening the patient and ensuring safe tracheal extubation
Murphy. A&A.2010.111;1;120-8 Naguib.BJA.2007;98:302 Murphy. Minerva Anestesiol.2006;72:97-109.
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Current Reversal Agents(edrophonium, neostigmine, pyridostigmine)
• Recovery rate is dependent on: depth of blockade; which reversal agent and dose used; rate of spontaneous recovery; concentration of inhaled anesthetic
• Rapidity of reversal: edrophonium >neostigmine >pyridostigmine however edrophonium is not as effective in profound block
• Use of glycopyrrolate and atropine to block muscarinic effect/cardiovascular effects
• Neostigmine may take 10‐15 min. to achieve complete neuromuscular recovery
Miller’s Anesthesia. 7th Edition.2010.Chapter 29
Adverse effects of residual neuromuscular blockade in awake volunteers and surgical patients
• Impaired airway protective reflexes
• Upper airway obstruction
• Impaired hypoxic ventilatory response
• Postoperative hypoxemia• Postoperative hypoxemia
• Symptoms and signs of profound muscle weakness
• Swallowing disrupted; increased risk aspiration
• Delay in discharge
Murphy.AnesthAnalg.2005;100:1840; Sorgenfrei.Anesthesiology.2006;104:667; Murphy. Minerva Anestesiol.2006;72:97; Eriksson.Anesthesiology.2003;98:1037
Relationship of the Train‐of‐four to Clinical Signs and Symptoms of Residual Paralysis in
Awake Volunteers
Clinical Signs/
Symptoms
TOF 0.7 TOF 0.9
Vision Diplopia Significant visual disturbances
Clench teeth tightly Weak opposition to tongue depressor
Opposition to tongue depressor
Head/Leg lift Sustained Sustained
Grip strength 59% of control 83% of control
Kopman.Anesthesiology.1997;86:765.
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Incidence of Postoperative Residual Bock in Recovery after Intermediate‐acting Neuromuscular Blocking Drugs
Residual block
TOFR < 0.8Total Vecuronium
n=50Atracurium n=50
Rocuronium n=48
Overall‐postoperative residual paralysis
52% 64% 52% 39%
Unable to open eyes 29 (20%) 10 (20%) 12 (24%) 7 (15%)
Unable protrude tongue 41 (28%) 13 (26%) 17 (34% 11 (23%)
Unable lift head for 5sec 90 (61%) 35 (70%) 29 (58%) 26 (54%)
Unable to lift leg for 5 sec
91 (62%) 33 (66%) 32 (64%) 26 (54%)
Unable to grip hand 101 (68%) 41 (82%) 34 (68%) 26 (54%)
Unable to swallow 32 (22%) 12 (24%) 13 (26%) 7 (15%)
Hayes.Anaesthesia.2001;56:312-18.
Residual Paralysis in PACU after a Single Intubating Dose of Nondepolarizing Muscle Relaxant of
Intermediate DurationResidual paralysis rate (%) between administration of muscle relaxant and arrival
to PACU
Debaene. Anesthesiology.2003.;98:1042.
Residual Paralysis at the Time of Tracheal Extubation
• “Complete recovery of neuromuscular function should be present at the time of tracheal extubation to reduce the risk of adverse respiratory event.”
• “Respiratory and pharyngeal function do not normalize until TOF ratios of 0.8‐1.0. These findings suggest that removal of endotracheal tube in the presence of minimal levels of residual block can potentially contribute to adverse outcomes.”
• “Period of vulnerability” between tracheal extubation and complete recovery of neuromuscular function, ….. leading to airway obstruction, aspiration, and ventilatory depression.
Murphy. Anesth Analg.2005;100:1840-5.
See page 27 for enlarged view
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Recovery from Neuromuscular Blockade: A Survey of Practice
Perceptions of TOF ratio required for safe extubation
TOF ratio (%) Respondents (n) Respondents
(%)
100% 44 8.2%
Grayling.Anaesthesia.2007;62:806-809.
>90% 110 20.6%
80‐85% 68 12.7%
75% 122 22.8%
70% 55 10.3%
50‐69% 23 4.3%
<50% 10 1.8%
0% 89 16.6%
Other response 13 2.6%
Muscle Relaxants• “The most important problem in current clinical use of
muscle relaxants is failure to achieve adequate recovery” from their effect 1
• “Omitting pharmacologic reversal is a common practice, and the clear consequence is inadequate recovery of neuromuscular function…. 1
• “….probably underestimates the true incidence of inadequate recovery of neuromuscular function.” 1
• “Given that postoperative residual curarization is a potentially preventable patient safety problem, it is important to find ways to reduce its incidence.”2
Caldwell, J.ASA Newsletter.2003;67(9.);Naguib.BJA.2007;98;302‐16.
Polling Question…
M.S. may have a greater chance of having residual paralysis due to
Female sex
Use of long acting NMBA
Cephalosporin allergy
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Antiemetics and PostoperativeAntiemetics and Postoperative Nausea and Vomiting
PONV: An Undesirable Consequence of Surgery
Patient Ranking
Rank Postoperative Anesthesia Outcomes1 Vomiting
2 Gagging on endotracheal tube
Patients rank vomiting as the most undesirable outcome, even more undesirable than pain.
2 Gagging on endotracheal tube
3 Incisional pain
4 Nausea
5 Recall without pain
6 Residual weakness
7 Shivering
8 Sore throat
9 Somnolence
Adapted from Macario A et al. Which clinical anesthesia outcomes are important to avoid? The perspective of patients. Anesth Analg. 1999;89:652–658.
N=101; F-test <0.01.
Post‐discharge PONV (PDNV)
ence
of
PO
NV
29.5%31.2%
20%
25%
30%
35%
40%
Inci
de
Carroll NV, et al. Anesth Analg. 1995;80:903–909.
post discharge post discharge
16.1%
0%
5%
10%
15%
20%
Recovery room <48 h >48 h to 5 d
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Complications of Postoperative Nausea and Vomiting
• Aspirations
• Suture dehiscence
• Esophageal Rupture
• Bilateral pneumothoraxes
• Delays
• Unexpected admission
• Annual cost estimated several $100 Million
Gan TJ et al. Anesth Analg. 2007; 105:1615-28.
Evidence Risk FactorsPositive overall Female sex
History of PONV or Motion Sickness
Non‐smoking
Younger age
General vs. regional anesthesia (A1)
Use of volatile anesthetics and nitrous oxide (A1)
Postoperative opioids (A1)
Duration of anesthesia
Risk Factors For PONV In Adults*
Conflicting ASA physical status
Type of surgery (cholecystectomy, laparoscopic, gynecological)
Menstrual cycle
Level of anesthetist’s experience
Muscle relaxant antagonists (A2)
Disproven or of limited clinical relevance
BMIAnxiety Nasogastric tube (A1)Supplemental oxygen (A1)
Perioperative fasting (A2)
Migraine
Gan TJ et al. Anesth Analg. In manuscript preparation.
See page 28 for enlarged view
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1Age > 3
1Surgery > 30 min.
PointsRisk Factors
60
80
sk (
%)
Risk Score in Children
0 . . . 4Sum =
1History of POV or PONV in relatives
1Strabismus surgery
1Age > 3 years
0
20
40
0 1 2 3 4Number of Risk Factors
PO
V R
is
Gan TJ, Meyer TA, Apfel CC, et al. Society for Ambulatory Anesthesia guidelines for the management of postoperative nausea and vomiting. A&A. 2007;105:1615-28.
Postdischarge Nausea and Vomiting (PDNV) Adult Risk Score
Risk Factors Points
Female sex 1
History of PONV 1
Age <50 years 1
Use of opioids in the PACU
1
Nausea in the PACU 1
Sum 0…5
Apfel. Who is at risk for PDNV after ambulatory surgery? Anesthesiology. 2012;117(3):475-86.
1. Avoidance of general anesthesia by the use of regional anesthesia
2. Use of propofol for induction and maintenance of anesthesia
Reduce baseline risk
3. Avoidance of nitrous oxide 4. Avoidance of volatile anesthetics 5. Minimization of intraoperative and postoperative
opioids 6. Adequate hydration
Gan TJ, Meyer TA, Apfel CC, et al. Society for Ambulatory Anesthesia guidelines for the management of postoperative nausea and vomiting. A&A. 2007;105:1615-28.
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Families of Antiemetic Drugs
• Phenothiazines (Dopamine D2 receptor) Chlorpromazine Prochlorperazine Promethazine
• Butyrophenones (Dopamine D2 receptor) D id l
• Antihistamines (Histamine) Dimenhydrinate Hydroxyzine Diphenhydrinate
• 5‐HT3 antagonists (Serotonin) Dolasetron Droperidol
Haloperidol• Benzamides
(Dopamine D2 receptor) Metoclopramide
• Anticholinergics (Muscarinic) Scopolamine
Granisetron Ondansetron Palonosetron
• Steroids (Receptor is unclear)
Dexamethasone
• NK1‐receptor antagonists
Aprepitant
Chemoreceptor Trigger ZoneA P t
Receptor site
Agonist
Antagonist
Nitrogen mustard
Cisplatin
Digoxin glycoside
Opioid analgesics
5-HT3 Promethazine Atropine Droperidol
5-HT3 Histamine Muscarinic Dopamine (D2)
Pathophysiology of PONV
NK
(Adapted) Watcha MF, White PF. Anesthesiology. 1992;77:162-184.
Emetic Center
Area Postrema
Parvicellularreticular
formation
Opioid analgesics
Vestibular portion of VIIIth nerve
Mediastinum
N2O
?
NK1
CB1
Substance P
Cannabinoids?
?GI tract distensionHigher centers (vision, taste)
Pharynx
5HT‐3 Receptor Antagonists IV• Ondansetron 4mg, give at end of surgery; cost=¢
• Granisetron 0.3mg‐1 mg, give at end of surgery; cost=<$
• Dolasetron 12.5mg, give at end of surgery; cost=$$$
• Palonosetron 0.075mg (not marketed for PONV); cost=$$$$$$$$$
• More effective for vomiting rather than nausea
• Used for prevention and treatmentUsed for prevention and treatment
• Side effects‐HA, constipation
• Recent FDA warning for ondansetron: Avoid use in patients with congenital long QT syndrome ; ECG monitoring ‐ electrolyte abnormalities, congestive heart failure, bradyarrhythmias, or patients taking medications that can lead to QT prolongation.
Dolasetron and granisetron carry similar concerns
Palonosetron has not shown QT prolongation concerns
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Anticholinergic Agents
• Scopolamine transdermal patch‐1.5 mg; one patch 4hrs prior to surgery; duration 24 hrs; cost=$$
• Do not use in children; caution in elderly
• Do not cut patchDo not cut patch
• Wash hands after handling
• Contraindicated in closed angle glaucoma
• Common side effects: sedation, dry mouth, visual disturbances
Butyrophenones IVDroperidol ‐ 0.625mg‐1.25mg; given at end of surgery; cost=¢
• Efficacy with nausea
• Potential for serious proarrhythmic effects and death:
– Reserve for treatment of patients who failed other treatments
12 lead ECG prior to administration– 12‐lead ECG prior to administration
– Continue ECG monitoring for 2‐3 hours after administering droperidol
Haloperidol ‐ 0.5mg‐2mg; cost=¢
• Used more in treatment
• Similar concerns of CV effects to droperidol (no FDA boxed warning)
Phenothiazines IVProchlorperazine ‐ 5‐10 mg; unavailable supply since 7‐ 2011
Promethazine ‐ 6.25mg‐25mg; start with 6.25 mg dose, 25 mg associated with significant side effects; cost=¢
FDA boxed warning‐risk of serious tissue damage:• Dilute drug
• Slow administration
• Use large patent veins
• Educate patient about signs of extravasation
• Contraindicated in children < 2 yrs
• Use lowest dose possible with elderly
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Dexamethasone IV• Dexamethasone ‐ 4mg given at induction; cost=¢
• Mechanism of action is unclear
• Duration of action – up to 24hrs.
• Most common side effect‐ vaginal or anal irritation or itching– Administer drug slowly over 5‐10 min.
– Administer after induction
Recent reports in literature– Increase in blood glucose levels
– Concerns of post op infection
– Tumor lysis syndrome
– Bleeding post tonsillectomy
Substance P/NK1 receptor antagonist
• Aprepitant 40mg oral and given 3 hrs prior to induction
• Indicated for prevention of postoperative nausea and vomiting.
• Drug interactions:g
– warfarin‐ patient to have INR post surgery;
– oral contraceptives‐patient to use other forms of birth control for 1 month
• $$$$$$$$$
Results of Factorial Trial of 6 Interventions
Number of Antiemetics Incidence of PONV
None 52%
One 37%
Two 28%
Three 22%
Apfel CC. NEJM 2004;350(24):2441.
There were no significant differences between the antiemetics or pairs of antiemetics.
26% reduction in relative risk for each additional antiemetic used.
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Algorithm for Management of PONV
Gan TJ, Meyer TA, Apfel CC, et al. Society for Ambulatory Anesthesia guidelines for the management of postoperative nausea and vomiting. A&A. 2007;105:1615-28.
D, O, Dr, G,M,Pa,Pc, P
KEYAprepitant=A(HA, Elevated liver enzymes)
Ondansetron=O(HA, Lightheadedness, Elevated liver enzymes,Constipation, QT prolongation)
Dolasetron=D(HA, Lightheadedness, Elevated liver enzymes,QT prolongation, Diarrhea)
Droperidol=Dr(Sedation, dizziness, anxiety, hypotension, EPS,QT prolongation, and Torsade de pointes)
Granisetron=G(HA, Lightheadedness, Elevated liver enzymes, Constipation)
Dexamethasone=Dx(Vaginal itching or anal irritation with IV bolus, *Hyperglycemia (gluconeogenesis in liver))
Metoclopramide=M
A,D,O,G,S,Dr,P,Pa,Pc,Dm,Dp
P
S,Dm,Dp
Dm,S Dp
A O DMetoclopramide=M(Sedation, Hypotension, EPS)
Promethazine=P(Sedation, Hypotension, EPS, Possible severe tissue irritation)
Scopolamine Patch=S(Sedation, Dry mouth, Visual disturbances; CNS effects in elderly patients, Renal or hepatic impairment)
Palonosetron=Pa(HA, Constipation, QT prolongation, Bradycardia)
Prochlorperazine=Pc(Sedation, Hypotension, EPS)
Dimenhydrinate=Dm(Sedation, dry mouth, blurredvision, dizziness, urinary retention)
Diphenhydramine=Dp(Sedation, dry mouth, blurredvision, dizziness, urinary retention)
Dx
A ,O, D,G,S,Dx*
S S
O, G, D,Pa,Dm,Dp
Antiemetic Man
Common side effects with traditional antiemetic medications
Polling Question…
What are the risk factors for PONV for the surgery patient (M.S.)?
Female sex
History of PONV/Motion Sickness
Non‐smoker
See page 29 for enlarged view
See page 30 for enlarged view
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Postoperative Opioid‐Induced Respiratory Depression
(POIRD)(POIRD)
Opioid Use • Opioid analgesia is primary intervention for pain in hospitalized patients
• Opioid side effects‐nausea/vomiting, urinary retention, pruritus, prolonged postop ileus
• Main hazards of opioids is respiratory depression• 50% of postoperative respiratory depression involved opioidsopioids
• Severe respiratory depression‐breathing rates of 8‐10 breaths/min
• Risk of opioid‐induced respiratory depression in postop patients is greatest in first 24 hrs after surgery
• Respiratory depression occurs most frequently between hours of 2300‐0700 when patients are sleeping
Jarzyna et al.Pain Management Nursing.2011;12(3):118-45
Opioid Induced Respiratory Depression Risk Factors
• Age >55yrs• Obesity• Untreated sleep apnea & history snoring• Neck circumference >17.5”• Preexisitng pulmonary/cardiac disease• Smoker > 20pack‐years
P l d• Prolonged surgery• Thoracic or other large incisions that interfere with ventilation• Concomitant administration of other sedating drugs• Patients with prior naloxone administration for respiratory
depression are at risk for repeated respiratory depression• ↑ opioid requirement• Major organ failure• Dependent functional status
Jarzyna et al. Pain Management Nursing.2011;12(3):118-45
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Naloxone
– Introduced in late 1960’s
– Onset of action is rapid (1‐2 min.)
– Duration 30‐60 min.
– Recurrence of respiratory depression due to short half lifehalf life
– Efficacy depends on pharmacokinetics and pharmacodynamics of individual opioid analgesic
Consider:Nonsteroidal anti‐inflammatory drugs
Several meta‐analyses support conclusion that nonselective NSAIDs added to opioid regimens for post op pain resulted in reduced incidence of opioid‐induced sedations
Screening preoperatively for pts at increased risk
Monitoring postoperatively in higher levels of care or more frequent vital signs or use of end‐tidal CO2
monitoring
Be aware of renarcotization after naloxone and recurrence of respiratory depression
In patients on supplemental oxygen, consider which should have lower oxygen saturation targets
Jarzyna et al.Pain Management Nursing.2011;12(3):118-45
Polling Question…
M.S. risk factor(s) for postoperative opioid induced respiratory depression include
Female sex
Obesity
Previous surgery
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Conclusion
• Neuromuscular blockade is important to achieve the best surgical conditions and added patient safety during delicate or critical surgeries. Residual paralysis is a patient safety concern. Studies show frequency of residual block ranges from 2‐64%.
• Depending upon the risk, prophylaxis should be initiated with monotherapy or combination therapy using interventions thatmonotherapy or combination therapy using interventions that reduce baseline risk, nonpharmacologic approaches, and antiemetics. Antiemetic combinations are recommended for patients at moderate to high risk for PONV.
• Opioid analgesia is often required for pain control in the post operative setting. This is associated with a small but significant risk for respiratory depression. Consider screening patients, monitoring at increased levels, addition of non‐opioid to opioid regimen.
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Residual Paralysis in PACU after a Single Intubating Dose of Nondepolarizing Muscle Relaxant of
Intermediate Duration
Residual paralysis rate (%) between administration of muscle relaxant and arrival p y ( ) fto PACU
Debaene. Anesthesiology.2003.;98:1042.
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Evidence Risk FactorsPositive overall Female sex
History of PONV or Motion Sickness
Risk Factors For PONV In Adults*
Non‐smoking
Younger age
General vs. regional anesthesia (A1)
Use of volatile anesthetics and nitrous oxide (A1)
Postoperative opioids (A1)
Duration of anesthesia
Conflicting ASA physical status
Type of surgery (cholecystectomy, laparoscopic, gynecological)
Menstrual cycle
Level of anesthetist’s experience
Muscle relaxant antagonists (A2)
Disproven or of limited clinical relevance
BMIAnxietyclinical relevance Anxiety Nasogastric tube (A1)Supplemental oxygen (A1)
Perioperative fasting (A2)
Migraine
Gan TJ et al. Anesth Analg. In manuscript preparation.
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Algorithm for Management of PONV
Gan TJ, Meyer TA, Apfel CC, et al. Society for Ambulatory Anesthesia guidelines for the management of postoperative nausea and vomiting. A&A. 2007;105:1615-28.
29
KEYAprepitant=A(HA, Elevated liver enzymes)
Ondansetron=O(HA, Lightheadedness, Elevated liver enzymes,Constipation, QT prolongation)
Dolasetron=D(HA, Lightheadedness, Elevated liver enzymes,QT prolongation, Diarrhea)
A,D,O,G,S,Dr,P,Pa,Pc,Dm,Dp
S Dm Dp
Dm,S Dp
D, O, Dr, G,M,Pa,Pc, P
Droperidol=Dr(Sedation, dizziness, anxiety, hypotension, EPS,QT prolongation, and Torsade de pointes)
Granisetron=G(HA, Lightheadedness, Elevated liver enzymes, Constipation)
Dexamethasone=Dx(Vaginal itching or anal irritation with IV bolus, *Hyperglycemia (gluconeogenesis in liver))
Metoclopramide=M
P
S,Dm,Dp
A O DMetoclopramide=M(Sedation, Hypotension, EPS)
Promethazine=P(Sedation, Hypotension, EPS, Possible severe tissue irritation)
Scopolamine Patch=S(Sedation, Dry mouth, Visual disturbances; CNS effects in elderly patients, Renal or hepatic impairment)
Palonosetron=Pa
Dx
A ,O, D,G,S,Dx*
S S
O, G, D,Pa,Dm,Dp
(HA, Constipation, QT prolongation, Bradycardia)
Prochlorperazine=Pc(Sedation, Hypotension, EPS)
Dimenhydrinate=Dm(Sedation, dry mouth, blurredvision, dizziness, urinary retention)
Diphenhydramine=Dp(Sedation, dry mouth, blurredvision, dizziness, urinary retention)
Antiemetic Man
Common side effects with traditional antiemetic medications
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Managing Postoperative Complications Related to Anesthesia
S E L E C T E D R E F E R E N C E S A N D R E S O U R C E S
Apfel CC, Korttila K, Abdalla M et al. A factorial trial of six interventions for the prevention of postoperative nausea and vomiting. N Engl J Med. 2004; 350:2441-51.
Apfel CC, Philip BK, Cakmakkaya OS et al. Who is at risk for postdischarge nausea and vomiting after ambulatory surgery? Anesthesiology. 2012; 117:475-86.
Bratzler DW, Hunt DR. The surgical infection prevention and surgical care improvement projects: national initiatives to improve outcomes for patients having surgery. Clin Infect Dis. 2006; 43:322-30.
Caldwell JE. What’s new in…muscle relaxants. American Society of Anesthesiologists newsletter. September 2003. Available at: http://asatest.asahq.org/Newsletters/2003/09_03/whatsNew09_03.html (accessed 2012 Nov 7).
Carroll NV, Miederhoff P, Cox FM et al. Postoperative nausea and vomiting after discharge from outpatient surgery centers. Anesth Analg. 1995; 80:903-9.
Claudius C; Karacan H; Viby-Mogensen J. Prolonged residual paralysis after a single intubating dose of rocuronium. Br J Anaesth 2007; 99: 514-17.
Debaene B, Plaud B, Dilly MP et al. Residual paralysis in the PACU after a single intubating dose of nondepolarizing muscle relaxant with an intermediate duration of action. Anesthesiology. 2003; 98:1042-8.
Eriksson LI. Evidence-based practice and neuromuscular monitoring: it's time for routine quantitative assessment. Anesthesiology. 2003; 98:1037-9.
Gan TJ, Meyer TA, Apfel CC et al. Society for Ambulatory Anesthesia guidelines for the management of postoperative nausea and vomiting. Anesth Analg. 2007; 105:1615-28.
Grayling M, Sweeney BP. Recovery from neuromuscular blockade: a survey of practice. Anaesthesia. 2007; 62:806-9.
Hayes AH, Mirakhur RK, Breslin DS et al. Postoperative residual block after intermediate-acting neuromuscular blocking drugs. Anaesthesia. 2001; 56:312-8.
Jarzyna D, Jungquist CR, Pasero C et al. American Society for Pain Management Nursing guidelines on monitoring for opioid-induced sedation and respiratory depression. Pain Manag Nurs. 2011; 12:118-45.
Kassin MT, Owen RM, Perez SD et al. Risk factors for 30-day hospital readmission among general surgery patients. J Am Coll Surg. 2012; 215:322-30.
Kopman AF, Yee PS, Neuman GG. Relationship of the train-of-four fade ratio to clinical signs and symptoms of residual paralysis in awake volunteers. Anesthesiology. 1997; 86:765-71.
Marcario A, Weinger M, Carney S et al. Which clinical anesthesia outcomes are important to avoid? The perspective of patients. Anesth Analg. 1999; 89:652-8.
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Maybauer D M, Geldner G, Blobner M, et al. Incidence and duration of residual paralysis at the end of surgery after multiple administrations of cisatracurium and rocuronium. Anesthesia 2007: 62:12-17
Murphy Glenn S, Szokol Joseph W et al. Residual paralysis at the time of tracheal extubation. Anesth Analg. 2005; 100:1840-5
Murphy GS, Brull SJ. Residual neuromuscular block: lessons unlearned. Part I: definitions, incidence, and adverse physiologic effects of residual neuromuscular block. Anesth Analg. 2010; 111:120-8.
Murphy GS, Szokol JW, Marymont JH et al. Residual paralysis at the time of tracheal extubation. Anesth Analg. 2005; 100:1840-5.
Murphy GS. Residual neuromuscular blockade: incidence, assessment, and relevance in the postoperative period. Minerva Anestesiol. 2006; 72:97-109.
Naguib M, Kopman AF, Ensor JE. Neuromuscular monitoring and postoperative residual curarisation: a meta-analysis. Br J Anaesth. 2007; 98:302-16.
Naguib M, Lien CA. Pharmacology of muscle relaxants and their antagonists. In: Miller RD, Eriksson LI, Fleisher LA et al, eds. Miller’s anesthesia. 7th ed. Philadelphia, PA: Churchill Livingstone Elsevier; 2010:859-912.
Olivieri Lori, Plourde Gilles. Prolonged (more than ten hours) neuromuscular blockade after cardiac surgery: report of two cases. Can J Anesth 2005: 52:1: 88-93.
Plaud Benoit, Debaene Bertrand et al. Residual paralysis after emergence from anesthesia. Anesthesiology. 2010; 112:4; 1013-22.
Sorgenfrei IF, Norrild K, Larsen PB et al. Reversal of rocuronium-induced neuromuscular block by the selective relaxant binding agent sugammadex: a dose-finding and safety study. Anesthesiology. 2006; 104:667-74.
Tsai Chih-Chung; Chung Ham-See; Chen Po-Liang; YU Chong-Ming; Chen MMing-Shan; Hong Chian-Lang. Postoperative residual curarization: Clinical observation in the post-anesthesia care unit. Chang Gung Med J; 2008;31:4
Watcha MF, White PF. Postoperative nausea and vomiting. Its etiology, treatment, and prevention. Anesthesiology. 1992; 77:162-84.
Weiser TG, Regenbogen SE, Thompson KD et al. An estimation of the global volume of surgery: a modelling strategy based on available data. Lancet. 2008; 372:139-44.
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S E L F – A S S E S S M E N T Q U E S T I O N S
1. Neuromuscular blocking agents are used for which of the following? a. Muscle relaxation during endotracheal intubation. b. Muscle relaxation during the surgical procedure to prevent movement. c. Both a and b are correct. d. Neither a or b is correct.
2. Which of the following reversal agents is most frequently used in surgery?
a. Edrophonium. b. Neostigmine. c. Pyridostigmine. d. Vecuronium.
3. Which of the following anesthetic drugs is most likely to increase the risk for
postoperative nausea and vomiting? a. Muscle relaxant antagonists. b. Volatile anesthetics. c. Propofol. d. Regional dexamethasone.
4. Which of the following is an antiemetic agent with evidence of efficacy for decreasing
the risk of postoperative nausea and vomiting in surgical patients? a. Metoclopramide. b. Ondansetron. c. Cannabinoids. d. Bromocriptine.
5. Which of the following is a risk factor for opioid-induced respiratory depression?
a. Nonsmoking. b. Insomnia. c. Obesity. d. Female sex.
6. Which of the following choices applies to patients at risk for postoperative opioid-
induced respiratory depression? a. Monitored in higher levels of care. b. Not be given opioids. c. Not be given local anesthetics. d. Not be given general anesthesia.
Answers
1. c 2. b 3. b 4. b 5. c 6. a
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Managing Postoperative Complications Related to Anesthesia
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