enhanced recover after surgery
TRANSCRIPT
ENHANCED
RECOVER AFTER
SURGERYIMPROVED
SAFETY
DISCLOSURES
TELEFLEX CONSULTANT AND ADVISORY BOARD
B BRAUN CONSULTANT AND ADVISORY BOARD
NO DIRECT CONFLICTS
10/13/2018
Reference:Gan T, Thacker J, Miller T, Scott M, Holubar S, Enhanced recovery for major
abdominal surgery. West Islip, NY Professional Communication Inc. 2016.
3
Redo
Start in your area
Add more areas
HOURHAPPY
Implement
C-Sections
START
Corner
SlotEDUCATE
FREE
TURN
TEAM
Design
Protocols
Provide
Updates
specific
procedure
Enhanced Recovery
10/13/2018
• The concept of enhanced recovery started 1990s with FAST TRACKING.
• The ERAS Society in Europe was formed in 2010.
• The first international ERAS Society Congress was held in France in 2012.
• In the United States (US) interest in enhanced recovery has been growing since the late 2000s.
• The Duke University Medical Center Enhanced Recovery Program started in 2010
• The first US Enhanced Recovery Congress organized by the Duke University Department of Anesthesiology and Surgery was held in Washington DC in 2013. The 2nd US Enhanced Recovery program was held in New Orleans in October 2014, and marked the official launch of the American Society of Enhanced Recovery (ASER).
Reference:Gan T, Thacker J, Miller T, Scott M, Holubar S, Enhanced recovery for major abdominal surgery. West Islip, NY Professional Communication Inc. 2016. Gustafsson U. O., Scott M. J., Schwenk, W., et. al. Guidelines for perioperative care in elective colonic Surgery: Enhanced Recovery After Surgery (ERAS®) Society Recommendations. 2013; 37 (2): 259-284.
6
LET THE ERAS GAME
BEGIN
Build a team!
Caution
Selecting
Members
Getting Started
Choose a Specific Case
Colorectal
TEAM
Protocols
Educate
• Nursing staff
• Surgeons
• Anesthesia
• Journal Club
Negative PeopleTreat with Evidence!!
Enhanced recovery
10/13/2018
• Reduce care time by more than 30%
• A recent study demonstrated that ERAS programs allow patients to recover much faster after their operation and this reduces the need for hospital stay by about 30% or more than 2 days after major abdominal surgery. Despite earlier discharge from the hospital, readmissions did not increase
• (Greco et al. World Journal of Surgery 2014 38:1531-1541).
Reference:Gan T, Thacker J, Miller T, Scott M, Holubar S, Enhanced recovery for major abdominal surgery. West Islip, NY Professional Communication Inc. 2016.
Gustafsson U. O., Scott M. J., Schwenk, W., et. al. Guidelines for perioperative care in elective colonic Surgery: Enhanced Recovery After Surgery (ERAS®) Society Recommendations. 2013; 37 (2): 259-284.
10
Enhanced Recovery
• Reduce complications by up to 50%
• ERAS reduce major complications after abdominal surgery by as much as 40%. In particular non-cardiac complications, such as those from the lungs and cardiovascular systems are markedly reduced
• (Greco et al. World Journal of Surgery 2014 38:1531-1541)
Preoperative-Preanesthesia clinic
Preoperative Patent Education
Preoperative Assessment and
Optimization
Minimize Starvation Times
Oral Carbohydrate Drink up to 2 hours before
surgery
Bowel Prep
Anesthesia Plan
Decreased Delays And Day of SurgeryCancellations
Success in Clinic Negative
SURGEON! AND
ANESTHESIA
PROVIDERS
Preoperative Patient Education
• Shame free educational Environment
• Allow for questions!
• Appropriate literacy level
• Check for Health Literacy
• Do they know their medications and what they do?
• Reliable electronic teaching and websites
• Integration of Meaningful images
• Set Goals and Expectations for Ambulation and Discharge
Reference:Gan T, Thacker J, Miller T, Scott M, Holubar S, Enhanced recovery for major abdominal surgery. West Islip, NY Professional Communication Inc. 2016. 10/13/2018 14
Preoperative Assessment and Optimization
• Medical Optimization Prior to Surgery
• Be Mindful of time constraints!
• Preoperative optimization and risk stratification
• May need to consult with Patients Primary Care or specialist if Clinical judgement of a improvable condition.
• ACC/AHA Risk Assessment
• >4 Mets
• Active CHF, Unstable Angina, Unstable Arrhythmia, Major Valve Lesion, Pulmonary HTN, and Cardiomyopathy
Reference:Gan T, Thacker J, Miller T, Scott M, Holubar S, Enhanced recovery for major abdominal surgery. West Islip, NY Professional Communication Inc. 2016. 10/13/2018 15
Preoperative Assessment
and Optimization
• Preoperative Testing
• Lancet 2003 article by Garcia et al. 60-70% preoperative testing was not necessary if a good preoperative assessment was completed.
• CBC and Chemistry indicated within 30 days
• ACC/AHA METS <4 plus 2 or more risk factors: CAD, CHF, Insulin DM > 20 years, CVA, Renal Insufficiency
• Feely et al. 2013 recommend test due to medical necessity “indicated test” that will change management or better assess risk/anesthesia choice.
• Screening vs Surveillance or targeted indicated test due to status change
Preoperative Assessment and Optimization• Pulmonary Risk and Optimization
• Smoking history and promotion of cessation
• Incentive Spirometry one week prior to surgery 10 times per hour while awake- Caution with COPD Patients!!
• Severe COPD ABG for CO2 Retention.
• 6 minute walk test
• Preanesthesia Clinic Upstairs and long hallway
• Obtain previous ABG’s and Pulmonary Function Studies
10/13/2018 Reference:Gan T, Thacker J, Miller T, Scott M, Holubar S, Enhanced recovery for major abdominal surgery. West Islip, NY Professional Communication Inc. 2016. 17
Preoperative Assessment and Optimization
10/13/2018
• Optimization in Hemoglobin, HTN, and DM
• Hemoglobin preferred Iron correction
• HTN <180 mmHg Systolic and < 110 mmHg Diastolic
• ACE inhibitors and Angiotension II Receptor antagonist higher risk for Hypotension hold am of surgery but resume postoperative if euvolemic and normal renal function
Reference:Gan T, Thacker J, Miller T, Scott M, Holubar S, Enhanced recovery for major abdominal surgery. West Islip, NY Professional Communication Inc. 2016. 18
Preoperative Assessment and Optimization
Reference:Gan T, Thacker J, Miller T, Scott M, Holubar S, Enhanced recovery for major abdominal surgery. West Islip, NY Professional Communication Inc. 2016. 10/13/2018 19
• DM A1c and glucose control and optimization preoperative to prevent surgical infections! Most common complications
• Hold oral hypoglycemic agents consult with primary care or endocrinologist for insulin recommendations. Usually ½ lacking insulin the night before and Short acting sliding scale..
Optimization in Hemoglobin, HTN, and DM
Improved cardiopulmonary Fitness
Recovery for Chemotherapy
Minimize Starvation times
10/13/2018 Reference:Gan T, Thacker J, Miller T, Scott M, Holubar S, Enhanced recovery for major abdominal surgery. West Islip, NY Professional Communication Inc. 2016. 20
Clear Fluids up to 2 hours before Anesthesia Induction
Clinical Judgement
Elevated A1c
Significant GERD
BMI > 40
Gastroparesis/Peripheral Neuropathy
Oral Carbohydrate Drink up to 2 hours before surgery
Clearfast ( 21g monosaccharides, 38g polysaccharides, 230 calories per 12 oz)
More stable Glycemic control perioperative
Preoperative carbohydrate drink mimics breakfast and promotes insulin release. This
will help decrease the peripheral insulin resistance secondary to surgical stress.
Bowel Prep- To Prep or Not?
• Current Evidence supports Mechanical Bowel Prep with Oral Antibiotics!
• Types of Mechanical
• Isosmotic Balanced Electrolyte Solutions-PEG(polyethylene glycol)
• 4 liters Due to HIGH molecular weight nonabsorbable passes through GI tract without net absorption or secretion
• Avoids Electrolyte and fluid shifts
• Most common Side Effect? Nausea
Reference:Gan T, Thacker J, Miller T, Scott M, Holubar S, Enhanced recovery for major abdominal surgery. West Islip, NY Professional Communication Inc. 2016. 10/13/2018 22
Bowel Prep- To Prep or Not?
• Current Evidence supports Mechanical Bowel Prep with Oral Antibiotics!
• Types of Mechanical
• Hyperosmotic( Magnesium Citrate & Sodium Phosphate)
• They draw water into intestines and cause fluid and electrolyte shifts. Could result in Renal Issues
• Not Recommended by Enhanced Recovery Protocols
Reference:Gan T, Thacker J, Miller T, Scott M, Holubar S, Enhanced recovery for major abdominal surgery. West Islip, NY Professional Communication Inc. 2016. 10/13/2018 23
Anesthesia Plan
10/13/2018 Reference:Gan T, Thacker J, Miller T, Scott M, Holubar S, Enhanced recovery for major abdominal surgery. West Islip, NY Professional Communication Inc. 2016. 24
• Female, Hx PONV or Motionsickness, Nonsmoker, younger age, use of inhaled anesthetics, opioids, duration of anesthesia and type of surgery (abdominal/laparoscopic surgery)
Preoperative Antiemetic Risk Assessment and
Utilization of Two Agents
• ASA 1&2 Fluid Restrictive Technique Any system least invasive Cheetah, Esophageal Doppler, pleth variability, etc.
• ASA 3 Volume Cardiac Optimization- SV analysis Esophageal Doppler or FloTrac
• ASA 4 Volume Cardiac Optimization not on Enhanced Recovery Protocol Sv Analysis Esophageal Doppler, TEE, and/or FloTrac- consider ScVo2.
Hemodynamic Monitoring for
Either Fluid Restrictive or Volume and
Cardiac Optimization
Techniques- Goal Directed Therapy
Anesthesia Plan
• Analgesic Management
• Intrathecal Morphine plus Single or Continuous TAP Blocks
• Epidural low thoracic
• Multimodal Opioid Reduction Techniques
Anesthesia Plan- PONV
10/13/2018Reference:Gan T, Thacker J, Miller T, Scott M, Holubar S, Enhanced recovery for major
abdominal surgery. West Islip, NY Professional Communication Inc. 2016.26
Drugs Dosage Timing
Dexamethasone 4-8mg IV At induction
Ondansetron 4mg IV End of Case
Scopolamine Transdermal Patch Prior Night or 2 hour Prior to surgery
PONV Rescue
10/13/2018Reference:Gan T, Thacker J, Miller T, Scott M, Holubar S, Enhanced recovery for major
abdominal surgery. West Islip, NY Professional Communication Inc. 2016.27
Drugs Dosage Instructions
Promethazine 2.5mg IV Dilute 25mg to 2.5/ml
Droperidol 0.625 mg IV
Haloperidol 0.5mg-<2mg Dilute 1mg/ml caution not IM only
Preoperative Pain ManagementMultimodal
10/13/2018Reference:Gan T, Thacker J, Miller T, Scott M, Holubar S, Enhanced recovery for major abdominal
surgery. West Islip, NY Professional Communication Inc. 2016.28
Drug Dosage Timing
Acetaminophen 1000mg IV Induction
Gabapentin 600mg PO 2 Hours Prior to Surgery
Celecoxib 400mg PO 2 hrs prior to surgeryCaution with Elderly and Renal
Intrathecal Morphine orLow Thoracic Epidural
200mcg Immediately Preop
Alvimopan Entereg 12mg PO 2 hours prior to surgery if not on Opioids for 2 weeks
Antibiotic Prophylaxis
• More aggressive dosages and more frequent Re-dosing to improve plasma level at closure.
• Surgical Infection the most common complication
• Cefazolin 1g <80kg, 2g>80kg, 3g >120kg. Redose in 3-4 hours to avoid nadir during closure.
• Clindamycin 600mg, 900mg, and 1200mg
• Closure is cleaner with hand assisted barriers used.
Normothermia
10/13/2018 Reference:Gan T, Thacker J, Miller T, Scott M, Holubar S, Enhanced recovery for major abdominal surgery. West Islip, NY Professional Communication Inc. 2016. 30
Maintain:Warming blankets in the preoperative setting. Do not make them sweat!
Monitor:Temperature should be monitored during the perioperative period
Prevent: Increasing Room Temperature
Increasing Surgical Team awareness
Treatment:Forced air warmers and fluid warmers for ALL Enhanced Recovery Cases
Intraoperative Period
• SCD’s
• Administer Antibiotics- Not 5 seconds or 59 minutes prior to incision
• Administer Multimodal Analgesia Protocol
• AVOID OPIOIDS!!!!!
• Goal Directed Fluid Therapy
• Maintain Normothermia
• Minimize Tubes
Reference:Gan T, Thacker J, Miller T, Scott M, Holubar S, Enhanced recovery for major abdominal surgery. West Islip, NY Professional Communication Inc. 2016. 10/13/2018 31
Intraoperative Period
• Multimodal Utilizing Non-Opioid Techniques
• Primary Goal AVOID OPIOIDS
• TIVA with Propofol or as adjunct to Inhaled Anesthetics
• 15 mg ketorolac IV at the end of case if ok with surgeon and not contraindicated
• IV 1000mg Acetaminophen with induction
Intraoperative Period
Magnesium 30-50mg/kg bolus over 30minutes
then 20mg/kg/hr
intraoperative infusion. D/C at closure Avoid If
QTc >0.45
Ketamine 0.2mg/kg one
dose
IV Lidocaine 1mg/kg bolus followed by 0.5-1mg/kg
infusion stop at the end of
surgery. Consider
lidoderm patch
Bilateral TAP Blocks either continuous or Single Injection
• 15-20 ml 0.2-0.5% Ropivacaine
Intraoperative Period
• Fluid Management
• Should be Goal Directed by dynamic flow related parameters
• Cardiac Output, Stroke Volume, Stroke Volume Variation with Ventilation, pulse pressure variations, and pleth variability index.
• Equipment: Arterial line related such as LiDCO, PiCCO, FloTrac, or Pleth technology, Esophageal Doppler, TEE, ScVo2, and others.
• Not necessary the amount of fluids but the timing will change with these parameters
• Improved Outcomes with Goal Directed Therapy
• Shorter length of stays and lower complication rates
Reference:Gan T, Thacker J, Miller T, Scott M, Holubar S, Enhanced recovery for major abdominal surgery. West Islip, NY Professional Communication Inc. 2016. 10/13/2018 34
Intraoperative Fluid Management Low Risk Patients
10/13/2018 Reference:Gan T, Thacker J, Miller T, Scott M, Holubar S, Enhanced recovery for major abdominal surgery. West Islip, NY Professional Communication Inc. 2016. 35
ASA 1-2 Restrictive Protocol ELECTIVE ONLY!
Non-complicated colorectal procedures on relatively healthy adults
Non-Invasive Cardiac Output Monitoring
Mechanical Ventilation 6-8ml /kg
Especially if utilizing ventilation variations (SVV or PVI)
Intraoperative Fluid Management Low Risk Patients
10/13/2018 Reference:Gan T, Thacker J, Miller T, Scott M, Holubar S, Enhanced recovery for major abdominal surgery. West Islip, NY Professional Communication Inc. 2016. 36
Fluids D5LR, LR, D5Normosol 3ml/kg/hr Crystalloids not Saline Goal is to reduce Salt Loading
MAP < 65mmHg 250ml of Crystalloids or colloids like voluven NOT NS after two boluses and not improved start phenylephrine
EBL over 500ml replace with colloid 1:1
Intraoperative Fluid
Management Moderate Risk
Patients without
arterial line
• ASA 2 or 3 Blood loss expected <1,500ml
• PIV access 2 +- central line with or without SCVO2.
• Mechanical Ventilation 6ml/kg
• Non-Invasive cardiac monitoring
• Esophageal Doppler, Cheetah, PVI, etc.
• Cardiac Optimization and fluid management
Intraoperative Fluid Management Moderate Risk Patients without arterial line
10/13/2018 Reference:Gan T, Thacker J, Miller T, Scott M, Holubar S, Enhanced recovery for major abdominal surgery. West Islip, NY Professional Communication Inc. 2016. 38
Fluids D5LR, LR, D5Normosol 3ml/kg/hr Crystalloids not Saline Goal is to reduce Salt Loading
MAP < 65mmHg 250ml of Crystalloids or colloids like voluven NOT NS after two boluses and not improved start phenylephrine
EBL over 500ml replace with colloid 1:1
Intraoperative Fluid Management High Risk Patients with Arterial Line
10/13/2018
• ASA 3 or 4 Blood loss expected 1,500 or more.
• PIV access 2 plus central line with SCVO2?
• Arterial line Placement
• Mechanical Ventilation 6ml/kg
• Non-Invasive cardiac monitoring
• Esophageal Doppler, FloTrac, LiDCO, PiCCO, TEE
• Cardiac Optimization and fluid management
Reference:Gan T, Thacker J, Miller T, Scott M, Holubar S, Enhanced recovery for major abdominal surgery. West Islip, NY Professional Communication Inc. 2016. 39
Intraoperative Fluid Management High Risk Patients with Arterial Line
Reference:Gan T, Thacker J, Miller T, Scott M, Holubar S, Enhanced recovery for major abdominal surgery. West Islip, NY Professional Communication Inc. 2016. 10/13/2018 40
EBL over 500ml replace with colloid 1:1
MAP < 65mmHg 250ml of Crystalloids NOT NS after two boluses and not
improved start phenylephrine
Fluids D5LR, LR, D5Normosol 3ml/kg/hr Crystalloids not Saline Goal
is to reduce Salt Loading
Cardiac Optimization
• Improved Cardiac Performance:
• Increased SV by > 10% from fluid bolus
• Maximize Cardiac performance and delivery of oxygen
• SCVO2 or SVO2 are you meeting the demand
• Titration of Vasopressors or Inotropic therapies
Enhanced Recovery Pathway: Elective Laparoscopic Hand Assisted Colorectal Cases
*Contraindications: Oral Carbohydrate (AM of Surgery): A1c>6.5, BMI>40, neuropathy, gastro paresis, uncontrolled GERD, large bowel prep Scopolamine: History of Glaucoma, urinary retention, psychiatric Lidocaine and Magnesium: QTC>0.45 Esmolol: SINUS BRADYCARDIA, heart block greater than first-degree, sick sinus syndrome, IV verapamil therapy, or pulmonary HTN
E. Buckley, M. Burns, T. Hickey, A. A. Taylor, & D. Voight
Phelps County Regional Medical Center Rolla, Missouri USA
Webster University St. Louis , Missouri USA
INTRODUCTION: The reduction of opioids during the postoperative period is the focus of most enhanced recovery protocols. Many of these protocols for laparoscopic colorectal surgery utilize truncal blocks such as single injection bilateral transversus abdominis plane blocks instead of low thoracic epidurals.
CONCLUSION(S) Continuous transverse abdominis plane blocks significantly decreased the opioid consumption during the postoperative period. The substitution of this modality for low thoracic epidurals could assist in decreasing opioid related complications as well as known difficulties with low thoracic epidural such as systemic hypotension, foley catheter placement, delayed ambulation, and interference with anticoagulation.
RESULT(S) The continuous TAP block group received 47% less opioids over 48 hours (p=0.031). This significant decrease was noted during the postanesthesia care unit (p= 0.049) and within the first 24 hours (p=0.006). The opioid consumption for the following 24 hours was not statistically significant (p>0.05).
METHOD(S) A retrospective chart review of elective laparoscopic colorectal procedures was performed (n=34). All patients received intrathecal morphine 200mcg, similar postoperative opioid orders, alvimopan 12 mg PO, and either bilateral single injection transverse abdominis plane blocks with 15ml of 0.5% ropivacaine on each side or continuous bilateral transverse abdominis plane blocks with the same initial bolus. Then a 0.2% ropivacaine infusion at 5ml/hr is started bilaterally for 48 hours. All opioid data was collected and converted to IV morphine equivalents utilizing GlobalRPhprogram.
OBJECTIVE(S) The purpose of this study was to evaluate the effectiveness of single injection versus continuous abdominis plane blocks on postoperative opioid consumption for 48 hours
REFERENCESA. Feldheiser. et. al. Enhanced recovery after surgery for gastrointestinal surgery, part 2: consensus statement for anaesthesia practice. Acta Anaesthesiology Scand 2016 Mar; 60(3): 289-334.
Continuous Bilateral Transverse Abdominis Plane Blocks Decrease Opioid Consumption by 47 Percent Following Laparoscopics Colorectal Surgery
Contact Information: [email protected]
Next Procedure-Outpatient Shoulder Arthroscopic Repair of Rotator Cuff
• Prior to ERAS 1:4 chance of being admitted or Emergency room visit the day of surgery.
• Respiratory Complications
• Nausea/Vomiting
• Pain
Enhanced Recovery Pathway: Shoulder Arthroscopic Procedures
*Contraindications: Esmolol: SINUS BRADYCARDIA, heart block greater than first-degree, sick sinus syndrome, IV verapamil therapy, or pulmonary HTN
PREOPERATIVE
Low volume continuous ISB. Infuse 0.2% ropivacaine 5 ml/hour with 2 ml/hour PCA until POD 3
Incentive Spirometry 7 days prior, 10 times/hour while awake
INTRAOPERATIVE
• Replace induction opioid dose with esmolol* 0.5 mg/kg. Infuse at 5-30 mcg/kg/min or bolus with 0.2 -0.5 mg/kg if hypertensive/tachycardic with surgical stimulation.
• 8 mg dexamethasone prior to incision
• 4 mg ondansetron prior to close
• 30 mg ketorolac prior to close OR, if contraindicated, 1000 mg IV acetaminophen with induction
• If patient emerges in pain, administer hydromorphone IV PRN
POSTOPERATIVE
Apply
Apply ICE to site ASAP
Advance
Advance diet as soon as patient tolerates
Administer
Administer PO pain medications as first line therapy for post operative pain
Administer
Administer hydromorphone for pain that exceeds above interventions
TOTAL JOINT ARTHROPLASTY
JOINT CAMP
01PLANNED SAME DAY TOTAL SHOULDERS AND KNEES
02GOAL AMBULATION IN THE PACU
03
Enhanced Recovery Pathway: Total Joint Replacement
*Contraindications: Esmolol: SINUS BRADYCARDIA, heart block greater than first-degree, sick sinus syndrome, IV verapamil therapy, or pulmonary HTN TXA: PE or DVT within 12 months of surgery, DVT or PE history treated with anticoagulation, congenital thrombophilia, cardiac stent/ischemic stroke w/i 12 months, creatinine >1.5, severe ischemic heart disease, history of thromboembolic or vascular disease, DIC
PREOPERATIVE
SA: Low volume continuous ISB. Infuse 0.3% ropivacaine 5 ml/hour with 2 ml/hour PCA until POD 3
THA: Single injection fascia iliaca nerve block with 15 ml 0.5% ropivacaine
TKA: Single injection I-Pack block , single injection lateral cutaneous nerve block, continuous Adductor Canal block. Infuse 0.2% ropivicaine 5ml/hour with 2 ml/hour PCA until POD 2
If CR<1.5 and no CHF, PREOP 10 mg oxycontin, 600 mg gabapentin, 200 mg celebrex
Incentive Spirometry 7 days prior, 10 times/hour while awake
Blocks
Continuous Adductor Canal
Single Injection Lateral Femoral Nerve of the Thigh.
Single Injection I-PACK
• Infiltration area between the Popliteal Artery and Capsule of the knee.
• LSU Medical Center 2017 reported a study supporting this technique on 106 patients.
• They compared Continuous Femoral Nerve block with I-PACK vs Just Femoral vs Continuous Adductor with I-PACK
• Continuous Adductor with I-Pack less opioids, shorter length of stay, and longer gait distance POD#1.
• Thobhani S, Scalercio L, Elliott C. et al. Novel regional techniques for total knee arthroplasty promote reduced hospital length of stay: An analysis of 106 patients: Ochsner Journal 2017;17 (1): 233-238.
INTRAOPERATIVE
• Replace induction opioid dose with esmolol* 0.5 mg/kg. Infuse at 5-30 mcg/kg/min or bolus with 0.2 -0.5 mg/kg if hypertensive/tachycardic with surgical stimulation.
• 8 mg dexamethasone prior to incision
• 4 mg ondansetron prior to close
• 15-30 mg ketorolac prior to close OR, if contraindicated, 1000 mg IV acetaminophen with induction
• TXA*: THA & TSA 2 grams prior to incision; TKA 1 gram prior to incision & 1 gram after tourniquet deflated
• If patient emerges in pain, administer hydromorphone IV PRN
POSTOPERATIVE
Apply ICE to site ASAP
Advance diet as soon as patient
tolerates
Administer PO pain medications as first
line therapy for post operative pain
Administered hydromorphone for pain that exceeds
above interventions
Self Assessment-
Honest Feedback
More Feedback
Elective Cesarean Sections
<4mg Morphine 1st 24 hours
Spinal anesthesia/analgesia with 0.75% bupivacaine in 8.25% dextrose and 100 mcg Duramorph
Bilateral single injection TAP blocks with 15 ml 0.5% ropivacaine
Ketorolac 30 mg IV in OR and 15 mg q 6 hours for 24 hours.
Central monitoring of ETCO2 and Pulse Oximeter for 24 hours
Future ERAS…
References
• Enhanced Recovery for Major Abdominopelvic Surgery. Gan T, Thacker J, Miller T, Scott M, & Holubar S 1st ed. 2016. The American Society of Enhanced Recovery
• For orders: 1-800-337-9838 or www.peibooks.com
• Gustafsson U. O., Scott M. J., Schwenk, W., et. al. Guidelines for perioperative care in elective colonic Surgery: Enhanced Recovery After Surgery (ERAS®) Society Recommendations. 2013; 37 (2): 259-284.
• Thobhani S, Scalercio L, Elliott C. et al. Novel regional techniques for total knee arthroplasty promote reduced hospital length of stay: An analysis of 106 patients: Ochsner Journal 2017;17 (1): 233-238.
The End