440 likes | 957 Views
Pediatric Prehospital Pain Management: the ED perspective . Emergency Medicine Symposium October 3, 2008 Michael K. Kim, MD, FAAP Pediatric Emergency Medicine UWSMPH. Objectives . Historical model Barriers prehspital and ED Evidence based advances and future. Reference case.
E N D
Pediatric Prehospital Pain Management: the ED perspective Emergency Medicine Symposium October 3, 2008 Michael K. Kim, MD, FAAP Pediatric Emergency Medicine UWSMPH
Objectives • Historical model • Barriers prehspital and ED • Evidence based advances and future
Reference case Your 5 year old son Johnny falls off the backyard jungle gym and has a deformed arm. Patient has an IV started and receives 2 mg of morphine in route.
Issues • Head injury • Unable to obtain vital signs • Prolonged transport • morphine versus fentanyl • routes of administration • Role of accepting MD/medical control • Level of transport service • Factors for additional doses
Advancement in pre-hospital care • “scoop and run” • GTHTTH • “stay and play” • “play and run”
Pre-hospital • 14.5 million EMS transports annually • Moderate to severe pain in 20% • 50% are children • McLean SA, PEC, 2002 • Only 6 papers prehospital pain management (1980-1996) • Challenges and barriers in prehospital setting • Consent • Methodology
“Relieving discomfort may be the most important task EMS providers perform for majority of their patients.” ACEP 1997 “Relief of discomfort is the most relevant outcomes measure for majority of pre-hospital conditions” EMSOP / NHTSA 1999 Statements
In the perfect world… • Assess for circulation and sensation • Check for other injuries • Age appropriate pain assessment 8/10 • Screams with attempts to splint • Imagery, start IV, fentanyl • 5 minutes later, pain score is 3/10 • Arm is splinted with minor discomfort • Gently placed in the rig and slow ride to ED • Reassessment before ED; pain score 2/10
Time to first dose of opioid Scoop and run result in significant delay in analgesic administration.
Pain Management Barriers • Provider barriers • System barriers • Patient barriers
Survey dataHennes, et al. Prehospital Emerg Care 2005;9:32-39 • Reasons for withholding morphine in children • Inability to assess pain • Patient refusal • Drug seeking behavior • No indications for vascular access
There is given amount of pain for given injury Newborn babies do not feel pain Children have no memory of pain Children metabolize opioid differently Children may become addicted to narcotics Pain is character building Use of pain medication is sign of weakness No pain, no gain Common assumptions & attitudes
Provider barriersKim et al. 2006 NAEMSP abstract • Doubts the need for pain management • Lack of education • Pain physiology & pharmacology • Difficulty in pain assessment • Lack of easy to use assessment tool for children • Questions the validity and reliability of tools • Negative incentives • Need for an IV & difficult IV • Transport time • Work load • Negative feedback from Docs
System barriers • Lack of education • Physiology, assessment, pharmacokinetics, outcomes data • Medical control • Reluctant to provide pain meds • Ricard-Hibbon 1999 & Fullerton-Gleason 2002 • Multiple tiered system • EMT vs. paramedic
Patient barriers • No pain meds prior to ED (74%) Spedding 1999 • harmful • hospital’s responsibility • not available • 70% of adults with severe pain did not ask for pain medication Richrd-Hibbon 1999
ED physicians When should EMS provide analgesia? • based on the obvious deformity it’s so easy….just get a doctor and get the morphine • Transport time again • What if I have a little finger….put an IV in • depends too on how bad it actually looks • I think if it is obviously deformed they think they should put an IV in • Don’t they have to call the doctor if they have an IV?
ED physiciansIs prehospital pain management a benefit? • Yes • Calmer patients • Expedites evaluation • If it is grossly deformed, no problem • No • If short transport time • Unable to evaluate • If they mess up…
ED physicians Focus group summary 2004 • Not aware of pain protocols • Limited experience with prehospital pain management • Pain assessment report is rarely given • It seems easy to OD kids
Evidenced interventions • Protocol liberalization Pointer et al. PEC 2005 • Online to offline administration of morphine • 2.8% to 19% increase in MS administration • Education French et al. PEC 2005 • 3 hour educational intervention • Pain med use 20.4% to 24.5% • NP intervention 2.5% to 34.7% • Pain scores 44.5% to 95.4%
Milwaukee Prehospital Pain Management Group • ‘Impact of an educational module on prehospital pain management in children’ • Targeted Issue Grant by EMSC 2004-2007 • PAMPPER (Pain Assessment and Management for Prehospital Pediatric EmeRgencies)
Reference Case Consider following issues during the presentation Q1: Why is prehospital pain management important? Q2: Initial assessment and intervention? Q3: Best method of pain assessment? Q4: Indications for pain management? Q5: What determines the need for pain medications? Q6: What medications should be considered? Q7: Dose and route of administration?
Negative Effects of Untreated Pain • Interferes with normal bodily function • Increased metabolic rate • Interferes with clotting • Alters immune function • Emotional stress/Suffering • Anxiety (Fear of unknown) • Powerlessness • Loss of control Q1: Why is prehospital pain management important?
Pain results in a stress response • Biochemical: stress hormone release • Epinephrine and norepinephrine • Steroids, growth hormone, and glucagon • Increase metabolic rate • May cause cardiopulmonary instability • Physiologic • Tachycardia, tachypnea, BP elevation • Behavioral • Facial grimace • Physical withdraw, kicking • Crying • The response varies in every patient based on age, development, and prior experience
Pain results in a stress response • Biochemical: stress hormone release • Epinephrine and norepinephrine • Steroids, growth hormone, and glucagon • Increase metabolic rate • May cause cardiopulmonary instability • Physiologic • Tachycardia, tachypnea, BP elevation • Behavioral • Facial grimace • Physical withdraw, kicking • Crying • The response varies in every patient based on age, development, and prior experience
Pain results in a stress response • Biochemical: stress hormone release • Epinephrine and norepinephrine • Steroids, growth hormone, and glucagon • Increase metabolic rate • May cause cardiopulmonary instability • Physiologic • Tachycardia, tachypnea, BP elevation • Behavioral • Facial grimace • Physical withdraw, kicking • Crying • The response varies in every patient based on age, development, and prior experience
Pain results in a stress response • Biochemical: stress hormone release • Epinephrine and norepinephrine • Steroids, growth hormone, and glucagon • Increase metabolic rate • May cause cardiopulmonary instability • Physiologic • Tachycardia, tachypnea, BP elevation • Behavioral • Facial grimace • Physical withdraw, kicking • Crying • The response varies in every patient based on age, development, and prior experience
The evidence:Opioids decreases the stress response • Pain and its effects in the human neonate and fetus. Anand KJ. NEJM. 1987;317(21):1321-9. • A landmark publication that called into question the widely held belief that neonates do not have the neurophysiologic apparatus to experience pain • Also decreased stress response and decrease morbidity and mortality after major surgery in neonates. • Neonatal and pediatric stress responses to anesthesia and operation. Anand KJ. Int Anes Clin. 1988 ;26(3):218-25. • Benefit seen beyond neonatal period
The evidence:Effect of single painful procedure • Effect of neonatal circumcision on pain response during subsequent routine vaccination. • Taddio et al. Lancet. 1997:349(9052);599-603. • No pain management during circumcision results in increased pain response at 4-6 months later • Consequences of inadequate analgesia during painful procedures in children. Weisman et al. Arch Ped Adolesc Med 1998 • Inadequate pain management during spinal tap results in increased pain scores during subsequent procedures Q1: Why is prehospital pain management important?
Why is prehospital pain management important? • Decreases pain and suffering • Provides comfort during transport • Expedites evaluation and interventions in the emergency Department • May improve outcome
Most appropriate pain scale for 4 to 16 years • Faces Pain Scale -Revised • The Faces Pain Scale - Revised: Hicks CL et al.Pain 2001;93:173-183. • Validated in children“true representation of pain” “These faces show how much something can hurt. This face (point to the left-most face) shows no pain. The faces show more and more pain (point left to right) up to this one (point to right –most face) it shows very much pain. Point to the face that show how much you hurt now.” 0 2 4 6 8 10 Q3: Best method of pain assessment?
Pre-hospital Pain Interventions • ABCDEs first • Nonpharmacologic • Pharmacologic Q4: Interventions for pain?
Rest Ice Compression Elevate Splinting Dressing Positioning Non-Pharmacologic Pain InterventionsInjury specific Q4: Interventions for pain?
Non Pharmacologic Pain InterventionsFear and Anxiety reduction Q4: Interventions for pain?
When non-pharmacologic interventions are not enough? • Reassessment of pain • Pharmacologic intervention • Continued moderate to severe pain (score 4) • morphine sulfate • Q4: Intervention for pain? • Q5: What determines the need for pain meds? • Q6: What meds should be considered?
Pharmacologic interventions • Morphine • Gold standard • IM/IV/SQ • Fentanyl • Less hemodynamic effects • IM/IV/IN
Wisconsin pain management guideline (EMSC recommendations) • Assessment: 0-10 faces scale • Interventions: non-pharmacological • If pain score > 4, morphine 0.1 mg/kg • May repeat every 10-15 min up to 10 mg • Only if SBP > 80 in children • Fentanyl per local EMS guideline • Medical control for additional doses
Reference case Your 5 year old son Johnny falls off the backyard jungle gym and has a deformed arm. Patient has an IV started and receives 2 mg of morphine in route.
Issues • Head injury • Unable to obtain vital signs • Prolonged transport • morphine versus fentanyl • routes of administration • Role of accepting MD/medical control • Level of transport service • Factors for additional doses
Without prehospital pain management Initial evaluation by nurse and physician IV start Pain meds Radiograph With prehospital pain management Initial evaluation by nurse and physician Radiograph Emergency Department events: Patient with a fracture These 2 steps can be eliminated if patient’s pain is adequately controlled Manipulation of extremity for x-ray is Painful * ED staff may not be able to evaluate patient immediately!!! Q1: Why is prehospital pain management important?
Implications for the ED • Awareness of the EMS protocols • Confidence in EMS providers • Voice in your EMS system • Patient advocacy • Continuum of pain management
Overview • Prehospital pain management is important and needs improvement. • EMS providers need expertise of ED providers • ED providers must know the EMD protocols • Pain management is a continuum
“To cure sometimes, to relieve often, to comfort always” 15th century French description of role of physician