Transcript TRAUMA
Used to design public policy, legislation and injury prevention programs Gathers Data such as › › › › › › › Incidence Prevalence Age Sex Race/Ethnicity Geographic distribution Morbidity and Mortality Trauma is a disease that remains the leading cause of death for all Americans Regardless of gender, race or economic status Leading Cause of death for ages 1-45yrs › (see chart pg 234) 1-3 yrs= MVA › Due to unrestrained/ or improperly restrained 15-24= Accidents related to Drugs and Alcohol › Due to poor judgment and risk-taking behavior Age 16-19= MVA › Due to inexperience, lack of seatbelt usage, etoh with driving 75+= “injuries” › Due to frailer health, pre-existing conditions, Falls (most common cause in 65+ age group) › Drivers 65+ have the highest death rate, per mile driven (except for teenagers) › More likely to sustain a C-Spine injury Race Gender Males are 2.5 times more likely to be injured than females › Related to their participation in hazardous activities, and greater risk taking The Auto vs Ped, and MVA death rate is 2x higher across the life span compared to women African American- Homicide, MV (65+), and auto/ped White/Native American- Suicide Hispanic- Pedestrian, Homicide Fire Arms Alcohol Geography –Urban vs Rural Chronology- Weekends and Holidays Beware of Adrenaline- pt may at first appear uninjured MOI- What is the Mechanism Of Injury, and does the injury match? Trauma Team Criteria? A-Airway B-Breathing C-Circulation D-Disability E-Exposure/Environment F-Full Vitals, Family G-Give comfort measures H- Head to Toe/ History I-Inspect Posterior Surfaces Trauma Assessment http://www.youtube.com/watch?v=Lc dLqfdIkFc Alert (minor) Ejection Death in same pass space Extrication <20min Falls <20ft Rollover w/ injury Auto Ped/Bike <5mph Ped thrown or run over MCA <20mph Age >59 with blunt injury to chest/abd › Children <5yrs › 2 long bone Fx › Pregnancy 23wks + › › › › › › › › › Activation (major) › GCS <13 › Airway Compromise Intubated PTA › BP <90s Age specific in kids › Penetrating injuries to head, › › › › neck, torso, and extremities prox to elbow and knee Traumatic Full Arrest Paralysis Amputation prox to wrist and ankle Bone Injury: Pelvic FX, open skull › Transferred receiving blood › MD discretion Treatment of trauma patients depends on identifying all injuries and rapidly intervening to correct those that are “life threating” Consideration of mechanisms of injury is essential to identifying patients with possible underlying injuries who require further evaluation and treatment Leading Cause of Death and permanent disability- considered a MAJOR public health problem 2 million people every year › 8x more than cancer, 34x more than HIV 50,000 deaths, 200,000 hospitalizations, 1million ER visits $60 billion in costs in 2000 › Average lifetime cost per survivor $111,578 › Average cost per fatality $454,717 Injuries can occur to the skull, brain, soft tissues, vascular structures, and cranial injuries Mechanism are varied › Car crashes, sports, falls, penetrating wounds › High risk behaviors include ETOH abuse, drugs Classified by: Mechanism › Blunt or Penetrating Severity › Mild, Moderate or Severe Type › Fracture, focal brain injury, diffuse brain injury GCS is 14-15 › Usually discharged after short observation Normal pupils, may be asymptomatic, intact orientation/memory Eg: Scalp Lacerations GCS 9-13 › High potential for increased ICP Associated with Structural injury/damage May require more frequent monitoring Eg: Contusion GCS- 8 or less › Associated with Severe structural damage High mortality rate Usually have long term or permanent cognitive and physical disabilities › Aggressive initial management to ensure adequate oxygenation and preventing HTN is essential A reaction to a change in any one of the 3 fixed brain volumes › Brain, CSF, or blood If not immediately corrected will compromise cerebral blood flow Normal ICP is 0-15, greater than 20=intracranial hypertension Early S/S ~ HA, N/V, ALOC, pupils sluggish Late S/S ~ Pupils fixed/dilated, arousable only to deep stimuli (gcs <8), posturing, temperature changes › Cushings Triad (High blood pressure, bradycardia, irregular resp rate) Treatment › › › › › › › Monitor ABC’s Prepare for intubation (propofol) Medicate with benzo’s Mannitol? Decrease stimulus Consider insertion of ICP monitor Decrease metabolic demands of the brain Maintain normal temperature Maintain normal glucose Prevent seizures (Dilantin) Linnear skull fracture Non-displaced, most common type, usually benign Depressed skull fracture › Damages underlying brain tissue and vessels by compression or laceration. May precipitate seizures Basilar skull fracture › May occur in anterior, posterior or middle fossa. Leads to infection, hematoma, CSF leakage, SZ › S/S ~ ALOC, pupil change, CSF leak, Battle sign, Raccoon eyes, change in mentation Change in mentation or combative behavior, is hallmark › Avoid nasal intubation or NGT Bruise on the surface of the brain Occurs from movement of the brain within the skull Coup and Contrcoup S/S are ALOC, N/V, vision changes, weakness, and speech deficit Collection of blood between skull and dura Usually r/t laceration of the middle meningeal artery assosciated with a temporal or parietal skull fracture Mortality is 50% S/S ~ Initial period of unconsciousness, lucid interval (5 min-6 hrs), rapid unconsciousness, unilateral fixed or dilated pupils, Cushing’s Triad TX: prepare for evacuation/OR Collection of blood between dura mater and subarachnoid layer Usually caused by trauma Usually venous, therefore a slower bleed S/S ~ HA, drowsiness, confusion, steady decline in LOC, unilateral fixed and/or dilated pupils TX: ABC’s, prep for OR (most successful if done within 4hrs of injury) Collection of blood between arachnoid mater and the pia mater Caused by aneurysm rupture, AV malformation. › Aneurysm can be caused by valsalva, sexual activity, heavy lifting, or excitement Usually 40-60 y/o. 12% die before reaching hospital, 30% that survive have severe neurologic deficits S/S ~ › “Worst headache of my life” › Accompanied by N/V or sudden seizure › Meningeal signs (fever, nuchal rigidity) Traumatic, reversible neurological event when there is a temporary loss of consciousness and retrograde amnesia S/S ~ dizziness, N/V, loss of memory of event CT to r/o bleed Education to return if s/s Widespread disruption of neurologic function without any focal lesions noted S/S › › › › immediate LOC lasting days-months May see posturing Loss of brain stem reflexes (no gag/cough) HTN, hyperthermia, excessive sweating TX: ABC’s prepare for intubation, mannitol Damage of spinal cord tissue r/t penetrating trauma, fracture, or dislocation Most often in males 15-35 y/o Costs: $218-741,000 for first year with lifetime cost just under $3,000,000yr! Sensory Dermatomes Observe for obvious signs of Spinal injury, including deformity of the vertebral column, cervical edema, and wounds Ventilatory pattern may indicate spinal injury Can they feel pain, or move arms and legs? Priapism Spinal fluid leakage Inspection Palpation Diaphoretic above level of injury › Indicates sympathetic injury (above T4) Poikilothermic- assumes temperature of surroundings › Hypothermia Sensory status- sharp or dull Sacral and Perineal sensations Entire column should be palpated for pain, tenderness and step-off deformity *use log-roll technique* 3view XR- must see C7-T1 junction Swimmers View- Open Mouth view › Used for C1,C2 views CT-“Recons” › Done at same time as Chest/Abd CT MRI- used for suspected Cord injury › Not good at bony injuries › SCIWORA (Spinal Cord Injury without Radiologic Abnormality) Methylprednisolone- reduces biochemical responses when given within 8hrs of injury › Suspected to cause infection, PNA, decub etc. Foley- for incont, or to monitor output NG/OG with intubation Warming blanket/fluids- pt can’t thermoregulation Hypothermia??? Halo/cervical tongs- provides c/s traction When complete spinal cord injury occurs, all motor and sensory function below the level of injury is lost › Immediate onset S/S: Flaccid paralysis, a-reflexia, bowel/bladder dysfunction, disruption in thermoregulation › Neurogenic shock (above T6) s/s include sypathetic NS causes Bradycardia and Hpotension • Results from hyperextension • Bowel and bladder fx intact • Results from disruption of the anterior spinal artery • Can feel vibration, touch, and pressure • Posterior cord syndrome light touch impaired by not lost Results from Hemisection of the cord Most common from penetrating injury Ipsilateral (same side) paresis or hemiplegia and total loss of function Contralateral (opposite side) has decreased sensation to pain and temperature changes Complication of injury at or above T6 Life Threating injury- occurs when sympathetic stimulation leads to massive uncontrolled cardiovascular response Common Causes: Full bowel or bladder at the time of injury S/S › sudden severe HA › HTN › sweating › flushing above level of injury › coolness below level of injury › Anxiety › Blurred vision TX-ABC’s, raise HOB, identify cause, foley Some of the most life threatening injuries Have a lot of concurrent injuries Pulmonary System Cardiovascular System ABC’s Auscultation of lung sounds Inspect chest wall integrity Ultrasound (FAST Scan) of heart and lungs Chest Wall Injuries Most common type of blunt chest injury S/S – SOB, localized pain with movement, chest wall ecchymosis or contusion Bony crepitus Usually does not require treatment other than pain meds Elderly may need admission Defined as fractures in 2 or more adjacent ribs in 2 or more places, or bilateral detachment of the sternum from costal cartilage. Usually associated with Massive crush injury, high speed MVC. Will see paradoxical movement to affected area YouTube - Flail Chest Decreased incidence with increased use of seatbelts, shoulder restraints and air bags › Usually caused by steering wheel impact, sporting injury or falls Increased potential for cardiac or pulmonary injury Result of severe crush injury to the thorax › Long period of time, such as being pinned Pathology: › Direct increase in thoracic and superior vena cava pressure from the injury › Combined with closure of the glottis S/S › Severe cyanosis of face and neck › Subconjunctival and retinal hemorrhages › Transient LOC, SZ, or blindness Pulmonary Injuries Rare and Life threating Caused by “clothesline” type injuries Females with long narrow necks are predisposed s/s: › Hoarseness, stridor, hematoma, ecchymosis, tenderness, sq emphysema, crepitus, or loss of landmarks Tx: › NPO, HOB 30-45degrees, O2, ETT, Tracheostomy Accumulation of air in the pleural space S/S – SOB, tachycardia, tachypnea, decreased or absent breath sounds on the injured side, chest pain Chest tube is indicated for PTX of usually greater than 10% Needle decompression or chest tube insertion “sucking chest wound” › May see bubbles or hear a “hissing” sound Usually result of penetrating chest wound Apply 3 sided dressing, allowing air out but not in If penetrating object still in place *DO NOT REMOVE* Life threating Accumulation of air in one pleural space forces thoracic contents to the opposite side of the chest › Air can get in but not out Immediate needle decompression is required An accumulation of blood in the pleural space S/S – SOB, Tachypnea, chest pain, decreased breath sounds TX – chest tube with suction. May need to consider autotransfusion or O.R. YouTube - Chest Tube Insertion..! Potentially leathal 75% of pts with chest injury › 40% mortality Contusions occur when underlying lung parenchyma is damaged, causing edema and hamorrhage Tx: › Semi-fowlers, suction, ETT (for severe hypoxia) › Usually improve in 3-5 days Potentially life threatening injury S/S – SOB, difficulty swallowing, abd pain, bowel sounds heard in the lower to middle chest, decreased lung sounds on injured side Cardiac and Great Vessel Injury Collection of blood in pericardial sac S/S- Hypotension, tachycardia or PEA, SOB, cyanosis › Beck’s Triad ~ Hypotension, JVD, muffled heart tones http://www.youtube.com/watch?v=T1LbBxxwjak Immediately fatal in most cases, usually die at the scene Dx done by CXR Caused by penetrating or blunt trauma S/S ~ hypotension, decreased LOC, chest pain, decreased quality of femoral pulses Significant source of morbidity and mortality Patients usually have a lot of pain and high risk for bleeding Peritoneum Solid Organs › Liver, spleen, gallbladder Hollow organs › Stomach, Bowels, Bladder Reproductive Organs › Uterus, ovaries, penis, testes Vascular Structures › Abdominal Aorta History Mechanism › Blunt, Penetrating, MVA Auscultation › Abdominal quadrants Palpation › Start away from area of pain Foley › Check for bleeding first and do rectal for prostate placement NG/OGT › When to use NG vs OG tubes Wound Care Medications › Pain, ABX Diagnostics › XR, CT, FAST, MRI, ANGIO, DPL, Labs Associated with fractures to 11th and 12th ribs S/S ~ LUQ abd pain, left shoulder pain, abd wall rigidity. Severe injuries require surgery Scaled 1-5 (p308) RUQ abd pain, abd wall rigidity, rebound tenderness Can have diffuse right shoulder pain Occur in less than 1% of trauma injuries Assess for Seatbelt Sign S/S ~ peritoneal irritation manifested by abd wall muscle rigidity, pain, hypovolemic shock, gross blood from rectum Triple contrast CT http://www.youtube.com/watch?v=FXto TrLuFj8 Most common is blunt contusion S/S Gross or microscopic hematuria Flank or abd tenderness Ecchymosis over flank area 1-5 Levels (pg310) › 1=Minor, 5=Major Bones › Cancellous (spongy) Skull, vertebrae, pelvis, ends of long bones › Cortical (dense) Long Bones Ligaments & Tendons- connect bones together Joints › Nonsynovial (non-movable) › Synovial (freely movable) ABCs Stabilize and control bleeding Assess for edema, deformity, abrasion, laceration, puncture Focused neurovascular › Pain, pulses, paralysis, parasthesia, pallor (5p’s) ASAP Soft splints (pillows), hard splints (fiberglass), Traction splint (reduce angulation) Neurovascular checks pre and post Elevate and Ice after splint Immediate treatment required for following› Open Fracture › Pulseless extremity › Compartment syndrome › Hemorrhaging Affects 60-80% of population beginning at ages 30-40 May be chronic or acute Concern is to R/O serious injury/disease Red Flags › Trauma, age >50, fever, cancer, muscle weakness or inability to move, loss of sensation, weight loss TX ~ Rest, Ice, NSAIDS, usually resolves Loss of anatomical position of 2 bone surfaces Medical emergency due to risk for nerve and blood vessel damage Usually requires conscious sedation Affects shoulder, ankle, patellar, elbow High incidence of recurrence Specific mechanisms or historical facts may be suggestive of certain types of dislocations, such as lightning injuries, electrical injuries, and seizure with posterior dislocations throwing a ball or a punch or forceful pulling of the arm with an anterior dislocation axial loading of an extremely abducted arm with inferior dislocation. General trauma assessment must be completed to r/o other injury (distracting) Extremity exam (PMSC) › Pulse, Motor, Sensation, Cap refill S/S ~ pain, deformity, edema, spasm, numbness, tingling, crepitus TX: Immobilze, splint, pain meds, ice, elevate Considered contaminated because of possibility of foreign materials Graded from 1-3 Patient will require pain meds, antibiotics, and tetanus prophylaxis Usually are in surgery for copious irrigation within 24 hours Need to know history of injury Straight or guillotine cut has best replantation potential Contraindications include: de-gloved, mangled, crushed body part, or mishandling of body part Consider transfer to re-implantation center For body part › Gently lift of contaminates (no soap, no betadine, no peroxide) › Wrap in saline soaked gauze and place in dry plastic bag and seal › Place bag on top of ice › Avoid submersion in ice water and avoid dry ice Caused by prolonged entrapment or crushing blow Cellular destruction and damage to vessels and nerves make crush injuries difficult to treat 6 P’s › Pain › Pallor › Paresthesias › Pulses › Pressure › Paralysis Steinman Pin › Provides temporary reduction of long bone fx’s, until open reeducation or internal fixation can be done Casts › Place splint if severe swelling expected Clean skin well prior to placement Education pt to look for compartment syndrome and not to scratch inside cast Crutches › Proper fit is key Cane › Minimal assistance Walker Wheelchair › May be used temporarily until ambulation therapy or training complete Principle facial bones include frontal, nasal, maxilla, zygoma, and mandible ABCs › Mandibular fx may cause tongue to be displaced blocking the airway › Remove dentures or other foreign bodies Suction secretions Palpate facial structures Check vision and perception Obvious deformity or inury Repair Lacerations within 8-12hrs › Unless combative- wait until more cooperative Road Rash › Debridement done asap Hematomas › Should be drained and dressed to prevent scaring Avulsions › May require plastic surgery followup Mainly R/T MVA, altercations S/S › Pain, tenderness (often referred to ear) › Inability to open mouth (trismus) › Malocclusion › Ruptured TM or blood behind TM › Numbness to lower lip TX: › Assure airway clearance › Prep for OR › Possibly wiring of the jaw in the ED “Blowout” fracture Usually caused by ball, baseball bat, or other blunt blow High risk for nerve and tissue damage/entrapment S/S › Double vision, facial anesthesia, pain, limited vertical eye movement, enopthalmos TX › Ice to area › ABC’s/CSP › Instruct not to blow nose › Pain meds, antibiotics › Prep for OR ~ usually a few days after once swelling has gone down Mainly R/T MVA, altercations Sometimes presented with orbital fx S/S ~ pain, assymmetry of the face, flattened cheek, epistaxis, double vision, numbness to cheek TX: ABC’s, ice, eventual OR R/T MVA, assaults Classified into “LeFort” 1, 2, or 3 › LeFort 1 ~ transverse detachment of entire maxilla above teeth at level of nasal floor › LeFort 2 ~ fracture of midface that involves a triangular segment of the mid face and nasal bones › LeFort3 ~ complete separation of the cranial attachments from the facial bones S/S › Facial edema › Nasal swelling › Malocclusion › Nasal swelling › CSF rhinorrhea (II, III) LUNCH