Anesthesia for emergency surgery in hemodynamically unstable patient

Dr Ravindra Bhat MD DA DNB Ganga Hospital, Coimbatore

Hemodynamic instability

• A state requiring pharmacologic or mechanical support to maintain a normal blood pressure or adequate cardiac output

Out of range clinical measurements Perfusion Failure (Shock)

Source of Unstable Patients

• Emergency Department – Hemorrhagic • Traumatic • Non traumatic – Cardiogenic • Intensive Care – Sepsis – Pulmonary Embolectomy • Ward Patient

Anesthetic Management

• Preoperative Assessment • Laboratory Investigations • Monitoring • Induction • Maintenance • Recovery / Shifting to ICU

Preoperative assessment

• Conventional Assessments of fitness for anesthesia and surgery cannot be followed • Rapid assessment and intervention to stabilise the patient

ASSESS

Primary Survey

A B C D E DIAGNOSE TREAT

• Airway • Breathing • Circulation • Disability (Neurology) Assess Diagnose Treat If not assessed , diagnosed and treated immediately you may not have a live patient on the operating table

Airway Assessment

• Assessment of patency and anatomy • Difficult Laryngoscopy with risk of failed intubation Beware of C- Spine Injury Full Stomach

Difficult Airway - LEMON • L

ook

• E

valuate

• M

allampatti

• O

bstruction

• N

eck Mobility

Surgery Hematoma Obesity Radiation Tumor Low Threshold for Surgical Airway Assess neck for access ( SHORT)

Treat

• Simple airway maneuvers Jaw Thrust, chin lift • Simple airway adjuncts oral, nasal airways • Endotracheal Intubation – Gum elastic bougie • Surgical Access - Cricothyroidotomy

Breathing with ventilatory support

• Respiratory rate – Bradypnoea, tachypnoea • Breath sounds- 5 life threatening conditions • Oxygen saturation – very useful if signals are picked up

Anticipated problems needing intervention

1. Tension pneumothorax 2. Massive Hemothorax 3. Open Pneumothorax 4. Flail Chest 5. Cardiac Tamponade Treatment – Intercostal drain insertion Sealing of the wound Intubation & ventilation

Circulation

• Assessment of circulatory state – Pulse –Rate, Volume, character, – Cold extremities – Level of Consciousness – Blood Pressure – Potentially late sign Shock Index Heart Rate Systolic Pressure <0.7

Higher the ratio poorer the prognosis

Diagnose-5 places to look for

• External • Long bones • Chest – x ray chest • Abdomen - FAST • Pelvis and Retro peritoneum Shock in a multiply injured patient is “

hemorrhagic shock”

unless proved otherwise

Treat- Management of shock

• Stop Bleeding – – Surgical intervention / – interventional Radiology • 2 large bore canulae – peripheral – send for group, cross matching - lab • 2 litres of warm crystalloids ???

• Exsanguinating hemorrhage o -ve packed cells

Early responders

Fluid resuscitation

Transient responders Non responders Definitive surgery Damage control surgery Life Saving Surgery

Neurological

• Quick GCS • Secondary Neurological damage – Hypoxia –Hypotension – Hypercapnia Permissive Hypotension probably is not to be advocated for head injured patients

Radiology

• • •

X rays –

–

Chest

–

Pelvis

–

C Spine – lateral view FAST CT ????

Do Not Shift Hemodynamically unstable patient to Radiology Room

CT reduces time to diagnosis

CT Scanner in the Resuscitation suite

Lab

• Hb/ Hct • Screening • Sugar • Lactate • Group/ cross match • Coagulation – PT –INR – APTT

Shifting of Patients from Resuscitation Suite

• Primum Non nocere – Don’t think “ Only down the corridor” • Airway • Ventilation • Fluids and drugs • Monitoring • Check – Battery of ventilators, Oxygen cylinders, Syringe pumps • Only half way through PS – Beware of undiagnosed injuries

Positioning

• Beware – lines- tubes- bags • All are inserted as they are important – so keep them accessible • Take care of fractured limbs • Every shifting in a hypovolemic patient can cause further fall in blood pressure

May need to operate on a stretcher

Monitoring

• Basic Monitors – Pulse Oximetry, ECG, Temperature, NIBP – Invasive Arterial blood pressure-

Don’t waste time in getting an arterial line-

– can be placed after surgeons have started hemorrhage control – CVP – PCWP ??

Induction and intubation

• Modified Rapid Sequence Intubation – Manual in line stabilization of C spine – Injection of rapidly acting induction agent – Succinyl choline / Rocuronium – Cricoid pressure – Mask ventilation with 100% oxygen – Intubation with an appropriate cuffed endotracheal tube

Choice of Induction agent

In extremis Adequately resuscitated Receive standard anesthetic care Inadequately resuscitated, unstable but conscious A reduced titrated dose of induction agent Choice : Ketamine Etomidate Induction agents – inappropriate Can use muscle relaxants

Ketamine

Etomidate is available now for clinical use – Lipuro Etomidate ( Braun)

Relaxants

• Scoline ( CI- ) 1.5 mg/kg • Rocuronium – 1.2 mg / Kg

Failed intubation

• Low threshold for doing Cricothyroidotomy • Not waiting till peri arrest scenario

Failed Airway criteria BMV Maintains SpO2>90% YES

Consider

FOB iLMA Supraglottic airway Call for Assistance LMA or Combitube may be attempted while preparing for cricothyroidotomy Cricothyroidotomy NO NO Time allows and successful YES Cuffed ET in place Arrange for definitive airway

Controlled or Spontaneous ?

• No Place for spontaneous ventilation in a hemodynamically unstable - critically ill patient • Severe shock – – ↓ in blood supply to diaphragm – increased need for minute ventilation

→

Respiratory failure

Maintenance of Anesthesia

• Till hemodynamic stability is attained – Incremental dose of narcotics and low concentration of volatile agents • As the circulatory state improves dose of narcotics, volatile agents or propofol can be increased

Relaxants

• Rocuronium, vecuronium – least effect on heart • If elective ventilation is planned – Pancuronium due to vagolytic and sympathomimetic effect may an appropriate choice in shocked patient

Volatile Anesthetic of choice

• Isoflurane – sevoflurane – desflurane • Isoflurane – Impressive safety profile – Coronary steal concerns – unfounded – Hypotension – due to vasodilatation and not myocardial depression

Nitrous oxide

Many anesthesiologist world over no longer use nitrous oxide in critically ill patient

Fluid therapy - Early Phase

• Till control of hemorrhage – Fluids to maintain systolic pressure of 80 mm Hg – To reduce dislodgement of clots and prevent hypoperfusion – “PERMISSIVE HYPOTENSION”

Increased bleeding Hypoperfusion

Fluid Therapy- late Phase

• To maximise the perfusion to correct the oxygen debt • Fluid (crystalloids or colloids) to increase volume • RBCs to improve oxygen carriage • Plasma and platelets to correct coagulation • Resuscitation to be continued in the SICU –

Silver Day Concept – Lactate Clearance

• Blood Pressure, • Heart rate, • urine output • CVP • Systolic Pressure Variation Pulse Pressure Variation

Fig. 1 Changes in Arterial Pressure during Mechanical Ventilation Michard, Frédéric Anesthesiology. 103(2):419-428, August 2005.

Fig. 1. Analytical description of respiratory changes in arterial pressure during mechanical ventilation. The systolic pressure and the pulse pressure (systolic minus diastolic pressure) are maximum (SPmax and PPmax, respectively) during inspiration and minimum (SPmin and PPmin, respectively) a few heartbeats later,i.e., during the expiratory period. The systolic pressure variation (SPV) is the difference between SPmax and SPmin. The assessment of a reference systolic pressure (SPref) during an end expiratory pause allows the discrimination between the inspiratory increase (Δup) and the expiratory decrease (Δdown) in systolic pressure. Pa = arterial pressure; Paw = airway pressure.

Copyright © 2010 Anesthesiology. Published by Lippincott Williams & Wilkins.

49

Changes in Arterial Pressure during Mechanical Ventilation Michard, Frédéric Anesthesiology. 103(2):419-428, Fig. 9. How to assess the respiratory variation in arterial pressure in clinical practice. CO = cardiac output; ΔPP = arterial pulse pressure variation; PEEP = positive end-expiratory pressure; SV = stroke volume; Svo2 = mixed venous oxygen saturation; VT = tidal volume.

Copyright © 2010 Anesthesiology. Published by Lippincott Williams & Wilkins.

50

Vasopressors, Inotropes???

Use of blood

• Exsanguinating hemorrhage – ‘O’ negative packed cells – followed by group specific blood – Early use of blood products in RBC:FFP: Platelets in 1:1:1 – “

Damage Control Resuscitation

” – –

“Hemostatic resuscitation”

Hypothermia

• Core body temperature < 35°C • Causes – Coagulopathy – Acidosis – Decreased cardiac output – Arrhythmias

How far to go

Early Total Care or Damage Control • In an unstable patient - DCS – Control of Hemorrhage – Decontamination Common problem faced – Blunt injury abdomen with open fracture of femur Laparotomy done – with splenectomy Question – Do we interlock the femur or externally stabilise Do we do a debridement alone or can we a flap cover?

Answer : Hematocrit, Platelet count , coagulation status, lactate level, core temperature

To Extubate or Not

• Elective ventilation till the physiological parameters return • Premature extubation – worse outcomes When in doubt Ventilate

Transfer to the SICU

• Usually transferred by bringing the SICU cot – reduces the number of transfers • Monitors from ICU brought along with the cot • Oxygen cylinder with Bains Circuit • Take care of ICD Bags, Urobags • Handing over to the intensivist - vital

Conclusion

• Rapid assessment with resuscitation • Source control ( Bleeding, Infection) – Highest priority • In trauma crucial

Arrival to on table time

– very • Needs the services of an experienced anesthesiologist