Patient Monitoring

INTRODUCTION TO PATIENT MONITORING In ANESTHESIA PROF. AMIR B.CHANNA FFARCS KKUH, RIYADH

Monitoring: Definition Word Monitor is from Monere means warning ... interpret available clinical data to help recognize present or future mishaps or unfavorable system conditions ... not restricted to anesthesia (change “clinical data” above to “system data” to apply to aircraft and nuclear power plants )

Why monitoring anesthetized patients ? Anesthetic agents - cardiopulmonary depressants Homeostasis Patient’s response to (physio & pharma & Surgical) interventions Proper function of anesthetic equipment

Detecting Mishaps Using Monitors 1. Disconnection 2. Hypoventilation 3. Esophageal intubation 4. Bronchial intubation 5. Circuit hypoxia 6. Anesthetic overdose 7. Hypovolemia 8. Pneumothorax 9. Air Embolism 10. Hyperthermia 11. Aspiration 12. Acid-base imbalance 13. Cardiac dysrhythmias 14. IV drug overdose Source: Barash Handbook These mishaps …

Patient Monitoring and Management Involves … continual or continuous Things you measure (physiological parameters & their measurement, such as BP or HR) Things you observe (e.g. observation of pupils) Planning to avoid trouble (e.g. planning induction of anesthesia or planning extubation) Inferring diagnoses (e.g. unilateral air entry may mean endobronchial intubation) Planning to get out of trouble (e.g. differential diagnosis and response algorithm formulation)

What should be monitored ? Circulation (cardiovascular) Ventilation (respiratory) Oxygenation (cardiorespiratory) Maintain adequate tissue perfusion with oxygenated blood

Monitoring in the Past Finger on the pulse

Monitoring in the Past Visual monitoring of respiration and overall clinical appearance Finger on pulse Blood pressure (sometimes)

Harvey Cushing Not just a famous neurosurgeon … but the father of anesthesia monitoring Invented and popularized the anesthetic chart Recorded both BP and HR Emphasized the relationship between vital signs and neurosurgical events ( increased intracranial pressure leads to hypertension and bradycardia )

Concept Development CRRT Infusion Devices Physiological Monitoring Ventilation

Monitoring in the Present Standardized basic monitoring requirements (guidelines) from the ASA (American Society of Anesthesiologists), CAS (Canadian Anesthesiologists’ Society) and other national societies Many integrated monitors available Many special purpose monitors available Many problems with existing monitors (e.g., cost, complexity, reliability, artifacts)

ASA Monitoring Guidelines STANDARD I Qualified anesthesia personnel shall be present in the room throughout the conduct of all general anesthetics, regional anesthetics and monitored anesthesia care.

ASA Monitoring Guidelines STANDARD II During all anesthetics, the patient’s oxygenation, ventilation, circulation and temperature shall be continually evaluated. http://www.asahq.org/publicationsAndServices/standards/02.pdf

“ The only indispensable monitor is the presence, at all times, of a physician or an anesthesia assistant, under the immediate supervision of an anesthesiologist, with appropriate training and experience. Mechanical and electronic monitors are, at best, aids to vigilance. Such devices assist the anesthesiologist to ensure the integrity of the vital organs and, in particular, the adequacy of tissue perfusion and oxygenation.” CAS Monitoring Guidelines

The following are required : Pulse oximeter Apparatus to measure blood pressure , either directly or noninvasively Electrocardiography Capnography , when endotracheal tubes or laryngeal masks are inserted. Agent-specific anesthetic gas monitor , when inhalation anesthetic agents are used. CAS Monitoring Guidelines

The following shall be exclusively available for each patient: Apparatus to measure temperature Peripheral nerve stimulator , when neuromuscular blocking drugs are used Stethoscope — either precordial, esophageal or paratracheal Appropriate lighting to visualize an exposed portion of the patient. CAS Monitoring Guidelines

The following shall be immediately available: Spirometer for measurement of tidal volume. CAS Monitoring Guidelines

Detecting Mishaps with Monitors Pulse oximeter Mass spectrometer Capnograph Automatic BP Stethoscope Spirometer Oxygen analyzer EKG Temperature 1,2,3,4,5,8,9,11,14 1,2,3,6,9,10,12 1,2,3,9,10,12 6,7,9,14 1,3,4,13 1,2 5 13 10 Source: Barash Handbook … are detected using these monitors

Basic Monitoring Cardiac : Blood Pressure, Heart Rate, ECG ECG : Rate, ST Segment (ischemia), Rhythm Respiratory : Airway Pressure, Capnogram, Pulse Oximeter, Spirometry, Visual Cues Temperature [pharyngeal, axillary, esophageal, etc.] Urine output (if Foley catheter has been placed) Nerve stimulator [face, forearm] (if relaxants used) ETT cuff pressure (keep < 20 cm H 2 O) Auscultation (esophageal or precordial stethoscope) Visual surveillance of the anesthesia workspace and some exposed portion of the patient

How to monitor circulation? Palpation, auscultation Arrhythmia, ECG Blood pressure Doppler ultrasound flow detector Automated oscillometric devices

How to monitor oxygenation ? Blood gas analysis (PaO 2 ) Pulse oximetry (SaO 2 ) Oxy-hemoglobin saturation Hemoximetry Oxy-hemoglobin Met-hemoglobin Carboxy-hemoglobin

How to monitor ventilation ? Arterial blood gases PaCO 2 ,PaO 2 Capnography End-tidal CO 2 Respiratory Rate Respirometry Tidal volume, minute volume

Capnography Metabolism Circulation Ventilation Anesthetic equipment function Capnometer (no capnogram) Only one normal shape

Visual Surveillance Anesthesia machine / workspace checkout Patient monitor numbers and waveforms Bleeding/coagulation (e.g., are the surgeons using a lot of suction or sponges? ) Diaphoresis / movements / grimaces Line quality ( is my IV reliable ?) Positioning safety review Respiratory pattern (e.g. tracheal tug, accessory muscle use etc.)

Low Tech Patient Monitoring Manual blood pressure cuff Finger on the pulse and forehead Monaural stethoscope (heart and breath sounds) Eye on the rebreathing bag (spontaneously breathing patient) Watch respiratory pattern Watch for undesired movements Look at the patient’s face color OK? diaphoresis present? pupils

Typical display. Perceptible output?

High Tech Patient Monitoring Examples of Multiparameter Patient Monitors

High Tech Patient Monitoring Some Specialized Patient Monitors BIS Depth of Anesthesia Monitor Evoked Potential Monitor Transesophageal Echocardiography

Special Monitoring Pulmonary artery lines (Swan Ganz) Transesophageal echocardiography Intracranial pressure (ICP) monitoring Electrophysiological CNS monitoring Renal function monitoring (indices) Coagulation monitoring (e.g. ACT) Acid-base monitoring (ABGs) Monitoring depth of anesthesia__BIS

Alarms Purpose: Alarms serve to alert equipment operators that some monitored variable or combination of variables is outside some region Motivation: recognition of limited attentiveness capability in humans, even under good operating conditions

Airway / Respiratory Axis Correct ETT placement ETT cuff pressure Airway pressure Oxygenation Ventilation Spirometry Pulmonary biomechanics Airway gas monitoring Clinical: wheezing, crackles, equal air entry, color, respiratory pattern (rate, rhythm, depth, etc.)

Circulatory Axis Cardiac output Input pressures (CVP, LAP) Output pressures (BP, PAP) Pacemaker: rate, conduction Cardiac contractility Vascular resistances (SVR, PVR) Intracardiac shunts

Depth of Anesthesia Clinical Signs eye signs respiratory signs cardiovascular signs CNS signs EEG monitoring Facial EMG monitoring (experimental) Esophageal contractility (obsolete)

CNS Monitoring Clinical: sensorium, reflexes, “wake up test” Electroencephalography: raw EEG, compressed spectral arrays (CSA), 95% spectral edge, etc. Evoked potentials (esp. somatosensory EPs) Monitoring for venous air emboli Intracranial pressure (ICP) monitoring Transcranial doppler studies (MCA flow velocity) (Research) Jugular bulb saturation (Research) Cerebral oximetry (Research)

Relaxation Axis Clinical Signs +/- Nerve Stimulator Mechanomyography Electromyography Piezoelectric methods Special methods (e.g. DBS)

Temperature Monitoring Rationale for use detect/prevent hypothermia monitor deliberate hypothermia adjunct to diagnosing MH monitoring CPB cooling/rewarming Sites Esophageal Nasopharyngeal Axillary Rectal Bladder

Electrolyte / Metabolic Axis Fluid balance Sugar Electrolytes Acid-base balance Nutritional status

Coagulation Monitoring Clinical signs PT / PTT / INR ACT Platelet counts Factor assays TEG

Monitoring Neuromuscular Function Mechanomyography Measures tension Resting Tension Reg’d Cumbersome setup Gold standard

Monitoring Neuromuscular Function Electromyography Cpd. AP represents sum of motor units More muscles accessible Good correlation with tension

Monitoring Neuromuscular Function Accelerometry f = m X a No resting tension reg’d Again reliable !

Monitoring Neuromuscular Function Kinemyography Datex M-NMT Motion sensor ? Reliability? Hemmerling and Donati A&A 95,1826-27,2003

Monitoring Neuromuscular Function Phonomyography Detection of muscle contraction with a microphone Research only Corrugator supercilii- same sensitivity as diaphragm

Monitoring Neuromuscular Function REQUIREMENTS OF A STIMULATOR Multiple modes of stimulation Battery powered and charge indicator Constant current,voltage variable output Adjustable and monitored current output Monophasic square wave pulse (0.2-0.3 msec) At least 50mA of output current Audible or LED indicators of output

Monitoring Neuromuscular Function TOF (Train of Four)

Why are mobile technologies important to students?

Who is the Critical Patient? Trauma Post-operative Cancer Septic Pancreatitis Pyometra GDV Seizure Severe Gastroenteritis Heart failure Hemorrhage Immune-mediated disease. Renal failure Liver failure And the list goes on…….

8 Axes of Clinical Anesthesia Monitoring (A Conceptual Model) Axis I - Airway /Respiratory Axis II - Circulatory / Volume Axis III - Depth of Anesthesia Axis IV - Neurological Axis V - Muscle Relaxation Axis VI - Temperature Axis VII - Electrolytes / Metabolic Axis VIII - Coagulation

Cardiac Monitoring Methods Symptoms and signs: eg, angina, diaphoresis, mental state Finger on the pulse: rate, rhythm, pulse “volume” Auscultation: rate, rhythm, murmurs, extra sounds Electrocardiogram : rate, rhythm, ischemia Pulse oximeter waveform: rate, rhythm Blood pressure: cuff, oscillotonometry, art. line Volume Status: low-tech, high-tech

Patient Monitoring

More Related Content

What's hot (20)

Viewers also liked (10)

Similar to Patient Monitoring (20)

More from Khalid (20)

Patient Monitoring

Editor's Notes