Module 8: Anesthesia (RPN20231)

Summary

This document provides an overview of anesthesia, including types, stages, phases, and complications. It covers various aspects of anesthetic care, emphasizing pre-operative, operative, and post-operative procedures.

Full Transcript

MODULE 8: Anesthesia

Suggested Readings Alexander’s Care of the Patient in Surgery (2022) Chapter 5

ORNAC Standards 2023
Section 3: Management of Perioperative Care p. 3-21; 3-114 – 3-
131
Section 4: Risk Management p. 4-11; p.4-44 – 4-47
Section 5: Exceptional Clinical Events p. 5-27 – 5-34

Learning Outcomes Understand the types of anesthesia used in the operating room.

Understand the 3 Phases of General Anesthesia.

Identify common anesthetic medications used in the operating
room.

Explain anesthetic related emergencies including malignant
hyperthermia, cardiac arrest, and latex allergy.

Anesthesia Definition

Anesthesia is a state of controlled, temporary loss of sensation or awareness that is induced
for surgical procedures. The RN will complete the pre-op patient assessment and checklist,
transport the patient to the operating room, apply non-invasive monitoring, and directly assist
the anesthetist with the induction and intubation.

Surgical Safety Checklist

Briefing: The patient is on the operating table and before induction.
Time-Out: Surgical pause before the first skin incision is made.
Debriefing: After the surgery is complete and prior to leaving the OR.

Types of Anesthesia

1. General
2. Regional/Local
3. Monitored Anesthetic Care
4. Local Anesthesia

Module 8: Anesthesia
 1. General Anesthesia (GA)

A reversible unconscious state characterized by amnesia, analgesia, depression of the
reflexes and muscle relaxation leading to a comatose, immobile state. The patient is no
longer able to breathe on their own and are intubated by the anesthetist and connected to the
anesthetic machine for mechanical ventilation. This can be achieved through inhalation or
intravenous (IV) techniques. In pediatrics, the common administration is inhalation gases
through the face mask followed by the insertion of an IV. Adults are induced with an IV but
can also have a combination of inhalation and IV medications in their phases of anesthesia.

Stages of General Anesthesia

Stage 1: Initial dose of medication to the loss of consciousness (LOC)
Stage 2: LOC to loss of reflexes (*eye lids)
Stage 3: Regular breathing pattern to cessation of breathing
Stage 4: Cessation of breathing to circulatory failure

During Stage 2, the patient is very sensitive to sound and there should be minimal auditory of
physical stimulation during this stage. This is very common in pediatrics and often thrashing
may occur.

Phases of General Anesthesia

Induction: Begins from the administration of anesthetic medications and intubation.
Continues until the patient has been positioned, prepped, and draped.

Maintenance: The patient is kept asleep during the surgery by maintenance anesthetic
medications.

Emergence: The anesthetic medications have worn off and the patient will wake up and be
extubated.

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American Society of Anesthesia (ASA) Classification

Patients are classified according to their perioperative health status.

ASA Pre-Op Health Status Example
Category

1 Normal healthy patient No physiologic complications.

2 Patients with mild systemic disease No functional limitations and well-
controlled disease.
i.e.- GERD, COPD, controlled
Hypertension or Diabetes
3 Patients with severe systemic Some functional limitation;
disease controlled disease of more than
one system: CHF, obesity, chronic
renal failure.

4 Patients with severe systemic Poorly controlled disease.
disease that is a constant threat

5 Morbid patients not expected to Not expected to survive > 24 hours
survive without surgery.
i.e.- Sepsis

6 Declared brain-dead Organ donor

Anesthetic Machines and Circuits

Anesthetic machines are designed to deliver gas mixtures of oxygen, nitrous oxide and air. The
gas mixture may contain a concentration of one of the volatile anesthetic agents. The anesthetic
is delivered through an anesthetic circuit. All expired air from the patient is “scavenged” to an
outside filter where expired anesthetic gases are removed.

Closed Circuit or Circle Systems

Rebreathing or Circle Systems have a “carbon dioxide absorber” which removes the expired
CO2 from the patient and allows them to re-breathe the expired gases.
The absorber contains a form of Soda Lyme. This is a mixture of Calcium Hydroxide (95%) and
sodium hydroxide (5%) This clear dry substance changes to a purple colour once it absorbs CO2
from the expired patient. As the filter becomes more dark purple in colour, it must be changed.

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 CO2 Absorber

Pharmacological Agents
Amnesia/Hypnotic
Diazepam (Valium)
Midazolam (Versed)

Analgesia (Opioids)
Fentanyl
Morphine

Sleep Inducing
Propofol (Diprivan)
Sodium Methohexitol (Brevtal) - very-short acting
Thiopental (Pentothal) – not common – risk of laryngospasm

Muscle Relaxants
Depolarizing Skeletal Muscle Relaxant - Succinylcholine
Non-Depolarizing SMR- Rocuronium, Pavulon

Inhalation Gases

Stored in tanks outside of the hospital and have a direct pipeline to the operating room. Each
gas pipeline has a specific colour that connects to the colour coordinated attachment on the
anesthetic machine. These gases include:
Air
Oxygen
Nitrous Oxide

Module 8: Anesthesia
Inhalation Gases come in a liquid state and pass through a vaporizer on the anesthetic
machine that changes them to a gaseous state.

*Important Note: All inhalation gases ending in “ANE” can potentially trigger a Malignant
Hyperthermia Event!

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 Inhalational Advantages and Disadvantages Comments
Gases

Oxygen O2 Used to preoxygenate patients before Induction
induction.

Nitrous Oxide Given in combination with O2 (30% Induction/Maintenance
N2O added)
Sevoflurane Very effective for mask inductions with Induction/Maintenance
children. quick inductions

Desflurane Used for ambulatory care surgeries Risk of laryngospasm

Causes increase in HR and decrease in
BP

**Airway irritant!

Isoflurane Increases HR Induction/Maintenance
Irritating odor
Provides good relaxation

Muscle Relaxants
These drugs provide relaxation and have effects on skeletal muscles and little effect on smooth or
cardiac muscle.

Skeletal Muscle Relaxants (SMR)

SMRs are a special class of drugs used in the OR for a specific purpose. They relax or paralyze
the patient, including their jaw and vocal cords. Once the vocal cords are relaxed, the anesthetist can
intubate using a laryngoscope blade to insert an endotracheal tube (ETT). These tubes and be cuffed or
uncuffed.

Note: SMRs need to be given with sleep medications (propofol), otherwise, the patient will remain
awake and paralyzed!

Module 8: Anesthesia
They provide muscle relaxation and are also used for the maintenance phase of anesthesia
during surgery. Patients coming for abdominal related surgeries will require muscle
relaxation throughout the case, so the surgeon has good visualization of the abdominal cavity
with the help of retractors.

SMR Advantages/Disadvantages Comments

Depolarizing Muscle Used for intubation Can trigger MH!
Relaxant: Very fast-acting
Short half-life (2-3 minutes) Cannot be given
Succinylcholine Causes muscle fasciculations to patients with
serum
*NO reversal agent cholinesterase
deficiency
Non-Depolarizing
Muscle Relaxants
Rocuronium Longer acting Has a reversal
Used for induction is Serum agent
Cholinesterase deficiency or known
history of MH
Used for maintenance
Pavulon Longest acting Has a reversal
Used for long cases that require muscle agent
relaxation

Reversal Agents:

Neostigmine (Prostigmine) is the reversal agent of choice. This can cause severe bradycardia
and therefore is given with Glycopyrolate to counteract the bradycardia.

ETT Intubation

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Laryngeal Mask Airway (LMA)

The LMA is also called the supraglottic airway. Placement is simple and does not require a
laryngoscope or muscle relaxant. The tube rests over the larynx and is used for short surgeries
in the supine position.

2. Regional Anesthetics

Regional anesthesia is used for specific types of surgeries and considerations of patient
populations, physiological health, pain management, length of surgery, and decreasing length of
time in PACU. Local anesthetic medication is injected anywhere along a nerve pathway of the
spinal cord which will provide anesthesia to specific regions of the body. Local anesthetic
medications include bupivacaine, lidocaine, tetracaine, and can be plain or have epinephrine
added.

Types of Regional
1. Spinal
2. Epidural
3. Upper and lower extremity blocks

Spinal Anesthesia

The anesthetist will aseptically inject local anesthetic into the subarachnoid space (L2-L5).

Module 8: Anesthesia
Epidural Anesthesia

Epidural anesthetic is a block used in a variety of procedures for pain management. A catheter
is placed before or after surgery and is used to instill analgesic medications. The epidural space
lies between the dura mater of the spinal cord. dura mater, outermost covering of the spinal
cord and wall of the vertebral column. The catheter is inserted sterily.

3. Intravenous Regional/Peripheral Blocks/Injections

This is a regional injection into or around a specific nerve or nerve group to depress the entire
sensory nervous system of a limited, localized area. This is indicated for any procedure on the
arm below the elbow or knee that will be completed in 40-60 minutes.

Bier Block

An extremity block that is safe and efficient for inducing surgical anesthesia in an extremity.
Lidocaine plain is often used.

Module 8: Anesthesia
Steps:
- IV is inserted in a distal vein in the surgical limb
- Double tourniquet is applied to the upper arm or thigh
- The arm is elevated and exsanguinated of blood with the use of an Esmark (rubber
bandage) that is wrapped around the limb
- Tourniquet is inflated to a pressure of 50mm Hg above the patient’s systolic blood
pressure
- Local anesthetic is injected in the patient’s arm
- Surgery commences
- Do NOT deflate tourniquet mid surgery! Blood will rush to the field and the
remaining local will push to the heart causing a risk of arrest

Anesthesia Complications

Aspiration

Aspiration can occur with patients during intubation and extubation. Likely this is result of
stomach contents regurgitating in the airway. Prevention is the best treatment and strict
adherence to NPO status is critical

Laryngospasm

A lower airway obstruction caused by the spasm of the laryngeal cords. This can occur from
cord stimulation (i.e. by the suction cannula) usually on extubation. Quick response time is
necessary to promote ventilation and there is a risk for reintubation if this complication occurs.

Cardiac Arrest

Perioperative Nurses working in an OR need to be familiar with:

- Location, equipment, supplies and medications in the crash cart.
- Hospital protocol for calling a code and responding to a code in the operating room.
- Your role as an RPN (scrub), assist as needed, protect your sterile table, etc.

Malignant Hyperthermia

A rare, inherited syndrome that can cause serious complications for patients undergoing a
general anesthetic. Inhalation gases and syccinylcholine are known to be triggers for MH.

Signs and Symptoms:
- Increased end tidal CO2
- Increased body temperature
- Tachycardia
- Muscle rigidity

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Treatment – MH Cart:
- Dantrolene (Dantrium)
- Normal Saline IV
- Sodium Bicarb
- Cooling mechanisms and supplies (ice, fluids)

Latex Allergy

There are two types of latex allergies: Type 1- Immediate, where hypersensitivity reactions occur
immediately after exposure and Type 2 – Delayed, where hypersensitivity reactions occur 1-2 days
post exposure and manifest as a contact dermatitis.

Patient’s who have a known allergy or sensitivity to latex should be treated with the same
precautions. This includes removing all latex supplies from the OR room (tapes, gloves, drains,
equipment) and ensuring the allergy alert sign is on the doors. Ideally, these patients should be
scheduled the first case of the day, otherwise, a full one-hour room air exchange will have to occur
between cases to ensure any potential latex remnants or particles in the air are removed. All
products used in the room will be latex free.

Hypothermia

Perioperative Hypothermia is a common complication in surgical procedures. This means that
the core body temperature is below 36 ° C. This is caused by anesthesia and heat loss due to the
surgical environment. When a patient is cold, this increases their O2 consumption and causes
pulmonary vasoconstriction. The patient will require higher doses of anesthesia as they will be
wearing off much quicker.

Preventative measures include: warming the operating room prior to patient arrival, ensuring
there are warm blankets and if applicable, apply a forced air warming blanket (Bair Hugger).

Module 8: Anesthesia