Anesthesia Equipment And Safety

Question 1

List 2 North American professional organizations that offer specialization in anesthesia and analgesia and summarize the aims of each.

Answer 1

1. Academy of Veterinary Technicians in Anesthesia and Analgesia (AVTAA)
   - promote interest in the discipline of vet anesthesia
2. American College of Veterinary Anesthesia and Analgesia (ACVAA)
   - define and promote the highest standards of clinical practice of vet anesthesia and analgesia and to define criteria used to designate vet with advanced training as specialists in the clinical practice of vet anesthesiology

Question 2

Anesthesia

Answer 2

Loss of sensation

Question 3

General anesthesia

Answer 3

Reversible state of unconsciousness, loss of sensation, immobility, and muscle relaxation even if presented with painful stimulus

Question 4

Surgical anesthesia

Answer 4

General anesthesia with sufficient analgesia and muscle relaxation (Plane 2, medium anesthetic depth)

Question 5

Local anesthesia

Answer 5

Disruption of sensory neurons nerve impulse = loss of sensation in a small area of the body by administering local anesthetic agent in area of interest (infiltration)
Sensory neurons - transmit nerve impulse from periphery to CNS after sensing pain/heat or cold/pressure

Question 6

Topical anesthesia

Answer 6

Loss of sensation to a localized area by administering anesthesia directly to skin/body surface
Ex. Spray lidocaine in open wound

Question 7

Regional anesthesia

Answer 7

Loss of sensation in a limited area of the body by administering agent in proximity to sensory nerve
Ex. Lidocaine/Bupivacaine Injection (Epidural)

Question 8

Epidural

Answer 8

Loss of sensation in pelvis, hindquarters (hind legs, quadriceps)
Ex. Lidocaine/Bupivacaine Injection

Question 9

Sedation

Answer 9

Drug induced CNS depression and drowsiness varying from light to deep intensity (unconscious, unaware, arousal with noxious stimulus)
Ex. Neurolept analgesia

Question 10

Tranquilization

Answer 10

Drug induced state of calm where patient is reluctant to move, unconcerned but aware of surrounding (conscious)
Ex. Trazodone, Acepromazine

Question 11

Hypnosis

Answer 11

Drug-induced sleep-like state impairing ability to response to stimuli; need proper arousal for sufficient stimulation
Ex. Propofol

Question 12

Narcosis

Answer 12

Narcotics induced sleep which patient is not easily aroused
Ex. Opioid

Question 13

What are the advantages of multimodal/balance anesthesia

Answer 13

Administer multiple anesthetics in smaller quantities - synergistic effects, minimize adverse effects
Maximizes/maintain pain control and other positive effects (muscle relaxation)

Question 14

Therapeutic Index (TI)

Answer 14

Dose range which a medication is effective without unwanted adverse effects
Anesthetics have low TI = narrow margin that can be safely administered

Question 15

List common indications for anesthesia.

Answer 15

Performing surgery, dentistry, diagnostics, wound care, transport, restraint of aggressive patients

Question 16

What are the challenges and risks with anesthesia?

Answer 16

Pulmonary and cardiac function affected by anesthesia: decreased cardiac output, hypothermia, hypoventilation, hypoxemia/hypercapnia, hypotension
constantly check vital signs, monitoring equipment, and patient

Question 17

List the qualities and abilities of a successful veterinary anesthetist.

Answer 17

High level of knowledge
Competency
Commitment
Acceptance of responsibility on the part of the anesthetist

Question 18

What is the role of a VT in communication and why do you need to communicate effectively?

Answer 18

Link between patient, client, DVM
Patient advocate
Educate clients
Relay accurate info to DVM

Question 19

Why should a preoperative patient evaluation occur?

Answer 19

Gathered info could lead to factors complicating anesthesia affecting DVM’s decision to change protocol/delay procedure

Question 20

List the parts of a minimum patient database.

Answer 20

Patient history
Signalment
Physical exam
Preanesthetic diagnostics

Question 21

How can a patient’s signalment (species, breed, age, sex, reproductive status) influence the anesthetic procedure and pain management?

Answer 21

Sensitivity to drugs (cats to opioids)
Difficult intubation (bracycephalic)
Slow metabolism, recovery (neonates)
Estrous cycle and pregnancy status (drugs cross placental barrier)

Question 22

How would you gather a patient’s history?

Answer 22

Ask open-ended, non-leading questions
Eating, drinking, defecation, urine, behavior, vomiting, regurgitation, coughing, sneezing (duration, volume/severity, frequency, and appearance)
Medications/vaccine status/preexisting medical history

Question 23

What factors influence anesthetic procedures or pain management?

Answer 23

Dehydration - ↑ hypotension, poor tissue perfusion
Anemia - hypoxemia
Bruising - clotting disorder
Respiratory/Cardiovascular dz- anesthetic complications
Enlarged liver, small kidneys - ↓ metabolism, inability to excrete anesthetic agents
Ear mites/infection, fleas, overgrown nails, impacted anal glands - co-treated during surgery
Physical abnormalities - retained testicle = complex case

Question 24

List the abnormalities associated with signlament critetia.

Answer 24

Eating - hyporexia/anorexia
Drinking - polydipsia/hypodipsia/adipsia
Defecation - tenesmus (frequent defecation)/diarrhea
Urine - pollakiuria/polyuria/oliguria/anuria
Behavior - pain/exercise/intolerance/syncope

Question 25

What is the rationale for obtaining an owner consent form? What needs to be discussed with the owner?

Answer 25

Law – obtain client’s consent
Correct patient
Cost estimate
Discuss procedure risks, fasting & CPR status
Extra Label Drug Use
Contact information

Question 26

What are the normal vital signs for dogs?

Answer 26

Psys(mmHg): 90-140
HR(bpm): 60-180
Respiratory Rate: 10-30, pant
Heart Rhythm: NSR/SA
Temp: 100-102.5°F
SPO2: 95-100%
MAP: 70-100 mmHg
MM: pink, pale pink, pigmented
CRT: <2 sec
ETCO2: 35-45 mmHg (<55 mmHg anesthetized)
<5% dehydrated (skin turgor, MM, enopthalmos)

Question 27

What are the normal vital signs for cats?

Answer 27

Psys(mmHg): 80-140
HR: 120-240 bpm
Respiratory Rate: 15-30
Heart Rhythm: NSR
Temp: 100-102.5°F
SPO2: 95-100%
MAP: 70-100 mmHg
MM: pink, pale pink, pigmented
CRT: <2 sec
ETCO2: 35-45 mmHg (<55 mmHg anesthetized)
<5% dehydrated (skin turgor, MM, enopthalmos)

Question 28

How can a patient’s body weight affect selection of anesthesia?

Answer 28

Dose of anesthesia = based on lean body weight/exclude fat

Cachexia – sensitivity to barbiturates, risk of hypothermia
Obesity – compromised cardiovascular system & functional lung volume

Question 29

What are some tasks during preanesthetic preparation?

Answer 29

1. Obtain sample & run diagnostics
   Minimum diagnostics: PCV/TP, BUN, ALT
2. Stabilize conditions – dehydration, anemia
3. Place an IV cather
4. Know fasting status & administer prescribed premedication

Question 30

What are the 5 patient physical status classifications as specified by the American Society of Anesthesiologists?

Answer 30

PS1 - Minimal risks/Normal,healthy pt criteria/OVH (elective) conditions
PS2 - Low risks/ Mild systemic disease criteria/Conditions-Neonates, Mild Dehydration
PS3 - Moderate risks/severe systemic disease criteria/ Conditions-Anemia, Organ disease, dehydrated
PS4 - High risks/ Severe life-threatening disease criteria/ conditions- Hemorrhage, pyometra
PS5 - Extreme risks/ Moribund – life saving operation criteria/ Conditions- Pulmonary embolus, GDV

Question 31

What is the recommended withholding time for food and water for various species?

Answer 31

Dogs and cats: 8-12 hours (food)/2-4 hours (water)
Horses: 8-12 hours (food)/0-2 hours (water)
Cattle: 24-48 hours (food)/8-12 hours (water)
Small ruminants: 12-18 hours (food)/8-12 hours (water)
Neonates and pediatric patients: none for both

Question 32

Why would an IV catheter be advisable for anesthetized patients?

Answer 32

• Maintain blood volume & pressure
• Rapid drug administration
• CRI: slow continuous infusion by syringe pump to maintain drug/anesthesia effect
• Administer vesicants – damaging to tissue when injected perivascularly

Question 33

Why is fluid administration indicated for anesthetic procedures? How does anesthesia affect blood homeostasis?

Answer 33

Anesthetic agents cause
• Negative inotropy - ↓ force of muscle contractions (bradycardia, ↓ cardiac output)

• Vasodilation – vessels relax ↑ intravascular volume (hypotension, decrease tissue perfusion)

IV fluids ↑ circulation blood volume & cardiac output
Dehydration depletes ECF fluid
Hemorrhage depletes IV fluid

Question 34

Perform an infusion rate calculation.

Answer 34

lb x 1kg/2.2lb x mL/(kg/hr) x 1hr/60min x 1min/60sec x gtt/mL

Macrodrip Set = 10-15gtt/mL
(>100mL/h, >10-20kg patients)

Microdrip Set = 60gtt/mL
(<100mL/h, <10-20kg)

Question 35

Replacement Fluid

Answer 35

↑ Na⁺ and Cl⁻ (replace fluid in ECF = ideal for dehydration)

Question 36

Maintenance fluid

Answer 36

↓ Na⁺ and Cl⁻, ↑ K⁺ (maintain fluid balance longer period, similar to TBW)

Question 37

Balanced

Answer 37

Osmolarity similar to ECF

Question 38

Isotonic
Hypertonic
Hypotonic

Answer 38

Isotonic: osmolarity similar to plasma
Hyper: > plasma osmolarity (cell shrink)
Hypo: < plasma osmolarity (cell swell)

Question 39

Crystalloids (LRS, Norm-R, Plasmalyte, NS, D5W)

Answer 39

Fluid composed of water, small solutes (electrolytes), +/- dextrose & buffers routinely used for healthy anesthetized patients

Question 40

Isotonic Replacement Solution (LRS, Plasmalyte, Norm-R)

Answer 40

• Water, electrolytes, ± dextrose & buffers
• Routinely used for anesthetized patients
• Standard Rate: 10mL/kg/h for first hour then 3-5 mL/kg/h

Question 41

Normal Saline (0.9% Sodium Chloride)

Answer 41

• Flush cavities, catheters, blood transfusion (Addisonian patient)
• More acidic than isotonic replacement & maintenance fluids
• Can cause hypokalemia if not supplemented

Question 42

Dextrose (D5W)

Answer 42

• Mixed with isotonic replacement solution
• Rapidly metabolized as CO₂ & H₂O
• For treatment of hypoglycemia, diabetes
• Contraindicated for shock/hemorrhage

Question 43

Hypertonic Saline (7.2% NaCl)

Answer 43

• Treatment of hypovolemic shock (↓ plasma)
• Temporary treatment for hemorrhage
• Treat ↑ intracranial pressure, hyponatremia
• 4-5 mL/kg (dogs) & 2-4 mL/kg (cats) given slowly (> 5 minutes) to prevent hypotension, bradycardia

Question 44

Colloids (Vet Starch: synthetic, blood products)

Answer 44

Treatment
- Hypotension, shock
- Severe anemia (pRBC)
- Hypoproteinemia, coagulation disorder, thrombocytopenia (low platelet)

Can cause volume overload, reaction, coagulation disorder

Question 45

What are signs and patients at risk for volume overload?

Answer 45

Patients
<5kg, cats, history of cardiac/renal disease

Signs
Ocular & nasal discharge
Swelling of conjunctiva
Subcutaneous edema
↑ lung sounds, RR, dyspnea

Question 46

What is hemodilation and patients at risk?

Answer 46

Dilution of plasma proteins and RBC seen in anemic and hypiproteinemic patients

Question 47

What is the advantage of endotracheal intubation?

Answer 47

Administer O2 & inhalant anesthetics
Maintain open airway
CPR

Question 48

Describe the function and use of anesthetic masks.

Answer 48

Plastic/rubber; rubber gasket to create seal

Indication: Anesthesia induction & maintenance, rapidly delivery of oxygen
Use exclusively for small mammals

Contraindiction: Doesn’t maintain open airway, protect from pulmonary aspiration & allow for manual ventilation

Question 49

Describe the function and use of each component of an anesthetic chamber.

Answer 49

Clear acrylic/plastic box with removable top; ports deliver fresh gas & remove WAG

Indication: Induce general anesthesia in small animals that cannot be physically restrained

Contraindiction: Requires close monitoring of patient, ↑ WAG exposure

Question 50

Describe the basic operation of an anesthetic machine.

Answer 50

Liquid anesthetic vaporized in carrier gas delivered to a patient by breathing circuit

• Controlled oxygen flow rate
• Precise concentration of iso/sevoflurane
• Remove CO2 /exhaled gas by scavenging system.
• When recirculate gas - filter CO2 out

Question 51

What are the four basic anesthetic machine systems?

Answer 51

1. Compressed gas supply
2. Anesthetic vaporizer – vaporizes liquid inhalant mixing it with carrier gas
3. Breathing circuit – delivers fresh gas, remove CO2 (rebreathing & non-rebreathing)
4. Scavenging system – remove WAG

Question 52

Trace the flow of oxygen through an anesthetic machine and patient breathing circuit for a rebreathing circuit.

Answer 52

Rebreathing (>7kg)

1. Tank (tank pressure gauge 2,200psi)
2. Pressure reducing valve (line pressure gauge 50psi)
3. Flowmeter (15psi, adjust 0-4L/min) → Vaporizer inlet port
4. Vaporizer → Vaporizer outlet port → Fresh gas inlet
5. Inspiratory Unidirectional Valve → Inspiratory Tube →
   Y piece → ETT
6. ETT → Y-piece → Expiratory Tube → Expiratory Unidirectional Valve
7. CO2 canister → Pop-off valve/pressure manometer → Reservoir bag
8. Fresh gas inlet & Scavenger (CO2 gas)

Question 53

Trace the flow of oxygen through an anesthetic machine and patient breathing circuit for a non-rebreathing circuit.

Answer 53

Non-rebreathing (<7kg)

1. Tank (tank pressure gauge 2,200psi)
2. Pressure reducing valve (line pressure gauge 50psi)
3. Flowmeter (15psi, adjust 0-4L/min) → Vaporizer inlet port
4. Vaporizer → Vaporizer outlet port
5. ETT (fresh gas inhaled by patient)

Bain Coxial Circuit – various Mapleson classification
6. Fresh gas inlet → ETT
7. ETT → RB & pressure manometer → Overflow valve
8. Scavenger

Question 54

Explain the use of the oxygen supply of an anesthetic machine, including safety concerns associated with compressed gas cylinders.

Answer 54

• Ensure oxygen supply is on (START OF DAY)
• Close valve (E tank), purge gas line (END)

Safety
- Flammable carrier gas
- Turning on E tank, ensure attached to yoke
- Support tank when standing
- Safety measures in place - color coded, PISS

Question 55

Describe the function and use of each component of a compressed gas cylinder/oxygen tank.

Answer 55

Contains carrier gas (O2 / N2O – rarely used)

• Small E Tank: attaches to fitted yoke (safety)
• Large H Tank: chained to wall

Valves control flow: “Righty tighty, lefty loosey”

Question 56

Describe the function and use of a tank pressure guage (B).

Answer 56

Indicates amount of gas in task (2200 psi – full)

LE = PSI x 0.3 (660L – full)
LH = PSI x 3 (6600L – full)

Change tank when <500psi (150L)

Question 57

Describe the function and use of the pressure reducing valve (C).

Answer 57

Reduced pressure of gas leaving tank 40-50 psi carried through source lines

Question 58

Describe the function and use of the line pressure guage.

Answer 58

Indicates pressure in intermediate pressure gas line (40-50 psi when O2 on)

Will continue to register pressure until line is purged (depress oxygen flush valves/turn flowmeter to high rate of flow until gas is vented)

Question 59

Describe the function and use of flowmeters.

Answer 59

Reduce pressure to 15psi

Control flow rate 0-4L/min, read ‘center’ of ball

Question 60

Describe the function and use of oxygen/fast flush valve.

Answer 60

Quickly infuse oxygen in breathing circuit

• Rapidly fill reservoir bag, deliver oxygen to ill patient, dilute out anesthetic gas using short burst
• Only use in nonbreathing system when pop-off valve is OPEN = ↑ pressure to lungs, atelectasis(partial/collapsed lung)

Question 61

Describe the function and use of a vaporizer.

Answer 61

Holds liquid anesthetic added in a controlled amount into carrier gas entering from the flowmeter to vaporizer inlet port

Fresh gas exits through vaporizer outlet port → fresh gas inlet (breathing circuit entrance)

Question 62

Non-precision vaporizer
Vaporizer in circuit (VIC)

Answer 62

Uncommonly used – used on discontinued inhalants (Methoxyflurane) with low vapor pressure that does not readily evaporate

VIC – carrier gas O2 enters breathing circuit, bypassing vaporizer

Question 63

Precision vaporizer
Vaporizer out of circuit (VOC)

Answer 63

Used with high-vapor-pressure anesthetics, each vaporizer must be filled with the specificied inhalant calibrated for it

VOC – O2 from flowmeter passes to vaporizer before entering breathing circuit

Question 64

Identify factors that affect anesthetic vaporizer output.

Answer 64

Temperature: hotter room ↑ vaporized anesthetic than indicated in dial = patient receives more (newer vaporizer compensates for change)

Gas flow rate: ↑ O2 flow rate = ↑ anesthetic in uncompensated vaporizer. >10L/<250mL

RR/RD: affects VIC/nonprecision vaporizer
Back pressure: ↑ pressure at vaporizer outlet port manual bagging & flushing O2 valve

Question 65

Explain differences between a rebreathing and a non-rebreathing system with regard to equipment, gas flow, advantages, disadvantages, and indications for use.

Question 66

Explain the advantages and disadvantages of closed and semi-closed rebreathing systems.

Answer 66

Closed/Total Rebreathing – LA anesthesia
• Pop-off valve nearly/completely closed
• Low flow rate, CO2 buildup, ↑ pressure
• Same volume added that is consumed by patient (difficult to achieve, requires constant monitoring)

Semi-closed rebreathing – commonly used in SA anesthesia
• Pop-off valve partially open
• More oxygen than patient requirement

Question 67

Describe the function and use of unidirectional inspiratory and expiratory valve.

Answer 67

Attachment for corrugated breathing tube – attached together at Y piece to connect to ETT

Controls gas flow to circular path

Used to monitor respiration – valves will flatter for inspiratory valve only during inhalation & vise versa

Question 68

Describe the function and use of air intake/negative pressure relief valve.

Answer 68

SAFETY MECHANISM - admits room air into in the circuit during negative pressure = inability of lungs to fill with air → hypoxemia

Can be incorporated on top of inspiratory valve

Question 69

Describe the function and use of the CO2 canister.

Answer 69

“Scrub” CO2 from the gas coming from expiratory unidirectional valve before returning expiratory gases to the patient

Change every 6-8 hours or when 30-50% of granules changed color (violet, off-white) or brittle

Capnograph will read close to 0mmHg during inhalation when granules changed

Question 70

Describe the function and use of the pop-off valve (pressure relief, overflow, adjustable pressure valve)

Answer 70

Allows fresh gas to exit to scavenger

SAFETY MECHANISM – partially open to prevent buildup of pressure in system

Closed during manual ventilation/bagging

Question 71

Describe the function and use of the reservoir/rebreathing bag.

Answer 71

Reservoir for expired air that patient can rebreathe

Monitor respiration – partially deflate (inspiration), expand (exhalation)

Monitor ETT placed in trachea – move synchronously

Provide manual ventilation

Question 72

Describe the function and use of the pressure manometer.

Answer 72

Measure pressure in breathing circuit = pressure in patients lungs

0-2cm H₂O – open pop off valve, spontaneous breathing

20 cm H₂O/15mmHg (SA) – normal assisted ventilation

30-35 cm H₂O – GDV, open chest

Question 73

State the sizing guidelines for reservoir and corrugated breathing tube.

Answer 73

Breathing Tube
• Pediatric (15mm diameter): 2.5-7kg
• SA (22mm): >7kg
• LA (50 mm): >20kg

Reservoir bag (50mL/kg = bag size in mL, round ↑)
• 500 mL ≤3kg
• 1L 4-7kg
• 2L 8-15kg
• 3L 16-50kg
• 5L 51-150kg

Question 74

Explain the procedure that should be followed to prepare an anesthetic machine for use.

Question 75

Explain the impact of oxygen flow rates on anesthetic concentration within the breathing circuit, changes in anesthetic depth, patient safety, and waste gas production.

Answer 75

Based on VT 10mL/kg x RR 10-20bpm, circuit, anesthetic period, mask/chamber

RSC – more economical, Δ depth slower, air warmed & humidified, vent WAG based on O2 flow rate

Question 76

List oxygen flow rates for each common domestic species, breathing system, and period of an anesthetic event.

Answer 76

N-R (semi-open): 100-200mL/kg/min
N-R (open): 300-400mL/kg/min
RSC induction, recovery: 50-100mL/kg/min (max 5L/min)
RSC induction maintenance: 20-40mL/kg/min – low flow
Mask: 1-3L/min (≤10kg), 3-5L/min (>10kg)
Chamber: 5L/min

Question 77

Performing anesthetic machine maintenance.

Answer 77

Adjust pressure reducing valve (40-50psi)
Flowmeter: do not overtight when closing
Vaporizer – serviced; emptying q 6-12hr old inhalants
Hoses: check holes, defects
Unidirectional valve: diassemble & clean
Pop-off valve: check periodically still operational
RB, breathing tube, Y-piece: disconnect & clean each part

Question 78

Performing anesthetic machine leak test.

Answer 78

Low pressure system test (non-rebreathing): test lines between flowmeter & Y-piece

1. Turn on oxygen tank
2. Close pop-off valve & occlude Y-piece
3. Turn on flowmeter to 3-5L/min, use oxygen flush valve to fill RV. Pressure manoter = 30 cmH2O
4. Turn off flowmeter, pressure manometer should rop

Question 79

Identify recommended exposure limits (RELs) for waste anesthetic gases.

Answer 79

National Institute for Occupational Safety & Health (NIOSH) <2ppm (Isoflurane, Sevoflurane), <0.5 (with N2O)

OSHA no limit, ensure NIOSH standards met

Question 80

List the factors that affect waste gas levels in a veterinary hospital.

Answer 80

↑ Waste Anesthetic Gas (WAG)
Duration – longer procedures
O2 flow rate – higher flow rate
Improperly maintained/leaking anesthetic machine
No scavenger
Mask/chamber induction & maintenance
Improperly ventilated room(15-21 air change/hour) Spills

Question 81

Describe the short-term and long-term effects of waste anesthetic gas on persons working in health care environments.

Answer 81

Short Term
Fatigue, Headache, Nausea, Drowsiness

Long term
Reproduction, kidney/liver/CNS & bone marrow disorder – toxic metabolites

Question 82

Describe procedures and practices used to minimize waste gas release.
Compare and contrast active and passive scavenging systems and describe the four components of a scavenging system.

Answer 82

Scavenging system remove >90% WAG – attaches to popoff/overflow valve

Active: suction from vacuum draw gas into scavenger (more costly, maintenance)

Passive: positive pressure ‘push’ gas into activated charcoal canister (weigh & date; +50g, >12h= dispose)

Question 83

Explain how waste anesthetic gases are monitored.

Answer 83

Check periodically/concerns for increased levels/odors, pregnant anesthesists

Occupational hygienist check ventilation & scavenger
Measure air samples with infrared spectrometer

Passive dosimeter – comes uncapped, worn, capped after exposure & returned to OSHA for analysis

Question 84

Identify hazards associated with use of compressed gas cylinders.
Describe proper procedures for handling, storing, and transporting compressed gas cylinders.

Answer 84

Gas cylinders = fire hazard, pressurized

• Turn on cylinders when connected to anesthesia machine, wearing PPE (goggles), turning valve slowly
• Store upright position
• Move cylinders using dolly, secured before release
• Label tanks, separating empty & full

Question 85

Identify hazards from potent injectable agents.
Outline the precautions necessary for handling potentially hazardous injectable agents.

Answer 85

Skin, eye, oral exposure from inhalants & injectables
(sedation/disorientation, respiratory depression)

• PPE (gloves, goggles)
• Carefully load (Luer lock, tight needle)
• Avoid needle sticks, recapping
• Use sharps container to dispose
• When exposed provide immediate first aid, call emergency hotline

Question 86

Pain

Answer 86

Aversive sensory & emotional experience that elicit protective motor action (biting), avoidance (fear) & alters species-specific traits (social behavior)

Question 87

Nociception

Answer 87

CNS & PNS processing a noxious stimuli (chemical, thermal, mechanical that can cause tissue damage) activating nociceptors and their pathways

Question 88

List the main steps of the pain pathway.

Answer 88

1. Transduction: nociceptors process noxious stimuli (depolarization of pain neurons)
2. Transmission: conduction of sensory impulses through the spinal cord
3. Modulation: neurons amplify (send to brain)/suppressing (release of local endogenous opioids) impulse
4. Perception: brain process pain → reaction (withdrawal, vocalization, aggression)

Question 89

Physiologic pain

Adaptive pain

Acute pain

Answer 89

Protective sensation occurring when there is actual/possible tissue injury (avoiding fire)

Promotes survival to prevent further injury/promote healing

Immediately occurs when tissue is damaged resolving once tissue is healed

Question 90

Pathological pain

Maladaptive pain

Chronic pain

Answer 90

Prolonged & exaggerated pain Malfunction/damaged nociception from constant noxious stimualtion – mediators released ↓ pain threshold ↑ sensitivity

No function, just causes suffering & difficult to treat

Pain after tissue healed (weeks-years) or tissue not healing (cancer)

Question 91

Pain Origin:
Inflammatory pain
Neuropathic pain
Visceral pain
Somatic pain (superficial/deep)
Idiopathic pain

Answer 91

• Occurs at site of tissue injury from release of chemical mediators
• Injury to nervous system (nerve damage)
• Organ pain (pleuritis)
• Musculoskeletal pain (skin, bones)
• Unidentifiable cause of pain

Question 92

Analgesia

Preemptive Anesthesia

Answer 92

Use of pharmaceuticals to relive/avoid pain

Analgesia is usually provided prior to an anticipated painful procedure to prevent windup & reduce requirement for post-op analgesics

Question 93

List the consequences of untreated pain.

Answer 93

• Catabolism
• Distress (extreme stress)
• Immune Suppression
• Inflammation = Delayed Wound Healing
  ↑ anesthetic risk = increase dose
• Neuroendocrine change (release corisol)
  ↑ myocardial consumption = arrhythmia
  ↑ morbidity, mortality

Question 94

How does primary and secondary analgesia develop?

Answer 94

As an aftermath of pathologic pain
- Peripheral Hypersensitivity: ↑ sensitivity to pain (painful to touch fractured wrist)

• CNS Hypersensitivity/Windup: manifestation of allodynia area close to site of tissue injury is
  painful if stimulated with a non-noxious stimulus (touching forearm of fractured wrist)

Question 95

What are symptoms that may indicate an animal is painful? (Physiological)

Answer 95

Cardiovascular: hypertension, tachycardia, tachyarrhythmia, peripheral vasoconstriction (pale mucosae)
Respiratory: tachypnea, shallow breathing (abdominal or thoracic guarding), exaggerated abdominal component, panting (dogs), open-mouth breathing (cats)
Ophthalmic: mydriasis

Question 96

What are symptoms that may indicate an animal is painful? (Behavior)

Answer 96

• Hiding, seeking attention, stoic, staring
• Change in gait, limping, exericse intolerance
• Uncomfortable, prayer position
• Vocalizing, aggression
• Glazed, squinting (cats)
• Unkempt apperance

Question 97

List common surgical and medical conditions that are considered to be painful.

Answer 97

Medical Conditions: arthritis, cancer, cystitis, pancreatitis, peritonitis, pleuritis
Surgical Conditions: spinal surgery, fracture repair, total hip replacement, joint surgery, ear surgery, dental extractions, rhinotomy or sinus surgery, trauma, eye surgery, thoracotomy, gastric dilation-volvulus, colon tension, pyometra

Question 98

Examples of pain assessment tools.

Answer 98

• Descriptive scale (mild, moderate, severe)
• Visual analogue number line (no pain – worst)
• Numeric (0=no pain, 1=mild..) CSU pain scale
• Categorical numerical scale - assign numerical value to categories, ↑ score = more painful
• Validated scale – descriptors assigned points with high scores requiring analgesia