2. ROLE OF ANAESTHESIOLOGIST
Presence of anaesthesiologist may be necessary
during the conduct of several catheterisation
procedures for monitored anaesthetic care,
sedation, analgesia, general anaesthesia and
also for the resuscitation of patients if
complications arise during the procedure
5. DEPTH OF SEDATION
Minimal Sedation (Anxiolysis)
Is a drug induced state during which patients respond normally to verbal
commands.
Although cognitive function and coordination may be impaired,
ventilatory and cardiovascular functions are unaffected
6. DEPTH OF SEDATION
Moderate Sedation/Analgesia (Conscious Sedation)
is a drug induced depression of consciousness during which patients
respond purposefully* to verbal commands either alone or accompanied
by light tactile stimulation.
No interventions are required to maintain a patent airway, and
spontaneous ventilation is adequate. Cardiovascular function is usually
maintained.
7. DEPTH OF SEDATION
Deep Sedation/Analgesia
is drug induced loss of consciousness during which patients cannot be
easily aroused but respond purposefully* following repeated stimulation.
The ability to independently maintain ventilatory function is often
impaired. Patients may require assistance in maintaining a patent airway
and positive pressure ventilation may be required.
Cardiovascular function may be impaired
8. DEPTH OF SEDATION
General Anesthesia
is a drug induced loss of consciousness during which patients are not
arousable, even by painful stimulation. The ability to independently
maintain ventilatory is often impaired. Patients often require assistance
in maintaining a patent airway, and positive pressure ventilation may be
required. Cardiovascular function may be impaired
9. Emergency Equipment for Sedation
[American Society of Anesthesiologists - 2002; 96:1004–17]
• Intravenous equipment
• Basic airway management equipment
• Source of compressed oxygen (tank with regulator or pipeline supply with flowmeter)
• Source of suction
• Suction catheters [pediatric suction catheters]
• Yankauer-type suction
• Face masks [infant/child]
• Self-inflating breathing bag-valve set [pediatric]
• Oral and nasal airways [infant/child-sized]
• Lubricant
10. Emergency Equipment for Sedation
[American Society of Anesthesiologists - 2002; 96:1004–17]
• Advanced airway management
equipment
• Laryngeal mask airways [pediatric]
• Laryngoscope handles (tested)
• Laryngoscope blades [pediatric]
• Endotracheal tubes
• Cuffed 6.0, 7.0, 8.0 mm ID
• [Uncuffed 2.5, 3.0, 3.5, 4.0, 4.5, 5.0, 5.5,
6.0 mm ID]
• Stylet (appropriately sized for endotracheal
tubes)
• Pharmacologic Antagonists
• Naloxone
• Flumazenil
• Emergency medications
• Epinephrine
• Ephedrine
• Vasopressin
• Atropine
• Nitroglycerin (tablets or spray)
• Amiodarone
• Lidocaine
• Glucose, 50% [10 or 25%]
• Diphenhydramine
• Hydrocortisone, methylprednisolone, or
dexamethasone
• Diazepam or midazolam
11. WHO REQUIRE GA ?
Uncooperative children
High risk patients
Hypoxemic infants
Infants with CHF and obstructed valvular
lesion
Infants with cyanotic heart disease
12. DIFFICULTIES IN CATHLAB
• Access to the patient is difficult due to fluoroscopy equipment all around
the patient with dimmed light and movable tables.
• Patients are mostly far away during the procedure therefore long
monitoring lines,long breathing circuits, long intravenous tubings including
enttidal co2 tubing is also required.
• Anaesthesiologist must be assured easy access to the patient and in
particular to the patient’s airway.
13. DIFFICULTIES IN CATHLAB
• Interaction between the cardiologist and anaethesiologist is
necessary
• During induction and intubation one must ensure cathlab
technician moves fluoroscope from patients head so that airway
can be secured
14. FUNCTIONS OF ANESTHESIOLOGIST
Should always try to minimize the effects of anesthesia on cardiovascular
system.
Oxygenation and ventilatory management should be done according to the
diagnostic procedure as it can also influence the diagnosis particularly in
pediatric cath procedures.
Need to be well aware of access point and related complications.
Gas outlet, anesthesia machine, available medications,drugs for intubation
resuscitation should be prepared
15. EVALUATION OF THE PATIENT
• Complete diagnosis and details
regarding procedure
• Any comorbidities
• Preop vitals and physical examination
• Recent upper respiratory tract infection
• Patients level of activity
• Medication list
• Airway examination
• Investigations
• Consent
• NPO should be explained to the patient
16. MONITORING
• Standard monitoring includes ECG, noninvasive blood pressure,
pulse oximetry, and temperature
• End-tidal carbon dioxide (EtCO2) for the patients decided to be
mechanically ventilated.
17. MEDICATIONS USED
Benzodiazepenes - Midazolam, Diazepam
Narcotics - Fentanyl, Morphine
Naloxone And Flumazenil should also be available to rescue the
effects of Narcotics And Benzodiazepines.
Induction Agents - Ketamine, Propofol, Etomidate
Dexmedatomidine
18. MIDAZOLAM
• Average Dose: 1-5 mg
• Incremental Dose: 0.5-1 mg
• Time Between Doses: 3-5 min
• Onset Time: 3-5 min
• Duration of Effect: 0.5-2 hrs
• Water and lipid soluble
• Active metabolites, which are less potent
• Elimination t½; 2-4 hrs
19. FENTANYL
• Average Dose: 0.025-0.15 mg
• Incremental Dose: 0.025 mg
• Time Between Doses: 2-3 min
• Onset Time: 1-2 min
• Duration of Effect: 0.5- 1 hrs
• Elimination t1/2: 3.1-6.6 hrs
• May cause muscle rigidity
20. KETAMINE
• Hypnotic/Sedative
• Ability to protect airway reflexes with minimal effect on respiration with
preserved cardiac function.
• Increase sympathetic activity, increase SVR
• Frequently used with lesions such as aortic stenosis in which excessive
afterload reduction may be deleterious.
21. PROPOFOL
Ideal sedative drug
Short half life with rapid recovery time
Profound respiratory depression outside of a fairly narrow therapeutic window.
No analgesic activity
Decreases preload and afterload
PVR remains constant, SVR decreases ,shunt ratios decreases
Cardiomyopathies, congenital cyanotic heart lesions may be particularly
susceptible to deterioration
22. Drug’s Effects on CVS
DRUG HR CONTRACTILITY SVR PVR BP
MIDAZOLAM no no
FENTANYL no No/mild no no
PROPOFOL
KETAMINE
DEXMEDATOMIDINE no no
23. PROCEDURES IN CATHLAB
Percutaneous interventions(angiogram, angioplasty) sedation, if any comlications
like hemodynamically unstable,respiratory distress then airway management)
Percutaneous closure of septal defect TEE with endotracheal intubation is best for
these procedures
Trans catheter cardiac valve stents Although general anesthesia is commonly used,
noninvasive positive pressure ventilation and deep sedation have also been tried
successfully.
Cath study Balanced anesthesia with controlled ventilation
24. PROCEDURES IN CATHLAB
Electrophysiological studies
Most procedures under moderate sedation
If cardioversion, deep sedation
Opioids and barbiturates have been safely used in WPW syndrome
Dexmedetomidine may also interfere with electrophysiological studies as it
has shown to suppress supraventricular arrhythmias after congenital heart
surgery
High frequency jet ventilation (HFJV) has been used for atrial fibrillation
ablation to reduce chest wall and lung movements, along with reduction in
left atrial volume changes. TIVA is used for this technique
Interventional radiology TACE, biliary stenting
25. PROCEDURE CONCERNS
1. Vascular access by cardiologist: If neck approach is planned you will have
better control of the airway using LMA or ETT.
2. FiO2 concerns
3. Specifics of the procedure: diagnostic vs. invasive. if invasive, there is
always possibility of vessel rupture and uncontrolled bleeding. So have
volume expanders available and blood typed, screened and crossmatched
26. PROCEDURE CONCERNS
4. If a neck approach is used: there is possibility of hemo and
pneumothorax. If suspected these can be easily diagnosed via
chest fluoroscopy
5. Ectopy: always possible with wires and catheters in the heart
chambers. Development of the heart block is also a possibility
27. PROCEDURE CONCERNS
6. Coil embolization of the PDA: more distal embolization of the
pulmonary arteries is always a possibility
7. Balloon dilatation: rupture of the balloon is always a
possibility.
8. Coronary angiogram: thrombosis or dissection of coronary
arteries is always a possibility.
28. SUMMARY
Communication and planning in consultation with the cardiology department
can facilitate patient care in this remote location.
Always need to be alert during the procedure and should be aware of the
progress of the case all the time.
Be prepared with crash cart for all the procedures.
Minimal Sedation (Anxiolysis)
Is a drug induced state during which patients respond normally to verbal commands.
Although cognitive function and coordination may be impaired, ventilatory and cardiovascular functions are unaffected