Strabismus Clinical Trial
Official title:
Comparative Study Between Combined General Anesthesia With Peribulbar Block Versus Traditional General Anesthesia in Patients Undergoing Strabismus Surgery
Strabismus is a common ophthalmic problem in Egypt that usually requires surgical correction.
This surgery primarily aims to improve alignment of visual axis but may be required only for
cosmetic reasons. General anesthesia is mandatory for most cases however a concomitant local
anesthetics administration is preferable to improve patient satisfaction, decrease
postoperative analgesic requirements and reduce post-operative pain. Oculocardiac reflex is a
noted serious complication that accompanies such surgeries and may be life threatening.
Oculocardiac reflex (OCR) is one of the main challenges that face anesthesiologists during
strabismus surgery. The incidence of OCR varies from 16 to 82 % in strabismus surgeries and
this wide range does depend on the anesthetic agents, premedications, and the definition of
OCR being used. Maintenance of adequate depth of anesthesia and the use of anti-cholinergic
is the mainstay to reduce this risk. OCR is usually defined as a decrease in heart rate of
more than 20 % from the baseline. This reflex is triggered by the pressure on the extra
ocular muscles (EOM) or eyeball, orbital hematoma or trauma, the afferent limb is from
orbital contents to ciliary ganglion then to the sensory nucleus of the trigeminal nerve near
the fourth ventricle through the ophthalmic division of the trigeminal nerve. The main
response of this reflex is transmitted through the vagus to the heart. This vagal stimulation
leads to a decrease in heart rate (sinus bradycardia), contractility and arrhythmias such as
atrioventricular block, ventricular fibrillation up to cardiac arrest.
The incidence of the OCR decreases with age and tends to be more pronounced in young healthy
patients. It has been suggested that the anesthetic agents used during surgery influence the
incidence of OCR. To date, the only successful method to interrupt an OCR is to stop the EOM
traction, and then proceed with caution as surgery continues. Depth of anesthesia is another
presumed factor having an impact on reducing of OCR incidence.
The response to surgical stimulus can be minimized or stopped with the help of peribulbar
block.
Status | Recruiting |
Enrollment | 70 |
Est. completion date | October 14, 2020 |
Est. primary completion date | September 14, 2020 |
Accepts healthy volunteers | No |
Gender | All |
Age group | 10 Years to 50 Years |
Eligibility |
Inclusion Criteria: - Patients aged 10 years to 50 years - American society association (ASA) physical status I, II - Patient scheduled for a unilateral strabismus surgery. Exclusion Criteria: - Refusal of local anesthesia. - Contraindications of local anesthesia e.g. allergy or hypersensitivity to local anesthetics or orbital inflammation . - Pregnancy - Glaucoma - Communication barrier between physician and patient e.g. impaired hearing, impaired mental status |
Country | Name | City | State |
---|---|---|---|
Egypt | Faculty of Medicine -Fayoum University | Fayoum |
Lead Sponsor | Collaborator |
---|---|
Fayoum University Hospital |
Egypt,
Karanovic N, Carev M, Ujevic A, Kardum G, Dogas Z. Association of oculocardiac reflex and postoperative nausea and vomiting in strabismus surgery in children anesthetized with halothane and nitrous oxide. Paediatr Anaesth. 2006 Sep;16(9):948-54. — View Citation
Kosaka M, Asamura S, Kamiishi H. Oculocardiac reflex induced by zygomatic fracture; a case report. J Craniomaxillofac Surg. 2000 Apr;28(2):106-9. Review. — View Citation
Type | Measure | Description | Time frame | Safety issue |
---|---|---|---|---|
Other | Patient's age | In years | 1 hour before operation | |
Other | Patient's weight | In kilograms | 1 hour before operation | |
Other | Patient's height | In centimetres | 1 hour before operation | |
Other | Operation time | In minutes | 5 minutes after end of surgery | |
Primary | The incidence of Oculocardiac reflex . | Occurence of bradycardia with heart rate decrease by 20% from baseline value or if dysrhythmias or sinus arrest after traction on extraocular muscles | 3 minutes after traction on extraocular muscles during squint surgery | |
Secondary | Degree of post operative pain | Assessment by visual analog scale (VAS) score from 0 to 10 degree with 0 : no pain and 10: worst pain | 2 hours post operatively | |
Secondary | Degree of post operative pain | Assessment by visual analog scale (VAS) score from 0 to 10 degree with 0 : no pain and 10: worst pain | 4 hours postoperatively | |
Secondary | Degree of post operative pain | Assessment by visual analog scale (VAS) score from 0 to 10 degree with 0 : no pain and 10: worst pain | 6 hours postoperatively | |
Secondary | Degree of post operative pain | Assessment by visual analog scale (VAS) score from 0 to 10 degree with 0 : no pain and 10: worst pain | 12 hours postoperatively | |
Secondary | Degree of post operative pain | Assessment by visual analog scale (VAS) score from 0 to 10 degree with 0 : no pain and 10: worst pain | 24 hours postoperatively | |
Secondary | Incidence of postoperative nausea and vomiting (PONV) | 0: No nausea or vomiting 1: nausea or vomiting |
24 hours in the postoperative period | |
Secondary | Patient satisfaction | According to satisfaction score from 0 to 3 (0:poor,1:fair, 2:good, 3:excellent) | 2 hours postoperatively | |
Secondary | Patient satisfaction | According to satisfaction score from 0 to 3 (0:poor,1:fair, 2:good, 3:excellent) | 4 hours postoperatively | |
Secondary | Patient satisfaction | According to satisfaction score from 0 to 3 (0:poor,1:fair, 2:good, 3:excellent) | 6 hours postoperatively | |
Secondary | Patient satisfaction | According to satisfaction score from 0 to 3 (0:poor,1:fair, 2:good, 3:excellent) | 12 hours postoperatively | |
Secondary | Patient satisfaction | According to satisfaction score from 0 to 3 (0:poor,1:fair, 2:good, 3:excellent) | 24 hours postoperatively |
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