ABSTRACT
AIM: To compare diazepam use, muscle spasm, analgesia, and side effects when clonidine or fentanyl are added to epidural bupivacaine in children with cerebral palsy after multilevel orthopaedic surgery. METHOD: Fifty children were prospectively randomized to receive clonidine (n=24, mean age 10y 10mo [SD 2y 11mo]) or fentanyl (n=26, mean age 10y 11mo [SD 2y 10mo]). RESULTS: There was no difference in primary outcome measures: median diazepam use (fentanyl 0, interquartile range [IQR] 0-0; clonidine 0, IQR 0-0; p=0.46), any muscle spasm (no muscle spasms in: fentanyl, 36%; clonidine, 62%; p=0.11), painful muscle spasm (fentanyl 40%; clonidine 25%; p=0.46), or pain score ≥6 (none: fentanyl 44%; clonidine 42%; p=0.29). There were differences in secondary outcome measures: no vomiting (clonidine 63%; fentanyl 20%); vomiting occurred more frequently with fentanyl (32% vomited more than three times; clonidine none; p=0.001). Fentanyl resulted in more oxygen desaturation (at least two episodes: fentanyl 20%; clonidine 0; p<0.001). Clonidine resulted in lower mean (SD) area under the curve for systolic blood pressure (fentanyl 106.5 [11.0]; clonidine 95.7mmHg [7.9]) and heart rate (fentanyl 104.9 beats per minute [13.6]; clonidine 85.3 [11.5]; p<0.001). INTERPRETATION: Clonidine and fentanyl provide adequate analgesia with low rates of muscle spasm, resulting in low diazepam use. The choice of epidural additive should be based upon the most tolerable side-effect profile.
Subject(s)
Analgesics/pharmacology , Bupivacaine/pharmacology , Cerebral Palsy , Clonidine/pharmacology , Fentanyl/pharmacology , Outcome Assessment, Health Care/methods , Pain, Postoperative/drug therapy , Analgesics/administration & dosage , Bupivacaine/administration & dosage , Child , Clonidine/administration & dosage , Drug Therapy, Combination , Female , Fentanyl/administration & dosage , Humans , Injections, Epidural , MaleABSTRACT
In order to reduce postoperative opioid requirement, extrapleural local anaesthetic infusion dosing recommendations and guidelines for extrapleural catheter insertion were developed in our institution for 'extubatable' neonates requiring short-gap neonatal tracheo-oesophageal fistula/oesophageal atresia repair (via thoracotomy) and audited prospectively. Data audited included patient characteristics, analgesia details and ventilation duration. We divided patients into two groups: group 1 - term patients (=36 weeks gestational age) with birth-weights =2.5 kg; group 2 - pre-term patients (<36 weeks gestational age), with birth weights <2.5 kg and those with co-morbidities. There were 26 neonates in group 1 and 11 in group 2. All received extrapleural infusions of bupivacaine or levobupivacaine: the majority (90%) =300 µg.kg(-1).hour(-1) (median duration 43 hours, range 1.5 to 72 hours); 36% required morphine infusion and 39% were ventilated (median duration 34 hours, range 3 to 140 hours). In group 1, 24% required morphine infusion compared with 64% in group 2. Most group 1 patients (77%) were extubated immediately postoperatively; 20% had short duration ventilation (median 15 hours, range 11 to 37 hours); one required longer-term ventilation (231 hours). 82% of group 2 were ventilated for a median of 72 hours (range 3 to 140 hours). Review of patients' co-morbidities facilitated guideline revision. These now specify use in neonates requiring short-gap tracheo-oesophageal fistula/oesophageal atresia repair who are term at =36 weeks gestational age and =2.5 kg birth-weight, anticipated as ready for extubation either immediately or shortly after surgery.