Spinal anesthesia for preterm infants undergoing inguinal hernia repair.

HYPOTHESES: Use of spinal anesthesia is safe and effective in an outpatient population of preterm infants undergoing inguinal hernia repair (IHR) and eliminates routine postoperative hospital admission for apnea monitoring. METHODS: From October 1982 through October 1997, all preterm (gestational age [GA], < or =37 weeks), high-risk (preterm infants whose postconceptual age at surgery [PCAS] is <60 weeks) infants undergoing IHR with spinal anesthesia were studied prospectively. No exclusions were made for preexisting conditions. Elective IHRs and incarcerated hernias were both considered. A postoperative apnea rate was calculated and compared with published postoperative apnea rates in preterm infants after receiving general anesthesia. RESULTS: For 269 IHRs performed, 262 spinal anesthetic placements (97.3%) were successful in 259 infants; 246 placements were achieved on the first attempt and 16 on the second. The mean GA was 32 weeks (GA range, 24-37 weeks); mean PCAS, 43.7 weeks (PCAS range, 33.4-59.3 weeks); and mean birth weight, 1688 g (weight range, 540-3950 g). Two hundred six patients (78.6 %) did not require supplemental anesthesia; 56 (21.4%) did: 34 received intravenous anesthesia; 6, general; 12, local; and 4, other regional. One hundred fifty-three infants had a history of apnea. Thirteen episodes of apnea were noted in 13 infants (4.9%) following the 262 procedures; all 13 were inpatients undergoing concomitant therapy for apnea (mean GA, 28 weeks; PCAS, 42.9 weeks). Four of these infants received supplemental anesthesia. This apnea rate is significantly lower than the published rate (10%-30%) (P = .01). One hundred three infants underwent IHR on an outpatient basis, 39 of whom had a history of apnea. None of these developed apnea postoperatively. The mean birth weight of this group was 2091 g (weight range, 710-3693 g); mean GA, 33 weeks (GA range, 25-37 weeks); and mean PCAS, 44.3 weeks (PCAS range, 35.4-59.2 weeks). All 103 patients were discharged home the day of surgery. Average time from room entry to incision was 26.3 minutes, which is similar to anesthesia induction time for patients receiving general anesthesia. Average time from bandaging to leaving room was 1 minute, less than usual time for patients receiving general anesthesia. CONCLUSIONS: Spinal anesthesia is safe, effective, and eliminates the need for postoperative hospital admission in an outpatient population of preterm infants undergoing IHR. This results in considerable cost savings without compromising quality of care.

Combined spinal and epidural anaesthesia for major abdominal surgery in infants.

PURPOSE: Subarachnoid anaesthesia is becoming increasingly popular in neonates and infants. However, single dose spinal anaesthesia is of limited value for major abdominal surgery in infants due to its short duration of action and inability to provide analgesia in the post operative period. A new technique of combined spinal and epidural anaesthesia for major abdominal surgery in the infant is described. METHODS: Data were gathered prospectively from 19 infants presenting for upper and lower abdominal surgery. Anaesthesia was induced with a subarachnoid injection of tetracaine. After the subarachnoid block was established, an epidural catheter was placed for further intraoperative and postoperative management. Data collected included age and weight of the patients, type and duration of the surgical procedure. Doses of local anaesthetics as well as the need for intraoperative and postoperative supplements were recorded. An illustrative case report is provided. RESULTS: Infants studied represented a wide range of weights (1520-7840 g). Spinal anaesthesia was successful in all 19 patients. A variety of extensive surgical procedures including small bowel resections and various genitourinary procedures were successfully performed. In 17 patients a functioning epidural catheter was in place postoperatively. In these patients effective analgesia was maintained with dilute solutions of epidural bupivacaine. Only three doses of narcotic were required for pain control. No patient required postoperative mechanical ventilation or tracheal intubation. CONCLUSION: Combined spinal and epidural anaesthesia is a potential option to general anaesthesia for major abdominal surgery in infants.

High spinal anaesthesia for repair of patent ductus arteriosus in neonates.

General anaesthesia with high dose narcotics has traditionally been used for repair of patent ductus arteriosus (PDA) in high risk neonates. Spinal anaesthesia in infants has generally been limited to cases involving the lower abdomen and lower extremities. Regional anaesthesia for PDA repair could potentially offer a more rapid recovery and the possibility of blunting the stress response in this vulnerable group of patients. High spinal anaesthesia with tetracaine was utilized as an alternative to general anaesthesia in a series of fifteen consecutive patients. Patient demographics, medication dosages, level of anaesthesia, intraoperative and immediate postoperative data were obtained and recorded in a prospective fashion. Spinal anaesthesia was achieved in all patients. The average dose of tetracaine was 2.4 mg.kg-1. Two patients early in the series had an inadequate level and received supplemental isoflurane. The remainder of the patients received either no or minimal supplementation to the basic technique. Cardiovascular status of the group was very stable with minimal changes in blood pressure noted. Recovery was rapid. All three patients who were not intubated at the time of surgery were extubated soon after surgical repair was completed. No complications of the technique were noted. High spinal anaesthesia is a safe and effective alternative to general anaesthesia in high risk neonates. This technique may offer the advantage of a faster recovery time and a protective effect on the neonatal stress response. In addition the stability of this technique may encourage the use of higher levels of spinal anaesthesia in infants than has traditionally been used.

Spinal anesthesia for spine and lower extremity surgery in infants.

More premature infants are now surviving because of advances in perinatal care. Premature infants often have congenital anomalies requiring operative correction and are at increased risk for developing postoperative apnea. The purpose of this study was to review our results with spinal anesthesia in infants. Twenty-two infants (average age at operation, 11 weeks) had spinal anesthesia for surgery to the spine or lower extremities. One patient with bilateral developmental dysplasia of the hip had staged operations 1 month apart. Twelve infants (55%) were considered to be at increased risk for general anesthesia. The spinal anesthetic was 1% tetracaine made hyperbaric with 10% dextrose (tetracaine dose, 0.5 mg/kg). Spinal anesthesia was successful in all 23 cases. The average follow-up was 4 years, 1 month, and no complications were attributed to the spinal. Spinal anesthesia is a safe and effective substitute for general anesthesia in infants having spinal and lower extremity operations and is particularly beneficial for high-risk infants.

Continuous thoracic epidural infusions for postoperative analgesia after pectus deformity repair.

PURPOSE: To determine whether continuous epidural analgesia after repair of a pectus deformity is a viable and safe alternative to high-dose narcotics in children. METHODS: Data were collected prospectively for 19 children (4 to 17 years of age; 15 boys, 4 girls) who underwent pectus excavatum (14) or carinatum (5) repair between June 1, 1991 and July 1, 1994. Seventeen had a thoracic epidural catheter placed for postoperative pain control and two did not. The epidural catheter was routinely plead preoperatively by the anesthesiologist at the T3-T8 level, after induction of general anesthesia. Epidural catheters were test-dosed with local anesthesia alone or in combination with fentanyl, and afterward a continuous epidural infusion was maintained on the floor. Postoperative pain was assessed by nursing and house staff on the Wong-Baker scale, with adjustment of the dose rate or analgesic medication as appropriate. RESULTS: All patients had extubation before leaving the operating room and were sent to the general pediatrics ward after leaving the recovery room. The average duration of the epidural was 69 hours (range, 20 to 116 hours). Sixteen patients received their test epidural dose preoperatively, and one patient had his in the recovery room. Fifteen epidural initially were dosed with bupivicaine (1 to 2 mg/kg) alone or in combination with fentanyl (1 to 2 micrograms/kg). Two patients received initial doses of lidocaine (1 to 1.5 micrograms/kg). Ten of 17 patients received fentanyl (1 microgram/kg/h) with bupivicaine (0.5 to 1.0 mg/kg/h) in the epidural as their maintenance medication, and the remainder received bupivicaine alone at the same dosage rate. Eight of 17 patients required additional intermittent supplemental narcotics, with an average of two doses of intravenous morphine per day (0.1 mg/kg) over the first 3 postoperative days. In contrast, the two patients who did not have an epidural catheter for pain control required high-dose intravenous morphine (0.2 mg/kg) every 2 to 3 hours for the first 3 to 4 postoperative days. No catheter-related complications occurred. CONCLUSION: Thoracic epidural analgesia was completely successful in nine (53%) children who underwent repair of pectus deformity, and effectively reduced the intravenous narcotic demand in the other eight. Pain control was excellent, and no catheter-related complications were encountered. The data show that this method of analgesia in children is a safe and attractive alternative to intravenous narcotics, and eliminates the potential disadvantages of sedation and respiratory compromise.

Spinal anesthesia for repair of meningomyelocele in neonates.

The use of spinal anesthesia for meningomyelocele repair in neonates has received minimal attention. Spinal anesthesia may lessen the stress response to surgery and decrease postoperative respiratory complications. We therefore examined the efficacy of spinal anesthesia in 14 neonates requiring repair of lumbar or sacral meningomyelocele. All neonates were positioned prone with a small chest roll. Hyperbaric 0.5% tetracaine with epinephrine was injected into the caudal end of the meningomyelocele sac. If necessary, supplemental tetracaine was administered directly into the intrathecal space by the surgeon during the operation. Blood pressure, heart rate, and oxyhemoglobin saturation were measured throughout surgery. Neonates were monitored with transthoracic impedance apnea monitors, electrocardiogram (ECG), and pulse oximetry for 36 h after surgery. Spinal anesthesia was successful in all cases. Seven patients received one supplemental tetracaine injection; one patient received two supplemental injections. Arterial blood pressure decreased an average of 5 mm Hg with the largest decrease being 10 mm Hg. Two postoperative respiratory events occurred in the first 8 h after surgery. Both neonates had received intraoperative midazolam for sedation. Neurologic function was assessed pre- and postoperatively. Twelve patients had no change in neurologic function after surgery, while two infants demonstrated improved function. We conclude that spinal anesthesia can be safely used for meningomyelocele repair.

Spinal anesthesia for primary repair of gastroschisis: a new and safe technique for selected patients.

Spinal anesthesia has been described for infants and premature babies undergoing minor operative procedures. The advantages of shorter operating time, avoidance of intubation, and shorter hospital stay have made this the gold standard for premature and other high-risk infants requiring minor procedures. However, little is known about this technique for major interventions in newborns and preterm infants. Recently, four infants born with gastroschisis underwent repair under spinal anesthesia. Two had accompanying intestinal atresia (one with a prenatal perforation and pan-hypopituitarism), and two had intact gastrointestinal systems. The gestational ages were 39, 33, 36, and 36 weeks, respectively. All had primary closure of the defect; one had no repair of the atresia because the bowel was thick and matted with a significant peel, and the defect was not identified. In the second case with atresia, necrosis and perforation of a localized segment of intestine was identified proximal to the intestinal atresia, and was exteriorized with the primary repair. When they arrived in the operating room, all four infants were breathing spontaneously, on room air, after appropriate fluid resuscitation. All underwent spinal anesthesia, which was the only agent used for the operation. The operative time was 45, 25, 30, and 25 minutes, respectively (mean, 31.25 minutes). The duration of anesthesia was 170 to 230 minutes (mean, 205 minutes). All infants were returned to the neonatal intensive care unit on room air and breathing spontaneously. One was given morphine postoperatively and suffered significant respiratory depression, requiring intubation. It appears that spinal anesthesia is safe and effective for major operative procedures in high-risk infants. (ABSTRACT TRUNCATED AT 250 WORDS)

Regional anesthesia in pediatric surgery: complications and postoperative comfort level in 174 children.

Postoperative pain control (PPC) in children is a difficult management problem. Systemic narcotics often result in respiratory depression, while nonnarcotic analgesics are associated with inconsistent PPC. This report reviews a 29-month (January 1989 through July 1991) experience with 174 children (aged < 18 years) who received regional PPC through indwelling catheters. There were 105 males and 69 females. Patient age ranged from 1 day to 17 years 10 months (mean age, 97 months). All catheters were placed using introduction needles ranging from 24 to 16 gauge. Agents were delivered as either continuous infusion (151 patients, 87%) or bolus injections (23 patients, 13%). Analgesics were age- and weight-determined dosages of bupivacaine with or without narcotic supplementation. All patients had surgical procedures except two who had catheters placed for pain control after trauma and one who had a catheter for intractable abdominal pain of unknown etiology. Twenty-five (15%) children had thoracic incisions, 76 (43%) abdominal, 16 (9%) flank, and 54 (31%) extremity. Catheter placement included 40 thoracic epidurals (23%), 100 lumbar (57%), 27 caudal (16%), and 7 pleural (4%). Catheters were utilized for a duration of 0.5 to 8 days (mean, 2.1 +/- 1.2 days). One hundred forty-four children required no additional pain medications (83%). Thirty (17%) patients required supplemental medications. Acetaminophen was used in 6 (3%), acetaminophen with codeine in 4(2%), morphine in 18 (10%), and Percocet in 1(1%). Minor complications occurred 21 times in 16 children (9%).(ABSTRACT TRUNCATED AT 250 WORDS)

Improved outcome utilizing spinal anesthesia in high-risk infants.

The development of apnea following general anesthesia in high-risk infants (less than 60 weeks postconceptual age) has been reported up to 37%, prompting the routine admission of these children following minor surgical procedures. One hundred forty high-risk infants (American Society of Anesthesiologists category greater than or equal to 2) were prospectively evaluated after undergoing surgical procedures normally performed as outpatients in low-risk babies. All patients had spinal anesthesia for their operations. The mean gestational age for these infants was 30.8 +/- 3.7 weeks (minimum, 24 weeks) with a mean birth weight of 1,466.0 +/- 638.8 g. The mean postconceptual age and weight at the time of surgery were 44.8 +/- 7.8 weeks and 3,336 +/- 1,242 g, respectively. Difficulty in administering the spinal anesthetic occurred in 6 cases (4.2%). Postoperative complications occurred in 5 children (3.8%). They were: postoperative fever (2), transient bradycardia (2), and apnea (1). The four cases of postoperative fever and bradycardia were insignificant and required no medical intervention. The single case of apnea occurred in a premature infant who received a supplemental dose of intravenous midazolam. Length of operation in these cases ranged from 15 minutes to 95 minutes (mean, 53 minutes), with two incidents of inadequate anesthesia occurring in this cohort. Mean duration of anesthesia was 146 minutes (range, 50 to 240 minutes) and was directly dependent on dosage administration of the agents. These data indicate that the use of spinal anesthesia in high-risk infants is safe and effective for surgical procedures generally performed as outpatients (3.0% minor complication rate, 0.8% major complication rate).(ABSTRACT TRUNCATED AT 250 WORDS)