Pediatric Thoracic Anesthesia

Extraluminal Placement of a Bronchial Blocker Compared with Carbon Dioxide Artificial Pneumothorax in Infants Undergoing Video-Assisted Thoracoscopic Surgery

Objective: To investigate the safety and effectiveness of extraluminal placement of a bronchial blocker compared with carbon dioxide (CO₂) artificial pneumothorax in infants undergoing video-assisted thoracoscopic surgery (VATS).

Methods: The study involved 33 infants (group A) who underwent one-lung ventilation (OLV) with extraluminal placement of a bronchial blocker and 35 other infants (group B) who underwent CO₂ artificial pneumothorax. Clinical characteristics, the degree of lung collapse, and complications were compared.

Results: The degree of lung collapse in group A was significantly higher than that in group B at T2 and T3. The mean arterial pressure (MAP) of group B was significantly lower than that of group A at 10 min and 30 min after OLV. The partial pressure of carbon dioxide (PaCO₂) of group B was significantly higher than that of group A at 30 min after OLV. The incidence of hypotension in group B was higher than that in group A.

Conclusion: Compared with CO₂ artificial pneumothorax, extraluminal placement of a bronchial blocker is associated with a better degree of lung collapse, fewer episodes of hypotension, and lower PaCO₂ accumulation during OLV in infants undergoing VATS.

3D CT airway evaluation-guided intraluminal placement of endobronchial blocker in pediatric patients: a randomized controlled study

BACKGROUND

The aim of the present study was to propose a new approach for 3D computed tomography (CT) airway evaluation-guided endobronchial blocker placement in pediatric patients, and to determine its efficiency in clinical application.

METHODS

A total of 127 pediatric patients aged 0.5-3 years who were scheduled for elective thoracic surgery using one-lung ventilation (OLV) were randomized into the bronchoscopy (BRO) group and the CT group. The degree of lung collapse, postoperative airway mucosal injury, pulmonary infection within 72 h after surgery, and hoarseness after tracheal extubation; duration of postoperative mechanical ventilation, intensive care unit (ICU) stay and hospitalization; success rate of first blocker positioning; and required time and repositioning for successful blocker placement were compared between the 2 groups.

RESULTS

The degree of lung collapse, postoperative airway mucosal injury, pulmonary infection within 72 h after surgery, and hoarseness after tracheal extubation; duration of postoperative mechanical ventilation, ICU stay and hospitalization; success rate of first blocker positioning; and required time and repositioning for successful blocker placement were similar between the 2 groups (all P>0.05).

CONCLUSIONS

For pediatric patients undergoing surgery with OLV, preoperative 3D CT airway evaluation could be used to guide endobronchial blocker placement, with a blocking efficiency similar to that of BRO-guided blocker placement.

Successful one-lung ventilation by blocking the right intermediate bronchus in a 7-year-old child: a case report

A 7-year-old child underwent surgical excision of a benign mesothelioma of the pleura near the right lower lung. Although insertion of a wire-reinforced endotracheal tube through the left main bronchus was attempted for one-lung ventilation to secure the surgical field of view, the attempt failed. Therefore, an endotracheal tube was inserted into the trachea, and an Arndt endobronchial blocker (Cook Medical, Bloomington, IN, USA) was placed in the right intermediate bronchus under bronchoscopic guidance to selectively block the right lower and middle lobes. The surgery was performed while ventilating the right upper lobe and left lung, and no specific intraoperative adverse events occurred.

Anesthetic management of thoracoscopic resection of lung lesions in small children

BACKGROUND

Video-assisted thoracoscopic surgery has dramatically increased over the last decade because of both medical and cosmetic benefits. Anesthesia for video-assisted thoracoscopic surgery in small children is more challenging compared to adults due to the considerable problems posed by small airway dimensions and ventilation. The optimal technique for one-lung ventilation has yet to be established and the use of remifentanil infusion in this setting is not well described.

AIMS

This study investigated the use of extraluminal bronchial blocker placement for one-lung ventilation and the effect of infusion of remifentanil in infants and small children undergoing video-assisted thoracoscopic surgery.

METHODS

We retrospectively reviewed the technique of one-lung ventilation and the hemodynamic effects of remifentanil infusion in 31 small children during elective video-assisted thoracoscopic surgery for congenital lung lesions under anesthesia with sevoflurane or isoflurane, oxygen, and air. Patients' heart rate, blood pressure, and endtidal carbon dioxide at baseline (after induction of anesthesia), immediately after one-lung ventilation, during carbon dioxide insufflation, and at the end of one-lung ventilation were extracted from the database and analyzed. The use of vasopressors or dexmedetomidine was also recorded and analyzed.

RESULTS

Extraluminal placement of a bronchial blocker alongside the tracheal tube was successfully performed in 90.3% of cases (28 patients) without any serious complications or arterial oxygen desaturation. There was no significant rise in blood pressure or heart rate even with the rise of endtidal carbon dioxide concentration during video-assisted thoracoscopic surgery. In 58% of patients (18 patients), phenylephrine was administered to maintain the blood pressure within 20% of the baseline value. There was no significant change in the heart rate of all patients at each time point.

CONCLUSION

One-lung ventilation with an extraluminal parallel blocker was used effectively in this series of young children undergoing thoracoscopic excision of congenital pulmonary lesions. Remifentanil infusion attenuated surgical stress effectively in infants and small children undergoing video-assisted thoracoscopic surgery.

Introduction of a novel ultrasound-guided extrathoracic sub-paraspinal block for control of perioperative pain in Nuss procedure patients

BACKGROUND

A safe and effective method of multilevel thoracic pain control remains an elusive goal in patients undergoing the Nuss procedure. The aim of our study was to develop a nonopioid centered approach using a novel regional technique as part of a quality improvement initiative.

METHODS

The proposed ultrasound-guided technique positions multi-perforated soaker catheter deep to the paraspinal muscles from T2 to T11. The project was conducted in two phases. First, a cadaveric dissection was performed to establish the pathway of spread of local anesthetic in vivo. Second, a pilot double blind randomized control project was conducted to evaluate effectiveness of the technique in ten patients and to derive parameters necessary for the definitive future study. Outcomes were evaluated based on the narcotic requirement, pain scores and functional measures.

RESULTS

Placement of the catheters in two cadavers demonstrated reliable positioning in the subparaspinal tissue plane, and multilevel dye spread along the intercostal nerve path. In addition, a potential route of spread toward the paravertebral space along the canal accommodating dorsal ramus of the thoracic nerve was demonstrated. The pilot trial demonstrated a trend in decreased cumulative hydromorphone requirement in comparison to the control group at both 24h (0.19±0.09mg/kg vs. 0.13±0.08mg/kg p=0.72) and 48h (0.37±0.2mg/kg vs. 0.3±0.12mg/kg p=0.37). Functional performance ability was higher in the treatment group on both POD#1 (6.7±1.8 vs. 4.8±1 p=0.0495) and POD#2 (8.9±0.8 vs. 6.5±1.2 p=0.04). Pain scores were similar among the two groups (p=0.96).

CONCLUSIONS

We describe a new technique to treat multilevel thoracic pain following the Nuss procedure that is reproducible, safe, allows diminished opioid use and enhances functional recovery.

Anesthesia for Pediatric Chest Trauma

Thoracic trauma in children is the second most frequent cause of death in the pediatric population. The majority of these children will have multisystem injuries. Management of these patients starts with the primary survey, resuscitation, and secondary survey as described in Advanced Trauma Life Support training. Most children with thoracic injuries can be observed or treated nonoperatively. The majority of children who do need surgery will need exploratory laparotomy and may have significant blood loss. The anesthesiologist needs to be prepared to manage a patient with severe underlying respiratory derangements, ongoing blood loss, and /or cardiac dysfunction. Moreover, one-lung ventilation may be necessary for optimal surgical exposure, which will present considerable challenges.

Thoracoscopic vs open lobectomy in infants and young children with congenital lung malformations

BACKGROUND

Although thoracoscopic lobectomy is a widely accepted surgical procedure in adult thoracic surgery, its role in small children remains controversial. The purpose of this study was to evaluate perioperative outcomes after thoracoscopic and open lobectomy in infants and young children with congenital lung malformations at a single academic referral center.

STUDY DESIGN

A cohort study of 62 consecutive children who underwent elective pulmonary lobectomy for a congenital lung lesion between 2001 and 2013 was performed. Patient demographics and perioperative outcomes were evaluated in univariate and logistic regression analyses.

RESULTS

Forty-nine patients underwent thoracoscopy and 13 had a thoracotomy. Six children undergoing thoracoscopy required conversion to thoracotomy (conversion 12.2%). Perioperative outcomes, including median blood loss (2.0 vs 1.1 mL/kg; p = 0.34), chest tube duration (3 vs 3 days; p = 0.33), hospital length of stay (3 vs 3 days; p = 0.42), and morbidity as defined by the Accordion Grading Scale (30.6% vs 30.8%; p = 0.73), were similar between thoracoscopy and thoracotomy, respectively. Although thoracoscopy was associated with increased operative duration compared with thoracotomy (239.9 vs 181.2 minutes, respectively; p = 0.03), thoracoscopy operative times decreased with increasing institutional experience (p = 0.048). Thoracoscopic lobectomy infants younger than 5 months of age had a 2.5-fold higher rate of perioperative adverse outcomes compared with older children (p = 0.048).

CONCLUSIONS

In small children undergoing pulmonary lobectomy, both thoracoscopy and thoracotomy are associated with similar perioperative outcomes. The cosmetic and musculoskeletal benefits of the thoracoscopic approach must be balanced against institutional expertise and a potentially higher risk for complications in younger patients.

Anaesthetic consideration for neonatal surgical emergencies

A newborn requires constant vigilance, rapid recognition of the events and swift intervention during anaesthesia. The anaesthetic considerations in neonatal surgical emergencies are based on the physiological immaturity of various body systems, poor tolerance of the anaesthetic drugs, associated congenital disorders and considerations regarding the use of high concentration of oxygen. The main goal is for titration of anaesthetics to desired effects, while carefully monitoring of the cardiorespiratory status. The use of regional anaesthesia has shown to be safe and effective. Advancements in neonatology have resulted in the improvement of the survival of the premature and critically ill newborn babies. Most of the disorders previously considered as neonatal surgical emergencies in the past no longer require immediate surgery due to new technology and new methods of treating sick neonates. This article describes the common neonatal surgical emergencies and focuses on factors that affect the anaesthetic management of patients with these disorders.

[Airway pressure monitoring by the continuous flow method in paediatric thoracoscopic surgery. A study in an animal model]

OBJECTIVE

To compare the airway pressures obtained before the endotracheal tube with the intratracheal ones in the continuous flow ventilation mode, in thoracoscopic surgery for one lung ventilation, in a paediatric model in animals.

MATERIAL AND METHODS

A simple prospective observational study was conducted. Ten Large White pigs weighing 4.6 ± 0.8 kg were used. The animals were ventilated in neonatal mode (continuous flow) with a Temel Supra ventilator. Using tracheotomy, we completely sealed the respiratory system in order to use tubes without special endotracheal cuffs, which would enable tracheal pressures to be registered without interfering with ventilation. Collapse of the right lung was performed by videothoracoscopy and was maintained for 120 min. The variables were measured at 10 time periods: start and 5 min with both lungs, after collapse at 5, 15, 30, 60, 90 and 120 min, and 5 and 15 min after lung re-expansion. We recorded the baseline, peak, plateau and positive end expiratory pressure in the mouth of the animal and intratracheal.

RESULTS

The mean peak pressure in the mouth of the animal in one lung ventilation was 23.38 mmHg and tracheal ventilation was 21.24 mmHg, while the mean plateau pressure in the mouth of the animal in one lung ventilation it was 21.88 mmHg and tracheal was 21.39 mmHg, respectively, with significant differences in all of them (P<.05). We found statistically significant differences (P<.05) for peak and plateau pressure on comparing the record in the animal mouth with the tracheal record. The difference in absolute value was higher for the peak pressure record.

CONCLUSIONS

The pressure parameters recorded in the animal mouth were acceptable for surgery, with a suitable respiratory and haemodynamic stability being maintained. We can state that the continuous flow mode according to the pressures study may be suitable for this type of surgery, and that the mouth of the animal (patient) record for the peak pressure does not reflect what really happens in the alveoli, but we can give a suitable clinical estimate for the plateau pressure.

An audit of anesthetic management and complications of tracheo-esophageal fistula and esophageal atresia repair

BACKGROUND

Many different anesthetic techniques have been suggested for the management of tracheo-oesophageal fistula/oesophageal atresia (TOF/OA) although the incidence of ventilation difficulty is not well known and it is unclear which technique is best in managing this. The aim of our audit was to determine the incidence of ventilation difficulty during repair of TOF/OA. We also recorded the current practice for anesthesia and analgesia in these children as well as the incidence of comorbidities and surgical complications.

METHODS

We retrospectively audited cases of TOF/OA repair over a 3-year period in four hospitals, recording demographics, comorbidities, surgical data, postoperative complications, and anesthetic technique, including ventilation difficulty and management strategy.

RESULTS

A total of 111 patients were identified with TOF/OA, and 106 patient notes and 101 anesthetic records were found. 42% of patients were premature, and 57.5% had significant comorbidities. Death was most likely in infants with low birth weight and low gestational age at birth and in those with major cardiac comorbidity. A range of techniques were used for induction, maintenance, extubation, and pain control. There were ventilation difficulties recorded at induction in seven patients, and significant desaturations were recorded in 15 patients intraoperatively.

CONCLUSIONS

This audit adds to the data already published about incidences of complications and comorbidities associated with TOF/OA repair. Defining anesthetic practice with regard to ventilation and analgesic strategies is important in comparing the adequacy and risk of techniques used. Our audit shows that a range of differing anesthetic techniques are still employed by different anesthetists and institutions and details some of the techniques being used for managing difficult ventilation.

Intraoperative strategy in patients with extended involvement of mediastinal structures

The mediastinum is a virtual space containing several vital organs and structures. Biopsy and resection of lesions located within this region often require several considerations that bear on intraoperative strategy. To optimize outcome, clinicians must be able to predict which patients are at highest risk of anesthetic complications. Superior vena cava involvement, extensive compression of the airway, and pericardial effusion have a clear impact on the decision-making of the anesthetist and surgeon, who should plan together when forming the surgical strategy.

Single-Lung Ventilation in Pediatric Anesthesia

Single-lung ventilation is requested for an increasing spectrum of surgical procedures in infants and children. A clear understanding of the physiology of single-lung ventilation, the techniques of lung separation, and the technical skill necessary to apply these techniques are essential for an anesthesiologist practicing thoracic anesthesia. This article focuses on various devices available for single-lung ventilation in the pediatric age group, the relevant respiratory physiology, and the strategies that optimize oxygenation during one-lung anesthesia.

Regional Anesthesia in Children

The future of regional anesthesia in children is to continue to use current techniques, but also to search for ways to make them easier to employ. The potential development of safe local anesthetic agents with much longer durations, will serve to facilitate improvements in the techniques and styles of practice. The advances in minimally invasive surgical techniques do not mean that regional techniques will not be necessary, but will result in an adaptation of techniques. Peripheral nerve blockade and local wound infiltration can still be used and in some instances, may be very appropriate.

One lung ventilation in infants and children: experience with Marraro double lumen tube

BACKGROUND

Our objective was to evaluate the efficacy of selective bronchial intubation and independent lung ventilation during thoracic surgery in children up to 3 years, using a double lumen tube.

METHODS

We studied retrospective (cases 1-6) and prospective cases (7-17) between January 1996 and December 2000 at the All India Institute of Medical Sciences, New Delhi, India and at Fatebenefratelli and Ophthalmiatric Hospital, Milan, Italy. Seventeen children, 1 day to 3 years of age and weighing 2.7-12 kg, were submitted to thoracic surgery for a variety of surgical conditions. Anesthesia was conducted as usual in this type of patient and selective intubation was performed using a double lumen tube (Marraro Pediatric double lumen tube). During the operation one lung ventilation was applied and at the end of surgery the collapsed lung was reexpanded independently from the contralateral lung.

RESULTS

Six children remained intubated with a double lumen tube for between 8 and 48 h and one (case no. 11) with a single lumen tube for 24 h, while 10 of the older children were extubated on the table. No serious complications during or after surgery were noted and after extubation all the children recovered completely without sequelae.

CONCLUSIONS

The double lumen tube appears to be very effective in allowing one lung ventilation in this age group during thoracic surgery.

Cardiovascular causes of airway compression

Compression of the paediatric airway is a relatively common and often unrecognized complication of congenital cardiac and aortic arch anomalies. Airway obstruction may be the result of an anomalous relationship between the tracheobronchial tree and vascular structures (producing a vascular ring) or the result of extrinsic compression caused by dilated pulmonary arteries, left atrial enlargement, massive cardiomegaly, or intraluminal bronchial obstruction. A high index of suspicion of mechanical airway compression should be maintained in infants and children with recurrent respiratory difficulties, stridor, wheezing, dysphagia, or apnoea unexplained by other causes. Prompt diagnosis is required to avoid death and minimize airway damage. In addition to plain chest radiography and echocardiography, diagnostic investigations may consist of barium oesophagography, magnetic resonance imaging (MRI), computed tomography, cardiac catheterization and bronchoscopy. The most important recent advance is MRI, which can produce high quality three-dimensional reconstruction of all anatomic elements allowing for precise anatomic delineation and improved surgical planning. Anaesthetic technique will depend on the type of vascular ring and the presence of any congenital heart disease or intrinsic lesions of the tracheobronchial tree. Vascular rings may be repaired through a conventional posterolateral thoracotomy, or utilizing video-assisted thoracoscopic surgery (VATS) or robotic endoscopic surgery. Persistent airway obstruction following surgical repair may be due to residual compression, secondary airway wall instability (malacia), or intrinsic lesions of the airway. Simultaneous repair of cardiac defects and vascular tracheobronchial compression carries a higher risk of morbidity and mortality.

Confirmation of Direct Epidural Catheter Placement Using Nerve Stimulation in Pediatric Anesthesia

We evaluated the success rate of using low current electrical stimulation (the Tsui test) to identify and confirm direct epidural catheter placement in a pediatric population. Thirty subjects received a standard anesthetic and administration of the Tsui test on epidural placement. The distribution of myotomal activity was recorded. The intended and actual level of the epidural catheter was compared. Myotomal activity was seen in all patients but one. The median current resulting in myotomal activity was 5.3 mA. The median difference between the intended and actual level as confirmed on radiograph was 1.8 levels. The clinical success rate was 93.9%. The positive predictive value of the Tsui test was 82%; i.e., in 23 of 28 cases, the Tsui test correctly identified the position of the epidural catheter tip within 2 vertebral levels. The test did not offer any added advantage when used in the setting of directly placed epidural catheters in our institution over "blind" methods already used to confirm catheter position when using cutaneous landmarks and test dosing.

IMPLICATIONS

A new technique to confirm epidural catheter position uses low current electrical stimulation in pediatric patients. This study evaluated the use of electrical stimulation in 30 pediatric patients for directly placed catheters. Electrical stimulation did not provide any advantage over conventional methods (e.g., cutaneous landmarks) for confirmation of catheter position.

Jet ventilation for anterior paediatric scoliosis surgery

Single-lung anaesthesia for thoracotomy is usually achieved with endobronchial intubation, a double-lumen tube or an endobronchial blocker. High-frequency jet ventilation (HFJV) is seldom described for thoracotomy in children, although it is used for both laryngology procedures in the operating room and as a ventilation mode in intensive care. HFJV was used in three children, aged 10-12 years, who presented for scoliosis correction involving thoracotomy. The jet ventilation catheter was passed through a tracheal tube to reduce the risk of outflow obstruction and allow a smooth conversion to intermittent positive-pressure ventilation when required. Mean airway pressures measured at the tip of the HFJV catheter were at or below 4 cmH2O. Surgical opening of the nondependent lung pleura resulted in sufficient collapse of the pulmonary parenchyma with the patient in the lateral decubitus position for the surgical procedure. Arterial blood gas analyses performed during thoracotomy were within normal limits, with no CO2 retention. HFJV is an alternative ventilation strategy for thoracotomy in children because of its unique ability to deliver small tidal volumes at low mean airway pressures via a narrow catheter.

Anesthesia for tracheal and endobronchial interventions

Tracheal and endobronchial interventions constitute a wide variety of procedures offering unique challenges in perioperative airway management and ventilatory support. Elective or emergent anesthetic management is individualized according to underlying airway pathology, coexisting disease, and patient age. This review explores recent literature and reports on relevant advances in anesthetic care.