Emergency radiologic evaluation of the pediatric cervical spine can be challenging because of the confusing appearance of synchondroses, normal anatomic variants, and injuries that are unique to children. Cervical spine injuries in children are usually seen in the upper cervical region owing to the unique biomechanics and anatomy of the pediatric cervical spine. Knowledge of the normal embryologic development and anatomy of the cervical spine is important to avoid mistaking synchondroses for fractures in the setting of trauma. Familiarity with anatomic variants is also important for correct image interpretation. These variants include pseudosubluxation, absence of cervical lordosis, wedging of the C3 vertebra, widening of the predental space, prevertebral soft-tissue widening, intervertebral widening, and "pseudo-Jefferson fracture." In addition, familiarity with mechanisms of injury and appropriate imaging modalities will aid in the correct interpretation of radiologic images of the pediatric cervical spine.
OBJECTIVE Complications of laser interstitial thermal therapy (LITT) are underreported. The authors discuss how they have modified their technique in the context of technical and treatment-related adverse events. METHODS The Medtronic Visualase system was used in 49 procedures in 46 patients. Between 1 and 3 cooling catheters/laser fiber assemblies were placed, for a total of 62 implanted devices. Devices were placed using frameless stereotaxy (n = 3), frameless stereotaxy with intraoperative MRI (iMRI) (n = 9), iMRI under direct vision (n = 2), MRI alone (n = 1), or frame-based (n = 47) techniques. LITT was performed while monitoring MRI thermometry. Indications included brain tumors (n = 12), radiation necrosis (n = 2), filum terminale ependymoma (n = 1), mesial temporal lobe epilepsy (n = 21), corpus callosotomy for bifrontal epilepsy (n = 3), cavernoma (n = 1), and hypothalamic hamartomas (n = 6). RESULTS Some form of adverse event occurred in 11 (22.4%) of 49 procedures. These included 4 catheter malpositions, 3 intracranial hemorrhages, 3 cases of neurological deficit related to thermal injury, and 1 technical malfunction resulting in an aborted procedure. Of these, direct thermal injury was the only cause of prolonged neurological morbidity and occurred in 3 of 49 procedures. Use of frameless stereotaxy and increased numbers of devices were associated with significantly increased complication rates (p < 0.05). A number of procedural modifications were made to avoid complications, including the use of 1) frame-based catheter placement, a 1.8-mm alignment rod to create a track and titanium skull anchors for long trajectories to improve accuracy; 2) a narrow-gauge instrument for dural puncture and coregistration of contrast MRI with CT angiography to reduce intracranial hemorrhage; 3) general endotracheal anesthesia for posterior-placed skull anchors to reduce the likelihood of damage to the cooling catheter; 4) use of as few probes as possible to reduce complications overall; and 5) dose modification of thermal treatment and use of short (3-mm) diffusing tips to limit treatment when structures to be spared do not have intervening CSF spaces to act as heat sinks. CONCLUSIONS Laser ablation treatment may be used for a variety of neurosurgical procedures for patients with tumors and epilepsy. While catheter placement and thermal treatment may be associated with a range of suboptimal operative and postoperative courses, permanent neurological morbidity is less common. The authors' institutional experience illustrates a number of measures that may be taken to improve outcomes using this important new tool in the neurosurgical arsenal.
Objective: The exact weight of a child undergoing resuscitation is usually not known. Several methods to estimate a child’s weight have been proposed. We evaluated six of these methods to determine their accuracy and clinical usefulness across a range of weights and ages. Method: Children attending a tertiary paediatric emergency department on 30 non‐consecutive days were weighed, a length or height was obtained and an estimation of body habitus (slim, average or heavy) made by a single investigator, Karen Black (KB). All children less than 145 cm were also measured using the Broselow tape. Six methods of weight estimation were employed and the calculated weight compared to the true weight. The weight estimation methods evaluated were the advanced paediatric life support (APLS) method, Broselow tape, devised weight estimation method (DWEM), Oakley table, Traub–Johnson and the Traub–Kichen methods. Results: Four hundred and ninety‐five children were included in the study. Children were evenly distributed among the weight groups of less than 10 kg, 10–25 kg, 25–40 kg and over 40 kg. The methods with the best overall performance were the devised weight estimation method and Broselow tape although the latter has a length limitation of 145 cm. The other methods performed well in the middle two weight groups but poorly outside these groups. Conclusions: The most accurate methods of weight estimation in children are the Broselow tape and the devised weight estimation method . We recommend the use of either of these methods in emergency situations where direct weighing is not possible.
The effects of interleukin-6 (IL-6) in vivo were assessed by inoculating Chinese hamster ovarian (CHO) cells which were transfected with the murine IL-6 gene in nude mice. Nude mice bearing CHO cells expressing IL-6 developed hypercalcemia. Tumor-bearing mice also showed increases in white cell count, platelet count, and decreases in body weight. In nude mice carrying CHO tumors which had not been transfected with the IL-6 gene, there were no changes in these parameters. These results suggest that increased circulating concentrations of IL-6 in patients with malignant disease may contribute to a number of paraneoplastic syndromes including hypercalcemia, cachexia, leukocytosis and thrombocytosis.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
hi@scite.ai
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.