Atlantoaxial rotatory dislocation: Surgical treatment in a pediatric patient cohort.

•Surgical correction of AARD is an appropriate method of treatment after failed non-operative therapy.•The technique of surgical reduction and C1-C2 fixation using Harms/Goel technique provides excellent clinical outcomes.•In case of traumatic AARD we recommend to consider temporary fixation.

High-grade high-dysplastic lumbosacral spondylolisthesis in children treated with complete reduction and single-level circumferential fusion: A prospective case series.

Introduction: Surgical treatment of high-grade developmental spondylolisthesis remains controversial with paucity of data reporting complete reduction of the deformity, especially in pediatric patients. Research question: To assess efficacy and safety of complete reduction and circumferential L5-S1 fusion in children with high-grade high-dysplastic spondylolisthesis. Emphasis was placed on fusion rates, correction of lumbosacral deformity and long-term clinical outcomes by means of patient-reported outcome measures (PROMs). Material and methods: Consecutive series of 18 pediatric patients referred to surgery over an 11-years period. Several radiographic variables and PROMs were collected pre- and post-surgery with minimum follow-up of 2-years. Results: The mean age of cohort was 12.9 years with a mean follow-up of 7.8 years. Postoperatively, the mean slip was reduced from 64.4±9.8% to 4.5±5.9% with no loss of correction during follow-up. PROMs significantly improved following the index procedure (p<0.0001). Lumbo-pelvic parameters improved after surgery, including SS, but not PT. Development of adjacent level spondylolisthesis was noted in eight subjects (44%), two of these patients required additional surgery. Posterolateral and anterior fusion was obtained in 100% and 78% of cases, respectively. One patient developed a transient right-sided L5 nerve paresis after surgery that gradually resolved within one year post-surgery. Preoperatively, we recorded three patients with L5 nerve root motor deficit, which resolved completely in two cases and in one patient remained unchanged. Discussion and conclusion: Complete reduction can safely be accomplished without an increased risk of nerve root injury. Coupled with single-level circumferential fusion, it provides high fusion rates with satisfactory spino-pelvic alignment.

Pediatric dens anatomy and its implications for fracture treatment: an anatomical and radiological study.

PURPOSE: Separation of C2 growth plates and dens fractures are the most common types of injuries to the axis (C2) in children. Operative treatment of these injuries with the use of direct osteosynthesis requires a profound knowledge of detailed anatomy and dimensions of the axis. The main issue addressed by the study was the age at which the size of the dens is adequate at all levels to accommodate two screws, and the size of the posterior dens angulation angle (PDAA) in a healthy child in individual age periods. METHODS: Dimensions and angles of the dens and C2 in individual age categories in both boys and girls were measured in a series of 203 CT scans of individuals 0-18 years old and on anatomical specimens (42 samples). In addition, 5 histological series of this region from the fetal period were reviewed. RESULTS: Dimensions of the dens gradually increase with age, with a considerable acceleration during growth spurt periods that are different in boys and girls. PDAA is markedly changing with age; in the fetal period, the dens shows a slight anterior angulation which gradually transforms into posterior angulation, as early as between 4 and 6 years of age. The screw insertion angle changes accordingly. CONCLUSION: During growth, there occur changes in PDAA that should be respected in evaluation of transformation of anterior into posterior angulation, as shown by imaging methods. Dens dimensions theoretically allow insertion of two 3.5 mm screws as early as from the age of 1 year.

Usefulness of perioperative rotational thrombelastometry during scoliosis surgery in children.

OBJECTIVE: Surgical correction of scoliosis in pediatric patients is associated with significant blood loss. Rotational thrombelastometry (ROTEM) might help to decrease the use of blood transfusion products by enabling an early point of care (POC) diagnosis of coagulopathy, thus helping to provide targeted therapy. The aim of this case-control study was to find out whether POC use of ROTEM during scoliosis surgery in children helps to reduce the need for blood transfusion products. METHODS: Data were prospectively analyzed from all patients treated during 2016-2018 who received ROTEM-based therapy during scoliosis surgery. These patients were compared with a group of historical controls treated during 2014-2016 whose scoliosis treatment did not include ROTEM. Perioperative blood loss, consumption of blood transfusion products, and hospital LOS were compared between the groups. RESULTS: A total of 37 patients were analyzed, 22 patients in the non-ROTEM group and 15 patients in the ROTEM group. In the ROTEM group compared with the non-ROTEM group, there was significantly lower perioperative blood loss and administration of packed red blood cell units, no administration of fresh-frozen plasma, and shorter overall hospital LOS (p < 0.05). CONCLUSIONS: ROTEM use during scoliosis surgery in children seems to help to decrease blood loss and the use of blood transfusion products and may also shorten the hospital LOS.Clinical trial registration no.: NCT03699813 (clinicaltrials.gov).