Factors Associated with Nonaccidental Trauma Evaluation among Patients below 36 Months Old Presenting with Femur Fractures at a Level-1 Pediatric Trauma Center

© Copyright 2016 Wolters Kluwer Health, Inc. All rights reserved. Background: In 2009, the American Academy of Orthopedic Surgeons published clinical practice guidelines (CPGs) on the treatment of pediatric diaphyseal femur fractures, which recommended a nonaccidental trauma (NAT) evaluation for all patients below 36 months of age. A recent study of these guidelines found \u3c50% clinical compliance with this treatment recommendation. We aimed to identify areas for improvement in compliance with this guideline. Methods: A retrospective review was performed of all patients presenting to a single pediatric tertiary care hospital with a diaphyseal femur fracture from January 2007 to June 2013 who were below 36 months old. Medical records were reviewed for documentation of a NAT evaluation, patient characteristics, presence of other fractures or injuries, and hospital of presentation. Radiographs were reviewed for fracture pattern. Statistical analysis was performed to assess for differences overall and before and after CPG publication. Results: During the study period, 281 children below 36 months presented with femur fractures; 41% were evaluated for NAT. Overall, the following factors were significantly associated with receipt of a NAT evaluation: younger age (P\u3c0.001), transfer from an outside facility (P=0.027), and identification of another fracture (P=0.004). Before publication of the CPG, nonwhite patients were much more likely to undergo NAT evaluation compared with white patients (43% vs. 19%; P=0.014). After publication of the CPGs, this differential disappeared (43% vs. 47%; P=0.685). Fracture pattern and patient sex did not influence receipt of NAT evaluation. Conclusions: We found poor utilization of NAT evaluation for patients below 36 months old presenting with femur fracture. Despite CPG publication, only modest improvements in this evaluation occurred over the study period, with less than half of all patients being evaluated. Younger children, patients transferred from other institutions, and patients presenting with concomitant fractures were more likely to undergo NAT evaluation. Compliance with the CPG may be improved by focusing on older children, patients who initially present to tertiary care centers, and those with an isolated femur fracture. Level of Evidence: Level III-retrospective comparative study

Development of a femoral non-union model in the mouse

Objectives: Advancements in our knowledge of fracture healing have occurred in large part by the understanding of this process on a microscopic level. The ability to develop experimental non-union models in animals will assist in the investigation of this problem and are likely to lead to novel treatments. We report on a technique for developing experimental non-unions in mice. Methods: Femoral fractures were created in 48 CD1 mice, 24 mice underwent standard closed femoral fractures, and 24 mice underwent creation of a femoral non-union through an open osteotomy and fracture devascularisation method. All fractures were subsequently rodded. Histological examinations of the fractures were then conducted at eight time points post-operatively. Results: The control group showed normal fracture healing with histological evidence of bony fracture bridging by 28 days and mature bony remodelling at 63 days. The non-union group showed delayed fracture healing at all time points and no evidence of bony healing at 63 days. Conclusion: This is the first report of a reliable method to develop fracture non-union in mice. We believe this technique will be critical to further the investigation of fracture non-union in normal mice and provides the great advantage of using the plethora of transgenic and knockout mouse models to analyse non-union at the cell and molecular level. © 2008 Elsevier Ltd. All rights reserved

Magnetic Resonance Imaging-guided High-intensity Focused Ultrasound Applications in Pediatrics: Early Experience at Children\u27s National Medical Center.

© 2018 Wolters Kluwer Health, Inc. All rights reserved. Magnetic resonance imaging-guided high-intensity focused ultrasound (MR-HIFU) is a novel technology that integrates magnetic resonance imaging with therapeutic ultrasound. This unique approach provides a completely noninvasive method for precise thermal ablation of targeted tissues with real-time imaging feedback. Over the past 2 decades, MR-HIFU has shown clinical success in several adult applications ranging from treatment of painful bone metastases to uterine fibroids to prostate cancer and essential tremor. Although clinical experience in pediatrics is relatively small, the advantages of a completely noninvasive and radiation-free therapy are especially attractive to growing children. Unlike elderly patients, young children must deal with an entire lifetime of negative effects related to collateral tissue damage associated with invasive surgery, side effects of chemotherapy, and risk of secondary malignancy due to radiation exposure. These reasons provide a clear rationale and strong motivation to further advance clinical utility of MR-HIFU in pediatrics. We begin with an introduction to MR-HIFU technology and the clinical experience in adults. We then describe our early institutional experience in using MR-HIFU ablation to treat symptomatic benign, locally aggressive, and metastatic tumors in children and young adults. We also review some limitations and challenges encountered in treating pediatric patients and highlight additional pediatric applications which may be feasible in the near future

Serial casting for early onset scoliosis and its effects on health-related quality of life during and after discontinuation of treatment.

© 2020, Scoliosis Research Society. Introduction: Serial body casting plays an important role in the treatment of early onset scoliosis (EOS), serving as a safer method compared to surgical intervention. There is no published evidence documenting the impact of casting on health-related quality of life (HRQoL) of patients and their caregivers. The purpose of this study was to utilize the 24-Item Early Onset Scoliosis Questionnaire (EOSQ-24) to compare the HRQoL of patients with EOS and the burden of care for their caregivers before, during, and after treatment with Mehta casting. Methods: In this multicenter retrospective cohort study, two EOS databases were queried for patients with EOS who underwent serial casting from 2005 to 2016. Patients who had treatment prior to their initial cast application, including bracing or surgical intervention, were excluded from the study. Patients were stratified into two subgroups and analyzed separately: those with idiopathic etiology, and those with non-idiopathic etiology. HRQoL and burden of care were assessed using the EOSQ-24 completed before, during, and after cast treatment. Results: 91 patients were identified in this study (mean age at the index casting: 2.1 ± 1.2 years, mean age at final cast removal: 4.1 ± 1.3 years). 59 (64.8%) had EOS of idiopathic etiology, while 32 (35.2%) had EOS of non-idiopathic etiology, including 10 congenital, 6 neuromuscular, and 16 syndromic. Idiopathic patients and non-idiopathic patients experienced an improvement in the coronal deformity from 45° pre-cast to 26° post-cast, and from 59° pre-cast to 34° post-cast, respectively. Patients with idiopathic scoliosis experienced a decrease from baseline in nearly all EOSQ-24 sub-domain scores except for general health. Furthermore, even after the removal of the cast, patients with idiopathic etiology suffered residual negative effects of casting on emotion and transfer sub-domains. Among patients with non-idiopathic etiology, decreased scores from baseline were observed only in transfer and emotion sub-domains during the casting intervention. After brace removal, patients with non-idiopathic etiology had increased scores compared to their baseline scores in most sub-domains. Discussion: Serial body casting can prevent curve correction in patients with EOS. However, the psychosocial stresses secondary to this non-operative intervention can have significant negative impacts on HRQoL for both idiopathic and non-idiopathic patients during the course of treatment. Although non-idiopathic patients experience improved HRQoL following treatment, idiopathic patients do not seem to exhibit much improvement in HRQoL from baseline even years after the final cast removal

Serial casting for early onset scoliosis and its effects on health-related quality of life during and after discontinuation of treatment

© 2020, Scoliosis Research Society. Introduction: Serial body casting plays an important role in the treatment of early onset scoliosis (EOS), serving as a safer method compared to surgical intervention. There is no published evidence documenting the impact of casting on health-related quality of life (HRQoL) of patients and their caregivers. The purpose of this study was to utilize the 24-Item Early Onset Scoliosis Questionnaire (EOSQ-24) to compare the HRQoL of patients with EOS and the burden of care for their caregivers before, during, and after treatment with Mehta casting. Methods: In this multicenter retrospective cohort study, two EOS databases were queried for patients with EOS who underwent serial casting from 2005 to 2016. Patients who had treatment prior to their initial cast application, including bracing or surgical intervention, were excluded from the study. Patients were stratified into two subgroups and analyzed separately: those with idiopathic etiology, and those with non-idiopathic etiology. HRQoL and burden of care were assessed using the EOSQ-24 completed before, during, and after cast treatment. Results: 91 patients were identified in this study (mean age at the index casting: 2.1 ± 1.2 years, mean age at final cast removal: 4.1 ± 1.3 years). 59 (64.8%) had EOS of idiopathic etiology, while 32 (35.2%) had EOS of non-idiopathic etiology, including 10 congenital, 6 neuromuscular, and 16 syndromic. Idiopathic patients and non-idiopathic patients experienced an improvement in the coronal deformity from 45° pre-cast to 26° post-cast, and from 59° pre-cast to 34° post-cast, respectively. Patients with idiopathic scoliosis experienced a decrease from baseline in nearly all EOSQ-24 sub-domain scores except for general health. Furthermore, even after the removal of the cast, patients with idiopathic etiology suffered residual negative effects of casting on emotion and transfer sub-domains. Among patients with non-idiopathic etiology, decreased scores from baseline were observed only in transfer and emotion sub-domains during the casting intervention. After brace removal, patients with non-idiopathic etiology had increased scores compared to their baseline scores in most sub-domains. Discussion: Serial body casting can prevent curve correction in patients with EOS. However, the psychosocial stresses secondary to this non-operative intervention can have significant negative impacts on HRQoL for both idiopathic and non-idiopathic patients during the course of treatment. Although non-idiopathic patients experience improved HRQoL following treatment, idiopathic patients do not seem to exhibit much improvement in HRQoL from baseline even years after the final cast removal

Mechanical fractionation of tissues using microsecond-long HIFU pulses on a clinical MR-HIFU system.

© 2018, © 2018 Informa UK Limited, trading as Taylor & Francis Group. Purpose: High intensity focussed ultrasound (HIFU) can non-invasively treat tumours with minimal or no damage to intervening tissues. While continuous-wave HIFU thermally ablates target tissue, the effect of hundreds of microsecond-long pulsed sonications is examined in this work. The objective of this study was to characterise sonication parameter-dependent thermomechanical bioeffects to provide the foundation for future preclinical studies and facilitate clinical translation. Methods and materials: Acoustic power, number of cycles/pulse, sonication time and pulse repetition frequency (PRF) were varied on a clinical magnetic resonance imaging (MRI)-guided HIFU (MR-HIFU) system. Ex vivo porcine liver, kidney and cardiac muscle tissue samples were sonicated (3 × 3 grid pattern, 1 mm spacing). Temperature, thermal dose and T2 relaxation times were quantified using MRI. Lesions were histologically analysed using H&E and vimentin stains for lesion structure and viability. Results: Thermomechanical HIFU bioeffects produced distinct types of fractionated tissue lesions: solid/thermal, paste-like and vacuolated. Sonications at 20 or 60 Hz PRF generated substantial tissue damage beyond the focal region, with reduced viability on vimentin staining, whereas H&E staining indicated intact tissue. Same sonication parameters produced dissimilar lesions in different tissue types, while significant differences in temperature, thermal dose and T2 were observed between the parameter sets. Conclusion: Clinical MR-HIFU system was utilised to generate distinct types of lesions and to produce targeted thermomechanical bioeffects in ex vivo tissues. The results guide HIFU research on thermomechanical tissue bioeffects, inform future studies and advice sonication parameter selection for direct tumour ablation or immunomodulation using a clinical MR-HIFU system