ABSTRACT
INTRODUCTION: This descriptive study aims to review and evaluate the implementation of a single visit treatment protocol for pediatric distal radius buckle fractures at our center - its success, learning points and limitations. It hopes to raise awareness of the efficacy of the protocol and its benefits to promote its utilization. METHODS: Following a pilot study, the protocol was implemented from 1 March 2017. A retrospective review of clinical records over 2 years since implementation for patients with a new-visit diagnosis of "distal radius buckle fracture" was conducted. Data collected included age at time of injury, gender, side of injury, whether the patient was enrolled into the protocol, number of clinic visits, and number of radiographic examination(s) performed. Each record was reviewed up to 3 months post-injury to check for any complications or return visits. Costs of specific treatment interventions were also obtained from the hospital's finance department. RESULTS: 286 patients with buckle fractures of the distal radius eligible for enrolment into the single visit treatment protocol were identified. Of these, 202 patients (70.6%) were enrolled and managed with the protocol, while 84 patients (29.4%) were treated with conventional management. Of the 202 protocol-managed patients, all fractures healed without complications. Only 4 patients returned for additional clinic visits. Another 4 patients had additional X-rays taken on top of their initial injury film. A breakdown of expenses for treatment also showed cost savings of USD 110.67 and USD 320.80 for residents and non-residents respectively for single visit treatment. CONCLUSION: Single visit treatment of pediatric distal radius buckle fractures is recommended and supported by evidence, with advantages of convenience, cost reduction, and being less labor intensive.
Subject(s)
Radius Fractures , Radius , Algorithms , Child , Humans , Pilot Projects , Radius Fractures/diagnostic imaging , Radius Fractures/therapy , Retrospective StudiesABSTRACT
The anterior intermeniscal ligament (AIML) is an anatomically distinct structure that connects the anterior horns of the medial and lateral menisci. We hypothesized that both menisci work together as a unit in converting axial joint loading into circumferential hoop stresses, due to intermeniscal attachments. Therefore, loss of the AIML could lead to increased tibiofemoral contact stress and predispose to arthritic change. In this cadaveric study, we compared tibiofemoral contact pressures on axial loading, before and after sectioning of the AIML. Five fresh frozen human cadaveric knees were mounted on a linear x-y motion table and loaded in extension under axial compression of 1800N (about 2.5 times body weight for a 70kg individual), using a materials testing machine. Tibiofemoral contact pressures before and after sectioning of the AIML were measured using resistive pressure sensors. Contrary to our hypothesis, sectioning of the AIML produced no statistically significant increase in mean contact pressure, peak contact pressure or change in contact area, in either the medial or lateral compartment of the knees. This implies that the menisci work independently in converting axial loads into circumferential hoop stresses, and is probably due to their individual root attachments to the tibia. Based on this study, inadvertent sectioning of the AIML during knee surgery, e.g., arthroscopy, anterograde tibia nailing, anterior cruciate ligament reconstruction, meniscus transplantation and unicondylar knee replacement, is functionally insignificant.