Teresa Cappello scite author profile

Clinical and research measures for walking activity measure capacity and performance. Existing tools such as 3-dimensional gait analysis and validated gross motor instruments examine capacity but do not measure performance. We defined normal activity levels for 20 children ages 5-7 and 9-11 years using the StepWatch Activity Monitor (SAM). Average daily step counts varied widely by age and sex (mean 7604 +/- 2485), but the percent time spent at high, medium, and low levels of activity was very consistent regardless of age or sex of the child.

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Obesity’s Influence on Operative Management of Pediatric Supracondylar Humerus Fractures

Bruce²,

Joyce

et al. 2018

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Ketorolac Administration Does Not Delay Early Fracture Healing in a Juvenile Rat Model

Cappello

Nuelle

Katsantonis

et al. 2013

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Background Nonsteroidal anti-inflammatory drugs (NSAIDs) are effective at controlling pain in children, especially in the treatment of fractures. Adult animal and adult clinical studies demonstrate conflicting evidence for the inhibitory relationship between NSAIDs and fracture healing. Published pediatric orthopaedic clinical studies do not demonstrate an inhibitory effect of ketorolac on bone healing. Little is known about the effects of any NSAID on bone formation in juvenile animals. This study investigates the effects of the NSAID ketorolac on fracture healing in a juvenile rat model. Methods Unilateral surgically induced and stabilized tibial shaft fractures were created in 45 juvenile (3 to 4wk old) male Sprague-Dawley rats. Either ketorolac (5 mg/kg; n=24) or saline (0.9% normal saline; n=21) was then administered to the rats 6 d/wk by intraperitoneal injections. Animals were then randomly assigned into time groups and euthanized at 7 days (n=8 ketorolac, n=7 saline), 14 days (n=8 ketorolac, n=7 saline), or 21 days (n=8 ketorolac, n=7 saline) postfracture. Biomechanical analysis was performed using a custom-designed 4-point bending loading apparatus. Statistics for tibial stiffness and strength data were performed using software package Systat 11. Specimens were also evaluated histologically using hematoxylin and eosin staining. Results Strength and stiffness of all fractured tibiae increased over time from day 7 to day 21 regardless of treatment type. No statistical difference was found between the fractured tibiae strength or stiffness in the ketorolac or control-treated specimens at the same time point. In addition, the quality of the fracture callus was similar in both groups at each of the time points. Conclusions In this study of a juvenile rat model with a stabilized tibia fracture, fracture callus strength, stiffness, and histologic characteristics were not affected by the administration of ketorolac during the first 21 days of fracture healing. Clinical Relevance The absence of inhibitory effects of ketorolac on early juvenile rat fracture healing supports the clinical practice of utilizing NSAIDs for analgesia in children with long bone fractures.

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Imaging of the Pediatric Athlete

Lomasney

Lim-Dunham

Cappello

2013

Radiologic Clinics of North America

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Teresa Cappello

Determining treatment of flatfeet in children

Use of the StepWatch Activity Monitor for Characterization of Normal Activity Levels of Children

Obesity’s Influence on Operative Management of Pediatric Supracondylar Humerus Fractures

Ketorolac Administration Does Not Delay Early Fracture Healing in a Juvenile Rat Model

Imaging of the Pediatric Athlete

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