INTRODUCTION: We studied ultrasound features of muscle after nerve injury. METHODS: We evaluated ultrasound measurements of muscle thickness and backscatter in injured and contralateral uninjured elbow flexors of 51 children with newborn brachial plexus palsy (NBPP) and compared the results to elbow flexor function (Active Movement Scale), defined as normal, moderate, or severe. RESULTS: Compared with uninjured limbs, muscle in injured arms was 15% thinner with severe impairment, 17% thicker with moderate impairment, and no different with normal function. Relative to uninjured limbs, moderately impaired muscle was thicker than both severely impaired and normal strength muscle. Backscatter was higher in injured than in uninjured limbs regardless of function. In 17 patients with sequential measures, muscle thickness, but not backscatter, increased with function over time. CONCLUSIONS: Muscle thickness differentiates moderate from severe impairment after NBPP and increases with recovery over time. Muscle backscatter identifies prior injury regardless of function.
INTRODUCTION: We studied ultrasound features of muscle after nerve injury. METHODS: We evaluated ultrasound measurements of muscle thickness and backscatter in injured and contralateral uninjured elbow flexors of 51 children with newborn brachial plexus palsy (NBPP) and compared the results to elbow flexor function (Active Movement Scale), defined as normal, moderate, or severe. RESULTS: Compared with uninjured limbs, muscle in injured arms was 15% thinner with severe impairment, 17% thicker with moderate impairment, and no different with normal function. Relative to uninjured limbs, moderately impaired muscle was thicker than both severely impaired and normal strength muscle. Backscatter was higher in injured than in uninjured limbs regardless of function. In 17 patients with sequential measures, muscle thickness, but not backscatter, increased with function over time. CONCLUSIONS: Muscle thickness differentiates moderate from severe impairment after NBPP and increases with recovery over time. Muscle backscatter identifies prior injury regardless of function.
Authors: Deepak K Somashekar; Thomas J Wilson; Michael A DiPietro; Jacob R Joseph; Mohannad Ibrahim; Lynda J-S Yang; Hemant A Parmar Journal: Childs Nerv Syst Date: 2016-05-14 Impact factor: 1.475
Authors: Dan M Cooper; Gay L Girolami; Brenda Kepes; Annamarie Stehli; Candice Taylor Lucas; Fadia Haddad; Frank Zalidvar; Nitzan Dror; Irfan Ahmad; Antoine Soliman; Shlomit Radom-Aizik Journal: Pediatr Res Date: 2020-01-11 Impact factor: 3.756