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Limb Abnormality (limb + abnormality)
Selected AbstractsWhen is fetoscopic release of amniotic bands indicated?PRENATAL DIAGNOSIS, Issue 5 2009Review of outcome of cases treated in utero, selection criteria for fetal surgery Abstract Objectives The objectives are to analyze the outcomes of fetal interventions for fetal limb abnormalities associated with amniotic band syndrome (ABS), to compare the outcome with the known natural history, and to establish selection criteria for fetal intervention. Material and Methods In a Medline search, six cases of prenatal fetoscopic interventions for ABS were found. An unpublished case was added. Results Review of the seven cases of treated ABS in utero suggests that abnormal, but present blood flow at Doppler distal to the area constricted by the band may optimally identify cases suitable for fetal surgery. We propose a prenatal classification in stages of cases of ABS based on ultrasound and Doppler findings. Premature rupture of membranes (PROM) occurred in five patients (71%). The median gestational age (GA) at delivery was 34.8 weeks (range 32 to 39). The median time between procedure and PROM was 6 weeks (range 4 days to 14.3 weeks). The median time between procedure and delivery was 11.8 weeks (range 5,17). Conclusion The use of a uniform prenatal classification of cases of ABS may allow a more precise correlation of prenatal findings and postnatal outcome. Copyright © 2009 John Wiley & Sons, Ltd. [source] How to make a zone of polarizing activity: Insights into limb development via the abnormality preaxial polydactylyDEVELOPMENT GROWTH & DIFFERENTIATION, Issue 6 2007Robert E. Hill Early in vertebrate limb development, a program initiates that polarizes the limb along the antero-posterior axis. The mesenchyme at the posterior margin is ultimately responsible for the asymmetry due to a region called the zone of polarizing activity (ZPA). The ZPA produces and secretes the molecule SHH, which coordinates the patterning of the resulting digits. Preaxial polydactyly (PPD) is a commonly occurring limb abnormality; investigating the genetic basis of this defect has provided insights into our understanding of digit patterning. PPD disrupts limb asymmetry by producing an ectopic ZPA at the opposite margin of the limb bud. Mutations in the long-range, limb-specific regulatory element of the Shh gene are responsible for the defect. Genetic analysis of this limb abnormality provides an important approach in understanding the mechanisms that control digit patterning. [source] Computed Tomographic, Magnetic Resonance Imaging, and Cross-Sectional Anatomic Features of the Manus in a Normal American Black Bear (Ursus americanus)ANATOMIA, HISTOLOGIA, EMBRYOLOGIA, Issue 3 2010C. P. Ober With 11 figures and 1 table Summary The purpose of this study was to provide a detailed description of cross-sectional anatomic structures of the manus of a black bear cadaver and correlate anatomic findings with corresponding features in computed tomographic (CT) and magnetic resonance (MR) images. CT, MR imaging, and transverse sectioning were performed on the thoracic limb of a cadaver female black bear which had no evidence of lameness or thoracic limb abnormality prior to death. Features in CT and MR images corresponding to clinically important anatomic structures in anatomic sections were identified. Most of the structures identified in transverse anatomic sections were also identified using CT and MR imaging. Bones, muscles and tendons were generally easily identified with both imaging modalities, although divisions between adjacent muscles were rarely visible with CT and only visible sometimes with MR imaging. Vascular structures could not be identified with either imaging modality. [source] | ||||||||||