https://www.selleckchem.com/products/AZD0530.html Severe forms of hypophosphatasia due to loss-of-function in the ALPL gene may present with diverse neurological problems including pyridoxine-responsive seizures. We present a short report of pyridoxine-responsive neonatal seizures. Due to severe osteopenia with unmeasurable levels of alkaline phosphatase, targeted genetic screening was performed and two pathogenic variants in the gene for the nonspecific alkaline phosphatase confirmed the diagnosis of hypophosphatasia. We would like to emphasize the importance of considering infantile hypophosphatasia in the differential diagnosis of pyridoxine-responsive seizures with concomitant low alkaline phosphatase level and bone pathology, especially with the new treatments becoming available in the future.Fosfomycin tromethamol (FT) was reintroduced as an option for the treatment of low urinary tract infection (UTI) in children. In this study, we described the antibiotic sensitivity and mechanisms of resistance to fosfomycin in isolates from children older than 6 years with UTI. Urine culture and antibiotic susceptibility study were performed. In fosfomycin resistant strains, PCR for fos, blaCTX-M was performed followed by classification by phylogenetic group and sequencetyping. Escherichia coli was the most frequent etiological agent (89.2%). The susceptibility percentages were fosfomycin 97.9%; amoxicillin-clavulanate 92.7%; cefuroxime and ceftriaxone 99%; nitrofurantoin 94.4%. An E. coli strain (ST69, phylogenetic group D) was resistant to fosfomycin (MIC 256mg/l) and carried the blaCTX-M-14 and fosA3 genes in a 45kb IncN-type plasmid. This is the first report of E. coli ST69 with blaCTX-M-14/fosA3 of human origin. To study the epidemiological and clinical characteristics of intermittent exotropia and to describe our therapeutic choices as well as their results and prognostic factors. This was a retrospective study including 57 cases of intermittent exotropia. All patien