Objective To summarize the clinical characteristic and therapeutic efficacy of lacunar infarction after craniocerebral trauma.Methods 37 cases of children with lacunar infarction after craniocerebral trauma from December 2000 to December 2004 were retrospectively analyzed.Results All of the 37 sufferers received the expectant treatment in hospital.Among the 37 cases,30(81.1%) were well-healed and 7(18.9%) were light maimed when leaving hospital.The clinical symptom of the 29 sufferers completely faded and 7 patients who were light maimed recoverd during the follow-up visit for 6 to 12 months.Conclusions Lacunar infarction after craniocerebral trauma is the syndrome of the damage of the nervous system.Its' major manifestation is the disorder of half body movement.Children with light craniocerebral trauma get this kind of disesase easily.CT scanning and regular re-X can predominantly raise the of the final diagnosis.Most of the sufferers can receive good long-term therapeutic efficacy.

In order to construct an Escherichia coli strain with high sensitivity and specificity to detect arsenic ion using fluorescence as reporter, a sensitive strain to arsenic ion was obtained by knocking out the gene arsB that acts as an arsenic efflux pump. The pET28b vector containing arsenite detecting cassette Pars-arsR-egfp was constructed and then transformed into arsB deleted mutant. Measuring conditions of this constructed whole-cell biosensor were optimized and its linear concentration range, limit of detection and specificity were determined. This modified biosensor was much more sensitive than that using wild-type strain as host. The optimal detection range of As³⁺ concentration was 0.013 to 42.71 μmol/L, and the limit concentration of detection was as low as 5.13 nmol/L. Thus we successfully improved the sensitivity of arsenite detecting biosensor by modification of E. coli genome, which may provide useful strategies for development and optimization of microbial sensors to detect heavy metals.
Arsenites ; analysis ; Biosensing Techniques ; Escherichia coli ; genetics ; Gene Knockout Techniques ; Metals, Heavy ; Microorganisms, Genetically-Modified ; Water ; chemistry