Neuropsychological Features in Patients with General Paresis of the Insane at an Early Stage.

BACKGROUND This study aimed to explore the features of cognitive impairment in patients with neurosyphilis at the early stage of mild cognitive impairment (MCI). MATERIAL AND METHODS A total of 18 patients with asymptomatic neurosyphilis (ANS), 19 patients with neurosyphilis at the MCI stage (neurosyphilis-MCI), and 15 patients with neurosyphilis at the dementia stage (neurosyphilis-dementia) were enrolled. Cognitive function was evaluated using comprehensive rating scales. Tests of syphilis in blood and cerebrospinal fluid (CSF) were conducted, and white blood cell (WBC) counts and protein levels in CSF were measured. RESULTS Overall cognitive function and individual cognitive domains, including memory, language, visuospatial skill, and attention/executive function, were all significantly impaired in the neurosyphilis-MCI group compared with the ANS group, and were further impaired in the neurosyphilis-dementia group. Although there was no difference in serum rapid plasma regain (RPR) titer among the 3 groups, the number of patients with serum RPR titer ≥1: 32 in the neurosyphilis-MCI group was much higher than that in the ANS group. CSF RPR positive rate in the neurosyphilis-MCI group was significantly higher than that in the ANS group. The WBC count, protein level, and the rate of elevated protein level or increased WBC count in CSF did not differ among the 3 groups. CONCLUSIONS The feature of cognitive impairment of neurosyphilis-MCI patients displayed multiple-domain amnestic MCI. Perhaps there were extensive brain areas involved at the early stage, and a continuous neuroinflammatory process was through the different stages of neurosyphilis. Early diagnosis and treatment are very important for preventing the progression of general paresis of the insane.

[Microbial Community Structure Shift During Bioremediation of Petroleum Contaminated Soil Using High Throughput Sequencing].

The shift in microbial community structure during the bioremediation of oil-polluted soil was analyzed by high-throughput sequencing. The results demonstrated obvious changes in the soil microbial community structure and diversity during bioremediation. The species richness and evenness of the microbial community decreased substantially due to the bioaugmentation treatment. Proteobacteria became the predominant phylum, with a relative increase in abundance from 37.44% to 87.44%. Pseudomonas was the most dominant genus, which increased in abundance from 2.99% to 76.37%. In the biostimulation treated soil, the relative abundance of Proteobacteria decreased from 37.44% to 10.90%, while the phylum Firmicutes increased from 9.16% to 35.32%. At the genus level, the relative abundances of Exiguobacterium and Promicromonospora decreased from 8.49% and 18.96% to 2.19% and 14.97%, respectively. Nocardioides and Bacillus became the dominant genera and increased from 5.56% and 0.29% to 28.95% and 22.70%, respectively. The results indicated that bioaugmentation substantially influenced the soil microbial diversity and community structure. Additionally, the biostimulation treatment maintained the balance in the soil microbial community structure. The stabilization of bacteria community structure is beneficial to petroleum biodegradation in the soil.

[Isolation, Identification and Degradation Characteristics of a 17ß-estradiol Degrading Strain Fusarium sp. KY123915].

A 17ß-estradiol (E2) degrading strain (designated as Wu-SP1) was isolated from the activated sludge collected from a wastewater treatment plant (WWTP) in Xi'an. The strain was identified as Fusarium sp. according to 18S rDNA sequence and phylogenetic analysis. The optimal pH and temperature for E2 degradation were 6 and 30℃, respectively. Under these conditions, the E2 biodegradation rate of 2 mg·L-1 E2 amounted to 92.5% within 48 h by this strain. The kinetics of E2 degradation by the strain KY123915 were in good accord with the first-order equation, with the concentration ranged from 10 to 500 mg·L-1. UV spectrum analysis showed the strength of maximum absorption of metabolites became weak compared to E2, indicating that E2 may be degraded via estrone (E1) by Fusarium sp. KY123915.

[Remediation of Petroleum-Contaminated Soil Using a Bioaugmented Compost Technique].

Bioaugmented compost was created by inoculating petroleum-degrading bacteria into mature compost. The petroleum hydrocarbon degradation efficiencies were investigated by applying this enhanced compost to petroleum-contaminated soil under low temperatures. The results showed that the degrading bacteria can be enriched in the mature compost. After 30 d of remediation, the removal efficiency of TPH, alkanes, and PAHs in the soil was 27.0%, 19.6%, and 10.0%, compared to natural attenuation (CK), which was 4.5%, 9.5%, and 2.3%, respectively. In response to remediation, the relative abundance of Proteobacteria and Actinobacteria phyla decreased from 53.4% and 25.9% to 48.9% and 14.1%, respectively, and Bacteroidetes phylum increased from 5.0% to 24.5%. At the genus level, the relative abundance of Acinetobacter and Pseudomonas increased from 0.02% and 3.4% to 15.2% and 4.6%, respectively. The results indicated that the bioaugmented compost may efficiently facilitate and speed up the bioremediation of petroleum-contaminated soil under low-temperature conditions. Soil microbial diversity and structure of microbial communities are sensitive to the remediation.