http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.
변환된 중국어를 복사하여 사용하시면 됩니다.
Sasha Browning 대한파킨슨병및이상운동질환학회 2023 Journal Of Movement Disorders Vol.16 No.3
To systematically review and critically evaluate literature on spatiotemporal gait deviations in individuals with premanifest and manifest Huntington’s Disease (HD) in comparison with healthy cohorts.
Does Ossification of the Posterior Longitudinal Ligament Progress After Fusion?
Sasha Vaziri,Dennis Timothy Lockney,Alexander B. Dru,Adam J. Polifka,W. Christopher Fox,Daniel J. Hoh 대한척추신경외과학회 2019 Neurospine Vol.16 No.3
Starting in the 1960s, ossification of the posterior longitudinal ligament (OPLL) became more commonly diagnosed in Japan. The disease is characterized by a gradual increase in calcification of the posterior longitudinal ligament with the eventual sequelae of cervical canal stenosis and myelopathy. Surgical interventions to relieve stenosis and neurologic symptoms are performed to decompress the cervical canal. Studies demonstrate continued ossification of the OPLL in both nonsurgical and surgically treated patients. In this review, the authors evaluate the epidemiology, pathophysiology, and literature regarding disease progression in OPLL after cervical fusion.
Influence of Biochar Amendment on Herb Growth in a Green Roof Substrate
Michael W. Olszewski,Sasha W. Eisenman 한국원예학회 2017 Horticulture, Environment, and Biotechnology Vol.58 No.4
The objectives of this research were: 1) to assess the effect of biochar incorporation on the growth of basil(Ocimum basilicum ‘Genovese Compact, Improved’) and peppermint (Mentha × piperita) and, 2) to determine thephysical characteristic differences in heat-expanded clay (HEC) substrate following incorporations of biochar at 5%,10%, or 15% (by volume). A commercially-available green roof substrate, Rooflite Intensive Ag (IA) substrate, wasincluded for comparison. The IA substrate had the highest total porosity (TP), container capacity (CC), and air-filledporosity (AP). The HEC substrate showed a linear increase in TP and CC and a linear decrease in dry bulk densitywith increasing amounts of biochar. The commercially available IA substrate had the highest water retention (CC =25.0%). Overall, there was a maximum increase of peppermint shoot dry weight (g/shoot) response in the HECsubstrate using 15% biochar. Coverage area measurements indicated that peppermint benefited more than basil fromthe incorporation of biochar. Biochar alone did not influence stomatal conductance, although basil or peppermintgrown in the IA substrate had higher stomatal conductance than plants grown on HEC with all three biocharincorporation rates at 3 and 4 d after irrigation, probably due to the lower aboveground biomass of the IA-grownplants. In conclusion, the addition of biochar amendment to HEC substrate had a minor influence on peppermintgrowth and no influence on stomatal conductance of either basil or peppermint.