7 research outputs found
Study on closing and cracking stress calculation method of fractured rock
Determining the characteristic stress intensity according to the rock stress-strain curve is significant significance for rock engineering. Nowadays, there are relatively mature methods for determining peak stress and damage stress. However, the crack volume strain method, axial strain method, and strain response method are more subjective to determine rock’s closure stress and initiation stress. The closure rock stress and crack initiation stress refined value method are proposed based on these methods, which are based on the discreteness of the rock stress and strain point. Through optimizing the stress characteristics by an objective function (variance function), the subjectivity of artificial observation is avoided; Based on the trend of rock stress-strain curve, an empirical method for determining rock closure stress and crack initiation stress is proposed. The test results indicate that the two proposed methods that calculate closure rock stress and crack initiation stress can obtain reasonable results. These methods can be used as a supplement to the characteristics of the rock stress determination method and can be used in actual engineering
Diagnostic significance of CK19, TG, Ki67 and galectin-3 expression for papillary thyroid carcinoma in the northeastern region of China
<p>Abstract</p> <p>Background</p> <p>To evaluate the expression and differential diagnostic significance of CK19, TG, Ki67 and galectin-3 in papillary thyroid carcinoma (PTC) (metastatic and non metastatic), follicular adenoma and nodular goiter in patients from the northeastern part of China.</p> <p>Methods</p> <p>441 PTC specimens and 151 other benign thyroid specimens (97 cases of nodular goiter, 54 cases of nonmalignant follicular adenoma) were collected. Immunohistochemistry for CK19, TG, Ki67 and galectin-3 was performed.</p> <p>Results</p> <p>CK19, TG, Ki67 and galectin-3 expression was 96.37% (425/441), 82.77% (365/441), and 40.59% (179/441), 96.82% (427/441), respectively, for the PTC group and the expression of these markers in the benign thyroid lesions group was 25.83% (39/151), 79.47% (120/151), and 37.09% (56/151), 50.99% (77/151), respectively. The expression of CK19 and galectin-3 in PTC was much higher than that in the nonmalignant group (p < 0.05). However, the expression of TG, Ki67 did not differ among these two groups (p > 0.05). The diagnostic efficiency of CK19 and galectin-3 for PTC was 96.37% (537/592) and 84.63% (501/592). CK19 and galectin-3 expression rate in PTC was higher than that in benign disease cases.</p> <p>Conclusions</p> <p>The diagnostic efficiency of CK19 for PTC was slightly better than galectin-3. The utilization of these markers combined with morphologic evaluation may be helpful in the differential diagnosis of papillary thyroid carcinoma in the northeastern region of China.</p
Impact of martial arts education on college students' social adaptability skills
学习武术有着深植于民族精神的丰富历史。本研究关注武术教育对大学生在公共体育课程中的社会适应能力的影响。具体来说,选取了山东某高校的一批大学生作为研究对象。旨在探讨社会适应能力与武术教育的关系,探讨武术教育活动实施的有效性。该研究采用实证研究和理论分析。从研究中可以得出结论,武术教育提高了沟通能力和宝贵的生活技能。
关键词:武术教育,大学生,社会适应能
<i>para</i>-Aminothiophenol Radical Reaction-Functionalized Gold Nanoprobe for One-to-All Detection of Five Reactive Oxygen Species in Vivo
Five
major reactive oxygen species (ROS) are generated in diseases
including H2O2, •OH, O2•–, ROO•, and 1O2. Simultaneous detection of the five ROS with
a single
probe is crucial for a comprehensive understanding of the development
and progression of many diseases, such as cancer and inflammatory
diseases. However, currently reported detection systems are limited
by targeting one ROS with one probe. This one-to-one detection mode
may fail to sufficiently unveil the diseased state. In this study,
we achieved simultaneous detection of all the five ROS with one probe
(i.e., one-to-all detection), by designing a novel para-aminothiophenol
(PATP) and hemin-decorated gold (Au/PATP/Hemin) nanoprobe. The design
is principled by our discovery that PATP can react with •OH, O2•–, ROO•, and 1O2 by a radical oxidative coupling mechanism
to form 4,4′-dimercaptoazobenzene (DMAB). The DMAB then elicited
strong characteristic surface-enhanced Raman scattering (SERS) peaks
at 1142, 1386, and 1432 cm–1; which in turn enables
direct detection of •OH, O2•–, ROO•, and 1O2 and indirect
detection of H2O2 by hemin-catalyzed fenton
reaction to convert H2O2 into •OH. In two representative ROS-elevated mice models of tumors and
allergic dermatitis, the Au/PATP/Hemin nanoprobe demonstrated its
robust performance of monitoring tumor development and inflammation
progression in a highly sensitive and quantitative manner