9 research outputs found
Effectiveness and safety of traditional Chinese medical bath therapy combined with ultraviolet irradiation in the treatment of psoriasis: A systematic review and meta-analysis of randomized controlled trials
<div><p>Background and objective</p><p>To systematically evaluate the clinical effects and safety of traditional Chinese medical bath therapy (TCMBT) combined with ultraviolet irradiation in the treatment of psoriasis.</p><p>Methods</p><p>Electronic database retrieval was utilized. The foreign retrieval databases consulted included those of the Cochrane Library, PubMed and EMBASE; the domestic retrieval databases included the Chinese Biomedical Literature Database (Sino-Med), the China National Knowledge Infrastructure (CNKI), VIP and the WangFang Database. Clinical randomized controlled trials were conducted to evaluate the effects of TCMBT combined with ultraviolet irradiation in the treatment of psoriasis; the language of the retrieved articles was Chinese or English. Each database was searched from its inception to August 1, 2015. Two researchers independently collected the data and analyzed the methodology of the documented literature. The researchers conducted a meta-analysis with RevMan 5.2.3 software.</p><p>Results</p><p>According to the available literature, 25 RCTs (randomized controlled trials) of low research quality were conducted. According to the meta-analysis, the total effective rate of TCMBT combined with ultraviolet irradiation was relatively higher than that of ultraviolet irradiation alone. The recurrence rate, incidence of adverse reactions and Psoriasis Area and Severity Index (PASI) for the combined therapy was lower than that of ultraviolet irradiation (<i>P<0</i>.<i>05</i>).</p><p>Conclusion</p><p>For the treatment of psoriasis, the clinical effects and safety of TCMBT combined with ultraviolet irradiation are generally better than those of ultraviolet irradiation alone. However, the original literature was written in Chinese, and the quality of the studies was not high. Thus, it is difficult to confirm the clinical effects and safety of TCMBT combined with ultraviolet irradiation. It is necessary to conduct a scientific, normalized and high-quality RCT with multiple large samples and centers.</p></div
Tunable Physical-Mechanical Properties of Eco-Friendly and Sustainable Processing Bamboo Self-Bonding Composites by Adjusting Parenchyma Cell Content
Parenchyma cells (PCs) and bamboo fibers (BFs) are the
main component
units of natural bamboo. However, PCs have long been discarded as
waste during the industrial processing and utilization of bamboo,
i.e., papermaking, textile, and composites, because of their inferior
mechanical properties and higher hygroscopicity compared to the BFs.
Here, we proposed to mechanically separate PCs from BFs and subsequently
recombine them to generate formaldehyde-free bamboo self-bonding composites
(BSCs), which physical–mechanical properties were tuned for
the first time by adjusting the PC content. The PC effects were examined
on the formation and material properties of the BSCs in terms of microstructure
and physical–mechanical properties. Microscopic observation
revealed that PCs with a high cavity-to-cell wall ratio were more
likely to deform and bridge adjacent particles during hot pressing,
thus forming a dense interlocking structure with heat-sealed points
between the BFs. The inclusion of the PCs into the BSCs led to much
lower water absorption and thickness swelling than without the PCs.
The BSCs containing 40% BFs and 60% PCs had a thickness swelling of
13.3%, fulfilling the performance requirements of commercial high-density
fiberboards used in humid environments. The 40% BFs/60% PCs made BSCs
also exhibited the highest flexural strength, flexural modulus, and
internal bonding strength, increasing by 99.8, 60.8, and 189.9%, respectively,
compared with sole BF-made BSCs. The eco-friendly and formaldehyde-free
BSCs with tunable properties are promising for use in furniture, packaging,
and interior decorations