<span style="font-family:Verdana;">The effects of microorganisms on the central nervous system are manifested in both health and disease states. The symbiotic microorganisms in the human gut have certa...<span style="font-family:Verdana;">The effects of microorganisms on the central nervous system are manifested in both health and disease states. The symbiotic microorganisms in the human gut have certain effects on the brain development before and after birth. Chronic inflammation in patients with irritable bowel syndrome (IBS), psychiatric disorders such as PTSD, anxiety disorders, etc., is likely to be associated with an imbalance in gut flora. Intestinal flora regulates the central nervous system mainly through nerve, endocrine, metabolic and immune pathways. The mechanisms involved in the influence of intestinal flora on the central nervous system are diverse, so it is necessary to explore the role of intestinal flora in mental and psychological diseases.</span>展开更多
Polypropylene samples with fullerene C60, fullerenol C60(OH)24, 1010, C60/168, C60-OH/168 and 1010/168 as antioxidants were prepared by extrusions. MFR, YI, TGA and OIT of all the samples were tested. According to t...Polypropylene samples with fullerene C60, fullerenol C60(OH)24, 1010, C60/168, C60-OH/168 and 1010/168 as antioxidants were prepared by extrusions. MFR, YI, TGA and OIT of all the samples were tested. According to the results of MFR, during the melt extrusion, fullerene showed excellent stability effect on PP. The antioxidative ability of fullerene was comparable to the traditional antioxidant 1010. The antioxidative ability of fullerenol was not significant in the first extrusion and it accelerated the degradation of PP in the second and the third extrusions. TGA and OIT tests showed that the stability effects of fullerene and fullerenol were slightly lower than antioxidant 1010. In the first time, antioxidant 168 was reported to show great synergistic effects with fullerene and fullerenol as antioxidants, which sussested a simple way to enhance the antioxidative abilities of fullerene and fullerenol.展开更多
文摘<span style="font-family:Verdana;">The effects of microorganisms on the central nervous system are manifested in both health and disease states. The symbiotic microorganisms in the human gut have certain effects on the brain development before and after birth. Chronic inflammation in patients with irritable bowel syndrome (IBS), psychiatric disorders such as PTSD, anxiety disorders, etc., is likely to be associated with an imbalance in gut flora. Intestinal flora regulates the central nervous system mainly through nerve, endocrine, metabolic and immune pathways. The mechanisms involved in the influence of intestinal flora on the central nervous system are diverse, so it is necessary to explore the role of intestinal flora in mental and psychological diseases.</span>
基金financially supported by the Fundamental Research Funds for the Central Universities,China(No.TD201203)
文摘Polypropylene samples with fullerene C60, fullerenol C60(OH)24, 1010, C60/168, C60-OH/168 and 1010/168 as antioxidants were prepared by extrusions. MFR, YI, TGA and OIT of all the samples were tested. According to the results of MFR, during the melt extrusion, fullerene showed excellent stability effect on PP. The antioxidative ability of fullerene was comparable to the traditional antioxidant 1010. The antioxidative ability of fullerenol was not significant in the first extrusion and it accelerated the degradation of PP in the second and the third extrusions. TGA and OIT tests showed that the stability effects of fullerene and fullerenol were slightly lower than antioxidant 1010. In the first time, antioxidant 168 was reported to show great synergistic effects with fullerene and fullerenol as antioxidants, which sussested a simple way to enhance the antioxidative abilities of fullerene and fullerenol.
