OBJECTIVETo study the changes of mucosa irritation of crude and processed Radix Phytolaccae.

METHODGastrointestinal experiments on rats and mice and the rabbits' eyes irritation experiments were applied to investigate the changes of mucosa irritation of crude and processed Radix Phytolaccae.

RESULTThe mucosa irritation of processed Radix Phytolaccae decreased obviously compared to crude one.

CONCLUSIONAfter being processed with vinegar, the mucosa irritation on Radix Phytolaccae decreased obviously.

Acetic Acid ; chemistry ; Animals ; Dinoprostone ; metabolism ; Drug Compounding ; Drugs, Chinese Herbal ; adverse effects ; chemistry ; Eye ; drug effects ; Gastric Mucosa ; drug effects ; metabolism ; Male ; Mice ; Phytolacca ; chemistry ; Plant Roots ; chemistry ; Rats

OBJECTIVETo study the correlation of Pinellia ternata agglutinin (PTA) and toxicity of P. ternata raphides and to find out the toxic mechanism of P. ternata.

METHODPTA has obvious effect of pro-inflammation. The model of rats peritonitis was used to study the dose-toxicity and time-toxicity relationship of the effect by detecting the releases of inflammatory mediators PGE2 in the exudates. The model of Draize rabbit eye test was applied to determine the correlation of PTA and toxicity of raphides by pathological examination.

RESULTPTA enhanced the content of PGE2 and protein in rats peritoneal cavities concentration dependently. With PTA concentration increased, PTA enhanced the inflammation induced by raphides to rabbit eyes, but PTA alone had no toxicity response.

CONCLUSIONPTA had obvious effect of pro-inflammation. The toxic mechanism of P. ternata was PTA induced inflammation only when the raphides pierce into the organization.

Agglutinins ; chemistry ; toxicity ; Animals ; Eye ; drug effects ; Inflammation ; chemically induced ; Male ; Pinellia ; chemistry ; Rabbits ; Rats ; Rats, Sprague-Dawley

The intestinal dysbacteriosis is closely associated with the occurrence and progress of radiation-induced intestinal injury. However, the specific mechanism remains unclear. Symbiotic bacteria in the human body play a significant role in maintaining the homeostasis of the intestinal microenvironment while participating in various physiological and pathological processes such as metabolism, immunoregulation, inflammation, and tumorigenesis. Ionizing radiation can destroy the intestinal epithelial barrier, creating an oxidative stress microenvironment. Consequently, the composition and structure of microbiota change, leading to dysbacteriosis through downstream inflammatory factors. Dysbacteriosis can further exacerbate radiation-induced intestinal injury by weakening the resistance of the intestinal epithelial barrier, activating inflammatory signaling pathways, and upregulating radiation-induced apoptosis response. The probiotic supplementation and fecal bacteria transplantation can reduce radiation-induced intestinal injury by regulating the balance of intestinal microbiota. This study reviews the advances in research on the pathogenesis and clinical protection of radiation enteritis based on gut microbiota, in order to provide a theoretical basis and reference for the prevention and treatment of radiation enteritis.

Objective:To investigate whether the image quality of total-body PET/CT (TB PET/CT) with 1 min acquisition can meet the clinical diagnostic requirements.Methods:From May 2019 to September 2021, a total of 90 malignant tumor patients (60 males, 30 females, age 31-86 years) with primary lesions confirmed by pathological diagnosis in Zhongshan Hospital, Fudan University were respectively analyzed. All patients underwent conventional PET/CT (C PET/CT) scan with conventional clinical acquisition and TB PET/CT scan with 1 min acquisition after injecting 18F-FDG in random order. Paired t test or Wilcoxon signed rank test was used to analyze the image quality of these two scans. Results:SUV max of primary lesions in TB PET/CT group was significantly higher than that in C PET/CT group (15.9(7.9, 24.6) vs 12.5(5.8, 16.6); z=8.14, P<0.001), so were signal-to-noise ratio (SNR) of the blood pool, liver, muscles (9.3±3.0, 11.4(9.5, 14.2), 8.3(7.3, 10.1) vs 6.2±1.7, 9.4(7.7, 11.8), 6.0(4.9, 7.1)), tumor-to-blood pool ratio (TBR) (9.3(4.3, 14.8) vs 8.5(4.3, 11.1)), tumor-to-liver ratio (TLR) (6.7(3.0, 10.4) vs 6.1(2.9, 7.7)), tumor-to-muscle ratio (TMR) (23.2(11.5, 38.0) vs 18.3(9.6, 26.6); t=9.36, z values: 4.44-7.40, all P<0.001). Conclusion:The image quality of TB PET/CT scan with 1 min acquisition can meet the diagnostic requirements, and is better than the C PET/CT image quality with conventional clinical acquisition.