Gastric cancer is one of the most common digestive tract tumors, usually developed from the sequence of atrophy-intestinal metaplasia-dysplasia. The genetically engineered mice model via studying the pathogenic role of a specific gene in vivo can contribute significantly to the clinical diagnosis and treatment of gastric cancer, especially adenocarcinoma. This article summarized the construction methods, pathological phenotype, relevance with Helicobacter pylori (Hp) infection and fields of application for providing a reference for clinical study and basic research.

BACKGROUND: Individual three-dimensional (3D) scaffolds can be constructed by 3D printing via Computer Aided Design based on the given anatomical measurements of related tissues. A rapid and accurate reconstruction of bone, cartilage, muscle and vessel also can be achieved by 3D printing; however, many problems still remain unsolved.OBJECTIVE: To summarize the principle and classification of 3D printing, the classification, characteristics and histocompatibility of scaffolds through reviewing the articles addressing 3D printing applied in bone tissue engineering,thereby providing theoretical foundation for the study on the construction of tissue-engineered bone.METHODS: PubMed and CNKI databases were retrieved for the literatures regarding the application of 3D printing technology in bone tissue engineering published from January 2001 to January 2017 using the keywords of three-dimensional printing, rapid prototyping manufacturing, bone tissue engineering in English and Chinese,respectively. Finally, 30 articles were reviewed and discussed in accordance with the inclusion and exclusion criteria.RESULTS AND CONCLUSION: The microstructures of normal tissues can be reconstructed and seed cells are printed on the 3D scaffolds synchronously by 3D printing technology. Moreover, the scaffold degradation and cell differentiation are synchronous, which contributes to tissue repair. Biological ceramics have been widely used in bone tissue engineering because of its good biocompatibility and mechanical properties. However, the urgent problems such as angiogenesis and cellular signal transduction still need to be addressed.

OBJECTIVE: To explore the value of in situ amniocyte culture for prenatal diagnosis. METHODS: 2716 amniotic fluid samples were cultured in situ on slides. After the culture, the slides were stained, photographed and analyzed. RESULTS: All samples were successfully analyzed, with the success rates for primary culture and subculture being 98.42% and 1.58%, respectively. 224 samples (8.25%) were detected with chromosomal aberrations, which included 125 cases with trisomy 21, 31 with trisomy 18, 3 with trisomy 13, 4 with 45,X, 17 with 47,XXY, 5 with 47,XYY, 1 with 48,XXY,+18, 1 with 48,XXYY, 26 with structural chromosomal aberrations, and 11 with mosaicisms for aneuploidies. CONCLUSION In situ amniocyte culture is stable and has a high success rate, and is capable of identifying true and false mosaicisms, which can improve the accuracy of prenatal diagnosis.

Objective To compare the success rates of different culture methods for hemorrhagic amniotic fluid.Methods Thirty-one hemorrhagic amniotic fluid samples from pregnant women who were subjected to chromosomal examination at Anhui Maternal and Child Health Hospital were collected from January 2021 to December 2022.Two culture methods,the slide in situ culture box method(re-ferred to as the slide method)and the plastic bottle culture combined with slide in situ culture box method(referred to as the combined culture method),were used for cell cultivation.All the cells were harvested and stained with Giemsa staining,then the number of eligi-ble karyotype was counted and the success rates were compared between the two methods.Results Among the 31 cases of the slide method,21 were successfully cultured with a success rate of 67.7％.For the combined culture method,all the 31 cases were success-fully cultured with a success rate of 100％.The success rate of the combined culture method was significantly higher than that of the slide method(P＜0.05).Of 31 bloody amniotic fluid samples,three cases were fresh bleeding,and an average number of eligible kary-otype was 8 in the slide method and 32 in the combined culture method.Twenty-eight cases were old bleeding,and an average number of eligible karyotype was 13 in the slide method and 53 in the combined culture method.The number of eligible karyotype in the com-bined culture method was significantly higher than that of the slide method(P＜0.05).Conclusion The combined culture method is suitable for the cultivation of hemorrhagic amniotic fluid samples,and should be worthy of promotion in the clinics.

Chronic cough is a common respiratory disease, which is recurrent and lingering. Chronic airway inflammation, increased sensitivity of cough nerve pathway and inflammatory pain are the main pathologic basis. Cyclic adenosine monophosphate(cAMP)/exchange protein activated by cAMP(Epac) signal network takes part in airway inflammation(especially airway neurogenic inflammation), increased sensitivity of cough nerve and inflammatory pain. In this paper, the regulation of airway inflammation, sensitivity of cough pathway and inflammatory pain by cAMP/Epac signaling pathway and intervention effect of traditional Chinese medicine in recent years were reviewed, which provided a theoretical basis for the research of clinical treatment of chronic cough and the development of cough medicine.

Allergic rhinitis(AR) is an allergic inflammatory disease of the nasal mucosa in which the immune inflammatory response alters the local microenvironment of the nasal mucosa, causing mucus hypersecretion as one of the main pathological features of AR. Interleukin-13(IL-13) is the main inflammatory factor secreted by Th2 cells, it can be involved in AR mucus hypersecretion process by regulating Goblet cell proliferation and Mucin 5ac expression through various signaling pathways. Traditional Chinese medicine has obvious advantages in the treatment of AR and its mucus hypersecretion, while the IL-13-mediated signaling pathways are one of the important mechanisms in treating AR mucus hypersecretion. This article reviews the regulation of IL-13-mediated signaling pathways on AR mucus hypersecretion and the intervention effects of traditional Chinese medicine, which providing a theoretical basis for experimental research and new drug development in AR mucus hypersecretion.

Dyspnea ; Fever ; Humans

Sulfonylureas are widely used oral anti-diabetic drugs. However, its long-term usage effects on patients' lifespan remain controversial, with no reports of influence on animal longevity. Hence, the anti-aging effects of chlorpropamide along with glimepiride, glibenclamide, and tolbutamide were studied with special emphasis on the interaction of chlorpropamide with mitochondrial ATP-sensitive K⁺ (mitoK-ATP) channels and mitochondrial complex II. Chlorpropamide delayed aging in Caenorhabditis elegans, human lung fibroblast MRC-5 cells and reduced doxorubicin-induced senescence in both MRC-5 cells and mice. In addition, the mitochondrial membrane potential and ATP levels were significantly increased in chlorpropamide-treated worms, which is consistent with the function of its reported targets, mitoK-ATP channels. Increased levels of mitochondrial reactive oxygen species (mtROS) were observed in chlorpropamide-treated worms. Moreover, the lifespan extension by chlorpropamide required complex II and increased mtROS levels, indicating that chlorpropamide acts on complex II directly or indirectly via mitoK-ATP to increase the production of mtROS as a pro-longevity signal. This study provides mechanistic insight into the anti-aging effects of sulfonylureas in C. elegans.