ObjectiveTo summarizes the mechanisms of carcinogenesis of colorectal cells, the occurrence and development of cancer cells, and their interactions with the tumor niche of colorectal cancer (CRC) from the perspective of the tumor niche, exploring new ideas for the prevention, diagnosis, and treatment of CRC. MethodThe relevant literature at home and abroad in recent years on the researches of mechanism of the occurrence and development of CRC and its relation with the tumor niche of CRC was searched and reviewed. ResultsThe theory of tumor ecology indicates that the human normal body can be regarded as a relatively closed and perfect ecosystem. Each normal tissue and organ within the body represent a niche in this ecosystem, which interact, affect, and symbiotically coexist with each other, forming a dynamic ecological balance. Tumor cells, being a “new species” distinct from normal tissue cells, “invade” the ecological system of the normal body under specific conditions and interact with the surrounding microenvironment, which is defined as the tumor niche. Analysis of current literature retrieved from the perspective of the tumor niche suggested that, although genetic factors are involved in the carcinogenesis of colorectal cells, the majority of such carcinogenesis stems from the continuous stimulation of the colorectal niche. Current research primarily focuses on the conclusion that the carcinogenesis of colorectal cells is associated with factors such as chronic inflammatory response, intestinal microorganisms, oxidative stress, and pyroptosis. After carcinogenesis and the eventual formation of CRC, the growth of cancer cells and tissues first requires breaching the defense of the immune system in the colorectal niche. Immune cells in the immune system play a crucial role in the tumor niche during the occurrence and development of CRC. ConclusionsThe proposal of the tumor niche concept enables researchers, when studying the mechanisms of tumor occurrence and development, to no longer merely focus on the tumor and its microenvironment. Instead, the tumor as a part of the body’s ecosystem was studied. Components of the tumor niche, such as chronic inflammatory responses, intestinal microorganisms, oxidative stress, pyroptosis, and immune system, have a significant impact on the mechanisms of carcinogenesis of most colorectal cells, as well as the occurrence and development of cancer cells. These factors influence the progression of CRC in various aspects.
Objective To investigate relationship between hypoxia microenvironment and occurrence and development of hepatocellular carcinoma (HCC). Method The relevant literatures on researches of the relationship between the hypoxic microenvironment and the HCC were review and analyzed. Results The hypoxia microenvironment played an important role in inducing the drug resistance and angiogenesis of the HCC cells, and it was an important factor of affecting the ability of tumor metabolism, invasion, and migration. The hypoxia microenvironment could up-regulate the expression of hypoxia-inducible factors (HIFs) and promote its transcriptional activity, promote the expression of the vascular endothelial growth factor gene, and regulate the neovascularization in the tumor. Among them, the HIF-1α played a major role in regulating the angiogenesis, immune escape, tumor invasion and metastasis-related gene expression, participating in the glycolysis, regulating lysyl oxidase 2 and thus regulated epithelial-mesenchymal transition, then promoted the invasion and metastasis of the HCC; HIF-2α was a key regulator of the malignant phenotype involving in the cell proliferation, angiogenesis, apoptosis, metabolism, metastasis, and resistance to chemotherapy. The hypoxia microenvironment posed some difficulties for the treatment of HCC, but it was also a potential therapeutic breakthrough. Conclusion Hypoxia microenvironment can promote invasion and metastasis of HCC through various mechanisms, which provides new targets and strategies for clinical treatment of HCC.
Abstract To study the regulation of growth and proliferation of tissue-repair cell from wound microenvironment, the effects of wound fluid (WF) on the growth and proliferation of wound fibroblast were studied in vitro. Thirty rats were divided into 6 groups. On the back of every rat, an incision of 0.5~1.0cm was performed a subcutaneous sac was made by blunt dissection. A piece of sponge was put in, and the wound was sutured. After 1,3,7,9,11,15 days, one group of the rats were sacrificed respectively, and WF was collected from the sponge. Two kinds of medium were made with each WF: 1640+1%FCS+10%WF and1640+10%FCS+10%WF. After 48 hours incubation with newly prepared wound fibroblasts, the growth of the cells was observed. It was shown that (1) Under 1%FCS, WFfrom1,3,7 days stimulated cell proliferation, and WF from 9,11,15 days caused cell death. (2) Under 10%FCS, WF from 9,11,15 days inhibited cell growth. It was suggested that the wound microenvironment stimulated the fibroblasts to proliferate for one week after injury, and beyond that further growth seemed to be arrested, and that there might be some growth inhibitory factors present in the microenvironmentduring the late stage of wound healing.
Acoustic environment is an important part of the overall environment of a hospital. Acoustic environmental pollution will have varying degrees of impact on human physiology and psychology. Acoustic environmental pollution in outpatient clinics has become a major concern for visitors and medical staff. Exploring the causes of outpatient acoustic environment pollution and adopting active countermeasures are effective methods to control outpatient acoustic environment pollution. This article will review the current situation of acoustic environmental pollution in outpatient clinics and the impact of acoustic environmental pollution on medical staff and visitors, and analyze the common causes of outpatient acoustic environmental pollution based on actual conditions, and propose corresponding solutions for the corresponding causes. It aims to provide a reference for clinically effective control of acoustic environmental pollution in outpatient clinics.
Objective To evaluate the effectiveness and safety of spironolactone for diabetic nephropathy. Methods We electronically searched CENTRAL (issue 3, 2008), MEDLINE (1950 to August 2008), EMbase (1984 to August 2008), CNKI (1994 to September 2008), and VIP (1989 to August 2008). We also checked the reference lists of all papers identified for further trials. Randomized controlled trials (RCTs) and quasi-RCTs were identified and analyzed according to the Cochrane Handbook for Systematic Reviews of Interventions. Results Three RCTs were included. Meta-analysis was not performed due to heterogeneity. Trials showed that spironolactone might decrease urinary albumin excretion, but could scarcely play an important role on kidney function and blood pressure. Conclusion Affirmative assessment cannot be made about the effectiveness and safety of spironolactone for diabetic nephropathy according to the limited existing trials. Large-scale, high-quality RCTs are needed to confirm or refuse the available evidence.
Objective To study the influence of different mechanical environments on repair cartilage defect with marrow mesenchymal stem cells as seed cells. Methods The rabbit marrow mesenchymal stem cells were isolated and cultured. The cartilage defects were repaired by autologous tissue engineered cartilage with the marrow mesenchymal stem cells as seed cells. Fifteen rabbits with cartilage defect were divided into 3 groups: dislocation group with cell-free scaffold(controlgroup), dislocation group with cartilaginous construct and normal mechanical environment group with cartilaginous construct. The repaired tissue was harvested and examined 6 weeks postoperatively. Results The repair tissue in normal mechanical environment group with cartilaginous construct showed cartilage-like tissue in superficial layer and subchondral bone tissue in deep layer 6 weeks postoperatively. The defect was filled with bone tissue in dislocation group with cartilaginous construct 6 weeks postoperatively. The surrounding normal cartilage tissue showed vascular invasion from subchondral area and the concomitant thinningof the normal cartilage layer. The cartilaginous construct left in the femoral trochlea groove formed hyaline cartilage-like tissue. The defect was repaired byfibrous tissue in control group. Conclusion The repaired tissue by tissue engineered cartilage with marrow mesenchymal stem cells as seed cells showed the best result in normal mechanical environment group, which indicates that it will be essential for the formation and maintenance of tissue engineered cartilage to keep the normal mechanical stress stimulus.
ObjectiveTo summarize the research progress of ultrasmall superparamagnetic iron oxide (USPIO) enhanced magnetic resonance imaging (MRI) in normal-sized lymph node metastasis of colorectal cancer.MethodThe relevant literatures published recently at domestic and abroad about USPIO enhanced MRI in normal-sized lymph node metastasis of colorectal cancer were collected and reviewed.ResultsUSPIO, a kind of lymph node targeted magnetic resonance contrast agent, could be used to evaluate lymph node metastasis of malignant tumors. USPIO enhanced MRI could detect normal-sized lymph node metastasis in colorectal cancer effectively compared with normal MRI. It provided a higher diagnostic performance than normal enhanced MRI. In addition, USPIO enhanced MRI could also distinguish inflammatory and metastatic lymph nodes better that were difficult to be distinguished by normal enhanced MRI.ConclusionUSPIO enhanced MRI shows a certain potential for clinical application in detecting normal-sized lymph node metastasis of colorectal cancer, but it has not been widely used in China.
ObjectiveTo review cancer associated fibroblasts(CAFs) and its role in the evolution of gastrointestinal neoplasms. MethodDomestic and international publications in relation to CAFs and its role in the evolution of gastrointestinal neoplasms were collected and reviewed. ResultsIn the gastrointestinal cancers, as the largest number and the most important stromal cells of the tumor microenvironment, CAFs induce the homeostasis of cell microenviron-ment out of balance, promote the remodeling of the tumor metabolism and extracellular matrix(ECM), and thus impulse the generation, proliferation, invasion and metastasis of the tumor by secreting different kinds of cytokines. ConclusionsThe key role CAFs playing in the tumor generation and evolution makes themselves and the multiple relatively specific molecules they secrete a new target for prognosis and targeted therapy, and this gives us a new idea for the combined treatment of gastrointestinal tumor or any other tumors.
ObjectiveTo introduce the research status of the immunoregulation function of cancer-associated fibroblasts (CAFs) in tumor microenvironment.MethodThe literatures in recent years on the studies of role of CAFs in the regulation of immune response in the tumor microenvironment were collected and summarized.ResultsThe CAFs played a critical role as the components of the tumor microenvironment. The CAFs could product various growth factors and cytokines that were contributed to the immunoregulation including the polarization of the immune cells and the regulation of the function of immune cells in the tumor microenvironment and eventually resulted in the carcinogenesis, tumor progression, invasion, metastasis and therapy resistance.ConclusionCAFs play a significant role in the immunoregulation in tumor microenvironment, but as a potential target for breast cancer, more studies are still needed to discover the specific markers, heterogeneity, and key signaling pathways.
This paper provides a brief overview of the current research activities which focused on the bio-application of gold magnetic nanocomposite particles. By combining the magnetic characteristics of the iron oxide core with the unique features of nano-gold particles such as targeting by surface modification and optical properties, such composite nanoparticles have a wide range of applications in cancer hyperthermia, CT and MRI imaging, bio-separation, biosensors, gene diagnosis, drug targeting and many other biomedical fields.