ObjectiveTo investigate the systemic stress responses after laparoscopic resection in colorectal cancer patients.MethodsSixty patients were randomized into the laparoscopic resection group (30 cases) and open resection group (30 cases) from October 2001 to September 2002 in our hospital.Analgesic dosages, recovery time of intestinal peristalsis, postoperative temperatures, C reactive protein(CRP), IL6 and white blood cell (WBC) counts were recorded after operation. ResultsThe changes of postoperative temperatures and WBC counts showed no significant difference between two groups.But in the laparoscopic resection group, the recovery time of intestinal peristalsis, postoperative analgesic dosages, CRP and IL6 significantly decreased (P<0.01,P<0.05).ConclusionCompared with traditional open resection, laparoscopic resection of colorectal cancer can diminish the systemic stress responses and decrease the injury to patients.
ObjectiveTo probe plasma calcitonin gene related peptide (CGRP) levels during thrombolytic therapy in patients with iliofemoral venous thrombosis in order to investigate its regularity of the alteration and its clinical significance.MethodsFifty patients with acute iliofemoral venous thrombosis and 30 patients with chronic iliofemoral venous thrombosis were given urokinase and prostaglandin E1 from veins for 15 days. The CGRP levels were determined by radioimmunoassay before treatment and on the 6th hour, 1st day, 3rd day, 7th day, 14th day, 30th day after treatment.ResultsThe plasma CGRP levels were increased in patients with acute iliofemoral venous thrombosis compared with the contrast ones. The CGRP levels in serious group was lower than those in mild group. However, the CGRP levels of 30 chronic patients and 12 patients who received the second course of thrombolysis as on effective were not different from those of contrast ones. The plasma CGRP levels were increased at the 6th hour,reached the peak at the 3th day and returned to normal at the 14th day after thrombolytic therapy in acute group which just consistent with the therapeutic effectiveness.ConclusionIt is helpful to judge whether the thrombolytic therapy is effective and the illness has come to chronic stage according to the levels of plasma CGRP in patients with iliofemoral venous thrombosis.
Inhalable particles deposition in the human respiratory system is the main cause of many respiratory and cardiovascular diseases. It plays an important role in related disease prevention and treatment through establishing computer or external entity models to study rules of particle deposition. The paper summarized and analyzed the present research results of various inhalable particle deposition models of upper respiratory tract and pulmonary area, and expounded the application in the areas of disease inducement analysis, drug inhale treatment etc. Based on the review, the paper puts forward the problems and application limitations of present research, especially pointing out future emphasis in development directions. It will have a value of reference guidance for further systematic and in-depth study on the inhalable particle deposition simulation, experiment and application.
Research on the deposition of inhalable particles in the alveoli of the lungs is important to the causes, development for common respiratory diseases such as emphysema, and even the optimization of clinical treatment and prevention programs of them. In this paper, an in vitro experimental model was established to simulate the deposition of terminal bronchioles and pulmonary acinus particles. The deposition rate of inhalable particles with different particle sizes in the pulmonary acinus was studied under different functional residual capacity. The results showed that the particle diameter was an important factor affecting the deposition of particles in the lung alveoli. Particles with 1 μm diameter had the highest deposition rate. With the functional residual capacity increasing, particulate deposition rate significantly reduced. The results of this study may provide data support and optimization strategy for target inhalation therapy of respiratory diseases such as emphysema and pneumoconiosis. The established model may also provide a feasible in vitro experimental model for studying the deposition of inhalable particles in the pulmonary alveoli.
Selective attention promotes the perception of brain to outside world and coordinates the allocation of limited brain resources. It is a cognitive process which relies on the neural activities of attention-related brain network. As one of the important forms of brain activities, neural oscillations are closely related to selective attention. In recent years, the relationship between selective attention and neural oscillations has become a hot issue. The new method that using external rhythmic stimuli to influence neural oscillations, i.e., neural entrainment, provides a promising approach to investigate the relationship between selective attention and neural oscillations. Moreover, it provides a new method to diagnose and even to treat the attention dysfunction. This paper reviewed the research status on the relationship between selective attention and neural oscillations, and focused on the application prospects of neural entrainment in revealing this relationship and diagnosing, even treating the attention dysfunction.
The inhalation and deposition of particles in human pulmonary acinus region can cause lung diseases. Numerical simulation of the deposition of inhaled particles in the pulmonary acinus region has offered an effective gateway to the prevention and clinical treatment of these diseases. Based on some important affecting factors such as pulmonary acinar models, model motion, breathing patterns, particulate characteristics, lung diseases and ages, the present research results of numerical simulation in human pulmonary acinus region were summarized and analyzed, and the future development directions were put forward in this paper, providing new insights into the further research and application of the numerical simulation in the pulmonary acinus region.
Research on the deposition of inhaled particles in human pulmonary acinus region is important to the pathogenesis investigation, prevention and treatment of lung diseases. Most of the current research focus on the final deposition fraction of inhaled particles in human acinar region, but little is involved in their dynamic deposition characteristics. In this paper, five multi-alveolar models, G3−G7, were built. The evaluation parameter 1/4 deposition time was introduced to study the particle deposition speed. The deposition characteristics of particles in the diameter ranging 0.1−5 μm were numerically simulated and summarized under the influence of factors such as the generation and structure of model, particle diameter and respiratory mode, shedding some new light on the further research of transport of inhaled particles. The results showed that the generation and structure of model had a significance effect on the deposition of particles. 0.1 μm particles were dominated by Brownian diffusion, which experienced a high deposition fraction, a fast deposition speed and a logarithmic deposition curve, while 5 μm particles were dominated by gravitational sedimentation, with a high deposition fraction, a fast deposition speed and an S-shaped deposition curve. The deposition of 0.3−1 μm particles were influenced greatly by convention and varied with the change of respiratory mode. The research methods and results in this paper can provide theoretical basis and data support for the further exploration of the mechanism, prevention and treatment of lung diseases.
【Abstract】ObjectiveTo investigate the effect of CDAⅡ on the cell cycle progression of breast cancer cells.MethodsThe effects of CDAⅡ on growth curve, cell cycle progression and morphology of breast cancer cell lines MCF7 and MDAMB231 were observed when CDAⅡ and MCF7 or CDAⅡ and MDAMB231 were blended to cultivate in vitro, in comparison with the classical cell differentiation inducer ATRA. ResultsCDAⅡ decreased the growth speed and inhibit proliferation ability in breast cancer cell lines MCF7 and MDAMB231.It caused G0/G1 phase block of cell cycle and reduced the rate of S phase of breast cancer cells. ConclusionCDAⅡ has remarkable effect of anticellproliferation and can induce cell cycle block of G0/G1 on breast cancer cells. This results provide experimental bases for the treatment of breast cancer with CDAⅡ.
Objective To investigate influence of genders on the activity of nuclear factor-kappa B (NF-κB) in lungs of endotoxemic rats. Methods Twenty female and 20 male Wistar rats were randomly divided into four groups as follow: female control group (n=10), male control group (n=10), male endotoxemic group (n=10), and female endotoxemic group (n=10). The endotoxemic rats model was made by injecting lipopolysaccharide (5 mg/kg) into the abdominal cavity. Tissue samples were collected from the lungs in different groups and electrophoresis mobility shift assay was used to measure the activity of NF-κB. The levels of serum TNF-α and estrogen were measured at the same time. Results There was no significant difference between the activities of NF-κB in male and female control groups (1.33±0.24 vs 1.47±0.40), and there was also no significant difference between other items in these groups as well (Pgt;0.05). Yet, the activity of NF-κB (female: 12.10±2.89; male: 19.53±2.12) and the level of TNF-α 〔female: (4.10±0.72) ng/ml; male: (6.37±1.29) ng/ml〕 were significantly increased after injection of lipopolysaccharide (Plt;0.01), and the indices in female group were significantly lower than those in male group (Plt;0.01). Correlation analysis showed that there was a positive relation between the activity of NF-κB in lungs and the level of TNF-α (female: r=0.921 1, P=0.013; male: r=0.907 2, P=0.017), and there was a negative correlation between the activity of NF-κB and the level of estrogen (female: r=-0.887 5, P=0.017; male: r=0.872 3, P=0.022) in both male endotoxemic group and female endotoxemic group (Plt;0.05). Conclusion Gender may be one of the factors that influence the activity of NF-κB in the lungs of endotoxemic rats. While on the other hand, endogenous estrogen may protect the lungs of endotoxemic rats from injury by inhibiting the activity of NF-κB.
Gastrointestinal (GI) complications after heart surgery included slight bleeding through fulminant hepatic failure. Although overall rate of these complications is low, it can lead to high mortality after heart surgery. Diagnosis of GI complication is difficult. Risk factors for GI complications are clear. Mechanisms of complications are various. Therefore, we collected the recent prospective and retrospective literatures to sumarize mortality of GI complications, pathogenesis, risk factors, recent progress of prevention and management, to guide clinical practice.