Objective:To explore the effects of radiation on hippocampus neuron and the related damage mechanism in order to provide the theory base for treatment strategy of radiation brain injury. Methods:We looked up the scientific literature including following methods. Pregnant mice were irradiated with tritiated water, and then the contents of SOM in pars intermedia and AVP in hypothalamus of newborn mice were detected by radioimmunoassay. Pregnant rats were irradiated with tritiated water or X-ray, and the neuronal cells derived from the newborn rats were cultured. The morphology of cultured neuronal cells was compared with those of normal neuronal cells. The number of apoptotic cells in cortical fifth layer was measured by HE staining. Results:After radiation with tritiated water, the level of SOM in pars intermedia of newborn mouse and AVP content in hypothalamus content of male newborn mouse significantly increased and decreased, respectively. Radiation with tritiated water could result in the morphology change of neuronal cells and increase the percent of apoptosis cells in cortical fifth layer. Moreover, the percent of apoptosis cells in tritiated water group was higher than that in the X ray group. Conclusion: Radiation could impact on brain neuropeptide contents, and neurobehavioral, learning and memonic ability, result in the morphology change of hippocampal neurons, and induce the midbrain cells apoptosis.

In recent years, cytokinesis-block method was used to analyze cytomics indicators including micronucleus, nuclear bridge, nuclear bud, nuclear division index, cell apoptosis and cell necrosis. In public health, it has become the common method to explore the impacts of different population structure, environment and occupational exposure for genomic instability, chromosome breakage, chromosome loss and cell proliferation. This article reviews and discusses the application of using cytokinesis block method to analyze cytomics indicators in public health field.

Objective To observe the inhibitory effects of Typhonium Giganteum soft capsules on tumor growth in Hep-2 tumor-bearing nude mice and its effects on the expression of tumor suppressor p53 gene; To discuss its mechanism of action.Methods Human liver cancer Hep-2 cell suspension back subcutaneous vaccination was conducted to prepare tumor models. BALB/c nude mice were randomly divided into model group, cisplatinum group, and TCM high-, medium-, and low-dose groups. Each group was given relevant medicine for gavage, once a day for 21 days. Growth changes of tumor volume were monitored; HE staining was used to observe pathological changes of tumor tissues; RT-PCR was used to detect the expression of p53 gene in tumor tissue of Hep-2 nude mice.Results Compared with the model group, all medication groups could inhibit the tumor growth, and the anti-tumor rates were 55.1%, 42.8%, 30.1%, and 79.5%, respectively; the expression of p53 gene increased; pathological observation results showed that the number and the volume of tumor cells increased, with cytoplasm rarefaction and nucleus anachromasis. All medication groups had karyopyknosis, slight staining, and decreasing blood capillary and focal necrosis in varying degrees.ConclusionTyphonium Giganteum soft capsules can inhibit the growth of human liver cancer, and its mechanism may be associated with the up-regulating expression of p53 gene leading to apoptosis.

Objective To investigate the effect of radiation on the mitochondrion in adenocarcinoma A549 cells.Methods After A549 cells were irradiated with 0,0.5,3 or 8 Gy of 60Co γrays,mitochondrion membrane potential of A549 cells was detected by JC-1 probe,and ATP activity was measured by ATP kit in a chemiluminescence apparatus.The mitochondria DNA copy numbers was detected by real-time PCR assay.Results At 24 h after radiation,the mitochondrion membrane potential of A549 cells in all the irradiated groups changed significantly (F =243.44,P ＜ 0.05),among which 0.5 or 3 Gy of radiation resulted in a significant increase of mitochondrion membrane potential of A549 cells (t =-10.12,-5.59,P ＜ 0.05).However,the mitochondrion membrane potential of A549 cells exposed to 8 Gy of radiation decreased significantly 24 h after radiation (t =15.22,P ＜ 0.05).The mitochondrion membrane potential of A549 cells in all radiation groups returned to the normal level 48 h after radiation (F =10.36,P ＜ 0.05).24 h after radiation,the level of ATP in A549 cells significantly changed respectively(F =97.08,P ＜ 0.05),similar to the mitochondrion membrane potential.The ATP level in 0.5 and 3 Gy groups increased significantly (t =1.66,7.27,P ＜ 0.05),and the level of ATP in 8 Gy group decreased significantly (t =-8.24,P ＜ 0.05).Furthermore,48 h after both 0.5 and 3 Gy of radiation,the ATP content in A549 cells was still higher than that in untreated A549 cells (t =4.60,8.53,P ＜0.05).The mitochondria DNA copy numbers in A549 cells increased significantly in all the radiation groups (F =118.00,P ＜ 0.05).Compared with untreated A549 cells the mitochondria DNA copy numbers in A549 cells increased at 0.5 Gy by 12 times(t =0.02,P ＜0.05),and increased at 3 and 8 Gy by 7 and 10 times,respectively (t =9.68,15.10,P ＜ 0.05).Conclusions High dose of radiation resulted in the decrease of mitochondrion membrane potential of A549 cells,which subsequently affected the production of ATP.However,radiation with moderate and lower dose could lead to the compensatory increase of mitochondrion membrane potential of A549 cells,which promoted the production of ATP.The mitochondria DNA copy numbers compensatory would increase after A549 cells were exposed to radiation within 8 Gy.

BACKGROUND: Although angiography is the gold standard for the diagnosis of cerebrovascular disease, it cannot be used widely because of its traumatotaxis. Transcranial Doppler ultrasound (TCD) and MRA are both non-invasive examinations, which can be used to evaluate intracranial large artery vascular trunks and hemodynamics.OBJECTIVE: To investigate the reliability of diagnosis with TCD on hemodynamic changes of ischemic cerebrovascular disease (ICVD) and the relativity between TCD and MRA.DESIGN: Case analysis based on patients.SETTING: Neurological Department of the First Affiliated Clinical Hos-pital, Harbin Medical University.PARTICIPANTS: From April 2001 to February 2002,totally 45 patients with stroke,selected from outpatients and inpatients of Neurological Department of First Affiliated Clinical Hospital of Harbin Medical University,examined by CT, to be told the fact and accepted, were taken part in the study.METHODS: Patients were examined with TC-2021 TCD instrument produced by German EME Corporation and VISART1.5T superconduct MR instrument produced by Toshiba. Totally 45 patients had TCD and MRI examinations, and the alternation between two examinations was 1 to 15 days. The hemodynamics and morphological changes were observed including middle cerebral artery (MCA), end of internal carotid artery (ICA),anterior cerebral artery (ACA), posterior cerebral artery (PCA), basal artery (BA), and vertebral artery (VA).large artery vascular trunks and hemodynamic results with TCD and MRA;ty, false positive and false negative with TCD with those of MRA.TCD and MRA: Theory data was Tmin=9.91; χ2=107.92, P ＜ 0.005, it was considered that the results with the rate of TCD were related with that of MRA. The detection rate of TCD was 19.06%, and that of MRA was 15.25%. There were significant differences between the detection rate of standard, the sensibility of diagnosing abnormal vessels by TCD was 78.10%, specificity 94.22%, false positive 7.46%, false negative 23.31%,and the coincidence rate 89.36%.CONCLUSION: TCD can assess exactly the functional status of the vessels. It can also reflect early and sensitively the change of hemodynamics of cerebral blood flow. While MRA can display the change of vascular appearance directly so that the combination of TCD and MRA will be improve sensibility and specificity of diagnosis.

Objective To study the diagnosis and treatment of retroperitoneal schwannoma.Methods Clinical data of 11 cases of primary retroperitoneal schwannomas were analyzed retrospectively from February 1990 to September 2014.There were 6 males and 5 females,with a median age of 46 years,and the median tumor size was 9.6 cm (4.5-12.3 cm).Seven cases were revealled due to physical examination,3 cases were revealled due to ipsilateral lower back pain or discomfort,and 1 case was revealled due to right lower extremity numbness.There were no clinical manifestations of hypertension or appearance shape change,and there were no abnormal findings in routine laboratory and endocrine examinations.Radiological examination showed a retroperitoneal mass.There were 3 cases in the left adrenal gland,1 case in the right adrenal gland,3 cases in the lower pole of left kidney and 4 cases in the lower pole of right kidney.Four patients were initially diagnosed as adrenal tumors,and 7 patients were diagnosed as kidney tumors.Results All the 11 cases underwent surgical resection,with 7 cases of complete resection,1 case of capsule resection,2 cases of partial resection and 1 case of biopsy.The pathology of immunohistochemical staining showed S-100 positive in 10 cases of benign retroperitoneal schwannomas.During the follow-up period for 1.5-24 years (median 14 years),no recurrence and malignance was observed.One case of malignant retroperitoneal schwannoma died of multiple metastases in 17 months after opreation.Conclusions Primary retroperitoneal schwannoma is rare and preoperative diagnosis is difficult.Clinical manifestations and radiological findings are usually nondiagnostic,and histopathology is the only way for final diagnosis.Complete surgical resection is proved to be the best choice.

Objective To analyze the airflow characteristics and investigate the relationship of the structure and the function of nasal cavity by the three?dimensional reconstruction of nasal airway of patients with structural abnormalities(nasal septum deviation)and healthy people and the estab?lishment of finite element model by computer. Methods On the basis of CT imaging of the nasal cavity in patients with structural abnormalities(na?sal septum deviation,n=20)and healthy people(n=20),three?dimensional reconstruction of nasal airway was conducted by resurfacing finite ele?ment subdivision to simulate the characteristics of airflow in nasal cavity. Results The airflow mainly went through the commodious side of the nose in patients with nasal septum deviation and the maximum fluence appeared in the middle part of meatus nasi communis. The airway pressure de?creased most significantly in the most flank?curvature part of nasal septum deviation,accounting approximately 79.65%of the total pressure. In healthy people,the bilateral airflow was affected by nasal cycle and was mainly characterized by one nasal cavity,and the maximum fluence was ob?served in the middle and the inferior part of meatus nasi communis. The airway pressure decreased most significantly in limen nasi,accounting ap?proximately 58.78%of the total pressure. Conclusion Numerical modeling of nasal cavity can be used to analyze the relationship between the nasal structural abnormalities and the airflow characteristics,which is a scientific method to analyze the association of nasal structure and function with dis?ease and can be used for pre?and post?operative individual evaluation of operative therapeutic regimen targeting at optimizing airway and altering air?flow distribution.

Objective To establish the analysis criteria of nucleoplasmic bridges (NPB) and a dose-response curve of NPB frequencies in human peripheral blood lymphocytes irradiated by 60Co γ-rays.Methods Human peripheral blood samples were collected from three healthy males,and were irradiated with 0,1,2,3,4,5 and 6 Gy of 60Co γ-rays.A cytokinesis-block micronucleus assay was carried out to analyze NPBs and micronuclei (MN) in binucleated cells.Results NPBs in binucleated cells at each dose level of γ-ray was conformed to the Poisson distribution.The dose-response curve of the γ-ray-induced NPB frequencies in human peripheral lymphocytes followed the linear-quadratic model y =(1.39 × 10-3)x2 + (4.94 × 10-3)x (R2 =0.981,P ＜ 0.05).Conclusions The dose-response curve of NPB frequencies in human peripheral blood lymphocytes induced by 0-6 Gy 60Co γ-rays was established.

Objective To explore the changes of human mitochondrial COXI,ND1 and ND6 genes expression induced by ionizing irradiation.Methods Changes of human COXI,ND1 and ND6 gene expression were detected by RT-PCR and Real-time PCR 8 h after the irradiation in human lymphoblastoid cell lines,which were exposed to 1-10 Gy 60Co γ-rays.And the dose-effect relationships between expression changes of the genes and the doses were analyzed.The changes of these three genes expression were also analyzed at different post-radiation time-points between 0.5 h and 72 h after irradiation of 5 Gy in order to explore the time-effect.Results The expression of three genes COXI,ND1 and ND6,showed either the dose-effect or the time-effect after irradiation.The gene expression levels of three genes up-regulated generally and the peak change time-point was 4 h after irradiation.Conclusion Ionizing radiation,msht induce the changes of mitochondrial gene expression,and the gene expression level is up-regulated.

Objective:To explore the feasibility of the optimized cytokinesis-block (CB) assay on radiation-induced nucleoplasmic bridge (NPB), and to provide a scientific basis for the application of NPB in biological dose estimation.Methods:Human peripheral blood in vitro was irradiated with 2 Gy 60Co γ-rays at a dose rate of 1 Gy/min (0 Gy control group). According to the culture time after irradiation, blood samples were divided into group 48, 56, 68 and 72 h. Cytochalasin-B (Cyt-B) with a concentration of 6 μg/ml was added into the samples at 28 h and harvested at 48, 56, 68 and 72 h after irradiation, respectively. On the other hand, the blood samples were treated with different concentration of Cyt-B i. e., 0.6, 1, 2, 6 and 10 μg/ml at the beginning of culture (0 h) and harvested at 68 h after irradiation. The proportion of mononucleated, binucleated and multinucleated cells, radiation-induced NPB and micronucleus (MN) frequencies were analyzed. Results:The nuclear division index (NDI) and proportion of binucleated cells at 2 Gy and 0 Gy had tendency of increasing with cell culture time. NPB frequencies (0.023 0-0.033 0/cell) and MN frequencies had no significantly difference ( P> 0.05). With the increase of Cyt-B concentration, NDI and the proportion of binucleated cells in group 2 Gy and 0 Gy also increased, but NPB frequencies (0.023 0-0.047 0/cell) had no significant difference ( P> 0.05). MN frequencies of group 10 μg/ml were significantly lower than that of group 6 μg/ml ( U=2.74, P< 0.01). Conclusions:Cell culture time and Cyt-B concentration had no significant influence on radiation-induced NPB frequencies, suggesting that NPB could be obtained by appropriately reducing cell culture time and Cyt-B could be added into blood samples at the beginning of culture. But this protocol reduced the number of cells for further analysis, and thus its feasibility for dose estimation still need to be studied.