A retrieve of Pubmed database and China Journal Full-text Database was conducted to summarize the studies concerning the application of patch biomaterials in the inguinal herniorrhaphy. According to the chemical components and biological characteristics, the materials for the repair comprise unabsorbable materials, absorbable materials, composite materials and biological materials. Present research of patch materials focuses on the polypropylene polyester and expandable polytetrafluoroethylene. Patch implant is a kind of long-term chronic stimulation to the host. Local inflammation and continuous reaction severity can be affected by the type, quantity and surface area of the implants, together with the patch structure. Herniorrhaphy materials are doomed to develop towards a biomaterials with minimal invasion, light weight, absorption, easy operation, comfort and few complications. The patching method and material should be varying according to the disease type.

Objective To discuss the operation style of filling,film-style,three-dimensional double-layer mesh tension-free for hernia and the repair materials,the selectlon of surgical operation style for reducing recurrence.Methods We used the style of plug-and-chip,two-dimensional mesh tension-free hernia repair for the treatment of 130 cases of inguinal hernia patients.Results In 130 cases of patients with 1~5 years of follow-up,there was no recurrence.Conclusion A reasonable choice of repair materials and improving the surgical operation can be effective in reducing recurrence.

Objective To analyze the epidemiologieal features and treatment of brain injury in Chinese Wenchuan earthquake so as to provide the experiences for improving treatment level. Methods A total of 685 patients with earthquake-induced brain injury in the City of Deyang were collected to ana-lyze age, injury type, injury localization and treatment characteristics. Results Of large number of earthquake victims, the number of the patients with brain injury ranked the second place, mainly minor and moderate brain injuries involving scalp laceration for the most and skull fracture and extradural hema-toma for the next. As for the age distribution of the patients, young and middie-aged patients accounted for the most, for they were at school or at work when the earthquake happened. Obvious position distribu-tion features were found in depressed fracture of skull and extredural hematoma but not in the scalp lacera-tion. Depressed fracture of skull occurred mostly at forehead and occiput while extradural hematoma could be most seen at froutotemple. Most brain injuries were combined with other injuries. Mainly extremity and pelvic fractures. Conclusions Self-protection sense and measures during earthquake are very important for decreasing incidence and severity of brain injuries. The management of rospimtory tract in prehospital care should be strengthened to avoid asphyxia and hence raise the success rate of treatment.

BACKGROUND: Through what signal pathway does corticotropin release hormone (CRH) regulate hypothalamic neuronal neuroendocrine activity during acute stress?OBJECTIVE: To probe into the regulatory effects of CRH on CREB secretion in hypothalamic neurons.DESIGN: Repetitive measurement design.SETTING: At Field Surgery Research Institute of Daping Hospital, Third Military Medical University of Chinese PLA; Neurosurgery Department,Tiantan Hospital Affiliated to the Capital University of Medical Sciences.MATERIALS: This experiment was carried out in Daping Hospital of Third Military Medical University of Chinese PLA between December 1999and March 2002. Rat fetuses were selected from Wister rats of 17-day gestation.METHODS: In vitro cultured cells were divided into the following groups:① CRH (10-12, 10-10, 10-8 and 10-6 mol/L) stimulation groups. ② Pretreated with nimodipine (5 μmol/L) or CP-154526 (500 μmol/L) followed by CRH (10-12, 10-10, 10-8 and 10-6 mol/L ) stimulation groups. ③ Corresponding control groups stimulated with isotonic physiological saline. PTI fluorescence imaging system was used to detect the changes of neuronal cytoplasmic free calcium concentration; meanwhile, Western blot technique was used to determine the changes of neuronal P-CREB content.MAIN OUTCOME MEASURES: ① Changes of neuronal cytoplasmic free calcium concentration. ② Changes of neuronal P-CREB content.RESULTS: The content of cytoplasmic free calcium in hypothalamic neurons was lower in normal control group, and it increased immediately after exogenous CRH stimulation. However, such increase could be suppressed by pretreatment with nimodipine or CP-154526 before CRH stimulation,and the increase of neuronal P-CREB content was also obviously suppressed.CONCLUSION: During acute stress, the combination of CRH with hypothalamic neuronal CRH 1 receptor leads to the opening of membrane Ltype calcium ions channels, thus enhancing the influx of calcium ions and increasing cytoplasmic free calcium ions content, which would further activate P-CREB signal transduction pathway in neurons. It suggests that CRH may play a vital role in hypothalamic neuronal activation.

BACKGROUND: The activation of hypothalamus-pituitary-adrenal cortex axis may play key role in the increasing expression of hypothalamic corticotropin-re-leasing hormone (CRH) during stress reaction. However by what way to induce the CRH expression in hypothalamic neuron, and whether CRH can activate hypothalamic neurons are still not very clear.OBJECTIVE: To observe the changes of intracellular cyclic adenosine monophosphate (cAMP) and cytoplasmic Ca2+ concentration in the hypothalamic neurons cultured in vitro due to exogenous CRH stimulation.DESIGN: Comparative observation experiment.SETTING: Research Institute of Surgery, Daping Hospital, Third Military Medical University of Chinese PLA; Department of Neurosurgery , Tiantan Hospital, Capital University of Medical Sciences MATERIALS: This experiment was carried out in the Research Institute of Surgery, Daping Hospital, Third Military Medical University of Chinese PLA between December 1999 and March 2002. Hypothalamus was obtained from fetus rat at pregnancy of 17 days for the in vitro culture of hypothalamic neurons.METHODS: Hypothalamic neurons were co-cultured with exogenous CRH,with or without pretreatment with specific CRH 1 receptor antagonist -CP-154526. hypothalamic neurons were randomized into: ① CRH (10-12,10-10, 10-8, 10-6 mol/L) stimulation group. ② CP-154526(500 μmol/L)pretreatment aud CRH ( 10-12, 10-10, 10-8,10-6 mol/L) stimulation group. ③Hypothalamic neurons in corresponding normal control group were exposed to the isotonic saline stimulation. PTI fluorescence image system was used to determine and analyze the change of cytoplasmic free Ca2+ concentration in hypothalamic neurons due to exogenous CRH stimulation and RIA was used to detect the neuronal cAMP content.MAIN OUTCOME MEASURES: ①Cytoplasmic free Ca2+ concentration in hypothalamic neurons. ②cAMP content in hypothalamic neurons.RESULTS: The cytoplasmic free Ca2+ concentration and cAMP content were relatively lower in the hypothalamic neurons in normal control group,which obviously increased due to CRH stimulation [(240±22),(153±11)nmol/L; (3.26±0.19),(0.44±0.02) pmol/dish,P ＜ 0.01];CP-154526 could remarkably suppress the CRH (10-6 mol/L)induced increase in cytoplasmic free Ca2+ concentration and cAMP content in hypothalamic neurons [Ca2+ concentration: (240±22),(171±16)nmol/L; cAMP content:(3.26±0.19), (2.33±0.21) pmol/dish, P ＜ 0.01].CONCLUSION: CRH can directly act on hypothalamic neurons via type 1-receptor,thereby increase the cytoplasmic free Ca2+ concentration and cAMP content in hypothalamic neurons,playing the key role in the modulation of the synthesis and secretion of CRH during the activation of hypothalamic neurons.

Objective To investigate any potential and independent demographic and serologic risk factors contributing to bone destruction in patients with rheumatoid arthritis ( RA) . Methods A total of 445 patients with RA were recruited in this study. Three autoantibodies including rheumatoid factor ( RF) , anti-cyclic citrullinated peptide antibody ( anti-CCP antibody) and anti-citrullinated alpha-enolase peptide 1 antibody ( anti-CEP-1 antibody) were quantified by using specific ELISA kits. The hand radiographs of all subjects were graded by using the modified Sharp/van der Heijde score ( Sharp score) . The potential and in-dependent risk factors were assessed by using univariate linear regression analyses and the stepwise multiple regression analysis, respectively. Results Based upon the univariate regression analyses, 7 covariates were identified as the potential risk factors for bone destruction in patients with RA, which were female (β=0. 100, P=0. 035), longer disease duration (β=0. 498, P=3. 26×10-29), RF (β=0. 096, P=0. 042), younger age at onset (β=-0. 312, P=1. 60 × 10-11 ), anti-CCP antibody positive (β=0. 202, P=1.74×10-5), anti-CEP-1 antibody positive (β=0.148, P=0.017) and positive for either anti-CCP or anti-CEP-1 antibodies (β=0. 157, P=1. 42×10-3). However, smoking (β=-0. 121, P=0. 018) were identi-fied as the potential protective factors. The multiple regression analysis indicated that the longer disease du-ration (P=2. 24×10-15) and anti-CCP antibody positive (P=0. 012) were independent risk factors for bone destruction. Conclusion Female, longer disease duration, younger age at onset, RF, anti-CCP and anti-CEP-1antibodies are potential risk factors for bone damage in patients with RA. Moreover, longer disease du-ration and anti-CCP antibody are two independent risk factors contributing to bone destruction in RA.

OBJECTIVE: To investigate the effect of endothel in and endothelin A receptors (ETAR) on regional cerebral blood flow after traum atic brain injury (TBI). METHODS: The changes of endothelin-1 (ET-1) content with radi oimmunoassay, mRNA expression and the location of ETAR with in situ hybridizatio n, and the function and effect of antagonist BQ123 on regional cerebral blood fl ow (rCBF) through intracisternal application were dynamically observed on 130 ad ult rabbits after TBI. RESULTS: ET-1 increased significantly in regional brain tissue s, and the expression of ETAR mRNA increased apparently and predominantly distri buted in the cerebromicrovascular endothelium after trauma. The rCBF declined si gnificantly, but by using selective ETAR antagonist BQ123 to treat the rabbits, the decrease of rCBF could be apparently prevented. CONCLUSIONS: It demonstrates that ET-1 may primarily contribut e to the rCBF decrease after TBI, while providing that the role of ET-1 is medi ated through ETAR.