Objective To establish the assay method of hydroxyproline(HYP) level in rat lung tissue for evaluating the lung fi-brosis degree .Methods The impact of different acid hydrolyzable time ,oxidative time ,developing time on the assay results of the HYP level in rat lung tissue was studied .On this basis ,the assay method for determining the HYP level was established and prelim-inarily applied in the detection of the HYP level in rat lung tissue .Results The optimal condition for the HYP level detection in rat lung tissue was as follows :7 .50 mol HCL was hydrolyzed for 16 h at 110 ℃ ,oxidized for 10 min at room temperature and devel-oped for 25min at 60℃ .The sensitivity of this method was 0 .067μg/mL .The recovery rate and the average CV of this method were 88 .85% -110 .88% and 4 .70% -6 .60% ,respectively .In the study of bleomycin induced rat lung fibrosis ,the HYP level of the model group was obviously higher than that of the control group .Conclusion This method has high sensitivity ,high recovery rate and good reproducibility ,and may be used as a reliable quantitative method to judge the lung fibrosis level in clinic .

OBJECTIVE To discuss the best scheme for fungemia detection by analyzing and comparing the ability and performance characteristics of the BACTEC 9120 automated blood culture system and 4 kinds of blood culture bottles in the detection of simulated fungemia.METHODS Simulated blood culture was produced using 65 fungi isolates from clinical specimens and BACTEC Plus Aerobic/F,Plus Anaerobic/F,Peds Plus/F and Myco/F Lytic blood culture bottles and detected by BACTEC 9120 automated blood culture system.The final inoculum densities were 1-5 CFU/ml blood.The(time to detection TTD) of simulated blood culture with different concentrations of suspension produced using 2 kinds of standard strains and 4 kinds of blood culture bottles was compared.RESULTS From the 260 bottles in this study 216 had growth detected by the BACTEC 9120 blood culture system.The positive rates of BACTEC Plus Aerobic/F and Anaerobic/F,which were 90.77%and 41.54%,respectively,were significantly(P

Objective To synthesize and identify artificial antigens of lung elastin degradation peptide and for the purpose of preparation of COPD test.Methods The artificial antigens were synthesized by Sulfo-SMCC and KLH.The complete antigens were identified by ultraviolet spectrum and SDS-PAGE.Immunize Balb/c mice was used to prepare antibody.The antiserum activity was evaluated by indirect competitive ELISA.Results The artificial antigens were identified by ultraviolet spectrum and SDS-PAGE. The protein concentration was 1.181 mg/mL.The titer of antiserum was 1∶64 000,and IC50 was 13.7 ng/mL.The antiserum had no cross-reaction with nonsense peptide.Conclusion The artificial antigens were acquired successfully,which had good immunoge-nicity.The results have laid basis for COPD test.

Objective To investigate the origin of α-SMA positive cells in the outflow tract ridge of the embyonic mouse heart and to explore the ultrastructure change of the mesenchymal cells during the ridges fusion. Methods Sections of embryonic day 10(E10d) to E14d mouse embryonic hearts were stained by immunohistochemistry assay with monoclonal antibodies against α-smooth muscle actin (α-SMA), α-sarcomeric actin(α-SCA) and in situ hybridization method with PlexinA2 probe. The outflow tract ridges fusion was observed by transmission electron microscopy at E12.5d. Results From E10d to E11d, PlexinA2 positive cells were seen in the neural tube with mesenchymes around it, the aortic sac and aortic arch. These cells also migrated into the outflow tract ridge along the aortic sac wall and part of them expressed α-SMA. At E12d, PlexinA2 was expressed in the spinal ganglia, the pharyngeal mesenchyme, the aorto-pulmonary septum and the ascending aorta and pulmonary trunk. The septum showed α-SMA strongly positive. But only a few of α-SMA positive cells were observed in the ascending aorta and pulmonary trunk. At E12.5d, two clusters of condensed mesenchymal cells in the outflow tract ridges formed and began to express PlexinA2 weakly and α-SMA strongly. When the ridges began to fuse, the endothelial cells formed a cellular seam, which rapidly broke into pieces and disappeared and were replaced by the sparsed mesenchymal cells containing a few of microfilaments. Two clusters of condensed mesenchymal cells gradully moved to merge. It was noted that some mesenchymal cells contained plenty of microfilament bundles, mitochondria and focal contacts between them. Some mesenchymal cells only had a few of microfilaments and plasma membrane fusion was seen between them. Conclusionα-SMA positive cells in the outflow tract cushion may be derived from cardiac neural crest. The endothelial cells might participate in the fusion of the outflow tract ridges by endothelial-mesenchymal transformation. Mesenchymal cells of the condensed cell mass contain plenty of microfilament bundles and focal contacts or membrane fusion, which contribute to the ridges fusion.

Objective To investigate the early development of the sinus venosus and the cardiac conduction system (CCS) of human embryonic hearts. Methods Serial transverse sections of 29 human embryonic hearts from Carnegie stage 10 to Carnegie stage 16 (C10-C16) were stained immunohistochemically with antibodies against α-smooth muscle actin(α-SMA),α-sarcomeric actin(α-SCA) and desmin ( DES ). Results During C12 and C13, the sinus venosus formed by confluence of systematic veins at the caudal end of the pericardial cavity could be recognized in the mesenchyme of primitive transverse septum. The mesenchymal cells of the sinus venosus gradually differentiated into α-SCA positive cardiocyocytes. At C14, the sinus venosus was within the pericardial cavity due to expansion of the pericardial cavity and incorporated into the right atrium. Differentiation of DES positive conductive cardiomyocyte was initiated in the right wall of atrio-ventricular canal of C10 embryonic heart and with the development, extended towards the myocardium of the interventricular sulcus to form His bundle, left and right bundle branches as well as the ventricular trabecular myocardium. In the atium, the strong expression of DES was first detected in the dorsal wall of C11 atrium. At C13, unique myocardial band showing α-SCA, α-SMA and DES expression in the left dorsal wall of the sinus venosus were found to be continuous with the basal wall of left atium and the dorsal wall of the atrio-ventricular canal, this band might be related to the development of conduction system from sinoatrial node to atrio-ventricular canal. During C14 to C16, primary conduction pathway of atria with strong DES expression was formed that extended from sinoatrial node along venous valves, DES positive myocardium in the dorsal and ventral walls of the atria to the right atrio-ventricular canal, respectively. Conclusions The mesenchyme of the primitive transverse septum is the heart forming field of human embryos responsible for formation of sinus venosus myocardium, cardiomyocytes are differentiated from mesenchymal cells in the primitive transverse septum and progressively added to the venous pole of the heart tube to form myocardial sinus venosus. The differentiation of CCS of the early human embryo initiates in the atrio-ventricular canal and develops gradually towards the arterial and venous poles of the heart tube. By C16, DES positive embryonic CCS can be clearly recognized morphologically.

Objective To explore the mechanism underlying the rapid shortening of outflow tract and the formation of the right ventricle of the embryonic mouse heart .Methods Serial sections of embryonic mouse hearts from embryonic day 9 (E9) to E12(3 to 5 embryos for each stage)were stained with antibodies against α-sarcomeric actin (SCA), α-smooth muscle actin (SMA), GATA-4, myosin heavy chain (MHC), proliferating cell nuclear antigen (PCNA) or active caspase-3 (CAS-3).Results At E11, the aortic sac and the distal border of cardiac outflow tract had regressed towards the ventricle into the pericardial cavity , while GATA-4、SCA and SMA staining showed that precursors from the second heart field were differentiating into cardiomyocytes adding to the arterial pole of the heart to lengthen the outflow tract .The length of outflow tract rapidly shortened at E12.Before and during its shortening , no CAS-3 positive cell was detected in the entire outflow tract.During E10-12, the cardiomyocytes in the right ventricle and proximal outflow tract wall proliferated inward to form trabeculae, with some trabeculae extending into the ridges .Proximal extremities of the outflow tract ridges were gradually myocardialized remodeling into the trabeullar right ventricle wall .At E12, scattered SCA and SMA staining cells and SCA and SMA weak positive mesenchymal cell clusters , which were continuous with the outflow tract myocardium were detected in the mesenchymal proximal outflow tract ridges .These results suggested that the proximal outflow tract was remodeled into the right ventricle by trabecularization , during which mesenchymal ridges were trabecularlly myocardialized . Conclusion Ventricularization of the proximal outflow tract contributes to the trabecular right ventricle and resultes in the vapid shortening of outflow tract in the mouse embryonic heart .Cardiomyocyte appoptosis and transdifferentiation are found to play a more limited contribution during this process .

OBJECTIVETo detect the quantity, proportion and function of producing cytokines of Th1 and Th2 cells in aplastic anemia (AA) patients and their contribution to the hematopoietic failure.

METHODS(1) Eleven patients with severe aplastic anemia (SAA) at diagnosis were observed by Marsh's method for the CFU-E, BFU-E and CFU-GM before and after depletion of CD(4)(+) T lymphocytes from bone marrow mononuclear cells (BMMNC); (2) Th1 (CD(4)(+) IFN-gamma(+)) and Th2 (CD(4)(+) IL-4(+)) cells in peripheral blood mononuclear cells (PBMNC) of 21 SAA patients and 17 normal controls were counted by FACS. (3) mRNA expression of IFN-gamma and IL-4 gene in unstimulated BMMNC from 16 SAA patients, 11 chronic aplastic anemia (CAA) patients, 26 other hematological diseases patients and 11 normal controls were measured by reverse transcriptase polymerase chain reaction (RT-PCR).

RESULT(1) CFU-E, CFU-GM and BFU-E increased significantly after depletion of CD(4)(+) T lymphocytes from BMMNC of SAA patients. (2) The percentage of IFN-gamma producing CD(4)(+) T cell (Th1) of SAA patients was significantly higher than that of controls, the percentages of IL-4 producing CD(4)(+) T cells (Th2) had no difference between SAA patients and normal controls. (3) IFN-gamma mRNA was detected in unstimulated BMMNC in 13 of 16 SAA patients, 6 of 11 CAA patients and one of 6 paroxysmal nocturnal hemoglobinuria (PNH) patients. The IFN-gamma mRNA was not detected in unstimulated BMMNC of 11 normal controls and other hematological diseases patients.

CONCLUSIONSDisbalance of CD(4)(+) T lymphocytes subsets and increases in quantity and IFN-gamma producing function of Th1 cells might be important for the development of bone marrow failure in AA and in distinguishing AA from other kinds of pancytopenic diseases.

Adolescent ; Adult ; Anemia, Aplastic ; blood ; etiology ; Colony-Forming Units Assay ; Erythroid Precursor Cells ; cytology ; Female ; Granulocytes ; cytology ; Hematopoietic Stem Cells ; cytology ; Humans ; Interferon-gamma ; genetics ; Interleukin-4 ; genetics ; Macrophages ; cytology ; Male ; Middle Aged ; RNA, Messenger ; genetics ; metabolism ; Th1 Cells ; cytology ; metabolism ; physiology ; Th2 Cells ; cytology ; metabolism

The integrated curriculums of basic medicine in Shanxi Medical University are as follows: nine basic medical courses were integrated into 10 medical modules, with additional training including PBL and TBL case discussion, clinical clerkship, flipped classroom and other non-integrated subjects etc. In order to assess the interest of students for integrated curriculum, their intrinsic motivation, as well as their comprehension and application of medical knowledge, we gave anonymous questionnaire to 149 students, 16 teachers in basic medicine, and 10 teachers in clinical medicine. Results showed that more than 90% students were willing to take the integrated curriculum and participate in PBL and TBL case discussion, and students who were unwilling to take the curriculum were less than 10%, they thought that the knowledge of new curriculum system was incoherent. The proportion of students from higher grade who were unwilling to participate in the flipped classroom was increased from 6.7% to 95.0%. Most of the teachers both in basic and clinic medicine believed that new curriculum system was helpful for students to comprehend basic medical knowledge and strengthen their discriminating ability, but did not function in improving students' practical ability. In the further reform on teaching, details like the coherence of knowledge and the content selected when self-studying should be improved.