In view of the fact that medical inspection equipment sold in the domestic market is mainly imported from abroad and very expensive, we developed a full-automatic fluorescence analyzer in our center, presented in this paper. The present paper introduces the hardware architecture design of FPGA/DSP motion controlling card+PC+STM32 embedded micro processing unit, software system based on C# multi thread, design and implementation of double-unit communication in detail. By simplifying the hardware structure, selecting hardware legitimately and adopting control system software to object-oriented technology, we have improved the precision and velocity of the control system significantly. Finally, the performance test showed that the control system could meet the needs of automated fluorescence analyzer on the functionality, performance and cost.
ObjectiveTo evaluate the effect of airway management drugs on the respiratory function and postoperative recovery of patients who had moderate or severe chronic obstructive pulmonary diseases(COPD) undergoing an open chest surgery. MethodThere were a total of 22 patients suffering from both lung cancer, esophageal cancer or gastroesophageal junction carcinoma and moderate to severe COPD(of which there were 16 males and 6 females; accepting traditional operation 5 cases and minimally-invasive operation 17 cases; lung cancer 16 cases, esophageal cancer 4 cases and gastroesophageal junction carcinoma 2 cases as the observation group). To statistic the respiratory function and arterial blood gas analysis before and after treating with airway management drugs. And compare the postoperative pulmonary complications(PPCs) and hospital-stay with 50 patients who have no COPD(of which there were 34 males and 16 females; accepting traditional operation 17 cases and minimally-invasive operation 33 cases; lung cancer 35 cases, esophageal cancer 11 cases and gastroesophageal junction carcinoma 4 cases as the control group). ResultThere was a statistical difference of forced expiratory volume in one second(FEV1), forced vital capacity(FVC) and maximal voluntary ventilation(MVV) after the above treatment by 7 to 10 days and comparing with prior treatment(P<0.05). Partial pressure of oxygen(PaO2) increased with no statistical difference(P>0.05) while PaCO2 decreased with a statistical difference(P<0.05). Comparing with patients without COPD, the incidences of PPCs and postoperative hospital stay were of no statistical difference(P>0.05). ConclusionPatients with moderate or severe COPD with airway management drugs(antibiotics,glucocorticoids, bronchodilators and phlegm dissolving agent) in perioperative period could improve the respiratory function and operation tolerance effectively, reduce the incidence of PPCs and shorten postoperative hospital stay.
In order to investigate immune protection against swine-origin influenza virus (S-OIV) A H1N1, the helper-dependent adenovirus vector (HDAd) system was exploited to construct recombinant HDAd encoding hemagglutinin (HA). The HA gene was synthesized and cloned to the HDAd backbone. Then, the HDAd/HA DNA molecules were transfected into 293Cre4 cells with calcium phosphate. The cells were infected by helper virus 16 hours after the transfection. The 293Cre4 cells were coinfected with HDAd/HA and the helper virus for large-scale preparation of HDAd/HA. The HDAd/HA was obtained and purified twice with CsCl density ultracentrifugation and observed morphologically under transmission electron microscope, and the expression of HA protein was analyzed with RT-PCR. Recombinant HDAd/HA expressing HA protein was successfully constructed which could pave the way for in vivo investigation on immunogenicity and efficacy against S-OIV A H1N1 infection.