Objective To analyze acinetobacter Baumanii infections in ICU and explore the nursing strategies.Method The clinical data of 5310 ICU patients infected with acinetobacter Baumanii in our hospital were retrospectively analyzed.Results Among the 5310 patients in the ICU,26 were infected by acinetobacter baumanii with an incidence of 0.5%,with 46.2%patients contracted cerebral hemorrhage,38.5%intracerebral tumor,92.3%infection by multi-drug resistant bacteria and.All patients were managed with artificial ventilation and 84.6%patients were hospitalized in ICU for over 7 days.Conclusions The nursing strategies includes reasonable use of antibiotics,active treatment of primary diseases,rigid control of disinfection and isolation,attaching importance to hand hygiene and strict implementation of nursing practice,which are important for preventing and controling the infection of acinetobacter baumanii.

Objective This study aims to evaluate the effect of joint training on professional core competencies of Intensive Care Unit (ICU) nurses.Methods Nurses enrolled in Joint Training Program (the experimental group) between 2007 to 2009 were interviewed with questionnaire and compared with those received general training (the control group).Data were collected before and after 10 months of training.Scores of ICU nurse core competencies from the two groups were analyzed and compared.Restults Comparing with the control group,scores of the experimental group showed statistical differences on total score,theory dimension,technical dimension and 54 items.Conclusions Joint training could improve the professional core competencies of ICU nurses,especially the competences of management and application of nursing to critically ill patients and ICU special skills.

Objective To explore the effect of central venous pressure waveforms on the location of power PICC tip. Methods From January 2015 to December 2015, we placed power PICC for 47 patients in our intensive care unit. The CVP waveforms were applied to detect any displacement into small thoracic veins after a four-step localization method. The position of the catheter tip was finally confirmed by X-ray inspection. Results Among the 47 cases undergoing PICC implantation, 45(95.75%) displayed a typical CVP waveform, with the catheter tip positions were located in the superior vena cava inferior segment, 1 (2.13%) displayed a typical CVP waveform, with the catheter tip was misplaced into axillary vein and retraced and 1(2.13%) did not display typical CVP waveforms and CVP value was negative, with the catheter tip was in left internal jugular vein. To locate the catheter tip position with CVP waveform and chest X-rang were 100.00%the same. Conclusions The central venous pressure waveform can be used to determine whether the catheter tip is located in the inferior segment of the superior vena cava or not immediately after the placement of a power PICC. However, chest X-ray inspection conformation is still needed.

Background The burden of chronic kidney diseases (CKD) is continuously increasing in the globe. Environmental factors are one of the trigger factors for chronic kidney diseases of unknown etiology (CKDu). However, the current toxicological evidence on the renal effects induced by environmental high concentrations of multiple ions in drinking water and high temperature exposure is very limited. Objective To preliminary investigate the renal effects of exposure to drinking water with environmental high concentrations of fluoride, calcium, sodium, and bromide ions alone or in combination with high temperature in mice. Methods A mouse drinking water exposure model was established using ICR male mouse (8 weeks old) with exposure to 3 mg·L⁻¹ fluoride ions, 250 mg·L⁻¹ calcium ions, 400 mg·L⁻¹ sodium ions, and 1 mg·L⁻¹ bromide ions (to mimic the high concentration of ions in the groundwater in the areas with a high prevalence rate of CKDu in Sri Lanka) and high temperature of 32 ℃. ICR male mice were randomly divided into a mixed fluoride-calcium-sodium-bromide ion and high temperature exposure group, exposure groups of each ion and high temperature alone, a fluoride-calcium-sodium ion exposure group, and a fluoride-calcium-sodium-bromide ion exposure group. In the control group, the animals were given normal purified water at room temperature of (23±2) ℃. After 12 consecutive weeks of exposure, body weights and liver (kidney) organ coefficients were determined. Assessment of renal histopathologic damage was performed by hematoxylin-eosin staining and pathology scoring. At the end of the 12-week exposure period, 24 h urine samples were collected for the measurements of creatinine (UCr), albumin (ALB), neutrophil gelatinase-associated lipocalin (NGAL), and β2-microglobulin (β2-MG) levels. Cell apoptosis was assessed by TUNEL assay. Results The mice in the mixed exposure group showed a significant decrease in body weight and marked increases in the scores of renal histopathological injuries and the urinary levels of β2-MG compared to those of the control mice (P<0.05). Compared with the control group, the differences in body weight and urinary renal injury indexes of the mice in the fluoride-calcium-sodium and the fluoride-calcium-sodium-bromide ion groups (except for the decrease of the β2-MG levels in urinary in the latter group) were not statistically significant (P>0.05), but the renal histopathological injury scores were significantly increased (P<0.05). By contrast, body weights, liver (kidney) organ coefficient, and renal histopathological injury scores were comparable in the control mice and the mice fed with drinking water containing high levels of a single ion alone or housed at high temperature alone (P>0.05). Furthermore, the renal histopathological injury score showed no significant differences between the fluoride-calcium-sodium ion exposure group and the fluoride-calcium-sodium-bromide ion exposure group (P>0.05). The interaction between bromide ions and fluoride-calcium-sodium ions on renal tissue pathological damage was not statistically significant (P>0.05). Results from the TUNEL assay showed a significant increase in renal cell apoptosis in the fluoride-calcium-sodium ion exposure group (P<0.05). Conclusions Environmental high levels of mixed fluoride, calcium, and sodium ions in drinking water induce renal pathological damage in mice, which are exacerbated in combination with high temperature environment. High temperature exposure alone does not affect the pathological damage of renal tissue,