Objective To study the change rule of serum brain natriurectic peptide (BNP)and uric acid(UA)in the patients with heart failure and its clinical significance.Methods Serum BNP and UA levels in 84 patients with heart failure (observation group)and 30 controls were determined and the detection results were performed the comparative analysis.Results The serum BNP and UA levels in the observation group were significantly higher than those in control group with statistical difference between them(P <0.05),the serum BNP and UA levels were in turn progressively incereased as the cardiac function deterioration from NY-HA Ⅱ to NYHA Ⅳ,the differences from each other had statistical significance (P<0.05).The correlation analysis found that ser-um BNP level had good positive correlation with the cardiac functional grading,at the same time,serum UA level was also positively correlated with the cardiac failure severity.The further analysis found that serum BNP level in the acute left heart failure was sig-nificantly higher than that in the chronic heart failure and serum UA level also had the same results(P <0.05),serum BNP level in the left heart failure relief was significantly decreased and serum UA level was also significantly decreased.Conclusion Serum BNP and UA levels are correlated with the heart failure severity.Dynamic monitoring serum BNP and UA levels in the patients with heart failure is helpful to judge the heart failure severity.

In order to determine the pathophysiologic significance of electrocardiographic ventricular hypertrophy in athletes (LVH ath), echocardiographic measurements of left ventricular mass (LVM) were performed on 50 LVH ath. and 50 non-LVH matched ath. They were members of National Teams of track and field, swimming, football and cycling, with an average age of 20.74?3.3 years. Anatomic validation of the method was used for calculation of LVM in this study. Comparisons of LVM were made between LVH ath. and non-LVH ath., and between non-LVH ath. and the untrained:LVM=1.04?[(LVID+PWT+IVST)~3-(LVID)~3]-14Results showed no significant difference of LVM between LVH ath. and non-LVH ath. while LVM of non-LVH ath. were considerably greater than that of the untrained (P

Objective:To investigate the safety and feasibility of modified pararectus abdominis approach in the anterior plate fixation of sacral fractures.Methods:In 5 fresh adult cadavers (3 males and 2 females), gross anatomy was performed on one pelvic side using a modified pararectus abdominis approach to clarify the anatomical structures around the approach. On the other side of the pelvis, the anterior structures of the sacrum were exposed in simulated anterior plate fixation of sacral fracture via the modified pararectus abdominis approach. The exposed anatomic range of the approach, and the locations and courses of lumbosacral trunk nerve and iliac vessels were observed and recorded.Results:(1) The modified pararectus abdominis approach exposed the whole S1 vertebral body from the sacroiliac joint to the medial side, the L5 vertebral body cephalally, the S1 foramina in the true pelvis, and the same structures laterally as a traditional pararectus abdominis approach did. (2) Via the modified pararectus abdominis approach, exploration and decompression of the lumbosacral plexus (from L4 to S1) (including S1 foraminoplasty) were performed under direct vision to decompress the nerve entrapment from anterior compressed fracture fragments and hyperplastic callus. (3) There was a safe surgical area in anterior L5 and S1 where a plate could be safely fixed to the S1 vertebral body. (4) Since the maximum vertical distance from the lumbosacral trunk nerve lifted above the periost to the sacral ala was 1.4 cm (range, from 1.2 to 1.5 cm), a plate could be safely placed from the subperiosteum to the S1 vertebral body to fix the fracture.Conclusions:The modified pararectus abdominis approach is safe and feasible for exploration and decompression of lumbosacral nerves in the anterior sacral region (from L4 to S1) because it has significant advantages in vision and operation. It also broadens the range of anterior sacral plate fixation because a sacral fracture displacement can be reduced under direct vision and a plate can be fixated to the S1 vertebral body along the alae sacralis and across the sacroiliac joint to the iliac bone.