ObjectiveTo evaluate the security of intravitreal injection with ciproflaxacin to retina.MethodsTweenty-four rabbits were randomly divided into 4 groups with 6 rabbits in each group. 0.1 ml ciproflaxacin in doses of 2 500,5 000,and 10 000 μg was intravitreally injected into the rabbits eyes, retrospectively. And 0.1 ml saline solution was injected into the vitreous body of the rats in the control group. Indirect microscope, light microscope and electroretinogram (ERG) were used to observe the changes of ocular fundus.ResultsNormal results of light microscopy and ultrastructure were found in 250 μg and 500 μg groups; irregularly arranged outer and inner nuclear layers, dropsical or even lost ganglion cells, and ultrastructural changes were in 1 000 μg group. There was no apparent difference of ERG′s a and b amplitudes before and after intravitreal injection with ciproflaxacin in each group.ConclusionIntravitreal injection with ciproflaxacin is safe, and 500 μg or less is the secure dosage in rabbits' eyes. (Chin J Ocul Fundus Dis, 2005,21:180-182)
Objective To assess the effect of Dengzhanhua Injection for angina pectoris. Methods We performed an electronic search for MEDLINE (1966 to 2004), EMBASE (1974 to 2004), The Cochrane Library (Issue 4, 2004), CBM and CNKI (1980 to 2004). We included randomized controlled trials that met the inclusion and exclusion criteria and evaluated the quality of those trials and performed the meta-analysis by RevMan 4.2.7. Results Eight trials were included involving 634 patients. However, they were of poor quality. The results of meta-analysis indicated that there were statistical difference on symptoms and electrocardiogram (ECG) improvements between Dengzhanhua and control group (Breviscarpine≥30 mg) with RR 1.26, 95%CI 1.11 to 1.44 and RR 1.30, 95%CI 1.14 to 1.49, respectively. However, Dengzhanhua Injection (Breviscarpinelt;30 mg) vs. basic therapy showed no statistical difference in either symptom improvement (RR 1.03, 95%CI was 0.90 to 1.18) or ECG improvement (RR 1.01, 95%CI 0.86 to 1.20). In addition, Dengzhanhua decreased the myocardial infarction attacks in one year following up (OR 0.06, 95%CI 0.01 to 0.29). Conclusions Little evidence shows that Dengzhanhua is superior to simple basic therapy in the symptoms and ECG improvements as an auxiliary drug. However, this systematic review can not draw a conclusion about the effectiveness of Dengzhanhua Injection compared to simple basic therapy in the treatment of angina pectoris due to the poor quantity of included trials.
Objective To explore the facilitative effects of different allogenic cells injected into the denervated muscles on the nerve regeneration, the protection of the myoceptor degeneration, and the promotion for rehabilitation of the muscular function. Methods Schwann cells, myoblast cells, and renal endothelial cells were prepared from 400 SD rats aged 7 days and weighing 20.0±2.3 g. Thirty-six adult female SD rats weighing 120-150 g were randomly divided into 4 groups(n=9). Under the asepsis condition, the left ischiadic nerves of all the SD rats were cut off, and the primary suture of the epineurium was performed. After operation, the different corresponding cells were injected into the triceps muscles of the rat calf in each group once per week for 4 times in all. One ml of Schwann cells (1×106/ml) was injected into the rats in Group A; 1 ml of the mixed cells of Schwann cells and myoblast cells (1×106/ml) was injected into the rats in Group B; 1 ml of the extract from the mixed cells of Schwann cells, myoblast cells, and renal endothelial cells (1×106/ml) was injected into the rats in Group C; 1 ml of the culture medium without any serum was injected into the rats in Group D as a control. After operation, observation was made for the general condition of the rats; 3 months after operation, enzymohistochemistry and the CJun expression were performedin the ventricornual motor neuron. At the proximal and the distal ends of the nerve suture, the density of neurilemma cells in the unit area and the area size of the regenerated nerve fibers were observed and measured. Results The affected limbs of the rats in Groups A, B and C improved 13 months after operation. The ulcers and swelling at the ankles gradually relieved and the rats could move normally 3 months after operation. However, the affected limbsof the rats in Group D still had ulcers and swelling, with an obvious contracture of the toes and a difficult movement. Three months after operation, the number of the target muscle myoceptor, the number of the Actin positive cells, the activity of the various enzymes in the denervated muscles, and the histological changes of the regenerated nerves were better in Group C than in Groups A and B (P<0.01); and they were all better in Groups A, B and C than in Group D(Plt;0.01). Conclusion Schwann cells, the mixture of Schwann cells and myoblast cells, and the extract from the mixture of Schwann cells, myoblast cells and renal endothelial cells can all promote neurotization and rehabilitation of the muscular function, and protect against the myoceptor degeneration. However, the effect of the extract is superior to that of Schwann cells or the mixed cells.
ObjectiveTo observe the effects of bulbar subconjunctival and periocular injection of dexamethasonone on blood glucose levels of type 1 diabetic mellitus (T1DM)rats. Methods80 healthy adult male Sprague-Dawley rats were randomly divided into GroupⅠ(n=40) and GroupⅡ(n=40). GroupⅠrats received intraperitoneal (IP) injection of streptozotocin to induce T1DM model, while GroupⅡrats received IP injection of citrate buffer solution and was the control group.GroupⅠrats and GroupⅡrats were further divided into four subgroups:A (n=10), a (n=10), B (n=10), and b (n=10). Subgroup-A rats received bulbar subconjunctival injection of dexamethasone, subgroup-a rats received bulbar subconjunctival injection of saline, subgroup-B rats received periocular injection of dexamethasone, subgroup-b rats received periocular injection of saline. After the injection, rats were fasted but could drink water. Tail vein blood samples were collected and the blood glucose level was measured by glucose monitor. ResultsAfter modeling, the blood glucose level of GroupⅠand GroupⅡrats was(9.31±1.79) mmol/L and (5.72±0.80) mmol/L respectively, the difference was statistically significant (P < 0.05). The blood glucose level of GroupⅠrats reached the peak in 3h after injection. In 6-24 h after injection, the blood glucose level of GroupⅠA rats was obviously increased than that of the blood glucose level of Group Ia rats and the difference was statistically significant (P < 0.05). In 3-24 hours after injection, the blood glucose level of GroupⅠB rats was obviously increased than that of the blood glucose level of GroupⅠb rats and the difference was statistically significant (P < 0.05). Comparing the blood glucose level during different injection time between GroupⅠA rats and GroupⅠB rats, between GroupⅠa rats and GroupⅠb rats, the difference was not statistically significant (P > 0.05). In 3-24 hours after injection, the blood glucose level of GroupⅡA rats was obviously increased than that of the blood glucose level of GroupⅡa rats and the difference was statistically significant (P < 0.05); the blood glucose level of GroupⅡB rats was obviously increased than that of the blood glucose level of GroupⅡb rats and the difference was statistically significant (P < 0.05). Comparing the blood glucose level during different injection time between GroupⅡA rats and GroupⅡB rats, between GroupⅡa rats and GroupⅡb rats, the difference was not statistically significant (P > 0.05). ConclusionBulbar subconjunctival injection and periocular injection of dexamethasone could both increase the blood glucose of TIDM rats, but these two injection methods had no differences on the blood glucose level.
From 1986 through Dec. 1991, 305 cases of hemangioma were treated by local injection therapy with a follow-up of 3 to 48 months. The outcome was satisfactory, 278 cases were cured, and 27 cases were still under observation. The preparation of the tetracycline solution, the method of injection, the indications, the way of observation and nursing after injection were introduced, and the mechanism of action of its application, the diagnosis and treatment of the complications were discussed.
Objective To evaluate the efficacy and safety of Salviae miltiorrhizae Injection (include Danshen Injection and Fufang Danshen Injection) for chronic cor pulmonale. Design A systematic review of randomized clinical trials. Method Randomized trials comparing Salviae miltiorrhizae Injection plus routine treatment versus muting treatment alone were identified by electronic and manual searches. No blinding and language limitations were applied. The Jadad scale assessed the methodological quality of trials. Results Thirty randomized trials (n=2 161) were identified. The methodological quality of all trials included was low. The combined results (RR and 95%CI) of symptom scores was 1.20 (1.15 to 1.26). Because of the significant heterogeneity, many other markers of the blood rheology can not be combined. The reason for heterogeneity should include the differences among cases and studies. Because of lacking enough studies, the conclusions about mortality and oxidants/antioxidants markers were not b. Only a few studies had reported adverse events. Conclusions Based in the review, Salviae miltiorrhizae Injection may have positive effect on symptom scores in patients with chronic cor pulmonale. But for mortality, the markers of blood rheology and oxidants/antioxidants, there is no reliable conclusion. However, the evidence is not b due to the general low methodological quality, the variations among studies and experimental markers themselves, and lacking of more relevant and important markers. Further large trials are needed.
Objective To investigate the effectiveness of pretreatment with mixture of lidocaine and flurbiprofen axetil in reducing injection pain of propofol. Methods One hundred and sixty ASI I–II patients undergoing general anaesthesia were randomly allocated into four groups (40 cases in each group): the control group, the lidocaine (Lc) group, the flurbiprofen axetil (FA) group and the mixture of lidocaine and flurbiprofen axetil (hereafter termed as “mixture”) group. After the occlusion of venous drainage, patients were pretreated with 7 mL of 0.9% saline in the control group, 5 mL (50 mg) of flurbiprofen axetil and 2 mL of 0.9% saline in the FA group, 2 mL (40 mg) of 2% lidocaine and 5 mL of 0.9% saline in the Lc group, and 5 mL (50 mg) of flurbiprofen axetil and 2 mL (40 mg) of 2% lidocaine in the mixture group, respectively. The occlusion was released 2 min later and then 0.5 mg/kg propofol was injected into the vein within 5 s. During injecting propofol, the patients were asked by another anesthetist to assess and record their pain through using VSR. Results No significant differences in the demographic characteristics were found among the four groups. In comparison with the control group, the incidence rates of propofol injection pain were obviously lower in the mixture group, the FA group and the Lc group (Plt;0.05); there was a significant reduction in the incidence rate of pain in the mixture group compared with the other three groups. The median pain score was significantly lower in the mixture group and the Lc group than that in the control group. During the 24 hour follow-up after operation, neither the adverse events such as red-swelling in injection site, phlebitis or drug eruption, nor the gastrointestinal stimulating signs were found. Conclusion The mixture of flurbiprofen axetil and lidocaine is found to be more effective in reducing injection pain of propofol.