ABSTRACT
Subject(s)
Humans , Arteries , Burns , Foot , Foreign Bodies , Free Tissue Flaps , Hair , Hand , Skin , Transplants , Wounds and InjuriesABSTRACT
Objective To investigate the therapeutic effect of hydrogen-rich saline on the rheological behavior of leukocytes in mesentery capillary of rats with high-voltage electrical burn .Methods 180 rats were randomly divided into four groups :burn injury plus normal saline group ,burn injury plus hydrogen-rich saline group ,sham plus normal saline group ,and burn injury plus papaver-ine group .The rats were received saline ,hydrogen-rich saline ,saline ,papaverine at different time points after scald respectively .The changes of rheological behavior of leukocytes in mesentery capillary of rats before and after the injury were investigated .Results The rheological behavior of leukocytes in mesentery capillary of the control group were observed no significant change (P>0 .05) . In experimental group the rolling white blood cell count ,the number of leukocyte adhesion ,the length of contact of leukocyte-endo-thelial cell at each phase after injury were higher than those at 15 min before injury (P<0 .05);leukocyte rolling speed after injury is lower than that before injury (P<0 .05) .In treatment group and positive control group ,the rolling white blood cell count ,the number of leukocyte adhesion ,the length of contact of leukocyte-endothelial cell at each phase after injury were higher than those at 15 min before injury (P<0 .05) ,but compared with the experimental group ,the increase range was lower (P<0 .05) .leukocyte rolling speed after injury is lower than that before injury (P<0 .05) ,and compared with the experimental group ,the reduction was lower (P<0 .05) .Conclusion The hydrogen-rich brine can effectively reduce the changes of rheological behavior of leukocytes in mesentery capillary of rats caused by high-voltage electrical burn ,and have a protective effect on rat mesenteric .
ABSTRACT
Objective To investigate the influence of high-voltage electrical burn on the throm-bomodulin (TM), protein C (PC), protein S (PS) and D-Dimer (D-D) in SD rats. Methods One hundred and twenty healthy SD rats were divided into the fake high-voltage electrical burn groups (FHEB), high-voltage electrical burn groups (HEB) according to the random number table, with 60 rats in each group. Ten rats were taken from each group at 15 minutes before injury. Plasma were collected from heart blood. Fifty SD rats of HEB group with voltage regulator and experimental transformer. The remaining fifty SD rats of FHEB group were sham injured with the same devices without electric current. At 5 minutes and 1, 2, 4, 8 hour (s) post injury, 10 rats of every group were randomly chosen at each time point for observation of the concentrations of TM, PC, PS and D-D. Plasma were collected from heart blood. Data were processed with analysis of variance of factorial design and LSD test. Results Compared with the FHEB group, the concentration of TM from 5 minutes to 8 hours post injury in HEB group was higher significantly (P < 0.05). Exception of the concentrations of PC and PS at 15 minutes before injury, the concentrations of PC and PS were lower than those of FHEB group (P < 0.05). The concentration of D-D in HEB group peaked at 8 hours post injury in (173.05 ± 4.08) ng/mL. Conclusion High-voltage electrical burn at early stage can increase the concentrations of TM, D-D, as well as decrease the concentrations of PC and PS, which are not only causing the vascular endothelium damage but also possessing serious effect on the thromboplastin function of SD rats.
ABSTRACT
The authors describe a case of accidental eletrical injury from high voltage direct current in a young worker, who was struck by the electric shock in the left occipito-parietal region. This case is interesting due to the development of left ooccipito-parietal parenchymal brain lesion with transient anomic aphasia and visual disturbances. We believe that is first report on parenchymal brain injury due to high voltage electrical burn confirmed pathologically in Korea. The patient had full thickness scalp defect, skull necrosis, and parenchymal brain injury. We performed one stage brain and dural biopsy with split rib graft cranioplasty after removal of devitalized skull and scalp flap surgery. The clinical presentation, radiological, pathological finding, and outcome are reviewed.