Faun Tail Nevus and Spinal Dysraphism: Cosmetic Improvement with Alexandrite Laser Epilation

Faun-tail presents as an abnormal lumbosacral hypertrischosis and may be associated with spinal dysrasphism. In addition to the problems due to spinal anomalies, patient's physico-social life may also be affected. Here, we report a case of 13 years old female patient with Faun-tail in association with sypinal dysraphism, in which cosmetic improvement was achieved with the help of Alexandrite laser. Alexandrite laser can be the method of choice for permanent hair removal method due to its safe, effective and easy to apply properties

Morphometric characteristics of the inner and outer diameter of lumbar pedicles on computed tomography

Background and purpose: The inner pedicle diameter is very important in pedicle screw placement in order to achieve safe and strong posterior stabilization. The optimal pull-out strength can be achieved by a screw which fits into the pedicle medulla. The aim of the present study was to compare the inner and outer pedicle diameters of lumbar pedicles, to determine the inner/outer pedicle diameter ratios, and to develop a simple measure for estimating optimal pedicular screw size

Neuroprotective Effect Of Magnesium Sulfate And Dexamethasone On Intrauterine Ischemia In The Fetal Rat Brain: Ultrastructural Evaluation

AIM: The aim of this study was to investigate the neuroprotective effect of magnesium sulfate and dexamethasone on oxidative damage in intrauterine ischemia. MATERIAL and METHODS: In this study, 19-day pregnant rats were divided into five groups. Fetal brain ischemia was achieved in the ischemia/reperfusion (I/R) group by bilaterally closing the utero-ovarian artery with aneurysm clips for 30 min and subsequently removing the aneurysm clips for 60 min for reperfusion. Mg (600 mg/kg) and dexamethasone (0.25 mg/kg) were administered 20 min before the I/R insult. The lipid peroxidation in the brain tissue was determined by the concentration of thiobarbituric acid reactive substances (TBARS). The mitochondrial score was calculated after an evaluation with electron microscopy. RESULTS: Both the electron microscope and TBARS data showed a significant difference between the control and I/R groups. The Mg and dexamethasone treatment groups exhibited significantly lower TBARS values compared to the IR group. Similarly, the mitochondrial scores in the Mg and dexamethasone treatment groups were significantly lower than those in the I/R group. CONCLUSION: Result showed that magnesium sulfate and dexamethasone prevent lipid peroxidation and reduce mitochondrial injury thus suggests neuroprotective effects in fetal rat brain in intrauterine ischemia-reperfusion (I/R) injury.WoSScopu

Metoprolol treatment decreases tissue myeloperoxidase activity after spinal cord injury in rats

Neutrophil infiltration has been reported to play an important role in spinal cord injury (SCI). In addition to their cardioprotective effects, beta-blockers have been found to have neuroprotective effects on the central nervous system, but their effect on SCI has not yet been studied. In the current study, we investigated the effect of metoprolol on myeloperoxidase (MPO) activity, a marker of neutrophil activation, in the spinal cord after experimental SCI in rats. Rats were divided into six groups: controls received only laminectomy and spinal cord samples were taken immediately; the sham operated group received laminectomy, and spinal cord samples were taken 4 h after laminectomy; the trauma only group underwent a 50 g/cm contusion injury but received no medication; and three other groups underwent trauma as for the trauma group, and received 30 mg/kg methylprednisolone, 1 mg/kg metoprolol, or 1 mL saline, respectively. All the medications were given intraperitoneally as single doses, immediately after trauma. Spinal cord samples were taken 4 h after trauma and studied for MPO activity. The results showed that tissue MPO activity increased after injury. Both metoprolol and methylprednisolone treatments decreased MPO activity, indicating a reduction in neutrophil infiltration in damaged tissue. The effect of metoprolol on MPO activity was found to be similar to methylprednisolone. In view of these data, we conclude that metoprolol may be effective in protecting rat spinal cord from secondary injury. (c) 2006 Published by Elsevier Ltd

The Therapeutic Effects Of Melatonin And Nimodipine In Rats After Cerebral Cortical Injury

AIM: Secondary brain injury starts after the initial traumatic impact and marked by an increase in the intracellular calcium concentrations. This cascadeeventually results in membrane lipid peroxidation and neuronal cell death. MATERIAL and METHODS: We investigated the neuro-protective effects of nimodipine and melatonin in 38 rats after 6 hours of head trauma using the cortical impact injury model of Marmarou. RESULTS: Brain water in the melatonin-given group decreased significantly comparing to that of control group the brain water in the nimodipine given group increased significantly comparing to that of trauma group. Histopathologically, brain edema was significantly low in melatonin-administered group comparing to that of control group while there were no changes in brain edema in the nimodipine given group and in the group that both nimodipine and melatonin were administered in combination. MDA levels in the brain tissues were significantly lower in the melatonin and nimodipine groups comparing to those of trauma and control group however this difference was by far significant in melatonin group comparing to nimodipine group. CONCLUSION: Melatonin appears to have neuro-protective effects on the secondary brain damage while nimodipine and nimodipine plus melatonin combination did not show such neuro-protective effects on the secondary brain injury.WoSScopu

Use of pimecrolimus to prevent epidural fibrosis in a postlaminectomy rat model Laboratory investigation

Object. Epidural fibrosis is the scar tissue formed over the dura mater after a laminectomy. Extensive epidural fibrosis may be an important underlying cause of failed back syndrome. Pimecrolimus, an ascomycin derivative, is one of the new classes of immunomodulating macrolactams and was specifically developed for the treatment of inflammatory diseases. This study examined the preventive effects of the local application of pimecrolimus in minimizing spinal epidural fibrosis in a rat laminectomy model