Effects of hypertonic (3%) saline in rats with circulatory shock and cerebral ischemia after heatstroke

Objective To evaluate the effects of hypertonic (3%) saline in heatstroke rats with circulatory shock, intracranial hypertension, and cerebral ischemia.Design and setting Urethane-anesthetized rats were exposed to a high ambient temperature of 42°C until mean arterial pressure and local cerebral blood flow (CBF) in the corpus striatum began to decrease from their peak levels, which was arbitrarily defined as the onset of heatstroke. Control rats were exposed to 24°C.Measurements and results Extracellular concentrations of glutamate and lactate/pyruvate ratio (cellular ischemia markers), and glycerol (a cellular injury marker) in the corpus striatum of rat brain were assessed by intracerebral microdialysis methods. Striatal PO₂, temperature, and local CBF were measured with a combined OxyLite PO₂, thermocouple, and OxyFlo LDF, respectively. The values of mean arterial pressure, cerebral perfusion pressure, and striatal CBF and PO₂ in rats treated with 0.9% NaCl solution after the onset of heatstroke were all significantly lower than those in normothermic controls. In contrast, the values of intracranial pressure, brain temperature, and extracellular concentrations of glutamate, glycerol, and lactate/pyruvate in the corpus striatum were greater. Intravenous infusion of hypertonic (3%) saline solution either "0" time before the start of heat exposure or right after the onset of heatstroke significantly attenuated the heatstroke-induced arterial hypotension, intracranial hypertension, decreased cerebral perfusion, and cerebral ischemia and damage and resulted in prolongation of survival time.Conclusions Our results strongly suggest that the experimental heatstroke syndromes can be effectively prevented and treated by hypertonic saline.An editorial regarding this article can be found in the same issue ()     

Effect of brain cooling on brain ischemia and damage markers after fluid percussion brain injury in rats

Although systemic cooling had recently been reported as effective in improving the neurological outcome after traumatic brain injury, several problems are associated with whole-body cooling. The present study was conducted to test the effectiveness of brain cooling without interference with the core temperature in rats after fluid percussion traumatic brain injury (TBI). Brain dialysates ischemia (e.g., glutamate and lactate-to-pyruvate ratio) and injury (e.g., glycerol) markers before and after TBI were measured in rats with mild brain cooling (33 degrees C) and in the sham control group. Brain cooling was accomplished by infusion of 5 mL cold saline via the external jugular vein under general anesthesia. The weight loss was determined by the difference between the first and third day of body weight after TBI. The maximum grip angle in an inclined plane was measured to determine motor performance, whereas the percentage of maximal possible effect was used to measure blockade of proprioception. The triphenyltetrazolium chloride staining procedures were used for cerebral infarction assay. As compared with those of the sham-operated controls, the animals with TBI had higher values of extracellular levels of glutamate, lactate-to-pyruvate ratio, and glycerol in brain and intracranial pressure, but lower values of cerebral perfusion pressure. Brain cooling adopted immediately after TBI significantly attenuated the TBI-induced increased cerebral ischemia and injury markers, intracranial hypertension, and cerebral hypoperfusion. In addition, the TBI-induced cerebral infarction, motor and proprioception deficits, and body weight loss evaluated 3 days after TBI were significantly attenuated by brain cooling. We successfully demonstrate that brain cooling causes attenuation of TBI in rats by reducing cerebral ischemia and injury resulting from intracranial hypertension and cerebral hypoperfusion. Because jugular venipuncture is an easy procedure frequently used in the emergency department, for preservation of brain function, jugular infusion of cold saline may be useful in resuscitation for trauma patients.     

Resuscitation from experimental traumatic brain injury by agmatine therapy

Both nitric oxide and glutamate contribute to ischaemic brain injury. Agmatine inhibits all isoforms of nitric oxide synthase and blocks N-methyl-d-aspartate receptors. In this study, we gave agmatine intraperitoneally and assessed its effect on fluid percussion brain injury in rats. Anaesthetised rats, immediately after the onset of fluid percussion traumatic brain injury (TBI), were divided into two major groups and given the vehicle solution (1mL/kg) or agmatine (50mg/kg) intraperitoneally. Mean arterial pressure, intracranial pressure, cerebral perfusion pressure, and levels of glutamate, nitric oxide, lactate/pyruvate ratio, and glycerol in hippocampus were monitored continuously within 120min after TBI. The weight loss was determined by the difference between the first and third day of body weight after TBI. The maximal grip angle in an inclined plane was measured to determine motor performance whereas the percent of maximal possible effect was used to measure blockade of proprioception. The triphenyltetrazolium chloride staining procedures were used for cerebral infarction assay. Compared to those of the sham-operated controls, the animals with TBI had higher values of extracellular levels of glutamate, nitric oxide, lactate-to-pyruvate ratio, and glycerol in hippocampus and intracranial pressure, but lower values of cerebral perfusion pressure. Agmatine administered immediately after TBI significantly attenuated the TBI-induced increased hippocampal levels of glutamate, nitric oxide, lactate-to-pyruvate ratio, and glycerol, intracranial hypertension, and cerebral hypoperfusion. In addition, the TBI-induced cerebral infarction, motor and proprioception deficits, and body weight loss evaluated 3 days after TBI were significantly attenuated by agmatine therapy. The present data indicate that agmatine may attenuate TBI by reducing the excessive accumulation of both glutamate and nitric oxide in the brain.     

Pleural fluid viscosity may help identifying malignant pleural effusions

Background and objective:   Cancer cells are larger in size and more rigid than blood cells. As the size and rigidity of cells contribute to blood viscosity, an association may exist between high pleural fluid viscosity and cancer cells in pleural effusions. The aim of this study was to determine the correlation between pleural fluid viscosity and cell constituents or laboratory data in pleural diseases with different aetiologies.
Methods:   Fluid viscosities were determined in pleural effusions obtained via thoracocentesis. Pleural fluid viscosities were correlated with the laboratory data and with the percentages of different cellular constituents as assessed by cytological examination.
Results:   Pleural fluid viscosity was highest in malignant pleural effusions with positive results on cytological examination, and was correlated with the percentages of tumour cells (Spearman's rho = 0.24, P  = 0.037) and mitotic figures (rho = 0.23, P  = 0.041) in the exudates. Multivariate logistic regression analysis showed that pleural fluid viscosity was a significant determinant of positive results on cytological examination (odds ratio (OR) 6.26, 95% confidence interval (CI) 1.32–29.8), as were the levels of protein (OR 1.48, 95% CI 1.01–2.16) and LDH (OR 1.001, 95% CI 1–1.002).
Conclusion:   High pleural fluid viscosity may suggest a potential diagnosis of malignant pleural effusion.     

Acute paraplegia following chiropractic therapy.

We report a 44-year-old man suffering complete paraplegia due to paraspinal and epidural abscess, following chiropractic therapy for severe back pain and whose diagnosis was delayed. He received an immediate laminectomy from T3 through T6 to decompress the full extent of the abscess and appropriate antibiotic therapy for 4 weeks postoperatively for the identified microorganism (Staphylococcus aureus). After 3 months of rehabilitation, he had recovered bladder function with moderate left lower extremity paresis. We emphasise the importance of urgent spinal gadolinium-enhanced MRI in those patients with localised back pain and raised inflammatory markers (including erythrocyte sedimentation rate). Furthermore, it is necessary to be aware of the risk of acute paraplegia after forceful massage to the back.