BACKGROUND:Hyperbaric oxygen (HBO) can increase oxygen diffusing capacity, thereby, improve hypoxic state of brain edema and brain tissue and promote the recovery of physiological function of brain cells in focal zone, the establishment of bypass circuit, and regeneration and repair of brain cells.OBJECTIVE: To observe the effect of hyperbaric oxygen on c-fos oncogene expression of rats at different time points following acute focal cerebral ischemia/reperfusion(I/R) injury.DESIGN : Randomized grouping animal experiment.SETTING: Department of Emergency, Tangdu Hospital, Fourth Military Medical University of Chinese PLA; Department of Laboratory Medicine, Xi'an Gaoxin Hospital;The General Hospital of the Air Force of Chinese PLA; Hyperbaric Oxygen Treatment Center, Department of Aerospace Medicine, Fourth Military Medical University of Chinese PLA.MATERIALS: This experiment was carried out in the Hyperbaric Oxygen Treatment Center, Department of Aerospace Medicine, Fourth Military Medical University of Chinese PLA in April 2002. Sixty-five 2-month-old healthy male SD rats.METHODS: The involved rats were randomized into: model group (n =20), normal control group (n =5), pure oxygen treatment group (n =20) and HBO treatment group (n =20). In the model group, following the method of Koizumi et al, rat models of middle cerebral artery (MCA) ischemia were developed. In the normal control group, only occlusion of arterial blood flow was omitted; In the pure oxygen treatment group, the operation procedure was the same as that of model group, and embolus being drawn out at ischemia for 1 hour, rats were placed in the hyperbaric cabin at 2,9,21, 45 and 69 hours after embolus being inserted, and they inhaled pure oxygen under the normal pressure; In the HBO treatment group, the operation procedure was the same as that of model group, and rats inhaled pure oxygen for 1 hour under 0.25 MPa pressure. MAIN OUTCOME MEASURES: By means of immunohistochemical and pathohistological methods, neutrophilic infiltration,c-fos oncogene protein and positive cell expression in cerebral cortex, preoptic area and corpora striatum of rats in each group were observed at cerebral I/R 5, 12, 24 and 72 hours; Neuronal necrosis degree in cerebral cortex, medial area of corpora striatum and preoptic area, and cerebrovascular leakage area of left cerebral hemisphere of rats were calculated.RESULTS: Sixty-five rats were involved in the final analysis. ① c-fos positive products mainly focused in the center of the preoptic area, but they were occasionally seen in the contralateral cortex, slightly expressed in the preoptic area and moderately expressed in the corpora striatum, c-fos positive products began to reduce in the above-mentioned area at ischemia 12 hours, and were obviously reduced at ischemia 24 hours; c-fos positive products in the cerebral cortex and preoptic area were obviously weakened in the HBO treatment group than in the simple ischemia group; At I/R 12 hours,neutrophils in the preoptic area and corpora striatum were significantly lower in the HBO treatment group than in the model group, respectively(P ＜ 0.05); At I/R 24 hours, neutrophils in the cerebral cortex, preoptic area and corpora striatum were significantly lower in the HBO treatment group than in the model group (P ＜ 0.05). ② Cerebrovascular leakage area was more significantly contracted in the HBO treatment group than in the model group (P＜ 0.05); At I/R 72 hours, the number of injured nerve cells in the optic chiasm cortex, medial area of corpora striatum and preoptic area was significantly smaller in the HBO treatment group than in the model group (P＜0.05). Neuronal damage was not found in the sham-operation group.CONCLUSION: HBO can markedly contract cerebrovascular leakage area of rats with acute focal cerebral ischemia/reperfusion injury, alleviate the symptoms of nervous system, inhibit neutrophilic infiltration and c-fos oncogene protein expression in the infarct area, and reduce neuronal necrosis in the "penumbral region".

BACKGROUND:Acute carbon monoxide (CO) poisoning may lead to delayed amnesia in rats,and which is similar to delayed neurologic syndrome caused by acute CO in human.So,this experiment is to investigate the pathogenesis of delayed neurologic syndrome by studying acute CO poisoning in the rats.OBJECTIVE:To observe the changes in delayed neuronal damage and memory after acute CO poisoning in the rats,and analyze their correlation.DESIGN:Randomized controlled animal experiment.SETTING:Department of Emergency,Tangdu Hospital,Fourth Military Medical University of Chinese PLA;Department of Laboratory Medicine,Xi'an Gaoxin Hospital;The General Hospital of the Air Force of Chinese PLA,Center for Hyperbaric Oxygen Treatment,Department of Aerospace Medicine,Fourth Military Medical University of Chinese PLA.MATERIALS:This experiment was carried out in the Laboratory of Aviation Pathology and Molecular Biology,Department of Aerospace Medicine.Fourth Military Medical University of Chinese PLA from July to November 2005.Fiftyhealthy male Sprague-Dawley(SD)rats were randomized into control group and CO poisoning group,with 25 rats each.METHODS:The awake rats in the CO poisoning group were placed in self-made jar for poisoning,then which was pumped with 0.999 volume fraction of CO.Rats in the jar inhaled the mixture of CO and air for 60 minutes.The average volume fraction of CO in the jar was 3.451×10-3.Rats in the control group were untouched.MAIN OUTCOME MEASURES:①The step down test was carried out in the rats before and 1,3,5 and 7 days after Coexposure.Escape latency was used as an index for evaluating the ability of memory retention.Shorter escape latencyindicated poor memory ability.②Pathological changes of brain tissue:After step down test was carried out following 1,3,5 and 7 days of CO exposure,6 rats were separately sacrificed in each group,and their brains were harvested.The brain tissue sections were performed haematoxylin & eosin (HE) staining for observing pathological injury degree and the amount of pyramidal neurons in hippocampal CA1 region.③SPSS 10.0 software was used to analyze the relationship of the amount of pyramidal neurons in hippocampal CA1 region and escape latency.RESULTS:Forty-eight rats were involved in the final analysis.①There were no significant differences in escape latencyon the 1"and 3"days after CO exposure between two groups. but escape latency in the CO poisoning group was significantly shorter than that in the control group on the 5th and 7th days after CO exposure(P＜0.05,0.01).②There were no significant changes in the amount of pyramidal neurons in hippocampal CA1 region on the 1st day after CO exposure between CO poisoning group and control group,but pyramidal neurons in hippocampal CA1 region in the CO poisoning group were significantly reduced on the 3rd,5th and 7th days after CO exposure,and 1 5%dead pyramidal neurons were found on the 7th day after CO exposure.③Decrease of pyramidal neurons in hippocampal CA1 region was significantly correlated with shortening of escape latency of rats in the CO poisoning group(r=0.270,P＜0.01).CONCLUSION:Acute CO poisoning leads to delayed neuronal damage,which causes delayed amnesia.

BACKGROUND: Nitric oxide (NO) plays an important role in the ischemic brain injury, and hyperbaric oxygen (HBO) can improve ischemia/reperfusion (I/R)-caused nerve injury. Whether the effect of HBO is associated with NO? Its mechanism needs to be further investigated.OBJECTIVE: To observe the changes of expression of nitric oxide synthase (NOS)-positive neurons of rats following acute focal cerebral I/R injury and HBO treatment.DESIGN: Randomized controlled animal experiment.SETTING: Department of Emergency, Tangdu Hospital, Fourth Military Medical University of Chinese PLA; Department of Laboratory Medicine, Xi'an Gaoxin Hospital; The General Hospital of the Air Force of Chinese PLA.MATERIALS : Sixty-six healthy male Sprague-Dawley rats were chosen and randomized into 5 groups: sham-operation group (n =5), sham-operation +HBO treatment group (n =5), model group (n =28), modeling +HBO treatment group (n =28). Ischemia 5,12, 24 and 72 hours four time points were set in the later 2 groups, 7 rats at each time point.METHODS: ①Rats in the model group and modeling+ HBO treatment group were created into models of middle cerebral artery ischemia according to the method from Koizum. Then, an embolus was inserted for ischemia; One hour later, the embolus was drawn out. Inserting embolus was omitted in the other two groups.②Rats in the sham operation + HBO treatment group and modeling + HBO treatment group were placed in HBO chamber at ischemia 2, 9, 21, 45 and 69 hours, separately, and given HBO treatment for 1 hour (0.25 MPa absolute pressure).MAIN OUTCOME MEASURES: The rats in each group were sacrificed at corresponding time points, and their brains were harvested. The distribution and morphology of NOS positive cells in cortical area, preoptic area, lateral and medial corpora striata of infarct region at the level of optic chiasma were observed with nicotinamide-adenine dinucleotide phosphate -diaphorase (NADPH-d) histochemical method.RESULTS: After supplement, 66 rats were involved in the final analysis. ①After ischemia, NOS-positive neurons changed in morphology, mainly presenting prominences were reduced or disappeared, neurons changed from ellipse or triangle into global shape, and shrank; Body of neuron darkly dyed; Both nucleus and cytoplasm were deeply dyed into dark blue; NOS-positive neurons with changed morphology were mostly in lateral corpora striatum, followed by preoptic area and medial corpora striatum, and those in the cortical area were few. NOS-positive neurons with changed morphology were not found in the sham-operation group and sham-operation + HBO treatment group. ②In the model group, NOS-positive neurons with changed morphology were increased with elongation of I/R time. At each time point, NOS-positive neurons in cortical area, preoptic area and medial corpora striatum in modeling + HBO treatment group were less than those in model group, but NOS-positive neurons in two groups both reached their peaks at ischemia 72 hours [Cortical area: (15.46±3.02) vs.(30.52±4.73)/visual field; Preoptic area:(28.56±4.05) vs. (68.81±7.84)/visual field; medial corpora striatum:(21.09±3.83) vs.(45.71±5.24)/visual field; all P＜0.01].CONCLUSION: HBO obviously inhibits the degeneration of NOS-positive neurons in acute focal cerebral I/R injury regions of rats, such as cortical area, preoptic area, medial corpora striatum, and so on

Objective To study the efficacy of hyperbaric oxygen(HO)for the delayed encephalopathy after acute carbon monoxide poisoning(DEACMP)Method One hundred and eleven patients who were diagnozed as the DEACMP from November 2000 to March 2007 in Tangdu Hospital the Fourth Military Medical University were randomly divided into two groups.Thirty-six cases were treated by onventional approach(group A),and 76 cases by HO besides conventional treatment(group B).The efficacy of HO was evaluated after 4courses of treatment. The curative effects were evaluated as(1)cured:clinical symptoms and signs fully disappeared,abnormal electroencephalogram recovered,patients were completely self-help and competent enough for routine work.(2)improved:chnical symptoms and signs partly disappeared,abnormal electroencephalogram partly recovered,patients were partial self-help and incompetent enough for routine work.(3)inefficacy:patient's condition didn't changed.Data were expressed as((x)±s)and analyzed with the chi-quare test and t-test.The statistical significance was established as P＜0.05.Results In group B,62(81.58%)were in good recover,9(11.84%)improved and 5(6.94%)were inefficacy;while in group A:21(58.33%)were in good recover,5(13.89%)were improved and 10(27.78%)were inefficacy.The effciency rate in group B was significantly higher(93.42%)than that(72.22%)in group A(P＜0.05),and the required time for the therapeutic effect noticed time in group B were significantly shorter(P＜0.05)Conclusions HO Can improve the therapeutic effects on DEACMP

Objective : To construct a Miller class Ⅲ gingival recession animal model and to lay the foundation for exploring the treatment of Miller class Ⅲ gingival recession. Methods: Two adult male beagle dogs were selected, and four teeth from each beagle dog were selected to establish an experimental Miller class Ⅲ gingival recession model. The root surface was revealed by removing the soft and hard tissues of the buccal side. The success of the model was determined by measuring the vertical gingival retraction (VGR), horizontal retraction (HGR), keratosis tissue width (KTW), gingival tissue thickness (GTT), and probing depth (PD) at 1, 2, 4, 6, and 8 weeks after modeling. Results: After observing the clinical indexes, the PDs before and after the modeling were all smaller than 3 mm and no deep-period pockets were formed. The VGR before modeling was 0 mm, and the VGR range after modeling was 5-6.38 mm. A comparison of the before and after modeling results showed that this difference was statistically significant (P < 0.05). The postoperative VGR results were grouped according to timepoint. A comparison between the two groups showed that the differences at 2, 4, 6 and 8 weeks postoperatively were not statistically significant (P > 0.05). The HGR before the modeling was 0 mm, and the HGR fluctuated around 10.5 mm after the modeling, and this difference was statistically significant (P < 0.05). The HGR results were grouped by timepoint after surgery, and a one-way analysis of showed that the differences between the two groups were not statistically significant (P > 0.05). The KTW range before modeling was 6~9 mm, and it fluctuated around 2 mm after modeling, and this difference was statistically significant (P < 0.05). The KTW results were grouped by timepoint after surgery, and they indicated that significant differences did not occur between the groups postoperatively (P > 0.05). The pre-modeling GTT was 1.5 mm, and the GTT range after modeling was 1.5-2 mm. The preoperative and postoperative GTT results were grouped by timepoint, and the results showed that significant differences did not occur between 1 week and 2 weeks after surgery (P = 0.123), although a statistically significant difference was observed at 1 week postoperatively between this group and the other groups (P < 0.05). Conclusion The method used in this experiment can successfully build a Miller class III gingival recession animal model, and the model remains stable after wound healing.