As a node between the skull and the spine, atlantoaxial joint plays a pivotal role in the maintenance of head and neck activities, as well as the connection between the brains and the spine. The biomechanical characteristics of stlantoaxial joint, together with traumatic factors, contribute to determine the site, type and character of atlantoaxial joint fracture and dislocation, they also affect the treatment of atlantoaxial joint injury. With the materials technique development and accumulated experience of clinical operations, various types of new implants are increasing and used for clinical practice, accordingly the surgical approach and therapy regimen of atlantoaxial disease have been greatly enriched. At present, the use of implant mainly aims to promote the atlantoaxial fusion or enhance the connection and fixation between atlantoaxial joints. However, the head and neck activities are also limited simultaneously while the implant enhances the atlantoaxial joint stability. Further studies require to handle the correlation between joint stability and joint flexibility and to maximize the physiological function recovery of atlantoaxial joints when ensuring the atlantoaxial joint stability.

Diagnostic Errors ; Humans ; Inflammation ; diagnosis ; etiology ; Laryngeal Neoplasms ; surgery ; Male ; Middle Aged ; Papilloma ; surgery ; Pneumonia ; diagnosis ; Postoperative Complications ; diagnosis

Acute Disease ; Anemia, Refractory ; etiology ; therapy ; Child ; Child, Preschool ; Cord Blood Stem Cell Transplantation ; methods ; Female ; Histocompatibility Testing ; Humans ; Leukemia ; complications ; pathology ; therapy ; Male ; Treatment Outcome

China ; Congresses as Topic ; Fatty Liver ; Humans

OBJECTIVETo investigate the effect of different pressure oxygen pre-breathing in preventing decompression sickness of rats.

METHODSForty male SD rats were randomly divided into 4 groups: decompression sickness (DCS) group and three oxygen pre-breathing groups with 1 ATA, 2 ATA and 3 ATA pressure respectively. The rats of DCS group were placed in the hyperbaric chamber and the chamber was compressed evenly within 3 minutes to depths of 7 absolute atmosphere(ATA) and held at the designated depth for 60 min, then decompressed (3 min) at constant speed to the surface pressure. After that, the rats were taken out for further detection. While the rats of oxygen pretreatment groups pre-breathed different pressure oxygen for 20 min before entering into chamber. The mortality and behavioral of rats were observed with 30 min post decompression. The dry/wet ratio of the lung, protein levels in the bronchoalveolar lavage fluid (BALF), and the inflammatory cytokine tumor necrosis factor (TNF-alpha) expression were also tested.

RESULTSCompared with that of the DCS group, the mortality and morbidity of oxygen pre-breathe groups didn't change obviously. But the total BALF protein level and the inflammatory cytokine TNF-alpha expression of 1 ATA oxygen pre-breathe group were obviously decreased, while the dry/wet ratio of lung as obviously increased instead (P < 0.05).

CONCLUSIONAlthough preoxygenation can' t obviously change the mortality and mobidity of rats, normal pressure oxygen pre-breathing can mitigate the protein infiltration in BALF and the expression of inflammatory cytokine in lung tissue.

Animals ; Bronchoalveolar Lavage Fluid ; chemistry ; Decompression Sickness ; Diving ; Lung ; pathology ; Oxygen ; physiology ; Pressure ; Rats ; Rats, Sprague-Dawley ; Tumor Necrosis Factor-alpha ; metabolism

Objective To evaluate diagnostic value of diffusion tensor imaging(DTI)in ringlike- enhanced lesions.Methods Nine abscesses,12 glioblastomas,10 metastases confirmed clinically or pathologically underwent conventional MRI and DTI.Average diffusion coefficient(ADC)value,fractional anisotropy(FA)value and maps were calculated in the central portion and peripheral edema of the lesions. Results On DTI,the abscesses displayed as hyperintense signal with hypointense or isointense signal of edema;but glioblastomas and metastases all showed as hypointense signal with isointense or hypointense signal of edema.On ADC map,the abscesses showed as hypointense signal,the mean ADC value was (0.66?0.07)x10~(-3)mm~2/s,The mean ADC value were(2.50?0.11)x10~(-3)mm~2/s and(2.37?0.52)x10~(-3)mm~2/s for the glioblastomas and metastases,respectively,all demonstrated as hyperintense signal with slightly hyperintense signal of edema.The difference between abscess and necrotic tumors was statistically significant(F=108.80,P

Objective To study the pathological changes of lung tissues during fast floating escape-induced decompres-sion sickness.Methods Eighty male SD rats were randomly divided into 2 groups, 60 in fast floating escape group (escape group) , and 20 in control group .Rats in the control group were only put in a cabin under the same atmospheric pressure (ATM).Rats in escape group were pressurized to 1.5 MPa by pressure air at the 2t/7 exponential rate and stayed for 4 min till decompression.Then the rats′survival rate was observed after 0.5 h, lung tissue specimens were collected from each rat, the pathological score was taken , according to the degree of lung injury and the R language was used for statistical analysis.Results The mortality rate was 50%.Lung tissues of these rats were pathologically characterized by stromal lung thickening, edema, and hyperemia.Kruskal non-parametric test analysis found a significant difference (P=0.0016) between the two groups .Nemenyi test was used in pairwise comparison .The death and survival animals in escape group compared with the control group, the scores were significantly different (P<0.05).The scores had no significant difference between the deach and survival animal in escape group .Conclusion Decompression sickness caused by fast floating es-cape can significantly damage the blood-lung barrier to cause pulmonary edema .

Objective To investigate the effect of PPAR-δ on the lung injury of rats induced by hyperbaric oxygen (HBO2) exposure.Methods Sixty male Sprague-Dawley rats were randomly divided into six groups:air+vehicle, air+GW0742, and air+GSK0660, HBO2 +vehicle, HBO2 +GW0742, HBO2 +GSK0660.Lung injury was induced in rats by HBO2exposure (2.3 ATA, 100%O2, 8 h).Rats were injected with vehicle[10%DMSO in 0.3 ml NaCl 0.9%(v/v)] or GW0742 (0.3 mg/kg, ip) or GSK0660 (1 mg/kg, ip) at 1, 6 and 12 hours before either air or oxygen exposure .Protein levels in the bronchoalveolar lavage fluid ( BALF) , wet/dry ratio of the lung and the pathological changes in the lung tissue were detected 30 min after rats′egress.Results and Conclusion For the HBO2 +GW0742 group, the protein levels in BALF, the wet/dry ratio of the lung and the pathological changes in lung tissues all significantly decreased compared with those of the air group .These changes in HBO 2 +GSK0660 group tended to increase the level of lung injury .PPAR-δhas a protective effect on pulmonary oxygen toxicity induced by HBO 2 .

Objective To study the effect of nicardipine on fast floating escape induced lung injury in animal models with decompression sickness .Methods Sixty male SD rats were randomly and evenly divided into three groups:blank control, control and nicardipine groups .The nicardipine group was given nicardipine 50 mg/kg orally 0.5 h before entrance.In the control group, rats were given an equal volume of saline 0.5 h before entrance.The blank control group only stayed in the vehicle without any pressurized procedure .The air was pressurized at the 2t/7 exponential rate to 1.5 Mpa which was maintained for 4 min, and then uniformly decompressed to atmospheric pressure .The extravehicular survival and lung pathology were observed in rats after 0.5 h, IL1-βand TNF-αexpression levels were detected by ELISA , and the Caspase 3 expression in lung tissue was detected by Western blot .Results The incidence and mortality rate were 80%and 50%respectively in control group ,and 100%and 80%in the experimental group .The surviving animals in the two groups suffered from alveolar and interstitial lung hemorrhage , with widened interstitial lung .IL1-βin the experimental group was significantly higher than in the normal control group , while TNF-αhad no significant change .After nicardipine treatment pro-caspase 3 did not change significantly , but cleaved-caspase 3 increased significantly .Conclusion Nicardipine can aggravate lung injury caused by fast floating escape-induced decompression sickness if used before decompression.

Objective To investigate the effect of N-acetylcysteine ( NAC) on lung and heart injury of rats with a fast floating escape induced decompression sickness .Methods Eighty male Sprague-Dawley rats were randomly and evenly divided into four groups:control group and three NAC prevention groups .The NAC groups were treated with different doses of NAC(250, 500 or 1000 mg/kg)by intraperitoneal injection 1 h before entrance.In the control group, rats were given an equal volume of saline1h before entrance.The air was pressurized at the 2t/7 exponential rate to 1.5 MPa which was maintained for 4 min and then uniformly decompressed to atmospheric pressure .The extravehicular survival and pathological changes in the lung and heart tissue were detected 0.5 h after rat egress.Results The survival rate of rats treated with NAC 500 mg/kg(90%) was significantly higher than that of those treated with saline (65%)alone (P<0.05).There was large break and fusion in the structure of pulmonary alveolus of control group besides obvious erythrocyte exudation , cardiac muscle fibers edema ,and obvious denaturation and break .Conclusion NAC can play a protective role in rats with a fast floating escape induced decompression sickness by mitigating the injury to and inflammation of lung and heart tissue .