1.Craniofacial morphological changes induced by a mandibular repositioning oral appliance and their significance
Maorong TONG ; Xirong XIA ; Xilong ZHANG ; Ehong CAO ; Yinyin ZHAO ; Yi SHI
Journal of Medical Postgraduates 2000;13(1):4-7
Objectives: To identify any craniofacial morphological changes induced by a mandibular-repositioning oral appliance (MRA) and to explore the possibility of predicting the treatment response to MRA by cephalometric analysis in patients with obstructive sleep apnea (OSA). Methods: Seventy OSA patients [male/female: 63/7; age: (50.5±11.6) years; BMI: (27.6±4.6) kg/m2; AI: (34.9±21.3) episodes/hour; and oxygen saturation nadir: (66.3±16.5) %] were enrolled. MRA was fabricated individually for each patient after the consultation by a dentist. Polysomnographic (PSG) examination was repeated with MRA in place 3 months after the initiation of the MRA therapy. For cephalometric analysis, a pair of cephalograms of each patient was obtained, one with and another without MRA. Results and Conclusions: After 3 months' treatment, AI was (156±19.2) episodes/hour, significantly reduced compared with the pre-treatment average AI (34.9±21.3 episodes/hour,P<0.000 1). Oxygen saturation nadir improved from (66.3±16.5)% (pre-treatment) to (74.1±15.5)% (with MRA) (P<0.001). A reduction of AI≥50% was achieved in 42 patients. Insertion of MRA led to anterior shift of the mandible, increase in upper airway width and area and decrease in upper airway length. Those with evident retrognathia and longer anterior upper facial height were more likely to benefit from the MRA management.
2.Invasive pulmonary aspergillosis: 20 cases
Hao JIANG ; Beilei ZHAO ; Yi SHI ; Ehong CAO ; Yong SONG ; Gui ZHANG ; Wenkui SUN
Chinese Journal of Infection and Chemotherapy 2009;09(4):293-296
Objective To analyze the clinical, radiological, pathological and microbiological features of invasive pulmonary aspergillosis (IPA) to improve clinical management.Methods Retrospective analysis of 20 pathologically and/or microbiologically confirmed IPA cases in our hospital from January 2005 to August 2008. Results Group A (with underlying diseases) included 13 patients (underlying malignancy in 9 patients, including 5 cases of hematological malignancy, COPD in 2 patients, pulmonary tuberculosis and bronchiectasis in 1 each). Group B (without underlying disease) included 7 patients (2 patients with a long time of fluffy toy contact, another 1 had exposure to moldy rice, and 3 had exposure to polluted water). All these 20 patients had pulmonary invasion revealed by CT imaging. Multiple changes were identified in 16 patients. Bilateral pulmonary infiltrates and/or consolidation were revealed in 7 patients. Multiple nodules were seen in 9 patients. Four patients had solitary lesions, including isolated nodules in 2 patients and segment consolidation in the other 2 patients. Pulmonary cavity without fluid level was found in 8 patients (40.0%). Eighteen cases received antifungal therapy. The overall efficacy rate was 55.6%. The efficacy rate in group A and B was 45.5% and 5/7 respectively. The average time to symptomatic relief was (12.0±2.8) days. The time to lung lesion improvement on CT was (17.4±2.9) days. The time to significant CT improvement was (34.3±9.9) days. The time to the resolution of active lesion was (56.4±6.2) days.Conclusions IPA may occur in immunocompetent patients without underlying disease. Most IPA patients have bilateral multiple pulmonary nodules and cavities on CT. The time to the resolution of active pulmonary lesions is about 6 weeks.
3.Influence of sleep position on respiratory function of patients with sleep apnea/hypopnea syndrome
Ehong CAO ; Yi SHI ; Wei ZHANG ; Maorong TONG ; Yong SONG ; Beilei ZHAO ; Xinwu XIAO
Chinese Journal of Tissue Engineering Research 2005;9(11):215-217
BACKGROUND: In patients with obstructive sleep apnea(OSA),the degree of severity of OSA is mostly related to the sleep time spent in the supine position. According to the apnea-hypopnea index(AHI), positional and n onpositional OSA has been distinguished.OBJECTIVE: To compare the clinical characteristics of positional and nonpositional OSA and investigatethe relationship between sleep position and respiratory function of patients with OSA.DESIGN: A comparative clinica] observation based on the OSA patients.SETTING: Center of Sleep Disorders,Nanjing General Hospital of Nanjing Military Area Command of Chinese PLA.PARTICIPANTS: From October 1998 to May 2002,225 patients were examined with overnight polysomnography in the Center of Sleep Disorders,Department of Respiratory Disease, Nanjing General Hospital of Nanjing Command. According to the inclusion criteria of ① AHI≥10 times/hour;② Sleep time in supine and lateral positions≥30 minutes; ③ Over 20years of age; 225 patients were selected from the total of 415 consecutive patients,including 63 with positional and 162 with nonpositional OSA.METHODS: All patients received overnight monitoring with HMS-5500polysomnography system(Respironics Inc USA) in the sleep laboratory. Queries for a detailed case history and physical examination were performed with the pulmonary functions evaluated with body p lethysmography. The clinical data and results of polysomnographic and pulmonary function tests were compared between the two groups of patients and a multiple stepwise regression analysis was employed to evaluate the determinant factors for sleep position dependence of the patients' condition.MAIN OUTCOME MEASURES: Main outcome: Comparisons of the clinical data,polysomnographic result and pulmonary function between the two groups. Secondary outcome: Correlation between classification of OSA and the clinical data.RESULTS: Totally 63 (28%) of the 225 OSA patients were identified as the positional type,who had significantly greater body mass index (BMI)then the nonpositional type patients [(43.46 ± 16.43) kg/m2 vs (23.90 ± 12.36) kg/m2,t =3. 977,P<0.01]. Except for sleeping time in lateral and supine positions, minimal SatO2 and basic SatO2 before the matching for BMI,all the other factors in polysomnograms of the two groups were significant different(P<0.05 or P<0.01). After BMI matching,all the measurements were identical to those recorded for the primary grouping with the exception of nocturnal limb movement frequency,which differed but insignificant between the two groups. The pulmonary function in the two groups was no significant difference(P>0.05) . Multiple stepwise regression analysis indicated that AHI and BMI were the two determinant factors for positional dependence of OSA with a predictive power of 26. 2%. Linear correlation analysis showed correlation of AHI and SatO2 with BMI in the whole group and nonpositional group(P<0.05 or P<0.01),but not in the positional group (P>0.05).CONCLUSION: About one-third of the OSA patients shows sleep position dependence,who may respond favorably to sleep position training. Sufficient patency can be retained in the upper airway of these patients to relieve respiratory obstruction during sleep and improve the respiratory function.
4.Cardiac function of the patients with obstructive sleep apnea assessed by tissue Doppler imaging technique
Hui SUN ; Bin YANG ; Ehong CAO ; Ninghua FU ; Ping LIU ; Hong WANG
Journal of Medical Postgraduates 2003;0(03):-
Objective:Patients with obstructive sleep apnea syndrome (OSAS) often had severe cardiovascular complications. So the early detection of the cardiovascular functional abnormality was more and more thought highly of by people. We evaluated the cardiac function of the patients with (OSAS) using tissue Doppler imaging (TDI) technique. Methods:Thirty-five patients with OSAS and 35 healthy controls were enrolled in the study. TDI was applied in the pulse-Doppler mode to allow for a spectral display and recording of mitral annulus at septal,lateral corner and tricuspid lateral corner in the apical four chamber view. The peak systolic (Sm),early diastolic (Em) and late diastolic (Am) TDI velocity both of mitral and tricuspid annulus were measured by pulsed wave tissue Doppler imaging technique. Results:There were significant differences in Sm of mitral lateral corner,in Sm,Em and Em to Am ratio of mitral septal corner and in Sm,Em,Am and Em to Am ratio of tricuspid lateral corner between the OSAS group and healthy control group (P