Objective To investigate the antihypertensive effects of continuous airway positive pressure( CPAP) plus antihypertensive drugs on patients with obstructive sleep apnea hypopnea syndrome ( OSAHS) and hypertension.Methods 82 OSAHS patients with hypertension were enrolled in this study. They were randomly divided into a CPAP treatment group( 44 patients, treated with antihypertensive drugs and CPAP) , and a control group( 38 patients, treated with antihypertensive drugs only) . All the patients were performed polysomnography and 24-hour blood pressure monitoring before and 12 weeks after the treatment. Results After 12 weeks treatment, except the systolic pressure in night time( nSBP) , all the parameters of 24-hour blood monitoring improved better in the CPAP group than in the control group( all P lt; 0. 05) . The blood pressure dropped to normal in 75. 0% ( 33/44) CPAP patients and in 52. 6% ( 20 /38) control patients. In the CPAP group, 8( 18. 2% ) cases were withdrawn from antihypertensive drugs, 13( 29. 5% )cases required single agents, and 9( 20. 5% ) cases required three agents to achieve blood pressure control.But in the control group, all the patients needed two or more antihypertensive agents, in which 23( 60. 6% )patients needed three agents to achieve blood pressure control. After the treatment, the patients with dipping pattern blood pressure increased from10 to 29( 22. 7% -65. 9% , P lt;0. 05) in the CPAP group, and from10to 14( 26. 3% -36. 8%, P gt;0. 05) in the control group. Conclusions Combination therapy with CPAP and antihypertensive drugs controls blood pressure better than antihypertensive medication only for OSAHS patients with hypertension with fewer types of antihypertensive agents or even withdrawal from antihypertensive medication in some patients.
Objective To analyze the clinical features of patients with acute pulmonary embolism ( APE) with normal blood pressure and right ventricular dysfunction. Methods 130 hospitalized patients with normotensive APE between January 2009 and January 2012 were retrospectively analyzed. The patients underwent transthoracic echocardiography to determine if they were complicated with RVD. The clinical features, risk factors, diagnosis, and treatment were analyzed and compared between the normotensive APE patients with or without RVD. Results 41 normotensive APE patients with RVD were as RVD group, and other 89 patients without RVD were as non-RVD group. The incidences of syncope ( 34.1% vs. 7.8% ) , tachycardia( 41.4% vs. 21.3% ) , P2 hyperthyroidism( 46.3% vs. 25.8% ) , jugular vein filling ( 12.1% vs. 1.1% ) , and cyanosis ( 26.8% vs. 8.9% ) were all significantly higher in the RVD group than those in the non-RVD group ( P lt; 0.05) . Computed tomography pulmonary angiography ( CTPA) revealed that the incidences of thromboembolism involving proximal pulmonary artery ( 58. 3% vs. 8. 3% ) and thromboembolism involving lobar pulmonary ( 77.8% vs.51.2% ) were also higher in the RVD group ( P lt; 0.001, P = 0.025 ) . In the RVD group, the patients were assigned to received thrombolysis plus anticoagulation therapy, or anticoagulation therapy alone. The clinical indicators ( heart rate, PaCO2 , AaDO2 , SPAP, TRPG) were all statistically improved after thrombolysis or anticoagulation treatment ( P lt;0.001) . But compared with the patients who underwent anticoagulation therapy alone, the cost of treatment and the incidence of minor bleeding were significantly higher, and the levels of AaDO2 , SPAP and TRPG were statistically lower in the patients with thrombolysis plus anticoagulation therapy. Conclusions For APE patients with central pulmonary embolism demonstrated by CTPA, syncope, and tachycardia, transthoracic echocardiograph should be performed as early as possible to confirm RVD diagnosis. For normotensive APE patients with RVD, anticoagulant treatment can achieve higher efficacy of costeffectiveness ratio.
Objective To investigate whether the sleep-induced hypoxemia ( SIH) at different time and different level have different effects on pulmonary emphysema and coagulation systemfunction in the rats with pulmonary emphysema. Methods Thirty Wistar rats were randomly divided into three groups( n = 10 in each group) . All rats were exposed to cigarette smoke twice a day ( 30 min each time) . From29th day on, the rats in Group A ( pulmonary emphysema with short SIH) were also exposed to mixed gas of 12. 5% oxygen for 1. 5 hours during sleeping time every day ( the expose time was divided into 4 periods, 22. 5 min each) . The rats in Group B ( pulmonary emphysema with mild SIH) were also exposed to mixed gas of 15% oxygen for three hours during sleeping time every day( the expose time was divided into 4 periods, 45 min each) . The rats in Group C( pulmonary emphysema with standard SIH) were also exposed to mixed gas of 12. 5% oxygen for three hours during sleeping time every day( the expose time was divided into 4 periods,45 min each) . After continuous exposure for 56 days, the rats were sacrificed. Semi-quantitative image analytic method was employed for histopathological analysis including pathological score of lungs, mean linear intercept ( MLI) and mean alveolus number( MAN) . ATⅢ, FIB, vWF, FⅧ were measured. Results All animals in three groups manifested the histopathological features of emphysema. Pathological scores of lungs and MLI of every group were significantly different from each other( F = 21. 907, F = 18. 415, all P lt; 0. 05) , Group A [ ( 61. 90 ±4. 25) % , ( 92. 45 ±1. 78) μm] and Group B[ ( 64. 60 ±3. 95) % , ( 92. 80 ±3. 65) μm] were significantly lower than Group C[ ( 73. 30 ±3. 86) % , ( 99. 32 ±2. 81) μm, q= 8. 96, q =6. 84, q = 12. 64, q =9. 65, all P lt; 0. 05] . Levels of FIB were significantly different among three groups ( F = 20. 592, P lt; 0. 05) while FIB in Group A[ ( 189. 98 ±5. 29) mg/ dL] and Group B[ ( 182. 70 ±2. 78) mg /dL] were significantly lower than that in Group C[ ( 198. 40 ±7. 37) mg/ dL, q = 4. 86, q= 9. 07, all P lt; 0. 05] , and FIB in Group A was significantly higher than that in Group B( q = 4. 20, P lt; 0. 05) . Levels of FⅧ were significantly different from each other( F = 33. 652, P lt;0. 05) while FⅧ in Group A[ ( 232. 26 ±4. 17) % ]and Group B[ ( 242. 53 ±14. 50) % ] were significantly lower than that in Group C[ ( 303. 25 ±32. 93) % ,q= 10. 73, q = 9. 18, all P lt; 0. 05] . Conclusions Pulmonary emphysema and hypercoagulable states increases with time and severity of SIH in rats with pulmonary emphysema. The elevated activity of blood coagulation factor may be a critical role in the hypercoagulable states.
ObjectiveTo analyze the the characteristics of pulse oximetry (SpO2) curve changes in patients with obstructive sleep apnea (OSA), hypoxic parameters and to explore the difference and connection between obstructive apnea (OA) events and hypopnea (Hyp) events, evaluate the impact of different types of obstructive respiratory events on hypoxia, and provide a theoretical basis for exploration of hypoxic differences in each type of respiratory events and construction of prediction models for respiratory event types in the future. MethodsSixty patients with OSA diagnosed by polysomnography (PSG) were selected for retrospective analysis, and all respiratory events with oxygen drop in the recorded data overnight were divided into OA group (5972) according to the type of events and Hyp group (4110), recorded and scored events were exported from the PSG software as comma-separated variable (.csv) files, which were then imported and analyzed using the in-house built Matlab software. Propensity score matching was performed on the duration of respiratory events and whether they were accompanied by arousal in the two groups, and minimum oxygen saturation of events (e-minSpO2), the depth of desaturation (ΔSpO2), the duration of desaturation and resaturation (DSpO2), the duration of desaturation (d.DSpO2), duration of resaturation (r.DSpO2), duration of SpO2<90% (T90), duration of SpO2<90% during desaturation (d.T90), duration of SpO2<90% during resaturation (r.T90), area under the curve of SpO2<90% (ST90), area under the curve of SpO2<90% during desaturation (d.ST90), area under the curve of SpO2<90% during resaturation (r.ST90), oxygen desaturation rate (ODR) and oxygen resaturation rate (ORR), a total of 13 hypoxic parameters differences. ResultsVarious hypoxic parameters showed that more severe SpO2 desaturation in severe OSA patients, compared with mild and moderate OSA patients (P<0.05); There were statistically significant differences in the respiratory events duration and whether accompanied by arousal between the Hyp group and OA group (P<0.05), and the respiratory events duration and whether accompanied by arousal were significantly correlated with most hypoxic parameters; After accounting for respiratory events duration and whether accompanied by arousal by propensity score matching, compared with the Hyp group, e-minSpO2 was significantly lower in the OA group, ΔSpO2, d.DSpO2, r.DSpO2, ODR, ORR, T90, d.T90, r.T90, ST90, d.ST90, r.ST90 were significantly increased (P<0.05). ConclusionsDue to pathophysiological differences, all hypoxic parameters suggest that OA events will result in a more severe desaturation than Hyp events. Clinical assessment of OSA severity should not equate OA with Hyp events, which may cause more damage to the organism, establishing a basis for applying nocturnal SpO2 to automatically identify the type of respiratory event.