ABSTRACT
Objective To investigate the curative effect of low-temperature plasma-assisted uvulopalatopharyngoplasty(UP-PP)in the patients with positional and non-positional obstructive sleep apnea-hypopnea syndrome(OSAHS).Methods Twenty-six patients with OSAHS diagnosed by polysomnography monitoring receiving the low-temperature plasma-assisted UPPP in our hospital from January 2014 to December 2015 were selected and divided into the positional OSAHS group(PPs) and non-positional OSAHS group(NPPs) according to the apnea-hypopnea index (AHI) under different sleep positional status.The AHI change before and after operation and operation effective rate were compared between the two groups.Results Theoverall AHI,supine position AHI and lateral position AHI in the PPs group all were lower than those in the NPPs group(P<0.05),moreover the blood oxygen related indexes were higher than those in the NPPs group(P<0.05).The overall surgical effective rate in the OSAHS patients was 73.08% (19/26),in which the surgical effective rate was 100% (7/7) in the PPs group and 63.16% (12/19) in the NPPs group,the difference between the two groups had no statistical significance(P=0.13).The postoperative total AHI,supine position AHI and lateral position AHI in the two groups were decreased compared with before operation(P<0.05);the decrease range of lateral position AHI in the NPPs group was significantly higher than that in the supine position AHI[0.96(0.86,1.00)vs.0.53(0.34,0.77),P<0.01].78.95 % (15/19) postoperation patients in the NPPs group converted to PPs.Conclusion Low-temperature plasma-assisted UPPP has some effects on OSAHS patients,in which the benefit of NPPs are more apparent.
ABSTRACT
Objective To observe nasal resistance in healthy adult people and patients with obstructive sleep apnea hypopnea syndrome (OSAHS), comparing the changes in nasal resistance after nCPAP treatment, and to explore the role of nasal resistance in development of OSAHS and the effect of nCPAP on nasal resistance. Methods Detection of nasal resistance was performed in 11 healthy people and 40 patients with OSAHS after completion of polysomnography (PSG). Three weeks after treatment with nCPAP, the patients received polysomnography and detection of nasal resistance again. Results Nasal resistance was higher in patients with OSAHS than healthy people [(0.27 ± 0.9)Pa/(cm3·s) vs. (0.21 ± 0.7)Pa/(cm3·s), t=-2.048, and P0.05). MinSO2, AHI and ODI were markedly improved three weeks after nCPAP therapy (P<0.05). Nasal resistance was increased from (0.27 ± 0.1) Pa/(cm3·s) to (0.43 ± 0.3)Pa/(cm3·s) after treatment (t = -2.733, P < 0.05). Conclusions Increased nasal resistance is one of risk factors for pathogenesis of OSAHS. Nasal resistance is not related with the severity of OSAHS. nCPAP can lead to an elevation in nasal resistance.