TABLE IV.C.1b.
Reasons for sex differences in OSA
| Study | LOE | Study design | Study groups | Clinical end-point | Conclusion |
|---|---|---|---|---|---|
| Anatomy and anthropometric traits | |||||
| Polesel184 | 3b | Cross-sectional | Brazil N = 552 women N = 450 men |
Anthropometrics | Waist circumference and waist-to-height best predicted OSA in women Waist-to-height ratio and neck circumferences best predicted mild OSA in men, while BMI was associated with severe OSA |
| Cho168 | 3b | Cross-sectional | Korea Suspected OSA N = 2016 |
Anthropometrics Cephalometry | Men with OSA had increased soft palate length compared to controls Women with OSA had increased soft palate thickness and nasion angle than controls |
| Sutherland169 | 3b | Cross-sectional | Chinese and Australian sleep clinic N = 363 200 Chinese 163 Caucasian |
Craniofacial features by face photography ethnicity | Women with OSA had different facial features compared to controls, such as greater face width to eye width ratio, and reduced mandibular plane Men with OSA had increased mandibular plane angle relative to controls |
| Perri185 | 3b | Cross-sectional | Caucasian of European origin Sleep clinic N = 104 OSA N = 85 healthy |
Surface cephalometry | OSA patients had anthropometric and surface cephalometric phenotypes that differed in comparison with healthy subjects, however, sexual dimorphism levels (i.e., male–female ratios) were broadly similar in the two groups |
| Lim176 | 3b | Cross-sectional | Korean Clinic N = 151 |
Anthropometrics | Neck circumference predicted OSA in men only, while waist-to-hip ratio predicted OSA in both men and women |
| Dancey186 | 3b | Cross-sectional | Canada sleep clinic N = 3942 |
Neck circumference | Neck-to-height ratio predicted AHI, accounting for 19% of the variability, more significantly in men |
| Upper airway anatomy and function | |||||
| Brooks173 | 3b | Cross-sectional | Healthy volunteers N = 77 men N = 98 women |
Pharyngeal cross-sectional area during quiet breathing using the acoustic pulse technique | The men had a larger change in pharyngeal area with changing lung volume than the women |
| Segal172 | 2b | Cross-sectional | Chart review for those who have had PSG and CT neck N = 24 (15 men, nine women) |
Upper airway length | Men with OSA were found to have longer upper airway length even when normalized to body height compared with OSA women Correlation between upper airway length and AHI |
| Mohsenin171 | 3b | Cross-sectional | Sleep Clinic AHI ≥ 5 N = 71 |
Upper airway dimensions using acoustic reflectance while lower jaw was in the resting and retrusive posture | Men tend to have a larger but more collapsible airway during mandibular movement than women |
| Eckert187 | 3b | Cross-sectional | 12 healthy, eight OSA | Genioglossus electromyogram (GGEMG) | Reductions in GGEMG during REM sleep were not different between OSA patients and control subjects or between sexes |
| Malhotra170 | 3b | Case–control | Healthy volunteers age and BMI matched 19 men, 20 women |
MRI | Pharyngeal airway length and cross-sectional area, soft palate area, and airway volume were greater in men compared with women |
| Obesity and fat distribution | |||||
| Simpson188 | 3b | Cross-sectional | Western Australian Sleep Health Study Sleep clinic OSA patients (60 men, 36 women) |
Obesity measures using dual-energy absorptiometry | In women, percentage of fat in the neck region and body mass index together explained 33% of the variance in AHI In men, percentage of fat in the abdominal region and neck-to-waist ratio together accounted for 37% of the variance in AHI |
| Huang174 | 3b | Cross-sectional | Taiwanese Sleep center >18 years N = 2345 patients (339 females) |
BMI | AHI was associated with BMI more strongly in men |
| Harada175 | 3b | Cross-sectional | Japanese Sleep Clinic 271 men, 100 women with OSA |
CT scan measured visceral fat area | AHI was independently associated with visceral fat area only in men |
| Ventilatory control | |||||
| Sin177 | 3b | Cross-sectional | Canadian sleep center N = 219 (43 women, 176 men; 104 OSA, 115 no-OSA) |
Hypercapnic ventilatory response test (HCVR) | Elevated carbon dioxide and older age were significantly correlated with low HCVR in men, while BMI was associated with HCVR in women |
| Jordan179 | 3b | Cross-sectional | Healthy volunteers12 men, 11 women at both their luteal and follicular phases | Post-stimulus ventilatory decline (PSVD) | There were no significant differences in PSVD between men and women in either luteal or follicular phases |
| Syed178 | 2b | RCT | 10 men and seven women with OSA, with control 10 healthy men and 10 healthy women | Hypoxic ventilator response augmentation (HVRA) Ventilatory long-term facilitation (vLTF) |
HVRA and vLTF were enhanced in the OSA group compared with control Sex did not impact any measures Exposure to intermittent hypoxia during sleep led to a corresponding increase in respiratory events compared with sham exposure, irrespective of sex |
| Pillar181 | 3b | Cross-sectional | 8 normal women and eight age and BMI-matched men, during stable NREM | Upper airway mechanics Ventilation Activation of two dilator muscles, genioglossus and tensor palatini were monitored during loading |
Men developed more severe hypopnea in response to identical applied external loads than did women Men and women had near identical minute ventilation responses to total load, implying no differences in central drive or load response There were no significant increases in genioglossus or tensor palatini activation in response to loading in either sex |
| Zhou182 | 3b | Cross-sectional | 8 men (25–35 years) and 8 women in the midluteal phase of the menstrual cycle (21–43 years) Repeated studies in 6 women during the midfollicular phase |
Apneic threshold | In women, induction of a central apnea required an increase in tidal volume by 155% ± 29%, compared to men with an increase in tidal volume by 142% ± 13% Similarly, women required greater reduction in PETCO2 compared to men, to general a central sleep apnea There was no difference in the apneic threshold between the follicular and the luteal phase in women |
| Jordan180 | 3b | Cross-sectional | 11 men and 11 women were matched for severe OSA severity Second group of 12 men and 12 women were matched for body mass index |
Loop gain (LG) measured using proportional assist ventilator Critical closing pressure of upper airway (Pcrit) by progressive CPAP drop technique |
In the BMI-matched subgroup, women had less severe OSA during NREM sleep and lower Pcrit, but similar LG compared to men |