Use and Outcomes of Noninvasive Ventilation for Acute Respiratory Failure in Different Age Groups

Discussion

In this prospective cohort study, we found that NIV utilization for ARF as a percentage of all ventilator starts was highest for subjects >65 y old and lowest for subjects 18–44 y old, which is probably explained by the greater prevalence of chronic lung or heart disorders in the older and neurologic/toxic conditions (mainly drug and alcohol overdose) in the younger age groups. Additionally, do-not-intubate status was observed more frequently with aging, also contributing to greater use of NIV in the elderly and aged. NIV success and in-hospital mortality rates were similar in the different age groups.

A number of previous studies support the use of NIV in older age groups.^4–7,15 Benhamou et al¹⁵ reported more frequent use of NIV in elderly subjects with ARF admitted to an ICU (64%) than in younger subjects (47%), with higher mortality in the elderly group (21% vs 9%, respectively) reflecting outcomes in the general ICU population. In a randomized, controlled trial of elderly subjects with hypercapnic ARF admitted to a respiratory care unit, NIV decreased the rate of meeting intubation criteria (7.3 vs 63.4%, P < .001) and mortality (odds ratio = .40, P < .05) compared with standard medical treatment.⁷

Consistent with the above results, our study shows greater utilization of NIV with advancing age. Stefan et al² also reported increasing use of NIV with age for 1,364,624 medical subjects hospitalized with an ARF diagnosis (12, 21, 28, and 34% in subjects age 18–44, 45–64, 65–84, and ≥85 y old, respectively). The lower rates of NIV use compared with our study could be due to their reliance on the International Classification of Diseases, Ninth Revision, Clinical Modification (ICD9-CM) coding¹⁶; differences in prevalence of etiologies of ARF (pneumonia being the most common diagnosis); or different practices between our hospitals and those in the sample of Stefan et al.² In addition, they observed that older subjects received less invasive mechanical ventilation and less expensive care overall, consistent with earlier studies^3,17,18 and with the idea that intensity of care decreases with aging as more patients and their proxies choose to limit treatment. In a 2-y prospective cohort study on subjects with ARF admitted to a medical ICU, Schortgen et al⁶ also reported NIV use in 60% of elderly subjects (≥80 y old) requiring ventilator support compared with only 32% of younger subjects. Our NIV utilization rate in aged subjects was 47%, but this lower rate was in a population with a lower prevalence of do-not-intubate status than in the study by Schortgen et al⁶ (31% vs 40%).

With regard to subject characteristics, our older NIV subjects had lower body mass indexes and heart rates with more frequent acidosis, hypercapnia, and do-not-intubate statuses than younger subjects, similar to Schortgen et al.⁶ These differences from younger age groups most likely reflect the greater prevalence of acute-on-chronic lung disease and other chronic illnesses among older patients. Also in our study, the severity of illness increased with age, but after adjustment for age, SAPS II scores were actually higher in the younger age group, due to their greater prevalence of neurologic/toxic and de novo ARF. Reflecting the greater burden of chronic illness, aged subjects were also more likely to be admitted from chronic care facilities compared with other groups.

Contrary to our expectations, age alone did not determine the location of care in our study, but subjects with a do-not-intubate status were more often treated outside of the ICU than those without a do-not-intubate order. In a previous survey, subjects with cancer and their caretakers considered the ICU “a bad place to die.”¹⁹ Our study found that slightly more than a quarter of elderly do-not-intubate subjects using NIV were treated in the ICU; considerations like need for nursing care and monitoring, bed availability, and patient and/or family preference may override ethical considerations so that a significant minority of such patients still receive ICU care. On the other hand, 10 of 21 (48%) aged subjects treated on regular wards had a do-not-intubate status as opposed to 11 of 70 (16%) of those < 80 y (P = .001).

Palliative use of NIV in patients with a do-not-intubate order or when endotracheal intubation is deemed inappropriate has become increasingly common.^20,21 In our study, a do-not-intubate status imparted a worse prognosis among subjects treated with NIV compared with those without one, undoubtedly related to a higher prevalence of diseases with worse prognoses. However, there was no significant impact of age on outcomes of NIV subjects with a do-not-intubate status.

Prior studies have reported conflicting results on the effect of age and the presence of a do-not-intubate order on NIV failure rate. Scarpazza et al⁴ found that older age was associated with a higher NIV failure rate. In contrast, in a recent multi-center French database study including 3,163 subjects with ARF requiring ventilator support (but excluding do-not-intubate patients) younger age was found to be one of the independent risk factors for NIV failure (P < .001).²² In the study by Schortgen et al,⁶ NIV failure rates were similar across age groups (40% vs 42% in subjects <80 y and ≥80 y, respectively), and mortality rates were shown to be higher in the older subjects (25% vs 40%, P < .01). Our study found no association between the different age groups with regard to success or mortality rates. This may reflect the counterbalancing effects of a higher rate of NIV failure and mortality associated with de novo respiratory failure in the younger age group and the higher rate of withdrawal of support in the aged. On the other hand, when we combined all subjects younger than 80 y and compared them with subjects > 80 y, the aged had higher NIV success and mortality rates, probably due to the higher prevalence of chronic disorders and do-not-intubate orders, respectively.

Limitations of our study include its observational design and lack of controls, precluding conclusions about the effectiveness of NIV in different age groups. In addition, the data were accrued from selected hospitals in a region of the United States and may not be generalizable to other centers elsewhere. Furthermore, although the number of subjects enrolled is higher than in most of the prior epidemiologic studies, we are limited by small numbers of subjects in some of our subgroups (especially the younger). Our study also has important strengths, including our acquisition of data by prospective identification of subjects and on-site data gathering that offers greater reliability compared with off-site survey studies. We have also selected a group of hospitals representing a mix of academic and community settings, providing a real-life snapshot of actual NIV use.