Mortality rate in rheumatoid arthritis-related interstitial lung disease: the role of radiographic patterns
verfasst von:
Maria A. Nieto, Maria J. Rodriguez-Nieto, Olga Sanchez-Pernaute, Fredeswinda Romero-Bueno, Leticia Leon, Cristina Vadillo, Dalifer D. Freites-Nuñez, Juan A. Jover, Jose L. Álvarez-Sala, Lydia Abasolo
To assess mortality rate (MR) and standardized mortality rate (SMR) of rheumatoid arthritis-related interstitial lung disease (RA-ILD) patients and to evaluate the role of radiographic patterns in mortality.
Methods
A longitudinal multicentric study was conducted in RA-ILD patients from 2005 to 2015 and followed-up until October 2018 in Madrid. Patients were included in the Neumologia-Reumatología y Enfermedades Autoinmunes Registry, from diagnosis of ILD. The main outcome was all-cause mortality. The radiographic pattern at baseline [usual interstitial pneumonia (UIP), nonspecific interstitial pneumonia (NSIP), or others] was the independent variable. Covariables included sociodemographic and clinical data. Survival techniques were used to estimate MR, expressed per 1000 persons-year with their 95% confidence intervals [CI]. Cox multiple regression model was run to examine the influence of radiographic patterns on survival. SMR [CI] was calculated comparing MR obtained with MR expected in the general population of Madrid by indirect age-gender standardization.
Results
47 patients were included with a follow-up 242 patients-year. There were 16 (34%) deaths, and most frequent causes were acute ILD exacerbation and pneumonia. MR was 64.3 [39.4–104.9], and 50% of the patients died at 8.3 years from ILD diagnosis. After adjusting for confounders, (UIP compared to NSIP was associated with higher mortality risk. The overall SMR was 2.57 [1.4–4.17]. Women of 60–75 years of age were the group with the highest SMR.
Conclusions
RA-ILD is associated with an excess of mortality compared to general population. Our results support that UIP increases the risk of mortality in RA-ILD, regardless other factors.
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European Respiratory Society/American Thoracic Society
HRCT
High-resolution computed tomography images
COP
Cryptogenic organizing pneumonia
IIP
Idiopathic interstitial pneumonia
BMI
Body mass index
RF
Rheumatoid factor
ACPA
Anti-citrullinated antigens antibodies
ESR
Erythrocyte sedimentation rate
PFT
Pulmonary functional tests
FVC
Predicted forced vital capacity
DLCO
Single-breath carbon monoxide diffusing capacity
DMARDs
Disease modifying antirheumatic drugs
Anti-TNF
TNF inhibitors
RTX
Rituximab
ABA
Abatacept
TZL
Tocilizumab
O2
Oxygen therapy
Background
Rheumatoid arthritis (RA) is a chronic autoimmune disease, characterized by persistent synovitis and systemic inflammation. The prevalence varies from 0.5 to 1% [1, 2], RA is associated with severe morbidity, impaired functional capacity leading to decreased quality of life [3] and mortality [4, 5].
Lung involvement can be observed as an extra-articular manifestation of the disease [6, 7], being interstitial lung disease (ILD) the most severe and prevalent pulmonary manifestation [8].
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Rheumatoid arthritis-related interstitial lung disease (RA-ILD) may appear as a consequence of chronic immune activation promoting aberrant fibroproliferation, although it can also be precipitated by drugs or infectious agents [8]. As in the context of other interstitial pneumonias, RA-ILD can be categorized into injury patterns according to the different degrees of inflammation and fibrosis either in the radiological or in the histopathological assessment. Usual interstitial pneumonia (UIP) and non-specific interstitial pneumonia (NSIP) are the two most frequent radiological patterns observed in RA-ILD. ILD in RA is associated with significant morbidity, high healthcare resources utilization, and account for approximately 20% of all RA-associated mortality [9‐12].
Over the past decade, it seems that mortality in RA has declined [5, 13‐15]. New treatment strategies for RA with early and effective intervention leading to reduced disease activity [16] are probably the main cause of improvement. However, mortality is still increased in RA compared to general population [5, 13], being cardiovascular disease and ILD the mayor contributors of death in RA patients [17].
There are several observational studies assessing the mortality rate in RA-ILD patients, with a wide range of results [11, 12, 18‐22]. Disparity may depend on heterogeneity in patient selection and characterization, differences in methods or length of reporting or even time-calendar, with possible changes in management strategies over study periods. To assess prognosis, it is also relevant to know which factors might affect survival. In this respect, the UIP radiographic pattern compared to NSIP has been identified as predictor of poor outcome in many RA-ILD studies [19, 23‐26]. In contrast, no association between RA-ILD radiographic pattern and mortality was observed in a recent study [27]. A meta-analysis addressing this issue has been published, supporting that an UIP pattern seems to be associated with a higher mortality risk compared to other patterns [28]. However, it shows substantial heterogeneity with a variable methodological quality between the studies included. [19, 27]. Moreover, different criteria were used, both for the diagnosis of ILD and for the characterization of radiological patterns. Of note, those studies in which mortality could be adjusted for pulmonary function tests, did not find a difference in mortality between the two ILD patterns [19, 27, 29].
In order to provide new insight into the course of ILD in the context of autoimmune disorders in clinical practice, we have launched an observational multicentric registry (NEumología-REumatología y enfermedades Autoinmunes-acronym: NEREA-) in 2016 with participation of several Hospitals from Madrid. Briefly, NEREA gathers data from patients with rheumatologic autoimmune diseases with ILD, retrospectively collected from ILD diagnosis and updated during routine visits). With the current study we aim to better define the mortality rate and the standardized mortality rate (SMR) of RA-ILD patients from two tertiary centers included in the NEREA registry, using a strict and reproducible definition for the classification of ILD. In addition, we want to assess the role of radiographic patterns in the risk of mortality adjusting for confounders.
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Methods
Setting
Two tertiary hospitals of the National Health System of the Community of Madrid, Spain, Hospital Clínico San Carlos (HCSC) and Hospital Fundación Jiménez Díaz (FJD) were the setting of the study, covering catchments area of approximately 400,000 people each. Rheumatology and Pneumology Services of each Hospital provide care to this entire population.
Study design
This is a longitudinal multicentric observational study. Patients were included from Jan 2005-Oct 2015 and followed up until loss of follow-up, death, or end of study (October 2018).
Patients
All patients were included from diagnosis of ILD and were included and followed up at special multidisciplinary RAD-ILD-units (Rheumatologic-Autoimmune-Disease-Interstitial Lung Disease) carried out by a pneumologist and a rheumatologist. These consultations were included in the usual clinical practice for the management of these patients. They were followed according to clinical needs, but usually every 3 or 6 months once the patient was considered stable. The evaluation was performed by respiratory function tests at baseline and approximately every 6–12 months, and by CT scans at baseline. CT scans could be repeated during the follow-up according to the medical criterion. Patient data were recorded in NEREA Registry (NEumologia-REumatología y Enfermedades Autoinmunes). Briefly, this register has Rheumatology Autoimmune Disease/-Interstitial Lung Disease-(RAD-ILD) data from patients. Every RAD was diagnosed according to EULAR and ACR classification criteria and an ILD was diagnosed according to the guides of the scientific societies European Respiratory Society/American Thoracic Society (ERS/ATS) [30]. NEREA collected information from routine clinical practice and do not involve additional consultations or tests. NEREA accumulate retrospective and prospective information from study patients [31].
Study inclusion criteria were patients from NEREA with diagnosis of rheumatoid arthritis (RA) according to ACR/EULAR 2010 RA classification criteria [32] and diagnosis of ILD [30]. For inclusion, the diagnosis of an ILD had to be confirmed by an expert pneumologist after performing a standardized systematic diagnostic workup in accordance with current guidelines [30]. Patient data in this project were obtained during routine clinical practice and informed consent to participate was signed. The study was conducted in accordance with the Declaration of Helsinki and Good Clinical Practices and was approved by the Hospital Clinico San Carlos institutional review board (internal number 17/272-E), and for the Hospital Universitario Fundación Jiménez Díaz IIS institutional review board (internal number CDC_EOH043).
Variables
The primary outcome was all-cause mortality obtained from the Hospital information Systems in both Hospitals (HIS). When data was available, both, the cause and the date of death were recorded. The independent variable was RA-ILD radiographic patterns at baseline, according to high-resolution computed tomography images (HRCT) as follows: UIP, NSIP and others (cryptogenic organizing pneumonia (COP) and other idiopathic interstitial pneumonia (IIP).
The following covariates were included: (a) sociodemographic characteristics: (b) clinical characteristics: baseline comorbidities, duration of RA disease, body mass index (BMI), smoking habit, (c) disease related variables: rheumatoid factor (RF), anti-citrullinated antigens antibodies (ACPA) and erythrocyte sedimentation rate (ESR) at baseline, (d) pulmonary functional tests (PFT) at baseline and at every follow-up visit (% predicted forced vital capacity [FVC%], % predicted single-breath carbon monoxide diffusing capacity [DLCO%]; and (e) treatments prescribed prior to ILD diagnosis and during follow-up, including. (e1) glucocorticoids: (e2) disease modifying antirheumatic drugs (DMARDs) comprising conventional synthetic (cs) DMARDs (Azathioprine, Mycophenolate-mofetil, Cyclophosphamide, Methotrexate, Leflunomide, Antimalarials, Sulfasalazine) and biologic agents (bDMARDs: TNF inhibitors [Anti-TNF], Rituximab [RTX], Abatacept [ABA], Tocilizumab [TZL]); (e3) antifibrotic agents (Pirfenidone); and (e4) oxygen therapy (O2). Prior use of therapies was defined as: (e1) any use up to 2 months before ILD diagnosis, and (e2) any DMARD administered for at least 2 months from RA diagnosis and before ILD onset. Concurrent use of therapies was defined as: (e1); used a minimum of 2 months at any time from ILD diagnosis and; (e2) any DMARD used during the study period, and recorded as starting-to-ending dates. (f) Fibrosis development over time (determined by HRCT: yes/no); (g) calendar time: dividing the time of ILD diagnosis in 4 year intervals (from 1st. Jan 2005 until 31th. Dec 2008; 1st. Jan 2009 until 31th. Dec 2011; and 1st. Jan 2012 until Oct 2015).
Statistical analysis
Patient´s characteristics were described as mean and standard deviation for continuous variables, while proportions were shown for categorical variables.
Survival techniques were used to estimate the incidence rate of deaths (MR). expressed per 1000 persons-year with a 95% confidence interval [CI]. The time of observation comprised the elapsed time between the RA-ILD first visit date and the date of patient's death, loss of follow up or end of study. Survival over time was evaluated using Kaplan–Meier curves and the log-rank test.
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Cox bivariate analyses were done to assess differences between mortality risk and covariates. Cox multivariate regression model (adjusted for age, gender, disease severity, smoke and calendar time) were run in a stepwise manner to examine the possible influence of radiographic patterns on survival. Fibrosis development was assessed in a time-dependent manner. Results were expressed by hazard ratio (HR) and [CI]. Proportional hazard assumption was tested using Schoenfeld residuals and the scaled Schoenfeld residuals.
The standardized mortality rate (SMR) was estimated by indirect age and genderstandardization, dividing the observed MR by the expected ones. Expected cases were calculated from incident cases of death in the general population of the Madrid Community (Spain) for the year 2018.The 95% confidence intervals were estimated using the Poisson distribution.
A two-tailed p value under 0.05 was considered to indicate statistical significance.
Results
Forty seven RA-ILD patients, 29 from HCSC and 18 from FJD, were included. The mean follow-up was 5.3 ± 2.7 years, with a total follow up of 242 patients-year and a maximum follow-up of 12 years. Table 1 includes a detailed description of the patients. Many of them were women in their seventies. In most patients (89.4%) RA diagnosis preceded ILD, being 11.9 ± 11.9 years the mean lag time.
Table 1
Sociodemographic and clinical characteristics of the patients
All (n = 47)
Women n (%)
33 (70.2)
Age at ILD diagnosis mean ± SD, years
72.04 ± 8.6
BMI median [p25–p75]
27.1 [24.1–31.1]
Lag time to ILD diagnosis median [p25–p75], years
6.9 [1.1–17.3]
Smokers (active and formers); n (%)
25 (54.3)
Rheumatoid Factor + (n = 46); n (%)
43 (93.5)
Rheumatoid Factor median [p25–p75]
205 [76.7–354]
Anti-CCP + (n = 35); n (%)
29 (82.8)
Anti-CCP median [p25–p75]
400 [78–593]
ESR median [p25–p75]
42 [22.5–55]
Comorbidity; n (%):
Hypertension
26 (55.3)
Cholesterol
20 (42.5)
CVD
11 (23.4) 4
Cancer
(8.5)
Diabetes mellitus
6 (12.8)
Congestive heart failure
4 (8.5)
Sleep apnea syndrome
3 (6.4)
Depression
4 (8.5)
Renal failure (dialysis)
1 (2.1)
Liver disease
4 (8.5)
Hypothyroidism
5 (10.6)
Emphysema
11 (23.4)
PTF parameters
FVC% median [p25–p75]
91 [76–111]
DLCO% median [p25–p75] (n = 43)
65.8 [48.6–82.7]
Radiographic ILD pattern n (%)
UIP
26 (55.3)
NSIP
16 (34)
Others
5 (10.7)
Therapy during the follow-up, n (%)
Corticoids
45 (95.5)
O2
12 (25.5)
csDMARDs
AZA/MMF
17 (36.2)
MTX
13 (27)
CyC
2 (4.2)
Other csDMARDs
23 (48.9)
bDMARDs
Anti-TNF
12 (25%)
RTX
22 (46.8)
ABA
11 (23.4)
TZL
2 (4.2)
PIRF
2 (4.2)
Centers HCSC or Hospital Clínico San Carlos and FJD or Hospital Fundación Jiménez Díaz, ILD interstitial lung disease, BMI body mass index, ESR eritrocite sedimentation rate, FVC% predicted forced vital capacity, DLCO% predicted diffusing capacity of the lungs for carbon monoxide, UIP usual interstitial pneumonia, NSIP nonspecific interstitial pneumonia, CVD cardiovascular and cerebrovascular disease (ischemic heart disease, peripheral vascular disease and cerebrovascular disease), csDMARDs conventional synthetic disease modifying antirheumatic drugs, CYC cyclophosphamide, MTX methotrexate, AZA azathioprine, MMF Micophenolate mofetil, Other csDMARDs Leflunomide; Antimalarials; Sulfasalazine; bDMARDs biologic DMARDs, Anti-TNF TNF inhibitors including ADA (Adalimumab), ETN Etanercept, IFX Infliximab, CERTO Certolizumab, ABA Abatacept, RTX Rituximab, TZL Tocilizumab, PIRF the antifibrotic agent Pirfenidone; O2 Oxygen
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The mean baseline FVC% was 94.3 ± 19.9, with 2 patients showing FVC% values under 70%. In contrast, DLCO%, baseline levels were between normal values (> 80%) in 28% of the patients, while 35% had a mild DLCO% deterioration (60–80%), another 28% had moderate reduction (40–60%) and the remaining 9% showed severe DLCO% deterioration (< 40%) [33]. Regarding ILD radiological patterns, UIP was the most frequent, followed by NSIP. The number of patients taking glucocorticoids increased from 72% before ILD diagnosis to 91.5% during follow-up. None of the patients were using supplemental oxygen at study entry, whereas 25% needed it during follow-up. With respect to the use of DMARDs before ILD diagnosis, 74% of the patients were on Methotrexate, 25% were taking Leflunomide, 23% Antimalarials and 21% Azathioprine. For biologic agents, 30% were taking Anti-TNF, none was on RTX and 2% were being treated with ABA. From ILD onset and during follow-up (Table 1) there was an increase in the use of RTX, Azathiprine and ABA. On the other hand, there was a decrease in the use of Methotrexate and Anti-TNF.
Death occurred in 16 patients (34%) during the whole follow-up. The most frequent cause was progression of ILD, acute exacerbation of ILD or pneumonia (n = 10; 62.5% of the deaths), followed by abdominal sepsis (n = 2; 12.5%), neoplasia (n = 1; 6.25%), cardiological disease (n = 1; 6.25%), cognitive deterioration (n = 1; 6.25%) and no specific cause in an institutionalized elderly (n = 1; 6.25%).
The MR estimated in all-cause mortality was 64.3 [39.4–104.9] per 1000 patients-year. As shown in the Kaplan Meier survival curve (Fig. 1), patients were free of deaths until 1.5 years after diagnosis of ILD; there was a 10% of mortality at 3 years, a 30% at 6 years, and a 50% at 8.3 years from ILD diagnosis. Considering the deaths directly attributable to ILD, the specific MR was 41.4 [22.3–76.9], with a median survival time of 10.9 years.
Fig. 1
Kaplan–Meier survival estimate curve in RA-ILD patients
×
Table 2 shows the MR in all cause-mortality by different variables. Of interest, all deaths occurred in RF positive cases, being MR slightly higher for RF titers over 300 IU/ml (95.7 [43–213.2]) versus lower titers (50.3 [26.2–96.7]). Conversely, we did not observe differences in MR between high and low Anti-CCP titers (> 300: 50.2 [18.8–133]; < 300: 52.1 [21.7–125]), although it was higher in negative Anti-CCP cases (MR: 91.1 [29.3–282]) compared to positive (MR: 42.1 [18.9–93.6]). Regarding to DLCO%, those patients with higher levels showed lower crude MR, as expected. Finally, concerning radiological patterns, MR was higher in patients with UIP (Fig. 2).
Table 2
Incidence rate of all-cause mortality by different variables in RA-ILD patients
Patient-year
Events
MR
95 CI
All cause mortality
249
16
64.3
39.4–104.9
Sex
Women
189
10
52.8
28.4–98.2
Men
60
6
100.7
45.2–224.2
Age at diagnosis, years:
< =60
27.4
0
–
–
61–74
120
5
41.6
17.3–100
> =75
101
11
108.6
60.1–195.6
Center
FJD
94
7
74.5
35.5–156.4
HCSC
155
9
58.1
30.2–11.6
Positive rheumatoid factor
No
22
0
–
–
Yes
227
16
67.0
40.4–11.2
Smokers
Never
115
7
61.0
29.1–128.0
Active and formers
126
9
71.3
37–137
Missing data
8
0
–
–
PTF parameters:
DLCO%:
< 60
91.5
10
109.3
58.5–2.3.2
> 60
154.5
6
38.8
17.4–86.4
Missing data
3
0
–
–
Radiographic ILD pattern
UIP
131
13
98.6
57.3–169.9
NSIP
83
3
36.4
11.7–112.8
Others
35
0
–
–
Centers HCSC or Hospital Clínico San Carlos and FJD or Hospital Fundación Jiménez Díaz, ILD Interstitial lung disease, UIP usual interstitial pneumonia, NSIP nonspecific interstitial pneumonia
Fig. 2
Kaplan–Meier survival estimate curve by radiographic ILD radiological pattern
×
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Bivariate and multivariate analyses are detailed in Table 3. After adjusting for confounders, UIP pattern was associated to a higher risk of mortality compared to NSIP pattern. Men compared to women lost statistical significance (HR: 073; p = 0.5) in the multivariate analysis. Fibrosis development and basal active disease dropped from the final model (p = 0.6). Proportionality of these regression models was tested with a p value = 0.9.
Table 3
Influence of radiographic patterns and other variables on survival in RA-ILD patients: bivariate and multivariate analysis
HR
95 [CI]
p
HR
95 [CI]
p
Sex: men versus women
2.83
1.02–7.8
0.046
0.73
0.25–2.12
0.5
Age, years
1.08
1.01–1.16
0.019
1.16
1.03–1.3
0.013
Center: HCSC versus FJD
0.65
0.24–1.78
0.4
–
–
–
Smokers: active/formers versus never
1.34
0.5–3.5
0.5
5.6
1.12–28.7
0.03
PTF parameter: DLCO% > 60
0.38
0.14–1.05
0.06
0.11
0.03–0.44
0.002
Fibrosis development (yes)
6.8
0.94–50.1
0.058
–
–
–
Basal disease activity (ESR > 41)
2.1
0.7–6.5
0.2
–
–
–
Calendar time:
2005–2008
1
–
–
1
–
–
2009–2011
1.9
0.56–5.65
0.2
3.8
1.14–13.2
0.03
2012–2015
0.25
0.02–2.18
0.2
0.15
0.01–1.89
0.14
Radiographic ILD pattern: NSIP and Others) versus UIP
0.15
0.03–0.68
0.014
0.16
0.04–0.63
0.008
Centers HCSC or Hospital Clínico San Carlos and FJD or Hospital Fundación Jiménez Díaz, ILD Interstitial lung disease, DLCO% predicted diffusing capacity of the lungs for carbon monoxide, UIP usual interstitial pneumonia, NSIP nonspecific interstitial pneumonia
The overall SMR was 2.57, resulting in an excess of mortality in our RA-ILD patients compared to general population. In Table 4, we observe that men and women as well as those patients between the ages of 75 and 84 years had an excess of mortality, while this effect disappeared over 85 years. After stratifying by age and gender, women from 65 to 74 years and men from 75 to 84 years had an excess of mortality. Specifically, women between 60 and 75 years were the group with the highest SMR.
Table 4
Comparations of mortality between the AR-ILD from the NEREA Registry and the Madrid Community general population using standardized mortality ratios (SMR) based on sex and age
E
SMR
95 CI
All cause
16
6.23
2.57
1.4–4.17
Sex
Men
6
1.95
3.08
1.13–6.7
Women
10
3.61
2.77
1.3–5.09
Age at 2018 or end of study, years:
55–64
0
0.011
0
–
65–74
3
0.74
4.05
0.83–11.84
75–84
8
2.94
2.71
1.17–5.35
> 85
5
4.72
1.05
0.34–2.4
Age at 2018 or end of study in women, years:
55–64
0
0.06
0
–
65–74
3
0.44
6.8
1.4–19.8
75–84
3
1.31
2.3
0.5–6.7
> 85
4
3.33
1.2
0.3–3.1
Age at 2018 or end of study in men, years:
55–64
0
0
–
–
65–74
0
0.16
0
–
75–84
5
1.6
3.1
1.01–7.3
> 85
1
1.04
0.96
0.02–5.3
E: cases expected in general population. O: cases observed in RA-ILD patients of the study
O observed, E expected, SMR standardized mortality rate
Discussion
In this real-world longitudinal study from 2005 to 2018, all-cause mortality among patients with RA-ILD was significantly higher than in general population of Madrid Community matched by gender and age. Our results seem to indicate the role of radiological patterns in mortality risk regardless other factors.
Patients from our study might be considered representative of the RA-ILD population. In consonance with previous reports, they were in their late sixties and most of them were RF and/or Anti-CCP positive [11, 18, 34‐36]. UIP was the most prevalent radiological pattern, followed by NSIP [19, 24, 37].
It has been published that ILD results in a decreased lung function and is a leading cause of death among RA patients, after cardiovascular disease [38]. Within RA-ILD patients from NEREA registry, the most frequent cause of death was respiratory failure [12].
We confirm that RA-ILD is a life-shortening condition. In our study 10% and 30% of RA-ILD patients had died by 3 and 6 years respectively after diagnosis of ILD, with a median survival of 8.2 years. Similar findings were shown in the studies from Raimundo et al. [36] and Solomon et al. [19]. This data appears to be somewhat better than those reported in many previous studies [11, 21, 36]. Several of them are dated at the pre-biologic era. It could be considered that newer DMARDs therapies for RA decrease the severity of these patients including the extra-articular manifestations. Alternatively, the relative improvement could be related to the development of diagnostic RA-ILD criteria, but also to an increased disease awareness of this complication, leading to an active screening and an earlier detection.
Concerning risk factors of mortality, older age is the most consistent variable identified as a significant predictor of a poor prognosis [10, 18, 19, 21, 27, 39, 40]. Other variables associated to mortality in RA-ILD include male gender, ILD disease severity, autoantibody profiles [41], RA disease activity and a UIP pattern [19, 23‐37]. Regarding the latest, Sight points out in a meta-analysis [28], several factors that may confound analyses of RA-ILD pattern and mortality, underlining the need of including all of them. In this sense, we included age, sex, disease activity, calendar time at ILD diagnosis and smoking habit, along with the radiographic pattern. In our study all dead patients were RF positive, thus RF was not included in the model. Our results corroborate the relevance of age and smoking habit, and have to highlight the importance of the pulmonary function test [28, 39], and the relevance of the radiological pattern when considering prognosis of RA-ILD.
Interestingly, many authors have studied the relationship of radiological disease extension with death risk [24, 42‐44]. We also included extension of disease in terms of fibrosis development in the multiple regression analysis, but it drooped from the final model. This variable was measured as the appearance of fibrosis over time, regardless the extension. Of note, in clinical practice there is currently no standardized quantitative method providing an objective and reproducible measurement of radiological extension and/or an accurate assessment of the amount of fibrotic changes [28, 39]. Nevertheless, the semiquantitative CT score proposed by Goh et al. [45] and validated in RA-ILD by Ito Yuhei et al. [46] could be a valid alternative in clinical practice for prospective studies.
All published evidence agrees that ILD shortens survival in RA patients [11, 12, 19, 35, 36]. In this study, the MR was estimated in 64.3 per 1000 patient’s year, being almost three times superior to MR reported in other studies of RA population without ILD [5, 11, 47]. Going further, our study shows the excess of mortality compared to general population in the 74- to 85-years of age group [12]. Specifically, by gender, women from 60 to 75 years were the group with the highest SMR.
The results of our study should be interpreted considering several limitations. The retrospective nature of the design is a major limitation of our study. Another limitation is sample size, since the prevalence of clinically significant RA-ILD can rise to 10% of RA patients [12]. In this sense, our findings could be corroborated in further studies with larger sample sizes. As strengths, we include non-selected well characterized AR-ILD patients, using a classification criterion for ILD with clinical and sociodemographic details at onset, reflecting clinical practice from two hospitals, with a long-term follow up. We can conclude that RA-ILD is associated with a higher MR than general population. Taking account of the results of the ongoing study, the underlying pattern of ILD seems to be important for its prognostic value. Thus a better fibrosis control, good maintenance of respiratory function, as well as avoiding tobacco consumption, could help these patients to improve their survival.
Conclusions
Rheumatoid arthritis-related interstitial lung disease (RA-ILD) is associated with decreased survival. In this real-world longitudinal study mortality among patients with RA-ILD was significantly higher than in general population of Madrid. Our results support that usual interstitial pneumonia pattern increases the risk of mortality regardless other factors.
Acknowledgements
We would like to thank A.M. Perez, data manager of the study, as well as the entire rheumatology staff, for their patient recruitment.
Declarations
Ethics approval and consent to participate
Patient data in this project were obtained during routine clinical practice and patients provided signed informed consent to participate. The study was conducted in accordance with the Declaration of Helsinki and Good Clinical Practices and was approved by the Hospital Clinico San Carlos institutional review board (internal number 17/272-E), and for the Hospital Universitario Fundación Jiménez Díaz IIS institutional review board (internal number CDC_EOH043).
Consent for publication
Not applicable.
Competing interests
The authors declare that they have no competing interests.
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Mortality rate in rheumatoid arthritis-related interstitial lung disease: the role of radiographic patterns
verfasst von
Maria A. Nieto Maria J. Rodriguez-Nieto Olga Sanchez-Pernaute Fredeswinda Romero-Bueno Leticia Leon Cristina Vadillo Dalifer D. Freites-Nuñez Juan A. Jover Jose L. Álvarez-Sala Lydia Abasolo
Ob bei einer Notfalloperation nach Schenkelhalsfraktur eine Hemiarthroplastik oder eine totale Endoprothese (TEP) eingebaut wird, sollte nicht allein vom Alter der Patientinnen und Patienten abhängen. Auch über 90-Jährige können von der TEP profitieren.
Wenn unter einer medikamentösen Hochdrucktherapie der diastolische Blutdruck in den Keller geht, steigt das Risiko für schwere kardiovaskuläre Ereignisse: Darauf deutet eine Sekundäranalyse der SPRINT-Studie hin.
Insektenstiche sind bei Erwachsenen die häufigsten Auslöser einer Anaphylaxie. Einen wirksamen Schutz vor schweren anaphylaktischen Reaktionen bietet die allergenspezifische Immuntherapie. Jedoch kommt sie noch viel zu selten zum Einsatz.
Beginnen ältere Männer im Pflegeheim eine Antihypertensiva-Therapie, dann ist die Frakturrate in den folgenden 30 Tagen mehr als verdoppelt. Besonders häufig stürzen Demenzkranke und Männer, die erstmals Blutdrucksenker nehmen. Dafür spricht eine Analyse unter US-Veteranen.
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