To the Editors:
The survival of patients with cystic fibrosis (CF) is increasing and, therefore, there is a need to focus on extrapulmonary comorbidities that could affect their length and quality of life [1]. Diseases with a systemic inflammatory state are associated with increased arterial stiffness, an independent risk factor for cardiovascular diseases [2, 3]. This premature ageing of the vasculature has been demonstrated in CF adults, but it is not known whether it begins in childhood [4]. We hypothesised that arterial stiffness is increased in CF children compared with healthy controls and that it is related to the degree of systemic inflammation.
Digital volume pulse (DVP) analysis, with the computation of the stiffness index (SIDVP) and pulse wave velocity between the carotid and femoral arteries (PWVcf) were determined in 31 CF children (13 females; median age 12.2 yrs, interquartile range (IQR) 9.3–14.8 yrs) and in 48 healthy controls, matched for sex and age (19 female; median age 10.9 yrs, IQR 9.7–13.4 yrs). Office blood pressure was taken as the mean of three measurements obtained from the supine child after 10 min of rest with a validated oscillometric device (Dinamap XL; Criticon Inc., Tampa, FL, USA). The Pulse Trace PWV unit (Micro Medical Ltd, Rochester, UK) recorded PWVcf by measuring the time lag between the arrival of the arterial pulse at the carotid and femoral arteries (Δtcf) [5]. PWVcf was calculated by dividing the distance between carotid and femoral arteries by Δtcf. The same device was used to record DVP by photoplethysmography [5]. The timing of the diastolic component relative to the systolic component (ΔtDVP) depends upon the PWVcf of the pressure waves within large arteries. The SIDVP is obtained from subject height divided by ΔtDVP. Body composition and hydration state were assessed with a whole-body bioimpedance spectroscopy device (BCM; Fresenius Medical Care, Bad Homburg, Germany). Hydration status, lean tissue index (LTI) and fat tissue index (FTI) were calculated based on a physiological tissue model. Forced expiratory volume in 1 s (FEV1) was measured according to current recommendations (Masterlab; Jaeger, Würzburg, Germany) [6]. Lung clearance index (LCI) (Exhalyzer D; Eco Medics AG, Duernten, Switzerland) [7], current colonisation with Pseudomonas aeruginosa or Stenotrophomonas maltophilia, C-reactive protein (CRP), immunoglobulin (Ig)G and presence of CF-related diabetes mellitus (CFRD) [8] at the time of investigation were documented.
Data are expressed as median (IQR). Relationships among variables were assessed by using a best-fit linear regression analysis. Unpaired t-tests or Mann–Whitney U-tests were used to compare groups, as appropriate. Significance was assigned at p<0.05.
table 1 summarises the characteristics of the study children. Height standard deviation score was lower and diastolic blood pressure (corrected for sex, height and age) [9] was higher in the CF group compared with control children. Puberty stage (Tanner stages) was comparable between the two groups of children. In CF children, median (IQR) FEV1 was 92 (74–102)% predicted, LCI was 7.0 (6.1–8.8), and LTI was 13.6 (12.4–14.8) kg·m-2 and FTI 2.9 (1.9–5.0) kg·m-2. 20% of the CF children showed a reduced lean mass (below the 10th centile corrected for age); however, the fat mass distribution was within the normal range. Hydration status, expressed as a percentage of body weight was 0.0 (-0.8–1.1)%. Median IgG and CRP were 9.3 (7.0–12.2) g·L−1 and 8.0 (3.5–18.5) mg·L−1, respectively.
SIDVP was significantly higher and PWVcf showed a trend towards higher values in CF children compared with the control group (table 1). PWVcf was significantly increased in CF children colonised with P. aeruginosa or S. maltophilia (n=12) compared with uninfected children (6.4 (6.0–7.1) versus 5.6 (5.3–5.9) m·s−1; p=0.003). CF children with CFRD (n=10) did not display higher PWVcf or SIDVP compared with the CF children not affected by CFRD (PWVcf 6.4 (5.7–7.5) versus 5.8 (5.3–6.2) m·s−1; nonsignificant). PWVcf was related to IgG (r2=0.50, p=0.02) and LTI (r2=0.16, p=0.04). Neither PWVcf nor SIDVP was related to hydration status, height, weight, body mass index, blood pressure, FEV1, LCI or CRP.
This study demonstrates increased stiffness of the large arteries in CF children with a median age of 12 yrs, especially in those colonised by P. aeruginosa or S. maltophilia. These novel results indicate that altered arterial compliance in CF is already manifest in childhood. The increase in arterial stiffness seems to be related to systemic inflammation, as expressed by increased IgG and resulting from colonisation with pathogens and irrespective of blood pressure or diabetes status. Conversely, in adult CF patients, CFRD seems to influence arterial stiffness [4]. This discrepancy between adults and children may indicate that the changes in the arterial wall architecture appear only after decades of hyperglycaemic burden.
The present study did not examine whether an intervention, such as intravenous antibiotics, is able to reduce the increase in arterial stiffness; however, a recent study published in abstract form seems to reveal benefits of interventions aiming to reduce inflammation on the cardiovascular system in adult CF patients [10]. It remains unclear whether these interventions completely normalise the increase in arterial stiffness or the vascular changes remain permanently altered. The results of the present exploratory study, together with the results of other studies [4, 10], suggest that aggressive and early anti-inflammatory therapies are indicated in CF patients not only to stabilise lung function but also to avoid extrapulmonary complications and to reduce the accelerated vascular ageing process.
A strength of this study is the homogenous and young CF population without other cardiovascular risk factors likely to be encountered in adulthood. Limitations include the lack of other biochemical inflammatory or metabolic markers for cardiovascular risk such as triglycerides and cholesterol.
In conclusion, this study demonstrates haemodynamic alterations in the presence of persisting systemic inflammation already in children suffering from CF. With increasing survival, awareness of these vascular changes is required in order to maintain cardiovascular health in CF patients.
Footnotes
Support Statement
F. Singer received a grant from the European Respiratory Society (Short-Term Research Fellowship 81-2011).
Statement of Interest
None declared.
- ©ERS 2012