Introduction

Endothelial function is impaired in adults with sickle cell anaemia (SCA), but limited data exists in children. Endothelial damage occurs from chronic inflammation, oxidant damage, immune cell activation and ischemia-reperfusion injury. In addition, availability of nitric oxide (NO) as the major vasodilator may be reduced as a result of scavenging by plasma haemoglobin and reduced arginine substrate for endothelial nitric oxide synthase.

Methods

Tanzanian children (N=119) with SCA (HbSS) aged 8-11.9 years enrolled in the Vascular Function Intervention Trial (ISRCTN74331412/NCT01718054) underwent baseline assessment of endothelium-dependent and -independent vasodilatation. All children were determined clinically well at assessment, hydroxyurea naive, on no long-term medication and not receiving chronic blood transfusions. Blood pressure and vasomotion were assessed after 10 minutes recumbent rest in a temperature controlled room between 08-13:00 hrs. An identical protocol as published in children (Donald & Charakida et al. Eur Heart J; 2010: 31; 1502-10) was used. In brief, brachial arterial endothelium dependent dilatation was assessed by 1 of 3 trained technicians using ultrasound imaging (Ultrasonix SonixTouch with a 12Mz probe & stereotactic holder) to assess flow-mediated dilatation (FMD) in response to reactive hyperaemia induced after release of transient blood pressure cuff occlusion (5 min, 200 mmHg, Hokanson, USA) using an automated air regulator (Logan Research, UK). Automated B-mode image edge detection was used to measure maximum change in arterial diameter (Brachial Tools) expressed as a percentage of resting baseline diameter (FMDmax). Endothelium-independent responses to 2.5µg sub-lingual glyceryl-trinitrate (GTN) were also assessed. All recordings were over-read by an experienced researcher in the UK. Venepuncture for full blood count, clinical chemistry and amino acids was conducted after FMD assessment.

Results

Patient characteristics are described in Table 1. Mean brachial artery diameter at baseline was 2.61mm (95% CI 2.55 – 2.67mm). Mean FMDmax was 7.70% (95% CI 7.09 – 8.32%). Endothelium-independent vasodilation (GTNmax) was 4.15% (95% CI 3.83 – 4.47%). The FMDmax response was on greater than the GTNmax response (Figure 1). No effect of room or skin temperature on FMDmax or GTNmax was observed. There was a strong inverse association between baseline artery diameter and FMDmax (-3.46, P<0.001) (Figure 2). The time to peak brachial artery diameter in response to hyperaemia was positively skewed (median 55s (IQR: 43-79s)) and was not associated with FMDmax. The only patient characteristic associated with FMDmax was age with a non-significant inverse correlation (-0.52, P=0.06) but was reduced when adjusting for baseline diameter. Baseline heart rate was positively associated with FMDmax and GTNmax (P=0.01 & 0.025).

Table 1

Patient characteristics

Subjects N=119Mean (SD) unless otherwise stated
Age [years] 10.3 (1.1) 
Males (%) 71 (60%) 
Systolic BP (supine) [mmHg] 103.9 (6.9) 
Diastolic BP (supine) [mmHg] 60.1 (6.4) 
Hemoglobin oxygen saturation [%] 99.0 (1.3) 
Body Mass Index z-score -1.71 (0.88) 
Height-for-age z-score -2.09 (-1.01) 
Hemoglobin [g/dl] 7.5 (1.1) 
Reticulocyte No [x10x6] (N=30)* 0.299 (0.120) 
Reticulocyte %  (N=30)* 10.8 (5.2) 
Lactate dehydrogenase [IU] 599 (150) 
Bilirubin – unconjugated [umol/L] median (IQ range) 24.4 [17.0 -36.7] 
Subjects N=119Mean (SD) unless otherwise stated
Age [years] 10.3 (1.1) 
Males (%) 71 (60%) 
Systolic BP (supine) [mmHg] 103.9 (6.9) 
Diastolic BP (supine) [mmHg] 60.1 (6.4) 
Hemoglobin oxygen saturation [%] 99.0 (1.3) 
Body Mass Index z-score -1.71 (0.88) 
Height-for-age z-score -2.09 (-1.01) 
Hemoglobin [g/dl] 7.5 (1.1) 
Reticulocyte No [x10x6] (N=30)* 0.299 (0.120) 
Reticulocyte %  (N=30)* 10.8 (5.2) 
Lactate dehydrogenase [IU] 599 (150) 
Bilirubin – unconjugated [umol/L] median (IQ range) 24.4 [17.0 -36.7] 
*

subset when automated reticulocyte count data was available (Sysmex XTi).

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Figure 1
Figure 1. Endothelium-dependent (FMDmax) and endothelium-independent (GTNmax) vasodilatation
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Endothelium-dependent (FMDmax) and endothelium-independent (GTNmax) vasodilatation

Figure 1
Figure 1. Endothelium-dependent (FMDmax) and endothelium-independent (GTNmax) vasodilatation
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Endothelium-dependent (FMDmax) and endothelium-independent (GTNmax) vasodilatation

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Figure 2
Figure 2. Correlation between FMDmax with baseline brachial artery diameter
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Correlation between FMDmax with baseline brachial artery diameter

Figure 2
Figure 2. Correlation between FMDmax with baseline brachial artery diameter
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Correlation between FMDmax with baseline brachial artery diameter

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Discussion

We have characterised peripheral vascular function in a large cohort of children with SCA. Mean FMDmax was slightly lower than that observed in predominantly Caucasian non-SCA British children of similar age (8.1% [SD3.4]) (Donald & Charakida et al. Eur Heart J 2010: 31; 1502-10), but higher than reported in 21 older French children with SCA (5.6 +/- 0.2) (Montalembert et al. Haematol 2007: 92; 1709-10) which might reflect deterioration of endothelial function with age. There was no apparent association between FMDmax and hemolytic markers or with nutritional status at baseline. Recruitment and assessment of appropriate local non-SCA controls for comparison is planned. Amino acid analyses are ongoing.

Disclosures:

No relevant conflicts of interest to declare.

Topics:
child, endothelium, sickle cell anemia, hemoglobin, amino acids, dilatation, pathologic, arginine, bilirubin, blood pressure cuffs, blood transfusion

Author notes

*

Asterisk with author names denotes non-ASH members.

© 2013 by The American Society of Hematology
2013
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