Relationship Between Thoracic Aortic Structure Assessed B PET/CT Scan and Arterial Stiffness in Elderly Patients

Not Applicable

Completed

• Conditions: Inflammation; Aging
• Interventions: Radiation: fludeoxyglucose(18f); Other: blood sample; Other: cardiac and aortic magnetic resonance imaging; Other: carotid femoral pulse wave velocity; Radiation: positron emission tomography; Radiation: computed tomography

• Registration Number: NCT01963221
• Lead Sponsor: Central Hospital, Nancy, France

Brief Summary

The purpose of this study is to determine the relationship between thoracic aortic inflammation and arterial stiffness in elderly patients.

Vascular-aging is accompanied by a gradual remodeling affecting both cardiac and arterial walls. Arterial hypertension, an established cardiovascular risk factor, has been suggested to exert pro-inflammatory actions threw several biological mediators enhancing arterial stiffness. Both effects of aging and hypertension are associated with higher levels of arterial stiffness, but their respective role is not well established in the pathophysiology of arterial stiffening.

Few data are available neither on the real anatomic aortic impact of aging and hypertension on aortic compliance and ventricular function and its relationship to arterial stiffness assessed by carotid-femoral pulse wave velocity, nor on the reliability of cine phase contrast magnetic resonance imaging arterial stiffness measurements.

Recent studies using positron emission tomography imaging (PET) with 18 F fluorodeoxyglucose (FDG) has been advocated as a means of measuring arterial wall inflammation in various population referred for oncology staging. FDG uptake is correlated with the number of cardiovascular risk factors and even the risk of future cardiovascular events. This method, combined with X-ray computed tomography (CT), has also demonstrated that aortic calcifications quantified by CT and local signs of inflammation detected by FDG uptake contribute to arterial stiffness. A strong relationship between large vessels stiffening assessed by carotid-femoral pulse wave velocity measurement, aortic calcifications quantified by CT and inflammation evaluated by FDG uptake has been demonstrated.

Therefore, in the current study, we use FDG PET associated to CT to characterize aortic inflammation and aortic calcifications coupled to pulse wave velocity measurement and cardiac function in elderly individuals.

In fact, if vascular aging promoting a local inflammatory process is a risk factor for cardiovascular disease, then vascular changes assessed by non-invasive vascular imaging (MRI,FDG PET) could represent a potential target for treatment and prevention Thirty individuals ≥ 65 years of age were examined, 15 hypertensive subjects and 15 controls. Pulse wave velocity, a surrogate for aortic stiffness, was measured both by cine phase contrast magnetic resonance imaging and applanation tonometry. Brachial pulse pressure, carotid calculated pulse pressure and pulse pressure amplification (brachial to carotid ratio), predictors of cardiovascular mortality were also quantified. Thoracic aorta local inflammation and calcification were measured by 18 F-fluorodeoxyglucose positron emission tomography/computed tomography imaging. Moreover, biomarkers of low grade inflammation (high-sensitivity C-reactive protein, interleukin 6 were also determined).

Detailed Description

Not available

Study Timeline

• Study Start: 2010-01
• Primary Completion: 2011-08
• Study Completion: 2013-09
• Status Verified: 2013-10
• Study First Submitted: 2013-10-06
• Study First Submitted QC: 2013-10-13
• Last Update Submitted: 2013-10-13
• Study First Posted: 2013-10-16
• Last Update Posted: 2013-10-16

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 30

Inclusion Criteria

• age >=65 years old

Exclusion Criteria

• blood glucose> 200 mg/dl before the PET/CT scanning
• inflammatory disease
• cancer
• all forms of secondary hypertension
• renal hepatic or pulmonary insufficiency
• absence of cardiac sinus rhythm
• diabetes mellitus
• contraindication to MRI

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: SINGLE_GROUP

Arm && Interventions

Group	Intervention	Description
fluodeoxyglucose (18f)	computed tomography	-
fluodeoxyglucose (18f)	fludeoxyglucose(18f)	-
fluodeoxyglucose (18f)	blood sample	-
fluodeoxyglucose (18f)	cardiac and aortic magnetic resonance imaging	-
fluodeoxyglucose (18f)	carotid femoral pulse wave velocity	-
fluodeoxyglucose (18f)	positron emission tomography	-

Primary Outcome Measures

Name	Time	Method
Aortic inflammation assessed by 18 F FDG maximal standard uptake value measurement	one year	Combined FDG PET/CT imaging was performed using a hybrid scanner hybrid system. For analysis, the thoracic aorta was divided into three segments: the ascending aorta, the aortic arch and the descending aorta. The standard uptake value (SUV) was calculated by dividing the activity measured in each voxel by the total injected activity, which was expressed per g of body weight and corrected for radioactive decay. Aortic activity was quantified using a conventional method on consecutive slices, which were orientated perpendicular to the aorta like described in previous publication. Region of interest (ROI) were drawn around the aorta on each trans-axial slice, allowing mean (SUVmean) and maximal aortic SUV (SUVmax) to be determined on every slice. These values were averaged to determine SUVmean and SUVmax for the ascending aorta, the aortic arch and the descending aorta.; All PET scans were analyzed independently by two trained observers (VR, PM).

Secondary Outcome Measures

Name	Time	Method
parietal thoracic aorta volume of calcification measured by computed tomography	one year	Volumes of aortic calcifications (VCa) were also determined for the three predetermined segments of thoracic aorta using a dedicated software and a threshold of 130 Hounsfield Unity. All scans were analyzed independently by two trained observers (VR, PM).

Trial Locations

Locations (1)

University Hospital of Nancy; 🇫🇷 Vandoeuvre-les-Nancy, France