Vertebral artery compression of the medulla oblongata: A benign radiological finding?

Dolichoectasia is an arterial disease that causes dilatation and/or tortuosity of the affected vessel. The prevalence of dolichoectasia increases with age, and this disease is also associated with other traditional cardiovascular risk factors. Multiple pathophysiological processes might lead to the development of dolichoectatic vessels, and activation of metalloproteinases and irregular turbulent blood flow seem to cause irreversible disruption of the internal elastic lamina. Intracranial dolichoectasia commonly presents with ischemic or hemorrhagic stroke, and/or cranial neuropathies. The posterior circulation is more frequently affected by the dolichoectatic process than the anterior circulation. A positive diagnosis of dolichoectasia requires visual assessment of vessel shape and, if the posterior circulation is affected, application of Smoker's criteria. Reproducible criteria that aid diagnosis of dolichoectasia in the anterior circulation are lacking. No specific treatment for dolichoectasia exists, and the surgical and medical therapies that have been used to treat this condition have not been systematically evaluated. More evidence is needed to better understand the underlying dilatatory artheriopathy that causes this disease, and to determine whether patients with dolichoectasia might benefit from early diagnosis. In this article, we provide a comprehensive review of current knowledge regarding dolichoectasia, and highlight gaps in our knowledge to aid future research.

Background: Clinicoradiological variability of vertebrobasilar dolichoectasia (VBD) is known. Little is known about cardiovascular disease (CVD) risk and neuroradiological profiles of asymptomatic VBD. Methods: A total of 7,345 adults (5,534 men and 1,811 women) underwent physical checkup (PC) and brain magnetic resonance (MR) studies between 2004 and 2007. Asymptomatic VBD was diagnosed by neurological examination and MR angiography. Neuroradiological features were analyzed in VBD subjects. CVD risk factors were compared between VBD subjects and 5,000 controls matched by sex and age. Results: Ninety-six subjects (85 men and 11 women) had asymptomatic VBD. The detection rate was 1.3% and the male/female ratio 2.5. The mean age ± SD was 60.4 ± 10.6 years (60.0 ± 10.2 in men and 64.0 ± 13.1 in women). As compared to controls, the frequency of hypertension, obesity, smoking, dyslipidemia, diabetes mellitus and a family history of stroke or CVD was increased significantly in VBD subjects. The mean diameter ± SD of the basilar artery (BA) was 4.7 ± 0.2 mm. Only 4 subjects (4%) had a severe degree of elongation and lateral displacement of the BA. Contact of the vertebral artery with the rostral ventrolateral medulla (AMC) was found in 81 subjects: right AMC in 22 subjects and left AMC in 59 subjects. Frequency of hypertension was significantly higher in the left-AMC subjects (57%) than in subjects with right AMC (9%) and no AMC (5%). Other neuroradiological findings revealed small infarcts in 42 subjects, brainstem compression in 4, hydrocephalus in 4 and brain saccular aneurysm in 3. Conclusions: Asymptomatic VBD was detected in 1.3% of the Japanese PC group. Our data indicated male predominance, multiple CVD risk factors, neurovascular hypertension and small infarcts in asymptomatic VBD.

In this study we determined which angiotensin receptors may mediate the cardiovascular effects elicited by angiotensin-(1-7) [Ang-(1-7)] in the rostral ventrolateral medulla (RVLM) and caudal pressor area (CPA) of the ventrolateral medulla (VLM) of anesthetized rats. Furthermore the role of endogenous angiotensins in these areas was also investigated. The pressor effect produced by unilateral microinjection of Ang-(1-7) into the RVLM or CPA was not modified by either the AT1 receptor antagonist, DuP 753 or by the AT2 receptor antagonist, CGP 42112A, but was completely blocked by the Ang-(1-7) selective antagonist, A-779. In contrast, the pressor effect produced by microinjection of angiotensin II (Ang II) was completely blocked by DuP 753 but was not changed by CGP 42112A or A-779. Bilateral microinjection of A-779 into the RVLM or CPA produced a significant fall in mean arterial pressure and heart rate. Microinjection of DuP 753 produced a pressor effect comparable to bilateral injection of vehicle. These results indicate that, although Ang II acts in the VLM through an AT1 receptor subtype, the cardiovascular effects produced by microinjection of Ang-(1-7) into the RVLM and CPA are mediated by a specific angiotensin receptor (AT5?). Furthermore, our data provide evidence that endogenous Ang-(1-7) participates at the VLM in the neural control of arterial blood pressure.