Clinical Trial: International Intracranial Dissection Study

Study Status: Recruiting
Recruit Status: Recruiting
Study Type: Observational [Patient Registry]

Official Title: International Intracranial Artery Dissection Study

Brief Summary:

Cervicocerebral artery dissection is a major cause for stroke in young adults. While knowledge of cervical artery dissection (CeAD) has increased thanks to a number of high quality studies, knowledge on intracranial artery dissection (IAD) is limited. Due to treatment and publication bias little is known about the natural history of IAD. Overall, IAD is assumed to have a more severe course than CeAD, with a more ominous outcome in patients with subarachnoid hemorrhage (SAH). Furthermore, little information is available on the risk of recurrent IAD as well as on the risk of recurrent ischemic and haemorrhagic events in non-Asian patients. Radiological diagnosis of IAD can be challenging given the small size of intracranial arteries, and the subtle and non-specific radiological signs which tend to evolve over time. The optimal treatment of IAD is unknown. There are no randomised trials and only observational studies with relatively small sample sizes are available, thus providing a very low level of evidence.

Finding the factors that are decisive for outcome and recurrence after intracranial artery dissection is key to an improved management of this potentially severe disease predominantly affecting young patients. By using standardised protocols for diagnosis, imaging and follow-up, the investigators intend to obtain large representative patient samples in order to fill the gap of evidence.


Detailed Summary:

Cervicocephalic artery dissection corresponds to a hematoma in the wall of a cervical or an intracranial artery and is an important cause of stroke in children and young and middle-aged adults. While extracranial cervical artery dissection (CeAD) has been extensively studied and described, less information is available on pure intracranial artery dissection (IAD) not involving the cervical portion of the artery. Early reports were based exclusively on autopsy series, hence biased towards the most severe cases. The incidence of IAD is unknown, but is probably lower than the incidence of symptomatic CeAD in populations of European origin. The proportion of IAD among all cervicocephalic dissections varies substantially between ethnic and age groups, and depending on study recruitment strategies and ascertainment methods. Indeed, recruitments through departments of neurology are biased towards CeAD and IAD presenting with local symptoms and/or ischaemic stroke while recruitments through departments of neurosurgery or interventional neuroradiology are biased towards IAD presenting with subarachnoid haemorrhage (SAH).Therefore, patients with IAD are managed not only by neurologists, but also by neurosurgeons, and interventional neuroradiologists, each having an incomplete picture of the disease.

The vast majority of reported series of IAD patients come from Asian countries and IAD affects the posterior circulation more frequently than the anterior circulation in these series. This contrasts with CeAD and saccular intracranial aneurysms, which most commonly affect the anterior circulation. Due to treatment and publication bias little is known about the natural history of IAD. Overall, IAD is assumed to have a more severe course than CeAD, with a more ominous outcome in patients with SAH IAD than in patients with non-SAH IAD. Furthermore, little information is available on the ri
Sponsor: University Hospital Inselspital, Berne

Current Primary Outcome:

  • Modified Rankin Scale score (mRS score) [ Time Frame: 180 days after diagnosis +/- 30 days ]
    The mRS is a standardised valid measure to semi-quantify functional outcome after stroke.
  • Recurrence of stroke [ Time Frame: 180 days after diagnosis ]


Original Primary Outcome: Same as current

Current Secondary Outcome:

  • Recurrence of cervico- cerebral dissection [ Time Frame: 90 days, 180 days, 12 months ]
  • Recurrence of stroke [ Time Frame: 0-10 days, 90 days, 12 months after diagnosis ]
  • Change in Modified Rankin Scale score (mRS score) from before diagnosis to follow up [ Time Frame: 0-10 days, 90 days, 12 months after diagnosis ]
    The mRS is a standardised valid measure to semi-quantify functional outcome after stroke.
  • Change in occupational status from before diagnosis to follow up [ Time Frame: 0-10 days, 90 days, 180 days, 12 months after diagnosis ]
    The patients' profession, workload (whether the patient is full time or part time working) and, if the patient is not working, the reason why he or she is not working (e.g. for medical reason) are assessed by patient interview according to local routine procedure.
  • Mortality [ Time Frame: 0-10 days, 90 days, 180 days, 12 months after diagnosis ]
  • Increase or reduction in size (>50% local degree of stenosis) or disappearance of stenosis at 6 months (in patients with stenotic and occlusive dissection) [ Time Frame: 180 days after diagnosis ]
    Assessed by radiological assessments according to local routine procedures.
  • Increase or reduction in size (> 20% maximal diameter) of aneurysms at 6 months (in patients with aneurysm) [ Time Frame: 180 days after diagnosis ]
    Assessed by radiological assessments according to local routine procedures.


Original Secondary Outcome: Same as current

Information By: University Hospital Inselspital, Berne

Dates:
Date Received: April 11, 2016
Date Started: August 2016
Date Completion: May 2022
Last Updated: May 8, 2017
Last Verified: May 2017