Cerebral amyloid angiopathy (CAA) is caused by the accumulation of amyloid-beta (Aβ) in the cerebrovasculature. The glymphatic system is thought to be involved in the clearance of cerebral waste products, including Aβ. Stimulation of the glymphatic system through enhancing deep sleep with low-sodium oxybate (LXB) or inhibition of cortical spreading depolarisations via non-invasive vagus nerve stimulation (nVNS) could potentially increase clearance of Aβ and hence improve disease course.

We will perform a pre-post trial to assess whether treatment with LXB, nVNS or a combination of both interventions can enhance the clearance of Aβ in patients with CAA. A total of 60 participants, 30 with sporadic CAA and 30 with Dutch-type CAA, will be randomly assigned to receive either LXB, nVNS or both interventions, resulting in three groups (20 in each group: LXB, nVNS and both). The study spans 6 months, comprising a 3-month observational phase and a 3-month intervention phase. The primary outcome measure will be the morning levels of Aβ40 and Aβ42 in cerebrospinal fluid (CSF) before and after the intervention. We will assess possible disease progression with (non-)haemorrhagic imaging markers on 7-Tesla MRI at baseline, before and after intervention, as a secondary outcome. Additionally, the activity of the glymphatic system by means of fluid dynamics will be assessed with CSF-Selective T2-weighted Readout with Acceleration and Mobility encoding (CSF-STREAM) on 7-Tesla MRI.

The study was reviewed and approved by the Medical Research Ethics Committee Leiden The Hague Delft (P23.100) on 8 April 2024. The first participant was enrolled on 27 March 2025. Study results will be published in peer-reviewed journals and presented at scientific conferences. Additionally, study updates and results will be shared with participants via our newsletter twice a year.

EU CT number 2023–5 06 128-10-00, Universal Trial Number U1111-1295-1113, ClinicalTrials.gov NCT06421532.

In the Netherlands, approximately 2200 major amputations of the lower extremities are performed each year, the majority in vascular patients. Around 61% of these patients will develop postamputation pain (PAP). PAP is a severe, lifelong, disabling condition profoundly affecting quality of life. During amputations, the common practice is to cut the nerves without employing nerve-surgical techniques to prevent chronic pain due to neuroma formation. In recent years, targeted muscle reinnervation (TMR) has been the most frequently studied technique for treating PAP, inhibiting neuroma formation by rerouting the cut mixed nerve to a functional motor nerve. We hypothesise that a primary TMR procedure during major lower limb amputations will result in a lower prevalence of PAP.

We propose a national, multicentre, randomised, sham-controlled trial comparing TMR with traction neurectomy in major amputations of the lower extremities in patients with vascular disease. 203 patients will be recruited with an indication for a transfemoral to transtibial amputation as a primary or secondary sequela of vascular disease. The subjects are randomly assigned to the TMR group or the traction neurectomy group. PAP will be evaluated 1 year postoperatively as the primary endpoint. Secondary outcomes include quality of life, mobility, neuropathic pain, hospital anxiety and depression, cost-effectiveness and complications.

This study has been reviewed and approved by the local ethical review body, ‘The Medical Ethics Committee Leiden The Hague Delft’, under the reference: P24.073 on 28 November 2024. Results will be published in peer-reviewed journals.

NCT06719245. Dutch trial registry: NL87196.058.24