Clinical Research Directory

Daratumumab for Familial Cerebral Cavernous Malformations: A Single-Arm Safety and Efficacy Study

Cerebral cavernous malformation (CCM) is a common vascular abnormality of the brain, affecting 0.1%-0.5% of people. It often causes recurrent brain hemorrhages, epilepsy, and neurological impairments, with surgery being the main treatment. However, surgery carries high risks for patients with multiple lesions or lesions in critical areas, and no effective pharmacological treatment is available. CCM is linked to mutations in genes like CCM1, CCM2, CCM3, or MAP3K3, which activate the MEK5-ERK5-KLF2/4 pathway, disrupting endothelial function. Immune cell infiltration, particularly plasma cells with high CD38 expression, suggests a role for humoral immunity in CCM. Depleting B cells in mouse models reduced lesions and hemorrhages, but broad B cell depletion is risky. To find a safer treatment, researchers tested anti-CD38 monoclonal antibodies in mice, showing that targeting CD38 reduced CCM lesion formation. Given the success of CD38-targeted therapies like daratumumab in treating multiple myeloma, this study proposes evaluating daratumumab for CCM in a single-center trial with 10 adult patients to assess its safety and efficacy.

Quantitative Susceptibility Biomarker and Brain Structural Property for Cerebral Cavernous Malformation Related Epilepsy

Cerebral cavernous malformation (CCM)-related epilepsy (CRE) impairs the quality of life in patients with CCM. Patients could not always achieve seizure freedom after surgical resection of the lesion, suggesting an inadequate treatment and evaluation of the epileptogenic zone or network. Iron deposition in cerebral cavernous malformations has been postulated to play an important role in triggering CRE. Quantitative susceptibility mapping (QSM), as an optimal in vivo imaging technique to quantify iron deposition, is employed to analyze the iron quantity in CCM patients with epilepsy and further combined with brain structural and connectome analysis, to describe the difference between CCMs with and without epilepsy. In vivo biomarkers predicting CRE risk in CCM natural history and CRE control outcome after CCM surgical resection will be further identified to improve management strategy.