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Clinical Trial Summary

Capillary malformations (port-wine stains) consist of abnormally developed capillary blood vessels in the skin. To date, laser therapy is the only widely accepted treatment modality for capillary malformations, but this therapy has a suboptimal effect in approximately 50-60% of patients.

Intralesional bleomycin injections (sclerotherapy) are a common effective treatment option for vascular malformations with blood vessels with larger diameters. However, bleomycin cannot be injected adequately in the small sized vessels of capillary malformations. The use of an electric field over the tissue (electroporation) may solve this problem: it increases cell membrane permeability and therefore promotes localized delivery of drugs, within (endothelial) cells.

Electroporation in combination with bleomycin sclerotherapy ('electrosclerotherapy') may therefore offer new therapeutic options for capillary malformations. This proof of principle study aims to explore the effectiveness, safety and feasibility of this potential treatment option in a within-patient-controlled pilot study.


Clinical Trial Description

Capillary malformations are congenital abnormalities of the capillaries in the skin. These abnormally developed blood vessels cause a red color of the skin (also known as 'port-wine stain'),often in combination with a cobble-stone like aspect of the skin. Currently, the only widely accepted treatment option is laser therapy, in which the abnormal blood vessels are targeted with photocoagulation. However, in approximately 50-60% of patients, treatment outcome of laser therapy is suboptimal. Furthermore, re-darkening of the capillary malformation often occurs after laser therapy. Hence, there is a need for an alternative treatment option - especially for treatment-resistant and recurrent capillary malformations.

Intralesional bleomycin injections (sclerotherapy) are a common treatment option for vascular malformations of blood vessels and lymphatic vessels with a larger diameter (venous and lymphatic malformations). According to the literature, this treatment is effective in approximately 80-90% of patients. Unfortunately, the diameter of capillary blood vessels is too small, and therefore adequate localized injections of bleomycin are not possible in capillary malformations.

'Electroporation' is a physical phenomenon that causes an alteration of the structure of cell membranes through the exposure of cells to a short but intense electric field; this modification of the cell membrane increases its permeability. After electroporation, molecules that normally do not cross the cell membrane, either by diffusion or by active transport, can reach the intracellular environment. Therefore, electroporation is an ideal method for localized drug delivery, in particular for localized bleomycin delivery.

The combination of electroporation and bleomycin is already used in a variety of skin lesions, such as squamous cell carcinoma, with a surprisingly high rate of complete remission. Especially in vascular tumors, such as Kaposi sarcoma, there is an extremely high percentage of complete remission (90%), since the combination of bleomycin and electroporation causes a 'vascular lock' and intravascular thrombosis of tumor vascularization, leading to tumor regression.

This phenomenon (intravascular thrombosis and lesion regression) is exactly the intended effect of capillary malformation treatment.

The investigators therefore hypothesize that intralesional bleomycin injections combined with electroporation (electrosclerotherapy) can be an alternative treatment option for capillary malformations. This proof of principle study aims to explore the feasibility of this potential treatment option in a small patient sample. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT02883023
Study type Interventional
Source Academisch Medisch Centrum - Universiteit van Amsterdam (AMC-UvA)
Contact Sophie E Horbach, MD
Phone 0031-20-5666679
Email s.e.horbach@amc.uva.nl
Status Recruiting
Phase Phase 2
Start date November 2016
Completion date March 2018

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