Chronic Venous Ulcers (CVU) - Current Status: Clinical Trial Phase I/IIa

Background Information

Venous ulceration is the most severe and debilitating outcome of chronic venous insufficiency in the leg. It is a common problem in clinical practice. Chronic Venous Ulcers (CVUs) appear as a consequence of impaired venous drainage of the lower extremities, mainly due to venous reflux or venous outflow obstruction leading to a cascade of pathological events leading to breakdown of tissue and the generation of painful wounds. To date there is no conclusive evidence that any particular dressing, topical agent, or systemic agent actively improves venous ulcer healing. Surgeries are often the last hope for severely affected patients since they may be directed toward eliminating the cause of the venous hypertension. Due to the regeneration potential of ABCB5-positive (ABCB5+) mesenchymal stem cells (MSCs) based on the anti-inflammatory and pro-angiogenic effect, skin-derived ABCB5+ MSCs are expected to have a regenerative potential, when applied to patients e.g. suffering of CVU.

Mesenchymal stem cells/mesenchymal stromal cells (MSCs) have been studied and used for more than a decade now to treat various diseases (Casiraghi, et al., 2013). MSCs are multipotent cells that can replicate as undifferentiated cells and that have the potential to differentiate into adipocytic, chondrocytic, or osteocytic lineages (Pittenger, et al., 1999). In the wound healing field MSCs applied to chronic wounds lead to improved wound healing and wound closure (Falanga, et al., 2007). Human MSCs are most commonly isolated from the mononuclear fraction of the bone marrow (BM) or from adipose tissue. However, also other tissues contain convincing stem cells compartment. Skin is renowned for its high endogenous regenerative potential, which is sustained by self-renewing resident progenitor cell populations found in its various compartments, including the dermis. ABCB5+ dermal cells constitute a subpopulation of cells within the dermal MSC compartment.

The examinations of the laboratory of Prof. Dr. Frank lead to the identification of a distinct subpopulation of ABCB5+ progenitor cells isolated from human skin. To isolate those cells a specific and sensitive antibody was created (Frank, et al., 2003) and purified under GMP-conditions as well as tested for viral contaminations (TICEBA).

ABCB5+ cells are found in human skin of healthy individuals of all ages, whereas protein levels decrease with increasing age. This finding supports the idea of the involvement of ABCB5 in the regenerative capacity and the ageing process of the skin (Meier, et al., 2010).

TICEBA GmbH has developed a highly standardized process to isolate ABCB5+ from human skin biopsies and to expand and accumulate the precious stem cells in cell culture. In scientific cooperation with University Hospital Ulm, Germany and the University Hospital Würzburg, Germany as well as the Brigham and Women´s Hospital, Boston / USA, RHEACELL GmbH & Co. KG could show in a variety of preclinical studies that the application of ABCB5+ on acute and chronic wounds leads to enhanced wound (submitted: Vander Beken et al, 2016).



You will find informationen on the autologous and allogeneic clinical trial with ABCB+ mesenchymal stem cells HERE.


« back

Clinical Trials

We are now also recruiting patients for further clinical studies in phase I/IIa with allogeneic ABCB5-positive (ABCB5+) mesenchymal stem cells for the following indications: chronic venous ulcers (CVU), diabetic foot ulcers (DFU) and peripheral arterial occlusive disease (PAOD). For more information click HERE.


Besides the authorization to manufacture a human medicinal product in accordance with § 13 (1) of the German Medicinal Products Act (AMG) for autologous mesenchymal stem cells, TICEBA is also authorized to manufacture a medicinal product for allogeneic mesenchymal as well as allogeneic limbal ABCB5 + stem cells following a recent extension. For more information click HERE.

The Story of Stem Cells

Review our category "The Story of Stem Cells" with the newest topic "Stem cells in wound healing" HERE.