Stem Cells from Fat Tissue Show Promise in Reconstructive Surgeries for Face and Skull


Durham, NC (PRWEB) February 21, 2014

A new study released today in STEM CELLS Translational Medicine shows that many patients with defects to the skull, face or jaw bone might benefit from reconstructive surgery combining stem cells taken from adipose (fat) tissue seeded on resorbable scaffolds.

These defects can be due to congenital malformations, such as cleft lip and palate, or to traumatic injuries or surgery to remove a tumor. The use of a patients own bone is still considered the gold standard for reconstructing these defects, but this requires yet another surgery to harvest the bone for the reconstructive procedure. The STEM CELLS Translational Medicine study tracked the case of 13 patients undergoing regenerative medicine procedures.

To our knowledge, this study represents the first GMP-compliant application for autologous adipose-derived stem cells in the treatment of defects at various sites of the cranio-maxillofacial skeleton, said the studys lead investigator, George K. Sndor, M.D., DDS, Ph.D., of the University of Tampere (UT), Tampere, Finland. He and Susanna Miettinen, Ph.D., were lead investigators on the study conducted by scientists and clinicians who, in addition to UT, came from the University of Oulu (Oulu, Finland) and Central Hospital (Jyvskyl, Finland).

Isolated reports of hard tissue (bone) reconstruction in the skull, face or jaw (cranio-maxillofacial skeleton) exist, but multi-patient case series are lacking. This study aimed to review the experience of 13 people with hard tissue defects at four anatomically different sites: the frontal sinus (three cases), cranial bone (five cases), the jaw (three cases) and the nasal septum (two cases).

Stem cells were harvested from adipose tissue in each patients abdomen, treated in the lab and then seeded onto resorbable scaffold materials for implantation back into the patient. The scaffolds were constructed with either bioactive glass or -TCP (a bone graft substitute). In some cases a protein called rhBMP-2, which plays an important role in the development of bone and cartilage, was added, too.

The results were promising. All three of the frontal sinus cases and three of the five cranial defect cases were successfully treated. (The other two cranial cases in which non-rigid resorbable containment meshes were used sustained bone resorption to the point that they required a redo procedure.) One of the two septal perforations failed after a year due to an infection resulting from the patients own actions, but the other healed successfully.

The three patients with reconstructed jaw defects also had good results; in fact, two of them chose to have dental implants placed directly into the stem cell-seeded grafts after healing, allowing these patients to once again enjoy a normal diet.

While the resorption of some of the constructs in the cranial defects was more than expected, Nevertheless, Dr. Sndor said, the majority of these challenging defects 10 of 13 were successfully treated with integration of the stem cell-seeded constructs to the surrounding skeleton at the defect sites. Dr. Miettinen added that the next steps should involve more animal studies and tracking of long-term results in humans.

This case series, involving various sites of defect, illustrates the potential promise of engineering replacement bone in the lab to avoid harvesting bone from the patient, commented Anthony Atala, M.D., editor of STEM CELLS Translational Medicine and director of the Wake Forest Institute for Regenerative Medicine.

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Stem Cells from Fat Tissue Show Promise in Reconstructive Surgeries for Face and Skull

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