In vitro cell culture of amniotic fluid keratinocytes on amniotic membrane: the ideal tissue for repairing skin ulcers

OBJECTIVE: The amniotic fluid contains a large population of stem keratinocytes demonstrating minimal immunological rejection. Recent evidence suggests that stem cells from the amniotic fluid can be employed in the field of tissue engineering. In this work we identified precursors of the epithelial cells and expanded them in vitro.MATERIALS AND METHODS: After collecting samples of amniotic fluid and separating the cells via centrifugation, we seeded a portion of these cells in selection media to analyze the proliferation of epithelial cells. The stem cells precursors of keratinocytes were identified through specific markers. The expression of these markers was evaluated by immunofluorescence and reverse transcription polymerase chain reaction (PCR).RESULTS: The stem cells demonstrated 90% confluence, after undergoing proliferation in the selection medium for 15 days. Most of these cells tested positive for the keratinocyte-specific markers, but negative for stem cell specific markers. Of note, the identity of the keratinocytes was well established even after several subcultures.CONCLUSIONS: These results suggested that it is feasible to isolate and expand differentiated cell populations in the amniotic fluid from precursor cells. Furthermore, amniotic membranes can be utilized as scaffolds to grow keratinocytes, which can be potentially exploited in areas of skin ulcer transplantation and tissue engineering interventions

WOSMIP II- Workshop on Signatures of Medical and Industrial Isotope Production

Medical and industrial fadioisotopes are fundamental tools used in science, medicine and industry with an ever expanding usage in medical practice where their availability is vital. Very sensitive environmental radionuclide monitoring networks have been developed for nuclear-security-related monitoring [particularly Comprehensive Test-Ban-Treaty (CTBT) compliance verification] and are now operational

IN MEMORIAM

IN MEMORIA

Strangling technique to treat large cervicofacial venous malformations: A preliminary report

Background. Surgical removal of large cervicofacial venous malformations might be hampered by massive intraoperative bleeding. Moreover, these lesions often insinuate within normal surrounding tissue, making complete resection impossible without causing significant morbidity. Methods. Two patients affected by facial venous malformations nonresponsive to sclerotherapy underwent surgery. Bleeding and critical branching of the facial nerve within the lesion prevented the surgeons from proceeding with the removal. The unresectable malformation was decompressed by means of a number of nonresorbable stitches from the surface of the lesion to the periosteum, tailoring a permanent pressure dressing. Results. Outcomes at 12-month follow-up were stable, with good cosmetic results and satisfaction reported by both patients. No long-term side effects related to the procedure were observed. Conclusion. Decompression of large venous malformations by means of a strangling technique might represent a safe and effective procedure for those cases where a removal cannot be accomplished

Occlusion of an intraosseous arteriovenous malformation with percutaneous injection of polymethylmethacrylate

Primary intraosseous arteriovenous malformations are rare. Many minimally invasive procedures can be considered preoperative steps and/or definitive treatment. The case reported regards a young woman with a voluminous arteriovenous extratroncular infiltrating malformation of the humerus. She underwent several treatments, but none of them was completely occlusive. The last treatment consisted of direct percutaneous puncture of the intraosseous alteration and injection of polymethylmethacrylate (PMMA), which is normally used in percutaneous vertebroplasty. We obtained complete occlusion of the humerus lytic lesion. To the best of our knowledge, this represents the first case of intraosseous AVM treated by percutaneous injection of PMMA