5 research outputs found
Mammary Analogue Secretory Carcinoma Arising in the Parotid Gland of Child
Summary:. Mammary analogue secretory carcinoma (MASC) of salivary glands is a newly recognized tumor entity. We report a child who was initially diagnosed with lymphangioma and referred to our institute for sclerotherapy, only to find out that the tumor was in fact MASC after excision. This case of MASC is in a 7-year-old boy, the youngest case so far reported. He referred to his primary care physician with a infra-auricular swelling, and it was diagnosed as lymphatic malformation he was referred to our institution for sclerotherapy. For Doppler and ultrasound magnetic resonance imaging, there was a distinct cystic lesion with a heterogeneous solid lesion inside. Minimally invasive treatment such as sclerotherapy was thought to be more desirable due to a pediatric case, the risk of postoperative facial paralysis and scar. However, even the successful treatment of cystic lesion with sclerotherapy, solid lesion of the tumor could be remained without pathological findings. Otolaryngologist also thought the importance of pathological diagnosis, and we finally chose surgical excision. The tumor was ultimately diagnosed as MASC considering histological and genetic findings. For child case, we tend to treat patient less invasively, and it might bring a risk of MASC being incorrectly treated nonsurgically such as with sclerotherapy. This could lead to tumor progression and wider radical excision at last. We believe that histological diagnosis should become the priority in similar cases of mixed solid and cystic tumors to avoid incorrect treatment, and we need to choose surgical excision by understanding the character of salivary gland tumor occurring in childhood
The Effect of Control-released Basic Fibroblast Growth Factor in Wound Healing: Histological Analyses and Clinical Application
Background: Basic fibroblast growth factors (bFGFs) play a crucial role in wound healing by promoting fibroblast proliferation and neovascularization. However, drawback of bFGF is short half-life in free form. Gelatin has a capability of sustaining growth factors, which are gradually released while degradation. The purpose of this study is to see whether bFGF-impregnated gelatin sheet is effective in a murine model and whether it could also be available for patients in a safe manner.
Methods: Full-thickness skin defect was created on C57BL/6J mice and covered with bFGF with gelatin sheet (group A), bFGF without gelatin sheet (group B), phosphate buffer saline (PBS) with gelatin sheet (group C), and only PBS (group D). Wound healing was evaluated in terms of percent wound closure, granulation thickness, wound maturity, and vascular density. Clinical trial was conducted for patients who received either acute or chronic ulcers. The sheets were put onto the wounds and covered by hydrocolloid dressing, which was changed weekly.
Results: Groups A and B exhibited better wound healing than groups C and D in all aspects. Moreover, group A showed better results than group B at day 7 in terms of wound closure, collagen maturity, and vascularity. Efficacy without any adverse events was found in the clinical series.
Conclusions: These findings suggest that control-released bFGF using gelatin sheet is effective for promoting wound healing. Such therapeutic strategy was considered to offer several clinical advantages including rapid healing and reduction of the dressing change with less patient discomfort
Effect of Control-released Basic Fibroblast Growth Factor Incorporated in β-Tricalcium Phosphate for Murine Cranial Model
Background: β-Tricalcium phosphate (β-TCP) is used clinically as a bone substitute, but complete osteoinduction is slow. Basic fibroblast growth factor (bFGF) is important in bone regeneration, but the biological effects are very limited because of the short half-life of the free form. Incorporation in gelatin allows slow release of growth factors during degradation. The present study evaluated whether control-released bFGF incorporated in β-TCP can promote bone regeneration in a murine cranial defect model.
Methods: Bilateral cranial defects of 4 mm in diameter were made in 10-week-old male Sprague-Dawley rats treated as follows: group 1, 20 μl saline as control; group 2, β-TCP disk in 20 μl saline; group 3, β-TCP disk in 50 μg bFGF solution; and group 4, β-TCP disk in 50 μg bFGF-containing gelatin hydrogel (n = 6 each). Histological and imaging analyses were performed at 1, 2, and 4 weeks after surgery.
Results: The computed tomography value was lower in groups 3 and 4, whereas the rate of osteogenesis was higher histologically in group 4 than in the other groups. The appearance of tartrate-resistant acid phosphate–positive cells and osteocalcin-positive cells and disappearance of osteopontin-positive cells occurred earlier in group 4 than in the other groups.
Conclusions: These findings suggest that control-released bFGF incorporated in β-TCP can accelerate bone regeneration in the murine cranial defect model and may be promising for the clinical treatment of cranial defects