11 research outputs found
High-grade versus low-grade serous carcinoma of the ovary – current differential diagnosis and perspectives
Introduction. Serous carcinoma is responsible for 47% of all ovarian cancers, and from these cases, only 5% are represented by low-grade serous carcinoma, the rest of them accounting for high-grade serous carcinoma.
Objective. The aim of this study is an observational approach of the differences and similarities of the two types of serous carcinoma of the ovary, that must be seen as different forms of cancer and rendered with care.
Methods. We performed a retrospective study using three cases of ovarian high-grade serous carcinoma and three cases of ovarian low-grade serous carcinoma, diagnosed at the University Emergency Hospital Bucharest. We analyzed patients’ age, clinical symptoms, macroscopic and microscopic features together with immunohistochemistry tests.
Results. Mean age for HG carcinoma was 71.3 years old and for LG carcinoma 47.6 years old. Average tumor diameter was with 5.67 cm higher for LG carcinoma. The most encountered stage for HG tumors was pT2a and for LG tumors was pT1a. Mean value for Ki67 was with 36.33% higher for HG carcinoma. AR expressed diffuse positivity in two cases of LG and only focal positivity in two cases of HG. CD44 expressed focal positivity in all cases of LG and had different patterns in HG.
Conclusions. We found considerable differences between patients’ mean age, macroscopic and microscopic features, together with immunohistochemistry expression for Ki67, AR, CD44
TITANIUM FUNCTIONALIZING AND DERIVATIZING FOR IMPLANTABLE MATERIALS OSSEOINTEGRATION PROPERTIES ENHANCING
The article focuses on titanium functionalizing and derivatizing reactions for implantable materials osseointegration properties enhancing. Thus, the titanium dioxide was activated to the titanium hydroxide (functionalization), being further immobilized on the titanium surface by ethanolamine covalent reactions and (3-aminopropyl)triethoxysilane (APTS) for the osseointegration membranes reactive coating. The derivatizing was based on ether forming reactions between hydroxyl group from the titanium hydroxide surface and the ethanolamine hydroxyl groups and hydrolyzed APTS respectively. The obtained materials were characterized by scanning electron microscopy, FT-IR infrared spectroscopy, contact angle and X-Ray fluorescence
Clinico‑morphological aspects and new immunohistochemistry characteristics of ovarian high‑grade serous carcinoma
Introduction. High‑grade serous carcinoma of the ovary is an aggressive form of cancer, with unknown precursor lesions and often delayed diagnosis because of non‑specific, mild symptoms.
Objective. We performed a clinical‑pathological study of ovarian high‑grade serous carcinomas, in order to evaluate morphological and new immunohistochemistry characteristics of this malignancy.
Methods. This is a retrospective study of 10 cases of ovarian high‑grade serous carcinoma. We evaluated patients’ age, symptoms at presentation, macroscopic aspects, bilateral involvement, microscopic features: papillary/solid areas, mitotic index, psammoma bodies, tumoral extension, lymph node metastasis, immunohistochemistry markers: CD44, ER, AR, Ki67 index.
Results. Mean age was 56.9 years old. Tumors were bilateral in 50% of cases. Only 30% were limited to the ovary. Maximum tumor diameter was 16 cm. Solid component in a proportion of 50‑95% was more characteristic. Most tumors had a mitotic index of 30‑50 mitosis/10HPF (70% of cases). 20% of cases contained psammoma bodies. 2 cases out of 7 had lymph node metastasis. We noticed one case with pleural metastasis (M1). We observed AR80% was noticed in 30% of cases. CD44 was positive in 50% of cases and one case had diffuse positivity of CD44 in corpus luteum cells near the tumoral bed.
Conclusions. The majority of patients with ovarian high‑grade serous carcinomas presented with extraovarian extension and were characterized by high mitotic index, rare presence of psammoma bodies, AR expression <10%, novel marker CD44 positive in 50% of cases and curious positivity in corpus luteum cells associated with the tumor
Influence of halloysite nanotubes on physical and mechanical properties of cellulose fibres reinforced vinyl ester composites
Natural fibres are generally added to polymer matrix composites to produce materials with the desirable mechanical properties of higher specific strength and higher specific modulus while at the same time to maintain a low density and low cost. The physical and mechanical properties of polymer composites can be enhanced through the addition of nanofillers such as halloysite nanotubes. This article describes the fabrication of vinyl ester eco-composites and eco-nanocomposites and characterizes these samples in terms of water absorption, mechanical and thermal properties. Weight gain test and Fourier transform infrared analysis indicated that 5% halloysite nanotube addition gave favourable reduction in the water absorption and increased the fibre–matrix adhesion leading to improved strength properties in the eco-nanocomposites. However, halloysite nanotube addition resulted in reduced toughness but improved thermal stability
Enhanced Dispersion of TiO2 Nanoparticles in a TiO2/PEDOT:PSS Hybrid Nanocomposite via Plasma-Liquid Interactions
A facile method to synthesize a TiO2/PEDOT:PSS hybrid nanocomposite material in aqueous solution through direct current (DC) plasma processing at atmospheric pressure and room temperature has been demonstrated. The dispersion of the TiO2 nanoparticles is enhanced and TiO2/polymer hybrid nanoparticles with a distinct core shell structure have been obtained. Increased electrical conductivity was observed for the plasma treated TiO2/PEDOT:PSS nanocomposite. The improvement in nanocomposite properties is due to the enhanced dispersion and stability in liquid polymer of microplasma treated TiO2 nanoparticles. Both plasma induced surface charge and nanoparticle surface termination with specific plasma chemical species are proposed to provide an enhanced barrier to nanoparticle agglomeration and promote nanoparticle-polymer binding