<b><span>Background:</span></b><span> Liquid-based cytology (LBC) is a method of manufacturing cyto-diagnostic specimens. Improved accuracy is expected from standardizing specim...<b><span>Background:</span></b><span> Liquid-based cytology (LBC) is a method of manufacturing cyto-diagnostic specimens. Improved accuracy is expected from standardizing specimen production and use of this method is rapidly spreading in oral cytology. On the other hand, LBC reportedly requires training to show peculiar cell findings compared to those of conventional smear cytology (CVC). Few studies have compared detailed cell findings for oral CVC and LBC.</span><span> </span><b><span>Objec</span></b><b><span>tives:</span></b><span> The aim of this study was to compare cytological findings between CVC </span><span>and LBC using cytomorphological image analysis.</span><span> </span><b><span>Materials and Methods:</span></b><span> Cytological specimens were collected from 20 patients (negative for squamous neoplasia in 10, dysplasia in 5, squamous cell carcinoma in 5) and 5 controls of the tongue between January 2017 and December 2018. Two different preparation techniques were investigated cytomorphologically for CVC and LBC (BD Cytorich</span><sup><span style="vertical-align:super;">TM</span></sup><span>).</span><span> </span><b><span>Results:</span></b><span> LBC showed significantly higher cell numbers tha</span><span>n CVC for all lesions. LBC-to-CVC ratio ranged from 9.52 (hyp</span><span>erkeratosis) to 1.87 (deep cells in oral squamous cell carcinoma (OSCC)). Nuclear area of </span><span>normal, hyperkeratosis, and inflammation were significantly higher in LBC tha</span><span>n those of CVC. Hyperchromasia was significantly more frequent with </span><span>CVC than with LBC for hyperkeratosis, inflammation, dysplasia and OSCC. There was no significant difference in circularity between CVC and LBC </span><span>among all lesions. </span><b><span>Conclusion:</span></b><span> Only one cytomorphological disadvantage was </span><span>se</span><span>en with LBC, in the form of decreased hyperchromasia. Further </span><span>clarification of the advantages and disadvantages of LBC is needed, including management of precision and screening practices.展开更多
A new modification method for glass slides was developed and applied to make ThinPrep Pap smears,in order to increase the adhesion ability of cervical exfoliative cells.3-glycidyloxypropyl trimethoxysilane(GOPS) was c...A new modification method for glass slides was developed and applied to make ThinPrep Pap smears,in order to increase the adhesion ability of cervical exfoliative cells.3-glycidyloxypropyl trimethoxysilane(GOPS) was coated on the glass slides firstly on the slides,then poly-L-lysine(PLL) was covalently modified onto the above epoxy-terminated slides to form GOPS-PLL double decorated slides.The modified slides were characterized using X-ray photoelectron spectroscopy(XPS) and atomic force microscopy(AFM).The cell adhesion ability effect was tested and compared with traditional PLL coated slides by fixing the cervical exfoliative cells on the double adorned slides.The control test was conducted by the bare glass slides unmodified.The cell morphology of cervical exfoliative cells adhered on different slides was observed under the microscope after Papanicolaou staining.The number of cervical exfoliative cells on the unmodified slides,PLL coated slides and GOPS-PLL coated slides was 10307300,32837226 and 41197280(n=12),respectively.The data among the three different modification methods showed significant differences(one-way analysis of variance,ANOVA test,Po0.05).The cell capturing effect of the GOPS-PLL slide was the best among the three different modified slides.In addition,the GOPS-PLL slide could enhance the uniformity of the adhered cells and be widely applied to the ThinPrep system for cervical carcinoma screening to increase the accuracy rate of diagnosis.展开更多
Anemia is a blood abnormality that affects the quantity and quality of red blood cells in the human body. This sometimes banal sign spares no continent and no social stratum. This anomaly is generally appreciated thro...Anemia is a blood abnormality that affects the quantity and quality of red blood cells in the human body. This sometimes banal sign spares no continent and no social stratum. This anomaly is generally appreciated through biological analyzes of patients</span><span style="font-family:Verdana;">’</span><span style="font-family:Verdana;"> blood. These analyzes, which boil down to the knowledge of hemato-metric constants, cannot by themselves allow the characterization of certain forms of anemia in the sense that most anemia are related to the morphology and color of red blood cells. Our work in this paper is to perform blood smears on patients and perform a morphological and colorimetric analysis of red blood cells on these smears. This approach allowed us to highlight on each erythrocyte morphological and colorimetric descriptors to accurately identify the types of anemia by image processing methods. This identification is performed in an automated environment to allow pathologists to respond quickly to anemia-related emergencies and also improve the treatment to be conducted. This automation required the implementation of a new approach to electronic instrumentation and the acquisition of microscopic blood smear images for the automatic and rapid diagnosis of anemia.展开更多
文摘<b><span>Background:</span></b><span> Liquid-based cytology (LBC) is a method of manufacturing cyto-diagnostic specimens. Improved accuracy is expected from standardizing specimen production and use of this method is rapidly spreading in oral cytology. On the other hand, LBC reportedly requires training to show peculiar cell findings compared to those of conventional smear cytology (CVC). Few studies have compared detailed cell findings for oral CVC and LBC.</span><span> </span><b><span>Objec</span></b><b><span>tives:</span></b><span> The aim of this study was to compare cytological findings between CVC </span><span>and LBC using cytomorphological image analysis.</span><span> </span><b><span>Materials and Methods:</span></b><span> Cytological specimens were collected from 20 patients (negative for squamous neoplasia in 10, dysplasia in 5, squamous cell carcinoma in 5) and 5 controls of the tongue between January 2017 and December 2018. Two different preparation techniques were investigated cytomorphologically for CVC and LBC (BD Cytorich</span><sup><span style="vertical-align:super;">TM</span></sup><span>).</span><span> </span><b><span>Results:</span></b><span> LBC showed significantly higher cell numbers tha</span><span>n CVC for all lesions. LBC-to-CVC ratio ranged from 9.52 (hyp</span><span>erkeratosis) to 1.87 (deep cells in oral squamous cell carcinoma (OSCC)). Nuclear area of </span><span>normal, hyperkeratosis, and inflammation were significantly higher in LBC tha</span><span>n those of CVC. Hyperchromasia was significantly more frequent with </span><span>CVC than with LBC for hyperkeratosis, inflammation, dysplasia and OSCC. There was no significant difference in circularity between CVC and LBC </span><span>among all lesions. </span><b><span>Conclusion:</span></b><span> Only one cytomorphological disadvantage was </span><span>se</span><span>en with LBC, in the form of decreased hyperchromasia. Further </span><span>clarification of the advantages and disadvantages of LBC is needed, including management of precision and screening practices.
基金supported by National 863 Program (no.2007AA09210107)
文摘A new modification method for glass slides was developed and applied to make ThinPrep Pap smears,in order to increase the adhesion ability of cervical exfoliative cells.3-glycidyloxypropyl trimethoxysilane(GOPS) was coated on the glass slides firstly on the slides,then poly-L-lysine(PLL) was covalently modified onto the above epoxy-terminated slides to form GOPS-PLL double decorated slides.The modified slides were characterized using X-ray photoelectron spectroscopy(XPS) and atomic force microscopy(AFM).The cell adhesion ability effect was tested and compared with traditional PLL coated slides by fixing the cervical exfoliative cells on the double adorned slides.The control test was conducted by the bare glass slides unmodified.The cell morphology of cervical exfoliative cells adhered on different slides was observed under the microscope after Papanicolaou staining.The number of cervical exfoliative cells on the unmodified slides,PLL coated slides and GOPS-PLL coated slides was 10307300,32837226 and 41197280(n=12),respectively.The data among the three different modification methods showed significant differences(one-way analysis of variance,ANOVA test,Po0.05).The cell capturing effect of the GOPS-PLL slide was the best among the three different modified slides.In addition,the GOPS-PLL slide could enhance the uniformity of the adhered cells and be widely applied to the ThinPrep system for cervical carcinoma screening to increase the accuracy rate of diagnosis.
文摘Anemia is a blood abnormality that affects the quantity and quality of red blood cells in the human body. This sometimes banal sign spares no continent and no social stratum. This anomaly is generally appreciated through biological analyzes of patients</span><span style="font-family:Verdana;">’</span><span style="font-family:Verdana;"> blood. These analyzes, which boil down to the knowledge of hemato-metric constants, cannot by themselves allow the characterization of certain forms of anemia in the sense that most anemia are related to the morphology and color of red blood cells. Our work in this paper is to perform blood smears on patients and perform a morphological and colorimetric analysis of red blood cells on these smears. This approach allowed us to highlight on each erythrocyte morphological and colorimetric descriptors to accurately identify the types of anemia by image processing methods. This identification is performed in an automated environment to allow pathologists to respond quickly to anemia-related emergencies and also improve the treatment to be conducted. This automation required the implementation of a new approach to electronic instrumentation and the acquisition of microscopic blood smear images for the automatic and rapid diagnosis of anemia.