BACKGROUND Ghost cell odontogenic carcinoma(GCOC) is a rare malignant odontogenic epithelial tumor with features of benign calcifying odontogenic cysts. Herein, we report two new cases of GCOC and systematically revie...BACKGROUND Ghost cell odontogenic carcinoma(GCOC) is a rare malignant odontogenic epithelial tumor with features of benign calcifying odontogenic cysts. Herein, we report two new cases of GCOC and systematically review the previous literature.CASE SUMMARY In case 1, a 46-year-old man complained of painless swelling of the right maxilla for 3 years, with a 1-mo history of hemorrhinia in the right nasal cavity. In case 2,a 72-year-old man was referred to our hospital with a chief complaint of painful swelling of the right mandible. Initially, the preliminary diagnoses were ameloblastomas. Thus, the two patients underwent resection of the tumor under general anesthesia. Finally, immunohistochemical examination confirmed the diagnosis of GCOC. The patient in case 1 was followed for 2 years, with no evidence of recurrence. However, the patient in case 2 was lost to follow-up.CONCLUSION GCOC is a rare malignant odontogenic epithelial tumor with high recurrence.Local extensive resection is necessary for the definitive treatment of GCOC.展开更多
We address the issue of point value reconstructions from cell averages in the context of third-order finite volume schemes,focusing in particular on the cells close to the boundaries of the domain.In fact,most techniq...We address the issue of point value reconstructions from cell averages in the context of third-order finite volume schemes,focusing in particular on the cells close to the boundaries of the domain.In fact,most techniques in the literature rely on the creation of ghost cells outside the boundary and on some form of extrapolation from the inside that,taking into account the boundary conditions,fills the ghost cells with appropriate values,so that a standard reconstruction can be applied also in the boundary cells.In Naumann et al.(Appl.Math.Comput.325:252–270.https://doi.org/10.1016/j.amc.2017.12.041,2018),motivated by the difficulty of choosing appropriate boundary conditions at the internal nodes of a network,a different technique was explored that avoids the use of ghost cells,but instead employs for the boundary cells a different stencil,biased towards the interior of the domain.In this paper,extending that approach,which does not make use of ghost cells,we propose a more accurate reconstruction for the one-dimensional case and a two-dimensional one for Cartesian grids.In several numerical tests,we compare the novel reconstruction with the standard approach using ghost cells.展开更多
BACKGROUND Dentinogenic ghost cell tumor(DGCT) is an uncommon locally invasive odontogenic neoplasm. It is considered to be a solid variant of calcifying odontogenic cyst(COC). This tumor makes up for only 2%-14% of a...BACKGROUND Dentinogenic ghost cell tumor(DGCT) is an uncommon locally invasive odontogenic neoplasm. It is considered to be a solid variant of calcifying odontogenic cyst(COC). This tumor makes up for only 2%-14% of all COCs and less than 0.5% of all odontogenic tumors which owes to its rarity. The purpose of this paper was to describe a case of DGCT and the treatment adopted in our case,and to provide a review of this case in the indexed literature.CASE SUMMARY In this article, we discussed a case of 18 year old male who reported with a chief complaint of a recurrent swelling and dull aching pain in upper left back region of the jaw. Computed tomography scan was carried out which revealed hypodense lesion with a few hyperdense flecks within it suggesting the presence of calcification. On incisional biopsy, diagnosis of COC was given. After segmental resection of the lesion, histopathogically odontogenic epithelium was noted along with calcifications, ghost cells and dentinoid material. Special staining was done with van Gieson and it showed pink areas of dentinoid material and yellow colour represented ghost cells. Hence, amalgamation of careful clinical examination, use of advanced radiographic imaging and detailed histopathological examination confirmed the diagnosis of DGCT. The patient was followed up for one year and there was no recurrence of the lesion or signs of any residual tumor.CONCLUSION Radical treatment should be carried out along with mandatory long-term follow up in order to avoid recurrence in aggressive lesions.展开更多
Purpose:.To compare the merits and limitations of hematoxylin-eosin(HE) and methyl violet staining for displaying ghost cells from vitreous or aqueous humor.Methods:.A specimen containing ghost cells was adjusted to f...Purpose:.To compare the merits and limitations of hematoxylin-eosin(HE) and methyl violet staining for displaying ghost cells from vitreous or aqueous humor.Methods:.A specimen containing ghost cells was adjusted to five different concentrations:(12×104,.10×104,.8×104, 6×104and 4×104cells / ml) and subjected to smearing and methyl violet and HE staining..The staining results were observed by light microscopy.Results: The ghost cells were readily observed at a cell density of > 8×104cells / ml with methyl violet staining,.but only a few cells were occasionally seen at lower cell densities..In contrast,.ghost cells were seen at all cell densities with HE staining.Conclusion: Methyl violet staining is more rapid and simpler for the identification of ghost cells, but its staining color more readily fades, the slides cannot be stored, and it is only effective at a cell density of > 8 ×104cells / ml. In contrast,.HE staining is more time-consuming but it can display cell morphology and distinguish cell components more explicitly and slides can be permanently stored. HE staining has advantages over methyl violet staining in detecting the ghost cells when the concentration is < 8×104cells / ml.展开更多
It is important to track and reconstruct the complex immersed boundaries for simulating fluid structure interaction problems in an immersed boundary method(IBM). In this paper, a polynomial radial basis function(P...It is important to track and reconstruct the complex immersed boundaries for simulating fluid structure interaction problems in an immersed boundary method(IBM). In this paper, a polynomial radial basis function(PRBF) method is introduced to the ghost cell immersed boundary method for tracking and reconstructing the complex moving boundaries. The body surfaces are fitted with a finite set of sampling points by the PRBF, which is flexible and accurate. The complex or multiple boundaries could be easily represented. A simple treatment is used for identifying the position information about the interfaces on the background grid. Our solver and interface reconstruction method are validated by the case of a cylinder oscillating in the fluid. The accuracy of the present PRBF method is comparable to the analytic function method. In ta flow around an airfoil, the capacity of the proposed method for complex geometries is well demonstrated.展开更多
In this paper,an immersed boundary algorithm is developed by combining the ghost cell method with adaptive tree Cartesian grid method.Furthermore,the proposed method is successfully used to evaluate various inviscid c...In this paper,an immersed boundary algorithm is developed by combining the ghost cell method with adaptive tree Cartesian grid method.Furthermore,the proposed method is successfully used to evaluate various inviscid compressible flow with immersed boundary.The extension to three dimensional cases is also achieved.Numerical examples demonstrate the proposed method is effective.展开更多
A finite difference scheme with ghost cell technique is used to study viscous fluid sloshing in 2D and 3D tanks with internal structures.The Navier-Stokes equations in a moving coordinate system are derived and they a...A finite difference scheme with ghost cell technique is used to study viscous fluid sloshing in 2D and 3D tanks with internal structures.The Navier-Stokes equations in a moving coordinate system are derived and they are mapped onto a time-independent and stretched domain.The staggered grid is used and the revised SIMPLEC iteration algorithm is performed.The developed numerical model is rigorously validated by extensive comparisons with reported analytical,numerical and experimental results.The present numerical results were also validated through an experiment setup with a tank excited by an inclined horizontal excitation or a tank mounted by a vertical baffle.The method is then applied to a number of problems including sloshing fluid in a 2D tank with a bottom-mounted baffle and in a 3D tank with a vertical plate.The phenomena of diagonal sloshing waves affected by a vertical plate are investigated in detail in this work.The effects of internal structures on the resonant frequency of a tank with liquid are discussed and the present developed numerical method can successfully analyze the sloshing phenomenon in 2D or 3D tanks with internal structures.展开更多
Chemokine receptors CXCR4 and CCR5 are indispensable co-receptors for HIV-1 entry into host cells. In our previous study, we identified that dopamine receptor-interacting protein 78(DRi P78) and Na+-H+ exchanger r...Chemokine receptors CXCR4 and CCR5 are indispensable co-receptors for HIV-1 entry into host cells. In our previous study, we identified that dopamine receptor-interacting protein 78(DRi P78) and Na+-H+ exchanger regulatory factor 1(NHERF1) are the CXCR4 and CCR5 homo- or hetero-dimerinteracting proteins. DRi P78 and NHERF1 are able to influence the co-receptor internalization and intracellular trafficking. Over-expression of NHERF1 affects the ligands or HIV-1 gp120-induced CCR5 internalization and HIV-1 production. It is reasonable to speculate that DRi P78 and NHERF1, as well as the signaling pathways involved in viral replication, would probably affect HIV-1 replication through regulating the co-receptors. In this present study, we designed two short hairpin RNAs(sh RNAs) targeting the DRi P78 and NHERF1, respectively, and constructed the p Lenti6/BLOCK-i T-DEST lentiviral plasmids expressing DRi P78 or NHERF1 sh RNA. The packaged lentiviruses were used to transduce the widely-applied HIV-1 model cell line GHOST(3). Then, cells with stable knockdown were established through selecting transduced cells with Blasticidin. This study, for the first time, reported the establishment of the GHOST(3) with DRi P78 and NHERF1 knockdown, which is the first stable cell line with HIV-1 co-receptor-interacting molecular defects.展开更多
基金Supported by National Natural Science Foundation of China,No.81502745Science and Technology Project of Jiangxi Province,No.GJJ170014
文摘BACKGROUND Ghost cell odontogenic carcinoma(GCOC) is a rare malignant odontogenic epithelial tumor with features of benign calcifying odontogenic cysts. Herein, we report two new cases of GCOC and systematically review the previous literature.CASE SUMMARY In case 1, a 46-year-old man complained of painless swelling of the right maxilla for 3 years, with a 1-mo history of hemorrhinia in the right nasal cavity. In case 2,a 72-year-old man was referred to our hospital with a chief complaint of painful swelling of the right mandible. Initially, the preliminary diagnoses were ameloblastomas. Thus, the two patients underwent resection of the tumor under general anesthesia. Finally, immunohistochemical examination confirmed the diagnosis of GCOC. The patient in case 1 was followed for 2 years, with no evidence of recurrence. However, the patient in case 2 was lost to follow-up.CONCLUSION GCOC is a rare malignant odontogenic epithelial tumor with high recurrence.Local extensive resection is necessary for the definitive treatment of GCOC.
基金MIUR-PRIN project 2017KKJP4X“Innovative numerical methods for evolutionary partial differential equations and applications”.Gabriella Puppo acknowledges also the support of 2019 Ateneo Sapienza research project no.RM11916B51CD40E1.
文摘We address the issue of point value reconstructions from cell averages in the context of third-order finite volume schemes,focusing in particular on the cells close to the boundaries of the domain.In fact,most techniques in the literature rely on the creation of ghost cells outside the boundary and on some form of extrapolation from the inside that,taking into account the boundary conditions,fills the ghost cells with appropriate values,so that a standard reconstruction can be applied also in the boundary cells.In Naumann et al.(Appl.Math.Comput.325:252–270.https://doi.org/10.1016/j.amc.2017.12.041,2018),motivated by the difficulty of choosing appropriate boundary conditions at the internal nodes of a network,a different technique was explored that avoids the use of ghost cells,but instead employs for the boundary cells a different stencil,biased towards the interior of the domain.In this paper,extending that approach,which does not make use of ghost cells,we propose a more accurate reconstruction for the one-dimensional case and a two-dimensional one for Cartesian grids.In several numerical tests,we compare the novel reconstruction with the standard approach using ghost cells.
文摘BACKGROUND Dentinogenic ghost cell tumor(DGCT) is an uncommon locally invasive odontogenic neoplasm. It is considered to be a solid variant of calcifying odontogenic cyst(COC). This tumor makes up for only 2%-14% of all COCs and less than 0.5% of all odontogenic tumors which owes to its rarity. The purpose of this paper was to describe a case of DGCT and the treatment adopted in our case,and to provide a review of this case in the indexed literature.CASE SUMMARY In this article, we discussed a case of 18 year old male who reported with a chief complaint of a recurrent swelling and dull aching pain in upper left back region of the jaw. Computed tomography scan was carried out which revealed hypodense lesion with a few hyperdense flecks within it suggesting the presence of calcification. On incisional biopsy, diagnosis of COC was given. After segmental resection of the lesion, histopathogically odontogenic epithelium was noted along with calcifications, ghost cells and dentinoid material. Special staining was done with van Gieson and it showed pink areas of dentinoid material and yellow colour represented ghost cells. Hence, amalgamation of careful clinical examination, use of advanced radiographic imaging and detailed histopathological examination confirmed the diagnosis of DGCT. The patient was followed up for one year and there was no recurrence of the lesion or signs of any residual tumor.CONCLUSION Radical treatment should be carried out along with mandatory long-term follow up in order to avoid recurrence in aggressive lesions.
文摘Purpose:.To compare the merits and limitations of hematoxylin-eosin(HE) and methyl violet staining for displaying ghost cells from vitreous or aqueous humor.Methods:.A specimen containing ghost cells was adjusted to five different concentrations:(12×104,.10×104,.8×104, 6×104and 4×104cells / ml) and subjected to smearing and methyl violet and HE staining..The staining results were observed by light microscopy.Results: The ghost cells were readily observed at a cell density of > 8×104cells / ml with methyl violet staining,.but only a few cells were occasionally seen at lower cell densities..In contrast,.ghost cells were seen at all cell densities with HE staining.Conclusion: Methyl violet staining is more rapid and simpler for the identification of ghost cells, but its staining color more readily fades, the slides cannot be stored, and it is only effective at a cell density of > 8 ×104cells / ml. In contrast,.HE staining is more time-consuming but it can display cell morphology and distinguish cell components more explicitly and slides can be permanently stored. HE staining has advantages over methyl violet staining in detecting the ghost cells when the concentration is < 8×104cells / ml.
基金Project supported by the National Science Foundation of China under(Grant Nos.51579196,51139005 and 51490670)the 111 Project(Grant No.B08031)
文摘It is important to track and reconstruct the complex immersed boundaries for simulating fluid structure interaction problems in an immersed boundary method(IBM). In this paper, a polynomial radial basis function(PRBF) method is introduced to the ghost cell immersed boundary method for tracking and reconstructing the complex moving boundaries. The body surfaces are fitted with a finite set of sampling points by the PRBF, which is flexible and accurate. The complex or multiple boundaries could be easily represented. A simple treatment is used for identifying the position information about the interfaces on the background grid. Our solver and interface reconstruction method are validated by the case of a cylinder oscillating in the fluid. The accuracy of the present PRBF method is comparable to the analytic function method. In ta flow around an airfoil, the capacity of the proposed method for complex geometries is well demonstrated.
基金supported partly by National Science Foundation of China(10728026)National Basic Research Program of China(2007CB714600).
文摘In this paper,an immersed boundary algorithm is developed by combining the ghost cell method with adaptive tree Cartesian grid method.Furthermore,the proposed method is successfully used to evaluate various inviscid compressible flow with immersed boundary.The extension to three dimensional cases is also achieved.Numerical examples demonstrate the proposed method is effective.
基金partially supported by National Science Council under a grant NSC 99-2221-E-110-088a grant from Asia-Pacific research centre of NSYSU.
文摘A finite difference scheme with ghost cell technique is used to study viscous fluid sloshing in 2D and 3D tanks with internal structures.The Navier-Stokes equations in a moving coordinate system are derived and they are mapped onto a time-independent and stretched domain.The staggered grid is used and the revised SIMPLEC iteration algorithm is performed.The developed numerical model is rigorously validated by extensive comparisons with reported analytical,numerical and experimental results.The present numerical results were also validated through an experiment setup with a tank excited by an inclined horizontal excitation or a tank mounted by a vertical baffle.The method is then applied to a number of problems including sloshing fluid in a 2D tank with a bottom-mounted baffle and in a 3D tank with a vertical plate.The phenomena of diagonal sloshing waves affected by a vertical plate are investigated in detail in this work.The effects of internal structures on the resonant frequency of a tank with liquid are discussed and the present developed numerical method can successfully analyze the sloshing phenomenon in 2D or 3D tanks with internal structures.
基金supported by the Science and Technology Planning Project of Guangdong Province of China(2012B031800267)the Natural Science Foundation of Guangdong Province of China(S2013010011860)the National Natural Science Foundation of China(31200130 and 81371812)
文摘Chemokine receptors CXCR4 and CCR5 are indispensable co-receptors for HIV-1 entry into host cells. In our previous study, we identified that dopamine receptor-interacting protein 78(DRi P78) and Na+-H+ exchanger regulatory factor 1(NHERF1) are the CXCR4 and CCR5 homo- or hetero-dimerinteracting proteins. DRi P78 and NHERF1 are able to influence the co-receptor internalization and intracellular trafficking. Over-expression of NHERF1 affects the ligands or HIV-1 gp120-induced CCR5 internalization and HIV-1 production. It is reasonable to speculate that DRi P78 and NHERF1, as well as the signaling pathways involved in viral replication, would probably affect HIV-1 replication through regulating the co-receptors. In this present study, we designed two short hairpin RNAs(sh RNAs) targeting the DRi P78 and NHERF1, respectively, and constructed the p Lenti6/BLOCK-i T-DEST lentiviral plasmids expressing DRi P78 or NHERF1 sh RNA. The packaged lentiviruses were used to transduce the widely-applied HIV-1 model cell line GHOST(3). Then, cells with stable knockdown were established through selecting transduced cells with Blasticidin. This study, for the first time, reported the establishment of the GHOST(3) with DRi P78 and NHERF1 knockdown, which is the first stable cell line with HIV-1 co-receptor-interacting molecular defects.
