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Query: UMLS:C0019204 (
hepatocellular carcinoma
)
71,386
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The present study assessed the benefits of 3-D reconstruction of spiral computerized tomography (CT) scans for the diagnosis of and surgical guidance to large liver tumors or tumors at the hepatic hilum. We retrospectively analyzed the cases of 18 children with large liver tumors or with tumors at the hepatic hilum treated in past 5 years. The ages ranged from 45 days to 14 years. Ten cases were examined using the three-dimensional reconstruction using 64 slice spiral CT and eight patients underwent conventional CT or conventional enhanced CT scanning. In 16 cases, the volume of tissue removed exceeded one-third the entire volume of the liver (considered "large" tumors). The largest tumor removed weighed 4.8 kg. In two cases, the excised tissue represented less than one-third of the total liver volume, but in these cases the location of the tumor was considered "complex" due to the proximity to major hepatic vessels. Seven tumors were located in the right lobe, three in the left lateral segment, three in medial segment, three extended beyond the right lobe and two extended beyond the left lateral segment. Pathological diagnoses included hepatoblastoma (n = 9),
hepatocellular carcinoma
(n = 2), mesenchymal hamartoma (n = 4),
teratoma
(n = 1) and adenoma (n = 2). The 3-D reconstructed images could be rotated to view the image from several sides, were semitransparent and allowed for the measurement of tumor size and determination of spatial relation to blood vessels. All 18 children had curative resections as indicated by "tumor-free" microscopic margins. No major intra- or postoperative complications were encountered. Three-dimensional CT imaging can provide high quality images of the tumors and location of the tumor relative to vital hepatic blood vessels. This technique offers a kind of comparatively accurate method compared with traditional imaging techniques, it could help the surgeon identify the tumor borders accurately and devise a comparative safe surgical strategy. With its help the surgeon could identify vital hepatic blood vessels before operation, so they can avoid massive hemorrhaging and avoid massive hemorrhaging during operation. This technique should be more widely applied in the resection of large or complex liver tumors.
...
PMID:Clinical applications of computerized tomography 3-D reconstruction imaging for diagnosis and surgery in children with large liver tumors or tumors at the hepatic hilum. 1782 8
We describe a three dimensional (3D) anchorage independent in vitro protocol for the prolonged growth of human embryoid bodies (EBs) up to 90 days. We grew hESCs (46XX) in methylcellulose (MC) in motion culture in the presence of EB medium (EB), EB medium with Matrigel (EB + MAT), bulk culture medium (BCM), and BCM medium with Matrigel (BCM + MAT). All four experimental groups produced embryoid bodies (EBs) which with prolonged growth to 90 days acquired blood vessels and tissues from all three germ layers. Based on histology, microarray gene expression profiles and the definition for experimental teratomas, we could classify the EBs into early EBs, mature EBs and teratomas. The EB + MAT group produced the highest number of teratomas and their microarray data suggested the presence of inductive microenvironment niches and activation of pathways for self-organization, morphogenesis and growth. When we microinjected
hepatocarcinoma
-Green Fluorescent Protein cells (HepG2-GFP) (46XY) into the teratomas, after 10 days the HepG2-GFP cells had grown inside the
teratoma
as confirmed by confocal microscopy and SRY gene analysis. This 3D-MC-(EB + MAT) in vitro system requires few cells to produce many teratomas, can be used to test pluripotency of potential human embryonic and induced pluripotent stem cell lines (hESC, hiPSC), and is an experimental humanized platform to study cancer cell behavior.
...
PMID:A three dimensional anchorage independent in vitro system for the prolonged growth of embryoid bodies to study cancer cell behaviour and anticancer agents. 2005 3
We discussed the diagnostic and treatment value and clinical significance of computer assisted surgery system (Higemi) in precision surgeries for pediatric complex liver tumors. A total of 21 pediatric cases receiving hepatectomy for tumors in the portal vein and giant liver tumors from June 2012 to January 2015 were analyzed. Higemi was used for 3-dimensional (3D) reconstruction of thin-slice CT images and surgical planning. Tumors were precisely located and blood vessel neighborhood was determined so as to evaluate surgical feasibility. In addition, pathological classification, surgical time, intraoperative blood loss, transfusion rate and complications were predicted. After 3D reconstruction using Higemi, the neighboring relationship of tumors with blood vessels and the running direction of the blood vessels were clearly visualized. Of 21 cases, 10 cases had tumors located in the left lobe, 5 cases in the right lobe, 3 cases showing involvement of right trilobes, and 3 cases in the middle lobe. Lobes exceeding one third of the total liver volume were resected in 18 cases. Postoperative pathological examination indicated 10 cases of hepatoblastoma, 3 cases of
hepatocellular carcinoma
, 3 cases of hamartoma, 3 cases of infantile hemangioendothelioma, 1 case of
teratoma
and 1 case of undifferentiated malignant mesenchymoma. The surgical time was 90-240 min with an average of 130 min; the medium intraoperative blood loss was 60 ml and the minimum blood loss was 3 ml; the transfusion rate was 42.9% (9/21). Surgeries were successful in 20 cases, who were discharged after recovery. However, one case had giant liver tumor combined with severe obstructive jaundice and hepatic insufficiency and died of postoperative liver failure and DIC. 3D reconstruction of CT data using Higemi can clearly visualize the running direction of blood vessels and the neighboring relationship with tumors. Higemi can improve the precision and safety of complex hepatectomy.
...
PMID:Application value of computer assisted surgery system in precision surgeries for pediatric complex liver tumors. 2677 Apr 45
Targeting cancer stem cells with oncolytic virus (OV) holds great potential for thorough elimination of cancer cells. Based on our previous studies, we here established 11R-P53 and mGM-CSF carrying oncolytic adenovirus (OAV) SG655-mGMP and investigated its therapeutic effect on
hepatocellular carcinoma
stem cells Hep3B-C and
teratoma
stem cells ECCG5. Firstly, the augmenting effect of 11R in our construct was tested and confirmed by examining the expression of EGFP with Fluorescence and FCM assays after transfecting Hep3B-C and ECCG5 cells with OVA SG7605-EGFP and SG7605-11R-EGFP. Secondly, the expressions of 11R-P53 and GM-CSF in Hep3B-C and ECCG5 cells after transfection with OAV SG655-mGMP were detected by Western blot and Elisa assays, respectively. Thirdly, the enhanced growth inhibitory and augmented apoptosis inducing effects of OAV SG655-mGMP on Hep3B-C and ECCG5 cells were tested with FCM assays by comparing with the control, wild type 5 adenovirus, 11R-P53 carrying OVA
in vitro
. Lastly, the
in vivo
therapeutic effect of OAV SG655-mGMP toward ECCG5 cell-formed xenografts was studied by measuring tumor volumes post different treatments with PBS, OAV SG655-11R-P53, OAV SG655-mGM-CSF and OAV SG655-mGMP. Treatment with OAV SG655-mGMP induced significant xenograft growth inhibition, inflammation factor AIF1 expression and immune cells infiltration. Therefore, our OAV SG655-mGMP provides a novel platform to arm OVs to target cancer stem cells.
...
PMID:11R-P53 and GM-CSF Expressing Oncolytic Adenovirus Target Cancer Stem Cells with Enhanced Synergistic Activity. 2824 24
Metastasis develops when cancer cells spread from the primary site of a malignant tumor to the surrounding and distant tissues, and it is the most critical problem in cancer treatment. Our group developed cancer stem cells (CSCs) from induced pluripotent stem cells (iPSCs) in the presence of a conditioned medium (CM) of cancer-derived cells. The CSCs were characterized by the formation of malignant tumors in vivo, followed by metastasis. In this study, CSCs converted from mouse iPSCs in the presence of CM from
hepatocellular carcinoma
(
HCC
) cell line Huh7 cells. These converted cells (miPS-Huh7cm cells) were established as the metastatic cells. The generated CSCs were injected into the liver or spleen of nude mice. Almost one month after transplantation, the tumors were excised, and the primary cultured cells derived from the malignant tumors and metastatic nodules were evaluated by stemness and metastatic markers to compare their differences. The miPS-Huh7cm cells exhibited metastatic potential, and efficiently formed malignant tumors with lung and/or liver lesions in vivo, whereas the injected miPS formed
teratoma
. The primary cultured cells derived from the malignant tumors and metastatic nodules sustained the expression of stemness markers, such as Nanog, Klf4 and c-Myc, and acquired cancer stem markers, such as CD90, CD44 and ALDH1. Simultaneously, the expression of metastatic markers, such as Slug, Twist1 and vimentin, in primary cells derived from the malignant tumors, was higher than in metastatic nodules. The CSCs derived from iPSCs, forming malignant tumors and displaying high metastasis, will provide a good animal model to study the mechanisms of metastasis.
...
PMID:Metastasis of Cancer Stem Cells Developed in the Microenvironment of Hepatocellular Carcinoma. 3145 Jul 40
As the field of tissue engineering continues to advance rapidly, so too does the complexity of cell culture techniques used to generate
in vitro
tissue constructs, with the overall aim of mimicking the
in vivo
microenvironment. This complexity typically comes at a cost with regards to the size of the equipment required and associated expenses. We have developed a small, low-cost bioreactor system which overcomes some of the issues of typical bioreactor systems while retaining a suitable scale for the formation of complex tissues. Herein, we have tested this system with three cell populations/tissues: the culture of
hepatocellular carcinoma
cells, where an improved structure and basic metabolic function is seen; the culture of human pluripotent stem cells, in which the cultures can form more heterogeneous tissues resembling the
in vivo
teratoma
and
ex vivo
liver tissue slices, in which improved maintenance of cellular viability is seen over the 3 days tested. This system has the flexibility to be used for a variety of further uses and has the potential to provide a more accessible alternative to current bioreactor technologies.
...
PMID:Applications of novel bioreactor technology to enhance the viability and function of cultured cells and tissues. 3219 33
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