Masaru Yamaguchi scite author profile

As in other tumors, the assessment of microvessel density (MVD) in hepatocellular carcinoma (HCC) may be essential to perform an effective anti-angiogenic therapy for this tumor. The relationship between vascular endothelial growth factor (VEGF) and MVD of HCC as well as the surrounding liver remains to be elucidated. In 71 patients who had undergone curative hepatic resection for HCC, MVD and VEGF expressions were evaluated for HCC and the liver by quantitative reverse-transcription polymerase chain reaction (RT-PCR) and/or immunostaining. The intensity and extent of VEGF immunoreactivity were evaluated using a computer image analyzer-cell analysis system (CAS). Angiographic data were re-evaluated and compared with MVD in 50 tumors. Tumoral MVD was significantly correlated with tumor capsule formation (t test, P ‫؍‬ .0016). Small HCCs (I2 cm) had a significantly lower MVD compared with moderate-sized HCCs (2-5 cm) (t test, P ‫؍‬ .016), and the MVD of large HCCs was relatively lower than that of moderate tumors. Tumor vascularity on angiography was not correlated with the MVD. Neither VEGF mRNA levels nor protein expression in HCC were correlated with the tumoral MVD or any histopathological features of the tumor. However, cirrhotic livers had significantly higher MVD and VEGF expressions compared with noncirrhotic livers (t test, P ‫؍‬ .0015 and P ‫؍‬ .047, respectively). Only the MVD of tumor was significantly correlated with intrahepatic recurrence (t test, P ‫؍‬ .0048) and disease-free survival (DFS) rates (log rank test, P ‫؍‬ .0035). Moreover, the MVD was an independent predictor for DFS by multivariate analysis ( 2 test, P ‫؍‬ .03). In conclusion, the MVD in HCC may be involved in the dismal prognosis of this tumor, and VEGF may be associated with the angiogenic process of the cirrhotic liver, but not with the angiogenesis of HCC. (HEPATOLOGY 1998;27:1554-1562.)Angiogenesis is implicated in cancer development, progression, growth, and metastasis.

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Levels of RANKL and OPG in gingival crevicular fluid during orthodontic tooth movement and effect of compression force on releases from periodontal ligament cells in vitro

Nishijima

Yamaguchi

Kojima

et al. 2006

Orthod Craniofacial Res

181

175

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RANK/RANKL/OPG during orthodontic tooth movement

Yamaguchi¹

2009

Orthod Craniofacial Res

219

151

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Inhibitory effect of low‐level laser irradiation on LPS‐stimulated prostaglandin E₂ production and cyclooxygenase‐2 in human gingival fibroblasts

Sakurai¹,

Yamaguchi

Abiko³

2000

European J Oral Sciences

274

134

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It has been reported that lipopolysaccharide (LPS) from periodontal pathogens can penetrate gingival tissues and stimulate the production of prostaglandin E2 (PGE2), which is known as a potent stimulator of inflammation and bone resorption. Although biostimulatory effects of low-level laser irradiation such as anti-inflammatory results have been reported, the physiological mechanism is not yet clarified. The purpose of the present study was to determine the effect of laser irradiation on PGE2 production and cyclooxygenase (COX)-1 and COX-2 gene expression in LPS-challenged human gingival fibroblast (hGF) cells in vitro. hGF cells were prepared from healthy gingival tissues and challenged with LPS, and Ga-Al-As diode laser was irradiated to the hGF cells. The amount of PGE2 released in the culture medium was measured by radioimmunoassay, and mRNA levels were analyzed by reverse transcriptase-polymerase chain reaction (RT-PCR). Irradiation with Ga-Al-As diode low-level laser significantly inhibited PGE2 production in a dose-dependent manner, which led to a reduction of COX-2 mRNA levels. In conclusion, low-level laser irradiation inhibited PGE2 by LPS in hGF cells through a reduction of COX-2 mRNA level. The findings suggest that low-level laser irradiation may be of therapeutic benefit against the aggravation of gingivitis and periodontitis by bacterial infection.

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Low‐energy laser stimulates tooth movement velocity via expression of RANK and RANKL

Fujita

Yamaguchi

Utsunomiya

et al. 2008

Orthod Craniofacial Res

186

124

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