Giovanni Ventriglia scite author profile

Giovanni Ventriglia

2Publications

88Citation Statements Received

28Citation Statements Given

How they've been cited

113

How they cite others

164

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Publications

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Osteoclast Stimulating and Differentiating Factors in Human Cholesteatoma

Hamzei¹,

Ventriglia²,

Hagnia³

et al. 2003

The Laryngoscope

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This study reveals that the number of osteoclast precursor cells is markedly increased in the perimatrix of cholesteatoma tissue. Our results support a concept described for inflammatory arthritis: the inflammation related to cholesteatoma induces bone resorption by release of OPGL from activated T-cells and triggers osteoclastogenesis. This could be a major target for drugs to inhibit osteoclast formation and bone resorption and may be an adjunct in cholesteatoma management.

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Ovarian Toxicity: From Environmental Exposure to Chemotherapy

Iorio¹,

Castellucci²,

Ventriglia³

et al. 2014

CPD

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Unlike men, who have continuous spermatogenesis throughout most of their lifetime, women are born with a fixed supply of follicles, and this number progressively declines with age until the menopause. Beside age, the speed of follicle depletion can be regulated by genetic, hormonal and environmental influences. In the course of their lives, women are exposed to multiple chemicals and radiation sources that can increase the chance of developing permanent infertility and premature ovarian failure (POF). A wealth of experimental data indicate that iatrogenic (chemotherapy, radiotherapy) and xenobiotic agents (e.g., chemicals, pharmaceuticals) are potent ovotoxicants capable of accelerating ovarian reserve depletion. In the present review we reported the negative effects exerted on mammalian ovary by some widely diffused environmental chemicals, as polycyclic aromatic hydrocarbons (PAHs) and dithiocarbamate mancozeb, and by 1-3 butadiene and 4-vinylcycloexene, two occupational chemicals known to be capable of inducing ovarian cancer and infertility. Furthermore, attention has been devoted to the consequences of chemo- and radiotherapy on the ovary, both known to affect reproductive lifespan. Our increasing understanding of metabolic alterations induced by these agents is fundamental to individuate new therapeutic strategies aimed to prevent ovarian dysfunction in fertile women.

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