Domenico Ribatti
University of Bari
965 Papers
6.1K Citations
Domenico Ribatti is an academic researcher from University of Bari. The author has contributed to research in topics: Angiogenesis & Biology. The author has an hindex of 96, co-authored 913 publications. Previous affiliations of Domenico Ribatti include University of Genoa & National Institutes of Health.
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Papers
Human recombinant interferon alpha-2a inhibits angiogenesis of chick area vasculosa in shell-less culture.
TL;DR: A decreased extent of the AV; a decreased AV total vessel length; modified percent ratios of different classes of AV vessels having a definite length; and the observed effects of treating with hrIFN-alpha 2a are likely attributable to inhibition of endothelial cell proliferation.
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Enhancement of Tumor Homing by Chemotherapy-Loaded Nanoparticles.
Mirco Ponzoni,Flavio Curnis,Chiara Brignole,Silvia Bruno,Daniela Guarnieri,Leopoldo Sitia,Roberto Marotta,Angelina Sacchi,Matteo Bauckneht,Ambra Buschiazzo,Andrea Rossi,Daniela Di Paolo,Patrizia Perri,Alessandro Gori,Angela Rita Sementa,Laura Emionite,Michele Cilli,Roberto Tamma,Domenico Ribatti,Pier Paolo Pompa,Cecilia Marini,Gianmario Sambuceti,Angelo Corti,Fabio Pastorino +23 more
TL;DR: In vitro studies reveal that TP-pep binds cell lines and cells derived from neuroblastoma patients more efficiently than pep, and shows an increased antineuroblastoma activity in three Neuroblastoma animal models mimicking the growth of neuroblastomas in humans.
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•Journal Article
Angiogenesis and tumor progression in melanoma
TL;DR: It is becoming clear that anti-angiogenic agents will interfere with or block melanoma progression, especially in the vertical growth phase and the metastatic phase.
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Regulation of angiostatic chemokines driven by IL-12 and IL-27 in human tumors
Irma Airoldi,Domenico Ribatti +1 more
TL;DR: The role of IL‐12 and IL‐27 in solid and hematological tumors is focused on, and their potential use as antiangiogenic agents in the treatment of such tumors are suggested and discussed.
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Cell secretion mediated by granule-associated vesicle transport: a glimpse at evolution.
TL;DR: The concept of vesicle‐mediated degranulation is revised in the light of the most recent experimental discoveries and theoretical implications, and the distribution of this secretory mode among vertebrates and its molecular basis are highlighted.
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