G Mangold scite author profile

Purpose: This study evaluated the clinical relevance of the dual-targeting strategy involving PI3K/AKT/ mTOR and RAF/MEK/ERK pathways.Experimental Design: We investigated safety, efficacy, and correlations between tumor genetic alterations and clinical benefit in 236 patients with advanced cancers treated with phase I study drugs targeting phosphoinositide 3-kinase (PI3K) and/or mitogen-activated protein kinase (MAPK) pathways in our Phase I Clinical Trials Program.Results: Seventy-six (32.2%) patients received a PI3K pathway inhibitor in combination with a MAPK pathway inhibitor (D), whereas 124 (52.5%) and 36 (15.3%), respectively, received an inhibitor of either the PI3K or MAPK pathways (S). The rates of drug-related grade >III adverse events were 18.1% for (S) and 53.9% for (D; P < 0.001); the rates of dose-limiting toxicities were 9.4% for (S) and 18.4% for (D; P ¼ 0.06). The most frequent grade >III adverse events were transaminase elevations, skin rash, and mucositis. In our comprehensive tumor genomic analysis, of 9 patients who harbored coactivation of both pathways (colorectal cancer, n ¼ 7; melanoma, n ¼ 2), all 5 patients treated with (D) had tumor regression ranging from 2% to 64%.Conclusions: These results suggest that dual inhibition of both pathways may potentially exhibit favorable efficacy compared with inhibition of either pathway, at the expense of greater toxicity. Furthermore, this parallel pathway targeting strategy may be especially important in patients with coexisting PI3K pathway genetic alterations and KRAS or BRAF mutations and suggests that molecular profiling and matching patients with combinations of these targeted drugs will need to be investigated in depth. Clin Cancer Res; 18(8); 2316-25. Ó2012 AACR.

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A243 Comparison of Procalcitonin (Pct) and CRP Plasma Concentrations at Different Apache 11 Cores During the Course of Sepsis and Mods

Meisner¹,

Tschaikowsky²,

Palmaers³

et al. 1997

Anesthesiology

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Anti-tumor efficacy and biodistribution of intravenous polymeric micellar paclitaxel

Zhang

Burt

Mangold³

et al. 1997

Anti-Cancer Drugs

100

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An investigation of the antitumour activity and biodistribution of polymeric micellar paclitaxel

Zhang¹,

Burt

Hoff³

et al. 1997

Cancer Chemotherapy and Pharmacology

106

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Design of New Topoisomerase II Inhibitors Based upon a Quinobenzoxazine Self-Assembly Model

et al. 1998

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A new class of pyridobenzophenoxazine compounds has been developed as topoisomerase II inhibitors for anticancer chemotherapy. These compounds were designed based on a proposed model of a quinobenzoxazine self-assembly complex on DNA. They showed excellent inhibitory effects on several tumor cell lines with nanomolar IC50 values. Their cytotoxic potency correlates with their ability to unwind DNA and inhibit topoisomerase II.

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G Mangold

The Clinical Effect of the Dual-Targeting Strategy Involving PI3K/AKT/mTOR and RAS/MEK/ERK Pathways in Patients with Advanced Cancer

A243 Comparison of Procalcitonin (Pct) and CRP Plasma Concentrations at Different Apache 11 Cores During the Course of Sepsis and Mods

Anti-tumor efficacy and biodistribution of intravenous polymeric micellar paclitaxel

An investigation of the antitumour activity and biodistribution of polymeric micellar paclitaxel

Design of New Topoisomerase II Inhibitors Based upon a Quinobenzoxazine Self-Assembly Model

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