International study on inter-reader variability for circulating tumor cells in breast cancer

Introduction: Circulating tumor cells (CTCs) have been studied in breast cancer with the CellSearch® system. Given the low CTC counts in non-metastatic breast cancer, it is important to evaluate the inter-reader agreement.Methods: CellSearch® images (N = 272) of either CTCs or white blood cells or artifacts from 109 non-metastatic (M0) and 22 metastatic (M1) breast cancer patients from reported studies were sent to 22 readers from 15 academic laboratories and 8 readers from two Veridex laboratories. Each image was scored as No CTC vs CTC HER2- vs CTC HER2+. The 8 Veridex readers were summarized to a Veridex Consensus (VC) to compare each academic reader using % agreement and kappa (κ) statistics. Agreement was compared according to disease stage and CTC counts using the Wilcoxon signed rank test.Results: For CTC definition (No CTC vs CTC), the median agreement between academic readers and VC was 92% (range 69 to 97%) with a median κ of 0.83 (range 0.37 to 0.93). Lower agreement was observed in images from M0 (median 91%, range 70 to 96%) compared to M1 (median 98%, range 64 to 100%) patients (P < 0.001) and from M0 and <3CTCs (median 87%, range 66 to 95%) compared to M0 and ≥3CTCs samples (median 95%, range 77 to 99%), (P < 0.001). For CTC HER2 expression (HER2- vs HER2+), the median agreement was 87% (range 51 to 95%) with a median κ of 0.74 (range 0.25 to 0.90).Conclusions: The inter-reader agreement for CTC definition was high. Reduced agreement was observed in M0 patients with low CTC counts. Continuous training and independent image review are required

Phase I clinical and pharmacokinetic study of zeniplatin, a new platinum complex.

Forty-six patients with refractory solid malignancies received the new platinum complex [2,2-bis(aminomethyl)-1,3-propanediol-N-N'] [1,1-cyclobutanedicarboxylato] [(2-)0,0')] platinum (zeniplatin). Zeniplatin was given, without hydration or mannitol, as a 60- to 90-min i.v. infusion every 3 weeks at doses ranging from 8 to 145 mg/m2. The maximum tolerated dose of zeniplatin was 145 mg/m2. The dose-limiting toxicity of zeniplatin was dose-related leukopenia and neutropenia, with the nadir usually observed between 1 and 2 weeks after therapy and recovery usually occurring by 3 weeks after therapy. Thrombocytopenia was rare. The most prominent non-hematological side-effect of zeniplatin was nausea and vomiting. Other non-hematological side-effects were mild or absent. Zeniplatin did not induce significant neurological or auditory toxicity. Zeniplatin was not nephrotoxic at doses less than or equal to 120 mg/m2. At 145 mg/m2, the clearance decreased by a mean of 40% after 2 cycles of therapy. Two patients, one with malignant melanoma and one with renal cell cancer, achieved a partial response. Pharmacokinetics of free (plasma ultrafiltrates) and total platinum in plasma were determined in 5 patients. An in vitro study of the rate and extent of zeniplatin binding to protein in human plasma was also performed. Free and total platinum were measured by flameless atomic absorption spectrometry; free zeniplatin was measured in ultrafiltrate by HPLC. Total and free plasma platinum concentrations were co-modelled using the information from the in vitro study.(ABSTRACT TRUNCATED AT 250 WORDS)Clinical TrialControlled Clinical TrialJournal ArticleResearch Support, Non-U.S. Gov'tinfo:eu-repo/semantics/publishe