Genexol-PM is a novel Cremophor EL-free polymeric micelle formulation of paclitaxel. This single arm, multicenter phase II study was designed to evaluate the efficacy and safety of Genexol-PM in patients with histologically confirmed metastatic breast cancer (MBC). Forty-one women received Genexol-PM by intravenous infusion at 300 mg/m2 over 3 h every 3 weeks without premedication until disease progression or intolerability. A total of 331 chemotherapy cycles were administered, with a median of 8 cycles per patient (range, 1-16). Overall response rate was 58.5% (95% CI: 43.5-72.3) with 5 complete responses and 19 partial responses. Thirty-seven patients who received Genexol-PM as a first-line therapy for their metastatic disease showed a response rate of 59.5% (95% CI: 43.5-73.7), and two responses were reported in four patients treated in the second-line setting for their metastatic disease. The median time to progression (TTP) for all patients was 9.0 months (range, 1.0-17.0+ months). Grade 3 non-hematologic toxicities included sensory peripheral neuropathy (51.2%), and myalgia (2.4%). Eight patients (19.5%) experienced hypersensitivity reactions, with grade 3 in two patients. Hematologic toxicities were grade 3 and 4 neutropenia (51.2 and 17.1%, respectively), and grade 1 and 2 thrombocytopenia (22.0%). Notably, no febrile neutropenia was observed. Genexol-PM appears a promising new paclitaxel in view of significant efficacies. Further trials with different dosing schedules, durations of delivery, or in combination with other drugs are warranted.
A key ingredient for a quantum network is an interface between stationary
quantum bits and photons, which act as flying qubits for interactions and
communication. Photonic crystal architectures are promising platforms for
enhancing the coupling of light to solid state qubits. Quantum dots can be
integrated into a photonic crystal, with optical transitions coupling to
photons and spin states forming a long-lived quantum memory. Many researchers
have now succeeded in coupling these emitters to photonic crystal cavities, but
there have been no demonstrations of a functional spin qubit and quantum gates
in this environment. Here we have developed a coupled cavity-quantum dot system
in which the dot is controllably charged with a single electron. We perform the
initialization, rotation and measurement of a single electron spin qubit using
laser pulses and find that the cavity can significantly improve these
processes
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