Kelvin K. Chan scite author profile

Purpose-Hypoxia renders tumor cells radioresistant, limiting locoregional control from radiotherapy (RT). Intensity-modulated RT (IMRT) allows for targeting of the gross tumor volume (GTV) and can potentially deliver a greater dose to hypoxic subvolumes (GTV h ) while sparing normal tissues. A Monte Carlo model has shown that boosting the GTV h increases the tumor control probability. This study examined the feasibility of fluorine-18-labeled fluoromisonidazole positron emission tomography/computed tomography ( 18 F-FMISO PET/CT)-guided IMRT with the goal of maximally escalating the dose to radioresistant hypoxic zones in a cohort of head and neck cancer (HNC) patients.Methods and Materials-18 F-FMISO was administered intravenously for PET imaging. The CT simulation, fluorodeoxyglucose PET/CT, and 18 F-FMISO PET/CT scans were co-registered using the same immobilization methods. The tumor boundaries were defined by clinical examination and available imaging studies, including fluorodeoxyglucose PET/CT. Regions of elevated 18 F-FMISO uptake within the fluorodeoxyglucose PET/CT GTV were targeted for an IMRT boost. Additional targets and/or normal structures were contoured or transferred to treatment planning to generate 18 F-FMISO PET/CT-guided IMRT plans.Results-The heterogeneous distribution of 18 F-FMISO within the GTV demonstrated variable levels of hypoxia within the tumor. Plans directed at performing 18 F-FMISO PET/CT-guided IMRT for 10 HNC patients achieved 84 Gy to the GTV h and 70 Gy to the GTV, without exceeding the normal tissue tolerance. We also attempted to deliver 105 Gy to the GTV h for 2 patients and were successful in 1, with normal tissue sparing. Conclusion-It was feasible to dose escalate the GTV h to 84 Gy in all 10 patients and in 1 patient to 105 Gy without exceeding the normal tissue tolerance. This information has provided important data for subsequent hypoxia-guided IMRT trials with the goal of further improving locoregional control in HNC patients.

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Low-dose metronomic chemotherapy: A systematic literature analysis

Lien

Georgsdottir

Sivanathan

et al. 2013

European Journal of Cancer

151

132

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A Phase 2 Trial of Stereotactic Radiosurgery Boost After Surgical Resection for Brain Metastases

Brennan

Yang

Hilden

et al. 2014

International Journal of Radiation Oncology*Biology*Physics

211

107

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Purpose/Objective To evaluate local control following surgical resection and postoperative stereotactic radiosurgery (SRS) for brain metastases. Methods and Materials Forty-nine patients (50 lesions) were enrolled and available for analysis. Eligibility criteria included histologically confirmed malignancy with 1 or 2 intraparenchymal brain metastases, age ≥18, and KPS ≥70. Cox proportional hazard regression model was used to test for significant association between clinical factors and overall survival (OS). Competing risks regression models, as well as cumulative incidence functions, were fit using the method of Fine and Gray in order to assess the association between clinical factors and both local failure (LF, recurrence within surgical cavity or SRS target), and regional failure (RF, intracranial metastasis outside of treated volume). Results The median follow-up was 12.0 months (mos, range: 1.0–94.1 mos). Following surgical resection, 39 patients with 40 lesions were treated a median of 31 days (range: 7–56 days) later with SRS to the surgical bed to a median dose of 1800 cGy (range: 1500–2200 cGy). Of the 50 lesions, 15 (30%) demonstrated LF after surgery. The cumulative LF and RF rates were 22% and 44% at 12 mos. Patients who went on to receive SRS had significantly lower incidence of LF (p=0.008). Other factors associated with improved local control includes NSCLC histology (p=0.048), tumor diameter <3 cm (p=0.010), and deep parenchymal tumors (p=0.036). Large tumors (≥3 cm) with superficial dural/pial involvement showed the highest risk for LF (53.3% at 12 mos). Large, superficial lesions treated with SRS had 54.5% LF. Infratentorial lesions were at higher risk of developing RF compared to supratentorial lesions (p <0.001). Conclusions Postoperative SRS is associated with high local control, especially for deep brain metastases <3 cm. Tumors ≥3 cm with superficial dural/pial involvement demonstrate the highest risk in LF.

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Controlled enzymatic production of astrocytic hydrogen peroxide protects neurons from oxidative stress via an Nrf2-independent pathway

Haskew-Layton

Payappilly

Smirnova

et al. 2010

Proc. Natl. Acad. Sci. U.S.A.

127

113

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Neurons rely on their metabolic coupling with astrocytes to combat oxidative stress. The transcription factor nuclear factor erythroid 2-related factor 2 (Nrf2) appears important for astrocyte-dependent neuroprotection from oxidative insults. Indeed, Nrf2 activators are effective in stroke, Parkinson disease, and Huntington disease models. However, key endogenous signals that initiate adaptive neuroprotective cascades in astrocytes, including activation of Nrf2-mediated gene expression, remain unclear. Hydrogen peroxide (H 2 O 2 ) plays an important role in cell signaling and is an attractive candidate mediator of adaptive responses in astrocytes. Here we determine (i) the significance of H 2 O 2 in promoting astrocyte-dependent neuroprotection from oxidative stress, and (ii) the relevance of H 2 O 2 in inducing astrocytic Nrf2 activation. To control the duration and level of cytoplasmic H 2 O 2 production in astrocytes cocultured with neurons, we heterologously expressed the H 2 O 2 -producing enzyme Rhodotorula gracilis D-amino acid oxidase (rgDAAO) selectively in astrocytes. Exposure of rgDAAO-astrocytes to D-alanine lead to the concentration-dependent generation of H 2 O 2 . Seven hours of low-level H 2 O 2 production (∼3.7 nmol·min·mg protein) in astrocytes protected neurons from oxidative stress, but higher levels (∼130 nmol·min·mg protein) were neurotoxic. Neuroprotection occurred without direct neuronal exposure to astrocyte-derived H 2 O 2 , suggesting a mechanism specific to astrocytic intracellular signaling. Nrf2 activation mimicked the effect of astrocytic H 2 O 2 yet H 2 O 2 -induced protection was independent of Nrf2. Astrocytic protein tyrosine phosphatase inhibition also protected neurons from oxidative death, representing a plausible mechanism for H 2 O 2 -induced neuroprotection. These findings demonstrate the utility of rgDAAO for spatially and temporally controlling intracellular H 2 O 2 concentrations to uncover unique astrocyte-dependent neuroprotective mechanisms.

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Concurrent Chemotherapy and Intensity-Modulated Radiotherapy for Locoregionally Advanced Laryngeal and Hypopharyngeal Cancers

Lee¹,

O'Meara²,

Chan³

et al. 2007

International Journal of Radiation Oncology*Biology*Physics

133

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Understanding the attitudes of the elderly towards enrolment into cancer clinical trials

et al. 2006

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Association Between Cardiovascular Risk Factors and Aortic Stenosis

Yan

Koh

Chan

et al. 2017

Journal of the American College of Cardiology

173

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Kelvin K. Chan

Salvage Re-Irradiation for Recurrent Head and Neck Cancer

Fluorine-18-Labeled Fluoromisonidazole Positron Emission and Computed Tomography-Guided Intensity-Modulated Radiotherapy for Head and Neck Cancer: A Feasibility Study

Low-dose metronomic chemotherapy: A systematic literature analysis

A Phase 2 Trial of Stereotactic Radiosurgery Boost After Surgical Resection for Brain Metastases

Controlled enzymatic production of astrocytic hydrogen peroxide protects neurons from oxidative stress via an Nrf2-independent pathway

Concurrent Chemotherapy and Intensity-Modulated Radiotherapy for Locoregionally Advanced Laryngeal and Hypopharyngeal Cancers

Understanding the attitudes of the elderly towards enrolment into cancer clinical trials

Association Between Cardiovascular Risk Factors and Aortic Stenosis

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