Joseph C. Walsh scite author profile

Tumor hypoxia is a well-established biological phenomenon that affects the curability of solid tumors, regardless of treatment modality. Especially for head and neck cancer patients, tumor hypoxia is linked to poor patient outcomes. Given the biological problems associated with tumor hypoxia, the goal for clinicians has been to identify moderately to severely hypoxic tumors for differential treatment strategies. The ''gold standard'' for detecting and characterizing of tumor hypoxia are the invasive polarographic electrodes. Several less invasive hypoxia assessment techniques have also shown promise for hypoxia assessment. The widespread incorporation of hypoxia information in clinical tumor assessment is severely impeded by several factors, including regulatory hurdles and unclear correlation with potential treatment decisions. There is now an acute need for approved diagnostic technologies for determining the hypoxia status of cancer lesions, as it would enable clinical development of personalized, hypoxia-based therapies, which will ultimately improve outcomes. A number of different techniques for assessing tumor hypoxia have evolved to replace polarographic pO 2 measurements for assessing tumor hypoxia. Several of these modalities, either individually or in combination with other imaging techniques, provide functional and physiological information of tumor hypoxia that can significantly improve the course of treatment. The assessment of tumor hypoxia will be valuable to radiation oncologists, surgeons, and biotechnology and pharmaceutical companies who are engaged in developing hypoxia-based therapies or treatment strategies. Antioxid. Redox Signal. 21, 1516-1554.

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Ex vivo cell labeling with ⁶⁴ Cu–pyruvaldehyde-bis( N ⁴ -methylthiosemicarbazone) for imaging cell trafficking in mice with positron-emission tomography

Adonai

Nguyen

Walsh

et al. 2002

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

317

241

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We have used copper-64-pyruvaldehyde-bis( N 4 -methylthiosemicarbazone) ( 64 Cu–PTSM) to radiolabel cells ex vivo for in vivo positron-emission tomography (PET) imaging studies of cell trafficking in mice and for eventual application in patients. 2-[ 18 F]-Fluoro-2-deoxy- d -glucose (FDG) cell labeling also was evaluated for comparison. 64 Cu–PTSM uptake by C6 rat glioma (C6) cells increased for 180 min and then stabilized. The labeling efficiency was directly proportional to 64 Cu–PTSM concentration and influenced negatively by serum. Label uptake per cell was greater with 64 Cu–PTSM than with FDG. However, both 64 Cu–PTSM- and FDG-labeled cells showed efflux of cell activity into supernatant. The 64 Cu–PTSM labeling procedure did not interfere significantly with C6 cell viability and proliferation rate. MicroPET images of living mice indicate that tail-vein-injected labeled C6 cells traffic to the lungs and liver. In addition, transient splenic accumulation of radioactivity was clearly detectable in a mouse scanned at 3.33 h postinfusion of 64 Cu–PTSM-labeled lymphocytes. In contrast, the liver was the principal organ of tracer localization after tail-vein administration of 64 Cu–PTSM alone. These results indicate that in vivo imaging of cell trafficking is possible with 64 Cu–PTSM-labeled cells. Given the longer t 1/2 of 64 Cu (12.7 h) relative to 18 F (110 min), longer cell-tracking periods (up to 24–36 h) should be possible now with PET.

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Early Clinical PET Imaging Results with the Novel PHF-Tau Radioligand [F18]-T808

Chien

Szardenings

Bahri

et al. 2013

JAD

443

193

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Aggregates of hyperphosphorylated tau (PHF-tau), such as neurofibrillary tangles, are linked to the degree of cognitive impairment in Alzheimer's disease. We have recently reported early clinical results of a novel PHF-tau targeting PET imaging agent, [F18]-T807. Since then, we have investigated a second novel PHF-tau targeting PET imaging agent, [F18]-T808, with different pharmacokinetic characteristics, which may be favorable for imaging Alzheimer's disease and other tauopathies. Here, we describe the first human brain images with [F18]-T808.

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Joseph C. Walsh

Early Clinical PET Imaging Results with the Novel PHF-Tau Radioligand [F-18]-T807

[¹⁸F]T807, a novel tau positron emission tomography imaging agent for Alzheimer's disease

The Clinical Importance of Assessing Tumor Hypoxia: Relationship of Tumor Hypoxia to Prognosis and Therapeutic Opportunities

Ex vivo cell labeling with ⁶⁴ Cu–pyruvaldehyde-bis( N ⁴ -methylthiosemicarbazone) for imaging cell trafficking in mice with positron-emission tomography

Early Clinical PET Imaging Results with the Novel PHF-Tau Radioligand [F18]-T808

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Joseph C. Walsh

Early Clinical PET Imaging Results with the Novel PHF-Tau Radioligand [F-18]-T807

[18F]T807, a novel tau positron emission tomography imaging agent for Alzheimer's disease

The Clinical Importance of Assessing Tumor Hypoxia: Relationship of Tumor Hypoxia to Prognosis and Therapeutic Opportunities

Ex vivo cell labeling with 64 Cu–pyruvaldehyde-bis( N 4 -methylthiosemicarbazone) for imaging cell trafficking in mice with positron-emission tomography

Early Clinical PET Imaging Results with the Novel PHF-Tau Radioligand [F18]-T808

Contact Info

Product

Resources

About

[¹⁸F]T807, a novel tau positron emission tomography imaging agent for Alzheimer's disease

Ex vivo cell labeling with ⁶⁴ Cu–pyruvaldehyde-bis( N ⁴ -methylthiosemicarbazone) for imaging cell trafficking in mice with positron-emission tomography