M. Wada scite author profile

Accepted (peer-reviewed) VersionThe accepted version of an article is the version that incorporates all amendments made during the peer review process, but prior to the final published version (the Version of Record, which includes; copy and stylistic edits, online and print formatting, citation and other linking, deposit in abstracting and indexing services, and the addition of bibliographic and other material.Self-archiving of the accepted version is subject to an embargo period of 12-24 months. The embargo period is 12 months for scientific, technical, and medical (STM) journals and 24 months for social science and humanities (SSH) journals following publication of the final article.• the author's personal website • the author's company/institutional repository or archive • not for profit subject-based repositories such as PubMed Central Articles may be deposited into repositories on acceptance, but access to the article is subject to the embargo period. The version posted may not be updated or replaced with the final published version (the Version of Record). Authors may transmit, print and share copies of the accepted version with colleagues, provided that there is no systematic distribution, e.g. a posting on a listserve, network or automated delivery.There is no obligation upon authors to remove preprints posted to not for profit preprint servers prior to submission.

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The dosimetric consequences of anatomic changes in head and neck radiotherapy patients

Height

Khoo

Lawford

et al. 2010

J Med Imag Rad Onc

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Despite some significant geometric changes, nutritional management ensured patient size and shape was maintained in these consecutively selected patients and subsequently there was no apparent under-dosing of targets or over-dosing of normal structures with this technique. Further investigations which model gradual change and allow cumulative dosimetry are required to better characterise what occurs during the treatment course.

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A Single Nucleotide Polymorphism of the Neuropeptide B/W Receptor-1 Gene Influences the Evaluation of Facial Expressions

et al. 2012

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Neuropeptide B/W receptor-1 (NPBWR1) is expressed in discrete brain regions in rodents and humans, with particularly strong expression in the limbic system, including the central nucleus of the amygdala. Recently, Nagata-Kuroiwa et al. reported that Npbwr1 −/− mice showed changes in social behavior, suggesting that NPBWR1 plays important roles in the emotional responses of social interactions.The human NPBWR1 gene has a single nucleotide polymorphism at nucleotide 404 (404A>T; SNP rs33977775). This polymorphism results in an amino acid change, Y135F. The results of an in vitro experiment demonstrated that this change alters receptor function. We investigated the effect of this variation on emotional responses to stimuli of showing human faces with four categories of emotional expressions (anger, fear, happiness, and neutral). Subjects' emotional levels on seeing these faces were rated on scales of hedonic valence, emotional arousal, and dominance (V-A-D). A significant genotype difference was observed in valence evaluation; the 404AT group perceived facial expressions more pleasantly than did the 404AA group, regardless of the category of facial expression. Statistical analysis of each combination of [V-A-D and facial expression] also showed that the 404AT group tended to feel less submissive to an angry face than did the 404AA group. Thus, a single nucleotide polymorphism of NPBWR1 seems to affect human behavior in a social context.

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M. Wada

Assessing the impact of FDG-PET in the management of anal cancer

Hypoxia-targeted radiotherapy dose painting for head and neck cancer using¹⁸F-FMISO PET: A biological modeling study

MRI scans significantly change target coverage decisions in radical radiotherapy for prostate cancer

The dosimetric consequences of anatomic changes in head and neck radiotherapy patients

A Single Nucleotide Polymorphism of the Neuropeptide B/W Receptor-1 Gene Influences the Evaluation of Facial Expressions

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M. Wada

Assessing the impact of FDG-PET in the management of anal cancer

Hypoxia-targeted radiotherapy dose painting for head and neck cancer using18F-FMISO PET: A biological modeling study

MRI scans significantly change target coverage decisions in radical radiotherapy for prostate cancer

The dosimetric consequences of anatomic changes in head and neck radiotherapy patients

A Single Nucleotide Polymorphism of the Neuropeptide B/W Receptor-1 Gene Influences the Evaluation of Facial Expressions

Contact Info

Product

Resources

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Hypoxia-targeted radiotherapy dose painting for head and neck cancer using¹⁸F-FMISO PET: A biological modeling study