@article{429cb3c247834169a5758ac75f37c27e,
title = "Investigation of a New Framework for Mass Customization Within Healthcare Orientated Human Head Data Collection for Healthcare Professionals",
abstract = "This funded research investigates parameters within cranial anthropology to develop a new framework for generating tailored mass customizable scalp cooling caps through the assistance of healthcare professionals to prevent chemotherapy-induced alopecia during chemotherapy treatments. The paper explores several data capture methods and a selection of cranial data parameters including manual and additive approaches to head data capture that could be used to 3D print wearable heat exchangers (Cold caps).",
keywords = "Mass Customisation, 3D scanning, Cranial anthropology, chemotherapy induced alopecia (CIA), Paxman Scalp Coolers, 3D printing, 3D Printing, 3D Scanning, Mass customization, Cranial Anthropology, Chemotherapy-Induced Alopecia",
author = "Jonathan Binder and Ertu Unver and Caterina Benincasa-Sharman and Yang-En Yee and Aishwarya Bandla",
note = "Funding Information: The authors would like to thank Paxman Coolers Ltd for their continued support; Paxman Scalp Cooling Research and Innovation Center at the University of Huddersfield Co-funded by the University of Huddersfield; and Paxman Coolers Ltd. Special thanks also to the Ethics team and the project team at the National University of Singapore including The N.1 Institute of Health. Publisher Copyright: {\textcopyright} 2024 U-turn Press LLC.",
year = "2024",
month = may,
day = "1",
language = "English",
volume = "21",
pages = "499--509",
journal = "Computer-Aided Design and Applications",
issn = "1686-4360",
publisher = "CAD Solutions",
number = "3",
}