Kristine Holbø scite author profile

Phase-change materials (PCM) can be used to reduce thermal stress and improve thermal comfort for workers wearing protective clothing. The aim of this study was to investigate the effect of PCM in protective clothing used in simulated work situations. We hypothesized that it would be possible to optimize cooling performance with a design that focuses on careful positioning of PCM, minimizing total insulation and facilitating moisture transport. Thermal stress and thermal comfort were estimated through measurement of body heat production, body temperatures, sweat production, relative humidity in clothing and subjective ratings of thermal comfort, thermal sensitivity and perception of wetness. Experiments were carried out using 2 types of PCM, the crystalline dehydrate of sodium sulphate and microcapsules in fabrics. The results of 1 field and 2 laboratory experimental series were conclusive in that reduced thermal stress and improved thermal comfort were related to the amount and distribution of PCM, reduced sweat production and adequate transport of moisture.

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Safe walking technology for people with dementia

Holbø

Bøthun

Dahl

2013

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This paper presents an attempt to understand how safe walking technology can be designed to fit the needs of people with dementia. Taking inspiration from modern dementia care philosophy, and its emphasis on the individual with dementia, we have performed in-depth investigations of three persons' experiences of living with early-stage dementia. From interviews and co-design workshops with them and their family caregivers, we identified several factors that influence people with dementia's attitudes toward safe walking technology, and how they want the technology to assist them. Relevant factors include: The desire for control and self-management, the subjective experiences of symptoms, personal routines and skills, empathy for care-givers, and the local environment in which they live. Based on these findings, we argue there is a need to reconsider "surveillance" as a concept on which to base design of safe walking technology. We also discuss implications for design ethics.

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Cooling vest for improving surgeons’ thermal comfort: A multidisciplinary design project

Langø

Nesbakken

Færevik

et al. 2009

Minimally Invasive Therapy & Allied Technologies

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A laparoscopic surgeon sometimes experiences heat-related discomfort even though the temperature situation is moderate. The aim of this project was to design a cooling vest using a phase change material to increase thermal comfort for the surgeon. The project focused on the design process to reveal the most important parameters for the design of a cooling vest that could be demonstrated in a clinical setting. We performed an entire design process, from problem analysis, situation observations, concept for a prototype, temperature measurements, and a final design based on clinical testing. The project was conducted by a multidisciplinary team consisting of product designers, engineers, physiologists, and surgeons. We carried out four physiological demonstrations of one surgeon's skin temperatures and heart rate during different laparoscopic procedures. A commercially available cooling vest for firemen and two proof-of-concept prototypes were tested alongside a reference operation without cooling. To aid the final design, one person went through a climate chamber test with two different set-ups of cooling elements. The final design was found to improve the conditions of our test subject. It was found that whole trunk cooling was more effective than only upper trunk cooling. A final design was proposed based on the design process and the findings in the operating room and in the laboratory. Although the experiences using the vest seemed positive, further studies on several operators and more surgical procedures are needed to determine the true benefits for the operator.

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Value biases of sensor-based assistive technology

Dahl

Holbø

2012

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Ambient Assistive Technology Considered Harmful

Dahl

Farshchian

Kofod-Petersen

et al. 2013

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Abstract. Ambient assistive technology (AAT) is envisioned as a powerful tool for facing the growing demands the demographic change toward an aging society puts on care. While AAT is often expected to increase the quality of life of older people, this paper holds that relevant interventions often embody values that can contradict such visions, and in some cases even be harmful to care receivers. We argue that the strong focus AAT puts on illness and risk management reflects a medical model of care, which often disregards the psychosocial challenges that impairments and disabilities associated with old age can rise. We suggest that design of AAT could benefit from using the social model of care as design inspiration and value foundation. Such an approach puts focus on the person rather than the illness. The paper ends by providing a short description of work in which the social model of care is adopted as a basis for design of AAT.

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Kristine Holbø

Optimizing the Performance of Phase-Change Materials in Personal Protective Clothing Systems

Safe walking technology for people with dementia

Cooling vest for improving surgeons’ thermal comfort: A multidisciplinary design project

Value biases of sensor-based assistive technology

Ambient Assistive Technology Considered Harmful

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