1)
Sheppard CM and Brenner PS. The effects of bathing and skin care practices on skin quality and
satisfaction with an innovative product. Journal of Gerontological Nursing 26(10): 36-45, 2000.
2)
Feo R and Kitson A. Promoting patient-centred fundamental care in acute healthcare systems.
International Journal of Nursing Studies 57: 1-11, 2016.
3)
Downey L and Lloyd H. Bed bathing patients in hospital. Nursing Standard 22(34): 35-40, 2008.
4)
Nøddeskou LH, Hemmingsen LE and Hørdam B. Elderly patients' and nurses' assessment of
traditional bed bath compared to prepacked single units-randomised controlled trial. Scandinavian
Journal of Caring Sciences 29(2): 347-52, 2015.
5)
Derler S and Gerhardt LC. Tribology of Skin: Review and Analysis of Experimental Results for the
Friction Coefficient of Human Skin. Tribology Letters 45(1): 1-27, 2011
6)
Veje PL, Chen M, Jensen CS, et al. Effectiveness of two bed bath methods in removing
microorganisms from hospitalized patients: A prospective randomized crossover study. American
Journal of Infection Control 48(6): 638-643, 2020.
7)
Schoonhoven L, van Gaal BG, Teerenstra S, et al. Cost-consequence analysis of "washing without
water" for nursing home residents: a cluster randomized trial. International Journal of Nursing
Studies 52(1): 112-120, 2015.
8)
Konya I, Yamaguchi S, Sugimura N, et al. Effects of differences in wiping pressure applied by
nurses during daily bed baths on skin barrier function, cleanliness, and subjective evaluations.
Japan Journal of Nursing Science 17(3): 1-13, 2020.
9)
Yamada C, Shumiya T, Fukami S, et al. Effectiveness of Sanitary Education with the ATP Wipe
Test and Scrubbing Checker. Journal of the Japanese Association of Rural Medicine 58(1): 46-49,
54
Bulletin of Health Sciences Kobe
Effect of Wiping Pressure on Body Hygiene of Bed Bath with a Wet Washcloth
2009. (in Japanese)
10) Kuda T, Ota M and Kakinohana S. Clinical Significance of Surgical Hand Washing Evaluation
Based on Adenosine Triphosphate Measurement. Japanese Journal of Infection Prevention and
Control 26(2): 83-86, 2011. (in Japanese)
11) Likitlersuang J, Leineweber MJ and Andrysek J. Evaluating and improving the performance of thin
film force sensors within body and device interfaces. Medical engineering & physics 48: 206-211,
2017.
12) Tang KPM, Yick KL and Li PL. Effect of Contacting Surface on the Performance of Thin-Film
Force and Pressure Sensors. Sensors (Basel) 20(23): 1-20, 2020.
13) Sakakibara T, Murakami S, Eisaki N, et al. An enzymatic cycling method using pyruvate
orthophosphate dikinase and firefly luciferase for the simultaneous determination of ATP and AMP
(RNA). Analytical Biochemistry 268(1): 94-101, 1999.
14) Bakke M and Suzuki S. Development of a Novel Hygiene Monitoring System Based on the
Detection of Total Adenylate (ATP+ADP+AMP). Journal of Food Protection 81(5): 729-737, 2018.
15) Sakakibara T, Murakami S and Imai K. Enumeration of bacterial cell numbers by amplified firefly
bioluminescence without cultivation. Analytical Biochemistry 312(1): 48-56, 2003.
16) Thore A, Anséhn S and Lundin A. Detection of bacteriuria by luciferase assay of adenosine
triphosphate. Journal of Clinical Microbiology 1(1): 1-8, 1975.
17) Ishimaru M, Noda H, Matsumoto E, et al. Comparative study of rapid ATP bioluminescence assay
and conventional plate count method for development of rapid disinfecting activity test. The
Journal of Biological and Chemical Luminescence 36(3): 826-833, 2021.
18) Lewis T, Griffith C, Gallo M, et al. modified ATP benchmark for evaluating the cleaning of some
hospital environmental surfaces. Journal of Hospital Infection 69(2): 156-163, 2008.
19) Mildenhall KB and Rankin SA. Implications of Adenylate Metabolism in Hygiene Assessment: A
Review. Journal of Food Protection 83(9): 1619-1631, 2020.
20) Okada J, Yamamizu Y and Fukai K. Effectiveness of hand hygiene depends on the patient's health
condition and care environment. Japan Journal of Nursing Science 13(4): 413-423, 2016.
21) Kikkoman Biochemifa Company. Lumitester PD-20/PD-30 and LuciPac® Pen. (online)
Available from:
https://www.bio-strategy.com/site/bio-strategy-nz/files/Supplier_Subs/RBIO_Lumitester_Examples
_0319.pdf (access date: 2022 September 19)
22) Hattori N, Sakakibara T, Igarashi T, et al. Rapid Measurement of Biological Contamination Using
ATP-Bioluminescence Method. Journal of Japan Air Cleaning Association 38(5): 328-333, 2001.
(in Japanese)
23) Kanda Y. Investigation of the freely available easy-to-use software ‘EZR’ for medical statistics.
Bone Marrow Transplantation 48: 452-458, 2013.
55
Sayaka SUGA et al
24) Nguyen AV and Soulika AM. The Dynamics of the Skin's Immune System. International Journal of
Molecular Sciences 20(8): 2-53, 2019.
25) Konya I, Nishiya K and Yano R. Effectiveness of bed bath methods for skin integrity, skin
cleanliness and comfort enhancement in adults: A systematic review. Nursing Open 16: 1-17, 2021.
26) Shishido I and Yano R. Integrative Literature Review on “Bed Bath”. Japanese Journal of Nursing
Art and Science 15(2): 172-182, 2016. (in Japanese)
27) Hashimoto M and Saeki Y. The Effects of Bed Bath on Stratum Corneum Hydration, Skin Lipid,
Skin Surface pH and ATP Bioluminescence – In Comparison with Tub Bath in Healthy Females -.
Japanese Journal of Nursing Art and Science 2(1):61-68, 2003. (in Japanese)
28) Kojima E, Fujinaga S and Kusanagi M. The Effects of Different Types of Bed Baths on Skin
Surface pH, Skin Cleanliness, and Subjective Evaluations. Japanese Journal of Nursing Art and
Science 17: 43-50, 2018. (in Japanese)
29) Amauchi M, Soman K, Hirata S, et al. Study of wiping, transferring and oozing of three kinds of
wipes (materials) by evaluating ATP. Journal of Healthcae-associated Infection 9(2): 42-51, 2016.
(in Japanese)
30) Nishiya K, Konya I, Shishido I, et al. Comparison of Dirt Removal Rate, Skin Temperature and
Subjective Evaluations with or without Alternating Surfaces of Bed Bath Towels. Japanese Journal
of Nursing Art and Science 20: 40-46, 2021. (in Japanese)
56
Bulletin of Health Sciences Kobe
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