【 摘 要 】

Physiological anthropology presently covers a very broad range of human knowledge and engineering technologies. This study reviews scientific inconsistencies within a variety of areas: sitting posture; negative air ions; oxygen inhalation; alpha brain waves induced by music and ultrasound; 1/f fluctuations; the evaluation of feelings using surface electroencephalography; Kansei; universal design; and anti-stress issues. We found that the inconsistencies within these areas indicate the importance of integrative thinking and the need to maintain the perspective on the biological benefit to humanity. Analytical science divides human physiological functions into discrete details, although individuals comprise a unified collection of whole-body functions. Such disparate considerations contribute to the misunderstanding of physiological functions and the misevaluation of positive and negative values for humankind. Research related to human health will, in future, depend on the concept of maintaining physiological functions based on consistent science and on sustaining human health to maintain biological welfare in future generations.

【 授权许可】

   
2013 Shimomura and Katsuura; licensee BioMed Central Ltd.

【 预 览 】

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【 参考文献 】

• [1]Singleton WT: The Body at Work: Biological Ergonomics. Cambridge: Cambridge University Press; 1982.
• [2]Avison DE, Myers MD: Information systems and anthropology: an anthropological perspective on IT and organizational culture. Inform Tech People 1995, 8(3):43-56.
• [3]Iivari J, Iivari N: Varieties of user-centeredness. In Proceedings of the 39th Annual Hawaii International Conference on System Sciences: 4–7 Jan 2006; Kauai, Hawaii. Edited by Sprague R. Los Alamitos, CA: IEEE Computer Society Press; 2006:176a. (8)
• [4]Meulen PA, Pruett CJ: Digital human models: what is available and which one to choose. In Proceedings of the Human Factors and Ergonomics Society 45th Annual Meeting: 8–12 Oct 2001; Minneapolis/St. Paul, Minnesota. Santa Monica, CA: The Society; 2001:875-879. 5
• [5]Rasmussen J: Skills, rules, and knowledge: signals, signs, and symbols, and other distinctions in human performance models. IEEE Trans Syst Man Cybern 1983, 13(3):257-266.
• [6]Brewer JD, Hsiang SM: The ‘ergonomics paradigm’: foundations, challenges and future directions. Theor Issues Ergon 2002, 3(3):285-305.
• [7]Boff KR: Revolutions and shifting paradigms in human factors & ergonomics. Appl Ergon 2006, 37(4):391-399.
• [8]Sato M: The development of conceptual framework in physiological anthropology. J Physiol Anthropol Appl Human Sci 2005, 24(4):289-295.
• [9]Nakamura M, Fuwa T, Inoue K, Iwasaki F, Kudo S, Sako H, Sato M, Shimomura Y: Prospect of manufacturing and design based on physiological polymorphism. J Physiol Anthropol 2007, 26(4):507-511.
• [10]Takagi Y, Harada H, Maeda T, Sato M: Physiological anthropology design: a comparative study between Germany and Japan. J Physiol Anthropol 2006, 25(1):55-57.
• [11]Turville KL, Psihogios JP, Ulmer TR, Mirka GA: The effects of video display terminal height on the operator: a comparison of the 15 degree and 40 degree recommendations. Appl Ergon 2006, 29(4):239-246.
• [12]Saito S, Piccoli B, Smith MJ, Sotoyama M, Sweitzer G, Villanuevai MBG, Yoshitake R: Ergonomic guidelines for using notebook personal computers. Technical Committee on Human-Computer Interaction, International Ergonomics Association. Ind Health 2000, 38(4):421-434.
• [13]Jamjumrus N, Nanthavanij S: Ergonomic intervention for improving work postures during notebook computer operation. J Hum Ergol (Tokyo) 2008, 37(1):23-33.
• [14]Mandala AC: The seated man (Homo Sedens) and the seated work position. Theory and practice. Appl Ergon 1981, 12(1):19-26.
• [15]Keegan JJ: Alterations of the lumbar curve related to posture and seating. J Bone Joint Surg Am 1953, 35-A(3):589-603.
• [16]Claus AP, Hides JA, Moseley GL, Hodges PW: Is ‘ideal’ sitting posture real? Measurement of spinal curves in four sitting postures. Man Ther 2009, 14(4):404-408.
• [17]Claus AP, Hides JA, Moseley GL, Hodges PW: Sitting versus standing: does the intradiscal pressure cause disc degeneration or low back pain? J Electromyogr Kinesiol 2008, 18(4):550-558.
• [18]Callaghan JP, Dunk NM: Examination of the flexion relaxation phenomenon in erector spinae muscles during short duration slumped sitting. Clin Biomech 2002, 17(5):353-360.
• [19]Villanueva MBG, Jonai H, Sotoyama M, Hisanaga N, Takeuchi Y, Saito S: Sitting posture and neck and shoulder muscle activities at different screen height settings of the visual display terminal. Ind Health 1997, 35(3):330-336.
• [20]Caneiro JP, O’Sullivan P, Burnett A, Barach A, O’Neil D, Tveit O, Olafsdottir K: The influence of different sitting postures on head/neck posture and muscle activity. Man Ther 2010, 15(1):54-60.
• [21]Malik A, Singh K, Singh M: Effect of negative air ions on physiological and perceived psychological stress during computer operation. Int JEnviron Health 2010, 4(1):67-77.
• [22]Ryushi T, Kita I, Sakurai T, Yasumatsu M, Isokawa M, Aihara Y, Hama K: The effect of exposure to negative air ions on the recovery of physiological responses after moderate endurance exercise. Int J Biometeorol 1998, 41(3):132-136.
• [23]Gail T, Poole MF, Galla J, Berrier J: The influence of negative air ions on human performance and mood. Hum Factors 1981, 23(5):633-636.
• [24]Hedge A, Collis MD: Do negative air ions affect human mood and performance? Ann Occup Hyg 1987, 31(3):285-290.
• [25]Albrechtsen O, Clausen V, Christensen FG, Jensen JG, Møller T: The influence of small atmospheric ions on human well-being and mental performance. Int J Biometeorol 1978, 22(4):249-262.
• [26]Cai K, Liu X, Xu Y, Ren C, Chen H, Xu J, Yu Z: Damage effects induced by electrically generated negative air ions in Caenorhabditis elegans. Sci Total Environ 2008, 401(1–3):176-183.
• [27]Kobara H, Tamiya M, Wakisaka A, Fukazu T, Matsuura K: Relationship between the size of mist droplets and ethanol condensation efficiency at ultrasonic atomization on ethanol-water mixtures. AICHE J 2010, 56(3):810-814.
• [28]Kubota A: Distribution characteristics of the negative ion in the vicinity of erosion control (Sabo) facilities, torrents and their riparian forests (in Japanese). Sci B Fac Agr Kyushu 2006, 61(1):33-38.
• [29]Yoshiya I, Shimada Y, Tanaka K: Spectrophotometric monitoring of arterial oxygen saturation in the fingertip. Med Biol Eng Comput 1980, 18(1):27-32.
• [30]Gordon GRJ, Mulligan SJ, MacVicar BA: Astrocyte control of blood flow. In Astrocytes in (Patho) Physiology of the Nervous System. Edited by Parpura V, Haydon PG. New York: Springer Science; 2009:461-486.
• [31]Aruoma OI: Free radicals, oxidative stress, and antioxidants in human health and disease. J Am Oil Chem Soc 1998, 75(2):199-212.
• [32]Halliwell B, Gutteridge JMC: Free Radicals in Biology and Medicine. 4th edition. New York: Oxford University Press; 2007.
• [33]Clark JM, Lambertsen CJ: Pulmonary oxygen toxicity: a review. Pharmacol Rev 1971, 33(2):37-133.
• [34]Iwaki T, Hayashi M, Hori T: Changes in alpha band EEG activity in the frontal area after stimulation with music of different affective content. Percept Mot Skills 1997, 84(2):515-526.
• [35]Kawasaki M, Karashima M, Saito M: Effect of emotional changes induced by sounds on human frontal alpha-wave during verbal and non-verbal tasks. Int J Biomed Eng Technol 2009, 2(3):191-202.
• [36]Chen ACN, Feng W, Zhao H, Yin Y, Wang P: EEG default mode network in the human brain: spectral regional field powers. NeuroImage 2008, 41(2):561-574.
• [37]Oohashi T, Nishina E, Honda M, Yonekura Y, Fuwamoto Y, Kawai N, Maekawa T, Nakamura S, Fukuyama H, Shibasaki H: Inaudible high-frequency sounds affect brain activity: hypersonic effect. J Neurophysiol 2000, 83(6):3548-3558.
• [38]Oohashi T, Kawai N, Nishina E, Honda M, Yagi R, Nakamura S, Morimoto M, Maekawa T, Yonekura Y, Shibasaki H: The role of biological system other than auditory air-conduction in the emergence of the hypersonic effect. Brain Res 2006, 1073–1074:339-347.
• [39]Yagi R, Nishina E, Honda M, Oohashi T: Modulatory effect of inaudible high-frequency sounds on human acoustic perception. Neurosci Lett 2003, 351(3):191-195.
• [40]Katsuura T, Huang J, Jin X, Liu X, Shimomura Y, Iwanaga K: Physiological measurements for evaluation of human-environment system. J Human Environ Syst 2006, 9(1):1-6.
• [41]Tan CT, Moore BCJ, Zacharov N: The effect of nonlinear distortion on the perceived quality of music and speech signals. J Audio Eng Soc 2003, 51(11):1012-1031.
• [42]Ashihara K, Kiryu S: Intermodulation distortions of loudspeakers induced by complex tones with components at frequency higher than audible frequency (in Japanese). J Acoust Soc Jap 1999, 55(4):256-264.
• [43]Hooge FN, Kleinpenning TGM, Vandamme LKJ: Experimental studies on 1/f noise. Rep Prog Phys 1981, 44(5):479-532.
• [44]Kobayashi M, Musha T: 1/f fluctuation of heartbeat period. IEEE Trans Biomed Eng 1982, 29(6):456-457.
• [45]Musha T, Yamamoto M: 1/f fluctuations in biological systems. In Proceedings of the 19th Annual International Conference of the IEEE Engineering in Medicine and Biology Society: 30 Oct - 2 Nov. 2 1997; Chicago. Edited by Jaeger RJ, Piscataway NJ. Piscataway, NJ: Institute of Electrical and Electronics Engineers; 1997:2692-2697. 6
• [46]Allegrini P, Menicucci D, Bedini R, Fronzoni L, Gemignani A, Grigolini P, West BJ, Paradisi P: Spontaneous brain activity as a source of ideal 1/f noise. Phys Rev E Stat Nonlin Soft Matter Phys 2009, 80(6 Pt 1):061914.1-061914.13.
• [47]Hirsch JA, Bishop B: Respiratory sinus arrhythmia in humans: how breathing pattern modulates heart rate. Am J Physiol 1981, 241(4):H620-H629.
• [48]Kobayashi H: Does paced breathing improve the reproducibility of heart rate variability measurements? J Physiol Anthropol 2009, 28(5):225-230.
• [49]Pritchard WS: The brain in fractal time: 1/f-like power spectrum scaling of the human electroencephalogram. Int J Neurosci 1992, 66(1–2):119-129.
• [50]Ishino K, Hagiwara M: A feeling estimation system using a simple electroencephalograph. In 2003 IEEE International Conference on Systems, Man and Cybernetics: System security and assurance: 5–8 Oct, 2003; Washington, D.C. Piscataway, NJ: Institute of Electrical and Electronics Engineers; 2003:4204-4209.
• [51]Hu J, Nakanishi M, Matsumoto K, Tagaito H, Inoue K, Shima K, Torii K: A method of usability testing by measuring brain waves. IEEE Trans Software Eng 1999, 25(4):474-491.
• [52]Musha T, Terasaki Y, Haque HA, Ivamitsky GA: Feature extraction from EEGs associated with emotions. Artif Life Robot 1997, 1(1):15-19.
• [53]Damasio AR, Everitt BJ, Bishop D: The somatic marker hypothesis and the possible functions of the prefrontal cortex. Philos Trans R Soc Lond B Biol Sci 1996, 351(1346):1413-1420.
• [54]Papez JW: A proposed mechanism of emotion. J Neuropsychiatry Clin Neurosci 1937, 7(1):103-112.
• [55]Vertes RP, Albo Z, Prisco GVD: Theta-rhythmically firing neurons in the anterior thalamus: implications for mnemonic functions of Papez’s circuit. Neuroscience 2001, 104(3):619-625.
• [56]Kringelbach ML, Rolls ET: The functional neuroanatomy of the human orbitofrontal cortex: evidence from neuroimaging and neuropsychology. Prog Neurobiol 2004, 72:341-372.
• [57]Stern ER, Gonzalez R, Welsh RC, Taylor SF: Updating beliefs for a decision: neural correlates of uncertainty and underconfidence. J Neurosci 2010, 30(23):8032-8041.
• [58]Jindo T, Hirasago K: Application studies to car interior of Kansei engineering. Int J Ind Ergon 1997, 19(2):105-114.
• [59]Jiao JR, Zhang Y, Helander M: A Kansei mining system for affective design. Expert Syst Appl 2006, 30(4):658-673.
• [60]Nagamachi M: Perspectives and the new trend of Kansei/affective engineering. TQM J 2008, 20(4):290-298.
• [61]Burgstahler S: Distance learning: universal design, universal access. Educ Technol Rev 2002, 10(1):20-31.
• [62]Mamee W, Sahachaisaeree N: Public toilet design criteria for users with walking disability in conjunction of universal design paradigm. Procedia Soc Behav Sci 2010, 5:1246-1250.
• [63]Story M, Mueller J, Mace R: The Universal Design File: Designing for People of All Ages and Abilities. North Carolina State University: Raleigh: Center for Universal Design; 1998.
• [64]Smith MJ, Sainfort PC: A balance theory of job design for stress reduction. Int J Ind Ergon 1989, 4(1):67-79.
• [65]Arnetz BB: Techno-stress: a prospective psychophysiological study of the impact of a controlled stress-reduction program in advanced telecommunication systems design work. J Occup Environ Med 1996, 38(1):53-65.
• [66]Schaubroeck J, Ganster DC, Fox ML: Dispositional affect and work-related stress. J Appl Psychol 1992, 77(3):322-335.
• [67]Hobfoll SE: Conservation of resources: a new attempt at conceptualizing stress. Am Psychol 1989, 44(3):513-524.
• [68]Westerhoff HV, Palsson BO: The evolution of molecular biology into systems biology. Nat Biotechnol 2004, 22(10):1249-1252.
• [69]Sill DJ: Integrative thinking, synthesis, and creativity in interdisciplinary studies. J Gen Educ 1996, 45(2):129-151.
• [70]Brown T: Design thinking. Harv Bus Rev 2008, 86(6):84-93.
• [71]Grieco A: Sitting posture: an old problem and a new one. Ergonomics 1986, 29(3):345-362.