References
- Canda AS, Variables antropométricas de la población deportista española. Consejo superior de deportes. Subdirección general de Deporte y Salud. Servicio de Documentación y Publicaciones. Madrid; 2012.
- Romero Collazos JF. Análisis de la forma y la proporcionalidad. Antropometría aplicada a la nutrición. Grupo de investigación en Biomedicina 920325 de la Universidad Complutense de Madrid. [cited 08 Jul 2017]. Available from: http://www.nutricion.org/publicaciones/pdf/antropometria/An%C3%A1lisis%20de%20la%20Forma%20y%20La%20Proporcionalidad.pdf
- FAO/WHO/UNU Expert Consultation. 1985. Energy and protein requeriments. WHO Technies necesario Reports Series, No. 724, pp. 1–67. Geneva.
- Collazos JFR, Serrano MDM. Proporcionalidad torácica y capacidad vital en ciclistas españoles de alta competición. Estudio Antropol Biol. 1999;9:505–519.
- Carter JEL, Heath BH, Somatotyping. Developmente and applications. Cambridge: Cambridge University Press; 1991.
- International Society for the Advancement of Kinanthropometry. International Standards for Anthropometric Assessment. School of Physical Education, Exercise and Sport Studies. The University of South Australia. Underdale, SA, Australia; 2001.
- Carter JEL, The Heath-Carter anthropometric somatotype method, instruction manual. San Diego: San Diego State University Syllabus Service; 2002.
- Stewart A, Marfell-Jones M, International Society for Advancement of Kinanthropometry. International standards for anthropometric assessment. International Society for the Advancement of Kinanthropometry. Lower Hutt, New Zealand; 2011.
- Carmona Benjumea A, Datos antropométricos de la población laboral española. Centro Nacional de Medios de Protección, Instituto Nacional de Seguridad e Higiene en el Trabajo. Sevilla; 2001.
- Ministerio de Sanidad y Consumo. Estudio Antropométrico de la población femenina española. Gobierno de España. 7 de febrero de 2008. Madrid.
- Determann RM, Wolthuis EK, Spronk PE, et al. Reliability of height and weight estimates in patients acutely admitted to intensive care units. Crit Care Nurse. 2007;27:48–55.
- Lorenz MW, Graf M, Henke C, et al. Anthropometric approximation of body weight in unresponsive stroke patients. J Neurol Neurosurg Psychiatry. 2007;78:1331–1336.
- Darnis S, Fareau N, Corallo CE, et al. Estimation of body weight in hospitalized patients. QJM. 2012;105:769–774.
- Buckley RG, Stehman CR, Dos Santos FL, et al. Bedside method to estimate atual body weight in the Emergency Department. J Emerg Med. 2012;42:100–104.
- Chumlea WC, Roche AF, Steinbaugh ML. Estimating stature from knee height for persons 60 to 90 years of age. J Am Geriatr Soc. 1985;33:116–120.
- Cockram DB, Baumgartner RN. Evaluation of accuracy and reliability of calipers for measuring recumbent knee height in elderly people. Am J Clin Nutr. 1990;52:397–400.
- Han TS, Lean ME. Lower leg length as an index of stature in adults. Int J Obes Relat Metab Disord. 1996;20:21–27.
- Malnutrition Advisory Group, British Association of Parenteral and Enteral Nutrition. Malnutrition Universal Screening Tool; 2008.
- Mitchell CO, Lipschiz DA. Arm length measuremente as an alternative to height in nutritional assessmente of the elderly. JPEN J Parenter Enteral Nutr. 1982;6:226–229.
- Jarzem PF, Gledhill RB. Predicting height from arm measurements. J Pediatr Orthop. 1993;13:761–765.
- Kwok T, Whitelaw MN. The use of armspan in nutritional assessment of the elderly. J Am Geriatr Soc. 1991;39:492–496.
- Hickson M, Frost G. A comparison of three methods for estimating height in the acutely ill elderly population. J Hum Nutr Diet. 2003;16:13–20.
- Rabito EI, Vannucchi GB, Suen VMM, et al. Weight and height predition of immobilizad patients. Rev Nutr. 2006;19:655–661.
- Argall JAW, Wright N, Mackay-Jones K, et al. A comparison of two commonly used methods of weight estimation. Arch Dis Child. 2003;88:789–790.
- Garland JS, Kishaba RG, Nelson DB, et al. A rapid and accurate method of estimating body weight. Am J Emerg Med. 1986;4:390–393.
- Özkaban MU, Research on ergonomics and Funtionals Aspets of Health Equipmente with a Case Study Including Material and Prodution. [Tesis on Master of Industrial Design]. Izmir (Turkey): Departmente of Industrial Design, Izmir Institute of Technology; 1999.
- Verhaert V, Ergonomic analysis of integrated bed measurements: towards smart sleep Systems. [Tesis on Dotor of Phylosophy in engineering]. Leuven (Belgium): Arenberg Dotoral School of Science, Engineering & Technology. Faculty of Engineering. Departmente of Mechanies necesario Engineering. Katolieke Universiteit Leuven; 2011.
- Coren S. Sleep health and its assessmente and managemente in physies necesario therapy pratice: the evidence. Physiother Theory Prat. 2009;25:442–452.
- Miorelli Adami A, Assessmente and classification of Movements in Bed Using Unobtrusive Sensors. [Thesis for the degree os Dotor of Philosophy in Eletries necesario Engineering]. Portland: OGI School of Science & Engineering at Oregon Health & Science University. 2006.
- Scharf MB, Stover R, McDannold M, et al. Comparative effects of sleep on a standard mattress to an experimental foam surface on sleep architecture and CAP rates. Sleep. 1997;20:1197–1200.
- Shen L, Chen Y, Guo Y, et al. Research on the relationship between the estrutural properties of bedding layer in spring mattress and sleep quality. Work. 2012;41:1268–1273.
- Leilnahari K, Fatouraee N, Khodalotfi M, et al. Spine alignment in men during lateral sleep position: experimental study and modeling. Biomed Eng Online. 2011;10:103.
- Verhaert V, Haex B, De Wilde T, et al. Ergonomics in bed design: the effect of spinal alignment on sleep parameters. Ergonomics. 2011;54:169–178.
- Gordon SJ, Grimmer-Somers K. Your pillow may not guarantee a good night’s sleep or symptom-free waking. Physiother Can. 2011;63:183–190.
- Her JG, Ko DH, Woo JH, et al. Development and comparative evaluation of new shapes of pillows. J Phys Ther Sci. 2014;26:377–380.
- Kim HS, Park KH, Jeoung JW. Can we measure the intraocular pressure when the eyeball is against the pillow in the lateral decubitus position? Acta Ophthalmol. 2013;91:e502–e505.
- Wong MH, Lai AH, Singh M, et al. Sleeping posture and intraocular pressure. Singapore Med J. 2013;54:146–148.
- Lazzaro EC, Mallick A, Singh M, et al. The effect of positional changes on intraocular pressure during sleep in patients with and without glaucoma. J Glaucoma. 2014;23:282–287.
- Zuberi NA1, Rekab K, Nguyen HV. Sleep apnea avoidance pillow effects on obstructive sleep apnea syndrome and snoring. Sleep Breath. 2004;8:201–207.
- Gordon SJ, Grimmer-Somers KA, Trott PH. Pillow use: the behavior of cervical stiffness, headache and scapular/arm pain. J Pain Res. 2010;3:137–145.
- Gordon SJ, Grimmer-Somers K, Trott P. Pillow use: the behaviour of cervical pain, sleep quality and pillow comfort in side sleepers. Man Ther. 2009;14:671–678.
- Troxel WM, Robles TF, Hall M, et al. Marital quality and the marital bed: Examining the covariation between relationship quality and sleep. Sleep Med Rev. 2007;11:389–404.
- Ensor J, Oexman R, Scott D, et al. Evaluation of a custon fit solo construction sleep surface using objective and subjective measures os sleep quality. Joplin, MO: Sleep to Live Institute; 2008.
- Jacobson BH, Boolani A, Smith DB. Changes in back pain, sleep quality, and perceived stress after introduction of new bedding systems. J Chiropract Med. 2009;8:1–8.
- McCall WV, Boggs N, Letton A. Changes in sleep and wake in response to different sleeping surfaces: a piloto study. Appl Ergon. 2012;43:386–391.
- Miller S, Parker M, Blasiole N, et al. A prospective, in vivo evaluation of two pressure-redistribution surfaces in healthy volunteers using pressure mapping as a quality control instrument. Ostomy Wound Manage. 2013;59:44–48.
- Verhaert V, Druyts H, Van Deun D, et al. Modeling human-bed interation: the preditive value of anthropometric models in choosing the corret bed support. Work. 2012;41:2268–2273.
- Sáenz Zapata LM, Arias AM, Guzmán EC, et al. Analysis of ergonomics conditions of a brand of mattress and pillows. University-Industry Projet, Medellín-Colombia. Work. 2012;41(Suppl 1):1281–1287.
- DeVocht JW, Wilder DG, Bandstra ER, Spratt KF. Biomechanical evaluation of four different mattresses. Appl Ergon. 2006;37:297–304.
- Miller-Keane, O’Toole MT. Miller-Keane encyclopedia and ditionary of medicine, nursing, and allied health. 7th ed. Philadelphia, PA: Saunders; 2005.
- Matsuo J, Sugama J, Sanada H, et al. Developmente and validity of a new modelo for assessing pressure redistribution properties of support surfaces. J Tissue Viability. 2011;20:55–66.
- Willemen T, Van Deun D, Verhaert V, et al. Automatic sleep stage classification based on easy to register signals as a validation tool for ergonomic steering in smart bedding Systems. Work. 2012;41:1985–1989.
- Sáenz Zapata LM, Arias AML, Guzmán EC, et al. Analysis of ergonomics conditions of a brand of mattress and pillows. University-Industry projet, Medellín – Colombia. Work. 2012;41:1281–1287.
- Bader GG, Engdal S. The influence of bed firmness on sleep quality. Appl Ergon. 2000;31:487–497.
- López-Torres M, Porcar R, Solaz J, et al. Objective firmness, average pressure and subjective perception in mattresses for the elderly. Appl Ergon. 2008;39:123–130.
- Nechala P, Mahoney J, Farkas LG. Digital two-dimensional photogrammetry: a comparison of three techniques of obtaining digital photographs. Plast Reconstr Surg. 1999;103:1819–1825.
- Van Deun D, Verhaert V, Willemen T, et al. Biomechanics-based ative control of bedding support properties and its influence on sleep. Work. 2012;41:1274–1280.
- Bain D, Ferguson-Pell M, McLeod A. Evaluation of mattresses using interface pressure mapping. J Wound Care. 2003;12:231–235.
- Palmero C, Esquirol J, Bayo V, et al. Automatic sleep system recommendation by multi-modal RBG-depth-pressure anthropometric analysis. Int J Comput Vis. 2017;122:212–227.