Advanced search
Publication Cover
Critical Reviews in Food Science and Nutrition Volume 56, 2016 - Issue 6
Submit an article Journal homepage
1,808
Views
36
CrossRef citations to date
0
Altmetric
Original Articles

Human Milk Composition and Preservation: Evaluation of High-pressure Processing as a Nonthermal Pasteurization Technology

Sílvia G. SousaQOPNA, Departamento de Química, Universidade de Aveiro, Campus Universitário de Santiago, Portugal
,
Ivonne DelgadilloQOPNA, Departamento de Química, Universidade de Aveiro, Campus Universitário de Santiago, Portugal
&
Jorge A. SaraivaQOPNA, Departamento de Química, Universidade de Aveiro, Campus Universitário de Santiago, PortugalCorrespondence[email protected]
Pages 1043-1060 | Published online: 14 Oct 2014

REFERENCES

  • Aggett, P. J. (1994). Aspects of neonatal metabolism of trace metals. Acta. Paediatr. Suppl. 402:75–82.
  • Akinbi, H., Meinzen-Derr, J., Auer, C., Ma, Y., Pullum, D., Kusano, R., Reszka, K. J. and Zimmerly, K. (2010). Alterations in the host defense properties of human milk following prolonged storage or pasteurization. J. Pediatr. Gastroenterol. Nutr. 51(3):347–352.
  • Ala-Houhala, M. (1985). 25-Hydroxyvitamin D levels during breast-feeding with or without maternal or infantile supplementation of vitamin D. J. Pediatr. Gastroenterol. Nutr. 4(2):220–226.
  • Almeida, A. A., Lopes, C. M. P. V., Silva, A. M. S. and Barrado, E. (2008). Trace elements in human milk: Correlation with blood levels, inter-element correlations and changes in concentration during the first month of lactation. J. Trace. Elem. Med. Biol. 22(3):196–205.
  • Andersson, Y., Savman, K., Blackberg, L. and Hernell, O. (2007). Pasteurization of mother's own milk reduces fat absorption and growth in preterm infants. Acta. Paediatr. 96(10):1445–1449.
  • Arenz, S., Ruckerl, R., Koletzko, B. and von Kries, R. (2004). Breast-feeding and childhood obesity–a systematic review. Int. J. Obes. Relat. Metab. Disord. 28(10):1247–1256.
  • Arenz, S., Ruckerl, R., Koletzko, B. and von Kries, R. (2002). Using banked donor milk in clinical settings. In: Reclaiming Breastfeeding for the United States: Protection, Promotion and Support, pp. 161–178. Cadwell, K. and Sudbury, M. A., Eds., Sudbury: Jones and Bartlett Publishers.
  • Arnold, L. D. (2006). Global health policies that support the use of banked donor human milk: a human rights issue. Int. Breastfeed. J. 1:26.
  • Balci, A. T. and Wilbey, R. A. (1999). High pressure processing of milk-the first 100 years in the development of a new technology. Int. J. Dairy Technol. 52(4):149–155.
  • Balny, C. and Masson, P. (1993). Effects of high pressure on proteins. Food Rev. Int. 9:611–628.
  • Baro, C., Giribaldi, M., Arslanoglu, S., Giuffrida, M. G., Dellavalle, G., Conti, A., Tonetto, P., Biasini, A., Coscia, A., Fabris, C., Moro, G. E., Cavallarin, L. and Bertino, E. (2011). Effect of two pasteurization methods on the protein content of human milk. Front Biosci. (Elite Ed.). 3:818–829.
  • Bauer, J. and Gerss, J. (2011). Longitudinal analysis of macronutrients and minerals in human milk produced by mothers of preterm infants. Clin. Nutr. 30(2):215–220.
  • Baum, D. (1980). Collecting and banking human milk: to heat or not to heat. Br. Med. J. 281(6247):1066–1067.
  • Baumer, J. H. (2004). Guidelines for the establishment and operation of Human Milk Banks in the UK. Arch. Dis. Child Educ. Pract. Ed. 89(1):ep27–ep28.
  • Bertino, E., Coppa, G. V., Giuliani, F., Coscia, A., Gabrielli, O., Sabatino, G., Sgarrella, M., Testa, T., Zampini, L. and Fabris, C. (2008). Effects of Holder pasteurization on human milk oligosaccharides. Int. J. Immunopathol. Pharmacol. 21(2):381–385.
  • Bertino, E., Giuliani, F., Occhi, L., Coscia, A., Tonetto, P., Marchino, F. and Fabris, C. (2009). Benefits of donor human milk for preterm infants: Current evidence. Early Hum. Dev. 85(10, Supplement):S9–S10.
  • Boyd, C. A., Quigley, M. A. and Brocklehurst, P. (2007). Donor breast milk versus infant formula for preterm infants: systematic review and meta-analysis. Arch. Dis. Child Fetal. Neonatal. Ed. 92(3):F169–175.
  • Buchheim, W., Welsch, U., Huston, G. E. and Patton, S. (1988). Glycoprotein filament removal from human milk fat globules by heat treatment. Pediatrics. 81(1):141–146.
  • Butte, N. F., Garza, C. and Smith, E. O. (1988). Variability of macronutrient concentrations in human milk. Eur. J. Clin. Nutr. 42(4):345–349.
  • Cardello, A. V., Schutz, H. G. and Lesher, L. L. (2007). Consumer perceptions of foods processed by innovative and emerging technologies: a conjoint analytic study. Innov. Food Sci. Emerg. Tech. 8(1):73–83.
  • Cheftel, J. C. (1995). Review: high-pressure, microbial inactivation and food preservation. Food Sci. Technol. Int. 1(2–3):75–90.
  • COL+. (2009). Available from http://www.colplus.com. Accessed at 07/11/2012.
  • Coppa, G. V., Gabrielli, O., Pierani, P., Catassi, C., Carlucci, A. and Giorgi, P. L. (1993). Changes in carbohydrate composition in human milk over 4 months of lactation. Pediatrics. 91(3):637–641.
  • Coppa, G. V., Zampini, L., Galeazzi, T. and Gabrielli, O. (2006). Prebiotics in human milk: a review. Digest Liver Dis. 38(Supplement 2(0)):S291–S294.
  • Correia, I., Nunes, A., Saraiva, J. A., Barros, A. S. and Delgadillo, I. (2011). High pressure treatments largely avoid/revert decrease of cooked sorghum protein digestibility when applied before/after cooking. LWT - Food Sci. Technol. 44(4):1245–1249.
  • Dall'Oglio, I., Fazi, P., Orlando, S. M. and Salvatori, G. (2009). Collection and storage of breast milk for very low birth weight infants: an overview of Italian practices. Paediatr. Child Health. 19(Supplement 1(0)):S78–S82.
  • El-Mohandes, A. E., Picard, M. B., Simmens, S. J. and Keiser, J. F. (1997). Use of human milk in the intensive care nursery decreases the incidence of nosocomial sepsis. J. Perinatol. 17(2):130–134.
  • Emmett, P. M. and Rogers, I. S. (1997). Properties of human milk and their relationship with maternal nutrition. Early Hum. Dev. 49(Supplement(0)):S7–S28.
  • Evans, T. J., Ryley, H. C., Neale, L. M., Dodge, J. A. and Lewarne, V. M. (1978). Effect of storage and heat on antimicrobial proteins in human milk. Arch. Dis. Child. 53(3):239–241.
  • Ewaschuk, J. B., Unger, S., O'Connor, D. L., Stone, D., Harvey, S., Clandinin, M. T. and Field, C. J. (2011). Effect of pasteurization on selected immune components of donated human breast milk. J. Perinatol. 31(9):593–598.
  • Ferreira, I. M. (2003). Quantification of non-protein nitrogen components of infant formulae and follow-up milks: comparison with cows' and human milk. Br. J. Nutr. 90(1):127–133.
  • Fidler, N., Sauerwald, T. U., Koletzko, B. and Demmelmair, H. (1998). Effects of human milk pasteurization and sterilization on available fat content and fatty acid composition. J. Pediatr. Gastroenterol. Nutr. 27(3):317–322.
  • Field, C. J. (2005). The Immunological Components of Human Milk and Their Effect on Immune Development in Infants. J. Nutr. 135(1):1–4.
  • Food Ingredients First. (2011). Starbucks aquires evolution fresh to enter wellness space. Available from http://www.foodingredientsfirst.com/news/Starbucks-Acquires-Evolution-Fresh-to-Enter-Wellness-Space.html. Accessed September 11, 2012.
  • Ford, J. E., Law, B. A., Marshall, V. M. E. and Reiter, B. (1977). Influence of the heat treatment of human milk on some of its protective constituents. J. Pediatr. 90(1):29–35.
  • Funk, M. A., Hamlin, L., Picciano, M. F., Prentice, A. and Milner, J. A. (1990). Milk selenium of rural African women: influence of maternal nutrition, parity, and length of lactation. Am. J. Clin. Nutr. 51(2):220–224.
  • Garg, M., Thirupuram, S. and Saha, K. (1988). Colostrum composition, maternal diet and nutrition in North India. J. Trop Pediatr. 34(2):79–87.
  • Garza, C., Hopkinson, J. M. and Schandler, R. J. (1986). Human milk banking. In: Human Milk in Infant Nutrition and Health, pp. 225–255. Howell, R. R., Morriss, F. H. and Pickering, L. K., Eds., Thomas, C. C., Springfield, IL.
  • Giorgi, M. V., Heiman, H., Codipilly, C. N., Potak, D. and Schanler, R. J. (2006). Pasteurization preserves the concentration of IL-8 in human milk. E-PAS2006:59.3850.4.(Ce: Plz check this ref.)
  • Grøvslien, A. H. and Grønn, M. (2009). Donor milk banking and breastfeeding in norway. J. Hum. Lact. 25(2):206–210.
  • Hamprecht, K., Maschmann, J., Muller, D., Dietz, K., Besenthal, I., Goelz, R., Middeldorp, J. M., Speer, C. P. and Jahn, G. (2004). Cytomegalovirus (CMV) inactivation in breast milk: reassessment of pasteurization and freeze-thawing. Pediatr. Res. 56(4):529–535.
  • Hanson, M. L., Wendorff, W. L. and Houck, K. B. (2005). Effect of heat treatment of milk on activation of Bacillus spores. J. Food Prot. 68(7):1484–1486.
  • Harmsen, H. J., Wildeboer-Veloo, A. C., Raangs, G. C., Wagendorp, A. A., Klijn, N., Bindels, J. G. and Welling, G. W. (2000). Analysis of intestinal flora development in breast-fed and formula-fed infants by using molecular identification and detection methods. J. Pediatr. Gastroenterol. Nutr. 30(1):61–67.
  • Hartmann, B. T., Pang, W. W., Keil, A. D., Hartmann, P. E. and Simmer, K. (2007). Best practice guidelines for the operation of a donor human milk bank in an Australian NICU. Early Hum. Dev. 83(10):667–673.
  • Hayashi, R. (1992). Utilization of pressure in addition to temperature in food science and technology. In: High Pressure and Biotechnology. Colloques INSERM, vol. 224, pp. 185–193. Balny, C., Hayashi, R., Heremans, K. and Masson, P., Eds., John Libbey Eurotext, Montrouge.
  • Heiman, H. and Schanler, R. J. (2007). Enteral nutrition for premature infants: The role of human milk. Semin. Fetal Neonatal. Med. 12(1):26–34.
  • Hembry, O. (2008). Fonterra health drink thrives under pressure. Available from http://www.nzherald.co.nz/business/news/article.cfm?c_id=3&objectid=10521364. Accessed at 07/11/2012.
  • Henderson, T. R., Fay, T. N. and Hamosh, M. (1998). Effect of pasteurization on long chain polyunsaturated fatty acid levels and enzyme activities of human milk. J. Pediatr. 132(5):876–878.
  • Hite, B. H. (1899). The Effect of Pressure in the Preservation of Milk (Vol. 58): Bulletin West Virginia University Agricultural Experiment Station.
  • HMBANA. (2012). Available from http://www.hmbana.org/donate-milk. Accessed at May 11, 2012.
  • Hogan, E., Kelly, A. L. and Sun, D.-W. (2005). High pressure processing of foods: An overview. In: Emerging Technologies for Food Processing. Sun, D.-W. Eds., San Diego: Elsevier Academic Press.
  • Hugas, M., Garriga, M. and Monfort, J. M. (2002). New mild technologies in meat processing: high pressure as a model technology. Meat. Sci. 62(3):359–371.
  • Hunt, K. M., Foster, J. A., Forney, L. J., Schutte, U. M., Beck, D. L., Abdo, Z., Fox, L. K., Williams, J. E., McGuire, M. K. and McGuire, M. A. (2011). Characterization of the diversity and temporal stability of bacterial communities in human milk. PLoS One. 6(6):e21313.
  • Huppertz, T., Smiddy, M. A., Upadhyay, V. K. and Kelly, A. L. (2006). High-pressure-induced changes in bovine milk: a review. Int. J. Dairy Technol. 59(2):58–66.
  • Innis, S. M. (2007a). Dietary (n-3) fatty acids and brain development. J. Nutr. 137(4):855–859.
  • Innis, S. M. (2007b). Human milk: maternal dietary lipids and infant development. Proc. Nutr. Soc. 66(03):397–404.
  • Jones, F. (2003). History of North American donor milk banking: one hundred years of progress. J. Hum. Lact. 19(3):313–318.
  • Koenig, A., de Albuquerque Diniz, E. M., Barbosa, S. F. and Vaz, F. A. (2005). Immunologic factors in human milk: the effects of gestational age and pasteurization. J. Hum. Lact. 21(4):439–443.
  • Lane, P. A. and Hathaway, W. E. (1985). Vitamin K in infancy. J. Pediatr. 106(3):351–359.
  • Lane, J. A., Mehra, R. K., Carrington, S. D. and Hickey, R. M. (2010). The food glycome: A source of protection against pathogen colonization in the gastrointestinal tract. Int. J. Food Microbiol. 142(1–2):1–13.
  • Lawrence, R. A. and Lawrence, R. M. (2011). The collection and storage of human milk and human milk banking. In: Breastfeeding: A Guide for the Medical Profession, 7th ed. Missouri: Elsevier.
  • Lawrence, R. M. and Pane, C. A. (2007). Human breast milk: Current concepts of immunology and infectious diseases. Curr. Probl. Pediatr. Adolesc. Health Care. 37(1):7–36.
  • Leaf, A. and Winterson, R. (2009). Breast-milk banking: evidence of benefit. Paediatr. Child Health. 19(9):395–399.
  • Ledo, A., Arduini, A., Asensi, M. A., Sastre, J., Escrig, R., Brugada, M., Aguar, M., Saenz, P. and Vento, M. (2009). Human milk enhances antioxidant defenses against hydroxyl radical aggression in preterm infants. Am. J. Clin. Nutr. 89(1):210–215.
  • Lepri, L., Del Bubba, M., Maggini, R., Donzelli, G. P. and Galvan, P. (1997). Effect of pasteurization and storage on some components of pooled human milk. J. Chromatogr. B: Biomed. Sci. Appl. 704(1–2):1–10.
  • Lopez Alvarez, M. J. (2007). Proteins in human milk. Breastfeed Rev. 15(1):5–16.
  • Lönnerdal, B. (2003). Nutritional and physiologic significance of human milk proteins. Am. J. Clin. Nutr. 77(6):1537S–1543S.
  • Lönnerdal, B., Forsum, E. and Hambraeus, L. (1976). A longitudinal study of the protein, nitrogen, and lactose contents of human milk from Swedish well-nourished mothers. Am. J. Clin. Nutr. 29(10):1127–1133.
  • Maas, Y. G., Gerritsen, J., Hart, A. A., Hadders-Algra, M., Ruijter, J. M., Tamminga, P., Mirmiran, M. and Spekreijse, H. (1998). Development of macronutrient composition of very preterm human milk. Br. J. Nutr. 80(1):35–40.
  • Marild, S., Hansson, S., Jodal, U., Oden, A. and Svedberg, K. (2004). Protective effect of breastfeeding against urinary tract infection. Acta. Paediatr. 93(2):164–168.
  • McGuire, W. and Anthony, M. Y. (2003). Donor human milk versus formula for preventing necrotising enterocolitis in preterm infants: systematic review. Arch. Dis. Child Fetal Neonata.l Ed. 88(1):F11–F14.
  • McPherson, R. J. and Wagner, C. L. (2001). The effect of pasteurization on transforming growth factor alpha and transforming growth factor beta 2 concentrations in human milk. Adv. Exp. Med. Biol. 501:559–566.
  • Mello-Neto, J., Rondó, P. H. C., Oshiiwa, M., Morgano, M. A., Zacari, C. Z. and Domingues, S. (2009). The influence of maternal factors on the concentration of vitamin A in mature breast milk. Clin. Nutr. 28(2):178–181.
  • Melo, A., Macedo, I. and Tome, T. (2010). PP-169. Impact of human milk banking in preterm babies — Portuguese experience. Early Hum. Dev. 86(Supplement(0)):S85.
  • Mertens, B. (1995). Hydrostatic pressure treatment of food: equipment and processing. In: New Methods of Food Preservation, pp. 135. Gould, G. W. Eds., Black Academic and Professional, New York.
  • Michaelsen, K., Larsen, P., Thomsen, B. and Samuelson, G. (1994). The copenhagen cohort study on infant nutrition and growth: breast-milk intake, human milk macronutrient content, and influencing factors. Am. J. Clin. Nutr. 59(3):600–611.
  • Modi, N. (2006). Donor breast milk banking. BMJ. 333(7579):1133–1134.
  • Molto-Puigmarti, C., Permanyer, M., Castellote, A. I. and Lopez-Sabater, M. C. (2011). Effects of pasteurisation and high-pressure processing on vitamin C, tocopherols and fatty acids in mature human milk. Food Chem. 124(3):697–702.
  • Morales, Y. and Schanler, R. J. (2007). Human milk and clinical outcomes in VLBW infants: How compelling is the evidence of benefit? Semin Perinatol. 31(2):83–88.
  • Mújica-Paz, H., Valdez-Fragoso, A., Samson, C., Welti-Chanes, J. and Torres, J. (2011). High-pressure processing technologies for the pasteurization and sterilization of foods. Food Bioproc. Technol. 4(6):969–985.
  • Nagasawa, T., Kiyosawa, I., Fukuwatari, Y., Kitayama, T., Uechi, M. and Hyodo, Y. (1973). α-Lactalbumin and serum albumin in human milk. J. Dairy Sci. 56(2):177–180.
  • Narayanan, I., Bala, S., Prakash, K., Verma, R. K. and Gujral, V. V. (1980). Partial supplementation with expressed breast-milk for prevention of infection in low-birth-weight infants. Lancet. 316(8194):561–563.
  • Narayanan, I., Murthy, N. S., Prakash, K. and Gujral, V. V. (1984). Randomised controlled trial of effect of raw and holder pasteurised human milk and of formula supplements on incidence of neonatal infection. Lancet. 324(8412):1111–1113.
  • NICE. (2010). Donor breast milk banks: the operation of donor milk bank services. In: NICE Clinical Guideline, vol. 93. National Institute for Health and Care Excellence, London.
  • Nielsen, H. B., Sonne, A.-M., Grunert, K. G., Banati, D., Pollák-Tóth, A., Lakner, Z., Olsen, N. V., Žontar, T. P. and Peterman, M. (2009). Consumer perception of the use of high-pressure processing and pulsed electric field technologies in food production. Appetite. 52(1):115–126.
  • Nguyen, T. M., H., Dantigny, P., Perrier-Cornet, J.-M. and Gervais, P. (2010). Germination and inactivation of Bacillus subtilis spores induced by moderate hydrostatic pressure. Biotechnol. Bioeng. 107(5):876–883.
  • Oliveira, S. C. T., Figueiredo, A. B., Evtuguin, D. V. and Saraiva, J. A. (2012). High pressure treatment as a tool for engineering of enzymatic reactions in cellulosic fibres. Bioresour. Technol. 107(0):530–534.
  • Olsson, S. (1995). Production equipment for commercial use. In: High Pressure Processing of Foods, pp. 167–180. Ledward, D. A., Johnston, D. E., Earnshaw, R. G. and Hastings, A. P. M., Eds., Nottingham University Press, Nottingham.
  • Omarsdottir, S., Casper, C., Akerman, A., Polberger, S. and Vanpee, M. (2008). Breastmilk handling routines for preterm infants in Sweden: a national cross-sectional study. Breastfeed Med. 3(3):165–170.
  • O'Neill, C., Malek, M., Mugford, M., Normand, C., Tarnow-Mordi, W. O., Hey, E. and Halliday, H. L. (2000). A cost analysis of neonatal care in the UK: results from a multicentre study. ECSURF Study Group. J. Public Health Med. 22(1):108–115.
  • Palou, E., Lopez-Malo, A., Barbosa-Cánovas, G. V. and Swanson, B. G. (2007). High-pressure treatment in food preservation. In: Handbook of Food Preservation, 2nd ed. Rahman, M. S. (Ed.), Eds., CRC Press, Boca Raton.
  • Pandey, P. K. and Ramaswamy, H. S. (2004). Effect of high-pressure treatment of milk on lipase and γ-Glutamyl transferase activity. J. Food Biochem. 28(6):449–462.
  • Pardou, A., Serruys, E., Mascart-Lemone, F., Dramaix, M. and Vis, H. L. (1994). Human milk banking: influence of storage processes and of bacterial contamination on some milk constituents. Biol. Neonate. 65(5):302–309.
  • Patterson, M. F., Ledward, D. A. and Rogers, N. (2006). High pressure processing. In: Food Processing Handbook. Brennan, J. G. Eds., Weinheim: Wiley-VCH.
  • Pauling, L. (1964). College Chemistry: An Introductory Textbook of General Chemistry. San Francisco: Freeman and Company.
  • Permanyer, M., Castellote, C., Ramirez-Santana, C., Audi, C., Perez-Cano, F. J., Castell, M., Lopez-Sabater, M. C. and Franch, A. (2010). Maintenance of breast milk immunoglobulin A after high-pressure processing. J. Dairy Sci. 93(3):877–883.
  • Prentice, A. M., Roberts, S. B., Prentice, A., Paul, A. A., Watkinson, M., Watkinson, A. A. and Whitehead, R. G. (1983). Dietary supplementation of lactating Gambian women. I. Effect on breast-milk volume and quality. Hum. Nutr. Clin. Nutr. 37(1):53–64.
  • Ramírez-Santana, C., Pérez-Cano, F. J., Audí, C., Castell, M., Moretones, M. G., López-Sabater, M. C., Castellote, C. and Franch, A. (2012). Effects of cooling and freezing storage on the stability of bioactive factors in human colostrum. J. Dairy Sci. 95(5):2319–2325.
  • Ramirez, R., Saraiva, J., Pérez Lamela, C. and Torres, J. (2009). Reaction kinetics analysis of chemical changes in pressure-assisted thermal processing. Food Eng. Rev. 1(1):16–30.
  • Reynolds, G. J., Lewis-Jones, D. I., Isherwood, D. M., Meade, H. J., Brown, B. J. and Fitzgerald, T. S. (1982). A simplified system of human milk banking. Early Hum .Dev. 7(3):281–292.
  • Rodrigues, L., Teixeira, J., Schmitt, F., Paulsson, M. and Mansson, H. L. (2009). Lactoferrin and cancer disease prevention. Cri. Rev. Food Sci. Nutr. 49(3):203–217.
  • Rodríguez-Alcalá, L. M., Harte, F. and Fontecha, J. (2009). Fatty acid profile and CLA isomers content of cow, ewe and goat milks processed by high pressure homogenization. Innov. Food Sci. Emerg. Tech. 10(1):32–36.
  • Romeu-Nadal, M., Castellote, A. I., Gayà, A. and López-Sabater, M. C. (2008). Effect of pasteurisation on ascorbic acid, dehydroascorbic acid, tocopherols and fatty acids in pooled mature human milk. Food Chem. 107(1):434–438.
  • Rubaltelli, F. F., Biadaioli, R., Pecile, P. and Nicoletti, P. (1998). Intestinal flora in breast- and bottle-fed infants. J. Perinat. Med. 26(3):186–191.
  • Sala-Vila, A., Castellote, A. I., Rodriguez-Palmero, M., Campoy, C. and López-Sabater, M. C. (2005). Lipid composition in human breast milk from Granada (Spain): Changes during lactation. Nutrition. 21(4):467–473.
  • Salvador, A. C., Santos, M. d. C. and Saraiva, J. A. (2010). Effect of the ionic liquid [bmim]Cl and high pressure on the activity of cellulase. Green Chem. 12(4):632–635.
  • Sauer, P. J. (2007). Can extrauterine growth approximate intrauterine growth? Should it? Am. J. Clin. Nutr. 85(2):608S–613S.
  • Schaschke, C. J. (2011). Developments in High-Pressure Food Processing. In: Focus on Food Engineering. Shreck, R. J. Eds., Nova Science Publishers, Inc., New York.
  • Seyderhelm, I., Boguslawski, S., Michaelis, G. and Knorr, D. (1996). Pressure Induced Inactivation of Selected Food Enzymes. J. Food Sci. 61(2):308–310.
  • Shi, Y.-d., Sun, G.-q., Zhang, Z.-g., Deng, X., Kang, X.-h., Liu, Z.-d., Ma, Y. and Sheng, Q.-H. (2011). The chemical composition of human milk from Inner Mongolia of China. Food Chem. 127(3):1193–1198.
  • Shubat, P. J., Parker, D. and Huxtable, R. J. (1989). Effect of suckling and diurnal influences on the concentrations of taurine and other free amino acids in milk. Eur. J. Clin. Nutr. 43(10):675–680.
  • Silva, M. H. L., Silva, M. T. C., Brandão, S. C. C., Gomes, J. C., Peternelli, L. A. and Franceschini, S. C. C. (2005). Fatty acid composition of mature breast milk in Brazilian women. Food Chem. 93(2):297–303.
  • Simmer, K. and Hartmann, B. (2009). The knowns and unknowns of human milk banking. Early Hum. Dev. 85(11):701–704.
  • Tonello, C. (2011). Case Studies on High-Pressure Processing of Foods. In: Nonthermal Processing Technologies for Food. Zhang, H.Q., Barbosa-Cánovas, G.V., Balasubramaniam, V.M., Dunne, C.P., Farkas, D.F., Yuan, J.T.C. Eds., Wiley-Blackwell, Chichester.
  • Torres, J. A. and Velazquez, G. (2008). Hydrostatic pressure processing of foods. In: Food processing opperations modeling: design and analysis, pp. 173–212. Jun, S. and Irudayaraj, J., Eds., CRC Press, Inc., Boca Raton.
  • Tully, M. R. (2000). Cost of establishing and operating a donor human milk bank. J. Hum. Lact. 16(1):57–59.
  • Tully, M. R., Lockhart-Borman, L. and Updegrove, K. (2004). Stories of success: the use of donor milk is increasing in North America. J. Hum. Lact. 20(1):75–77.
  • Updegrove, K. (2005). Human milk banking in the United States. Newborn Infant Nurs. Rev. 5(1):27–33.
  • Uruakpa, F. O., Ismond, M. A. H. and Akobundu, E. N. T. (2002). Colostrum and its benefits: a review. Nutr. Res. 22(6):755–767.
  • USDA. (2009). National nutrient database for standard reference (release 24).
  • U.S. Food and Drug Administration. (2012). Kinetics of Microbial Inactivation for Alternative Food Processing Technologies–Overarching Principles: Kinetics and Pathogens of Concern for All Technologies. Available from http://www.fda.gov/Food/ScienceResearch/ResearchAreas/SafePracticesforFoodProcesses/ucm100198.htm. Accessed September 11, 2012.
  • Van Zoeren-Grobben, D., Schrijver, J., Van den Berg, H. and Berger, H. M. (1987). Human milk vitamin content after pasteurisation, storage, or tube feeding. Arch. Dis. Child. 62(2):161–165.
  • Viazis, S., Farkas, B. E. and Allen, J. C. (2007). Effects of high-pressure processing on immunoglobulin A and lysozyme activity in human milk. J. Hum. Lact. 23(3):253–261.
  • Viazis, S., Farkas, B. E. and Jaykus, L. A. (2008). Inactivation of bacterial pathogens in human milk by high-pressure processing. J. Food Prot. 71(1):109–118.
  • Vieira, A. A., Soares, F. V. M., Pimenta, H. P., Abranches, A. D. and Moreira, M. E. L. (2011). Analysis of the influence of pasteurization, freezing/thawing, and offer processes on human milk's macronutrient concentrations. Early Hum. Dev. 87(8):577–580.
  • Wardell, J. M., Hill, C. M. and D'souza, S. W. (1981). Effect of pasteurization and of freezing and thawing human milk on its triglyceride content. Acta. Paediatr. Scand. 70(4):467–471.
  • Wight, N. E. (2001). Donor human milk for preterm infants. J. Perinatol. 21(4):249–254.
  • Williamson, S., Finucane, E., Ellis, H. and Gamsu, H. R. (1978). Effect of heat treatment of human milk on absorption of nitrogen, fat, sodium, calcium, and phosphorus by preterm infants. Arch. Dis. Child. 53(7):555–563.
  • Wojcik, K. Y., Rechtman, D. J., Lee, M. L., Montoya, A. and Medo, E. T. (2009). Macronutrient Analysis of a Nationwide Sample of Donor Breast Milk. J. Amer. Diet Assoc. 109(1):137–140.
  • World Health Organization. (2010). Fact sheet N° 342. Available from http://www.who.int/mediacentre/factsheets/fs342/en/index.html. Accessed September 10, 2012.
  • Wright, A. O., Cardello, A. V. and Bell, R. (2007). Consumer evaluations of high pressure processed foods. In: High Pressure Processing of Foods, pp. 219–226. Doona, C. J. and Feeherry, F. E., Eds., Oxford: Blackwell Publishing.
  • Yamawaki, N., Yamada, M., Kan-no, T., Kojima, T., Kaneko, T. and Yonekubo, A. (2005). Macronutrient, mineral and trace element composition of breast milk from Japanese women. J. Trace Elem. Med. Bio. 19(2–3):171–181.
  • Yeung, D. L. and Peters, C. T. (2001). Functional foods: implications for infant development and later health. vol. 58: Elsevier, Churchill/Livinstone, Heinz Sight.
  • Zivkovic, A. M., German, J. B., Lebrilla, C. B. and Mills, D. A. (2011). Human milk glycobiome and its impact on the infant gastrointestinal microbiota. Proc. Natl. Acad. Sci. USA. 108:4653–4658.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.