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2013, Number 2

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Rev Esp Cienc Salud 2013; 16 (2)

High hidrostatic pressure, uses and perspectives in the biological sciences and health

Domínguez-Ramírez LL

Language: Spanish
References: 34
Page: 55-61
PDF size: 741.13 Kb.


ABSTRACT

High Hydrostatic Pressure (HHP), also called pascalization, pressurization or isostatic pressure is a process in which a product is subjected to pressures between 100 to 1000 MPa during some minutes, depending on the nature of the product. This process is called hydrostatic pressure because the pressure is applied to a fluid and then is transmitted directly to the object. The history of HHP began with its use on metallurgy, then there was a growing interest on researching its applications on other fields, for example, the effect on biological systems and on the food industry. Nowadays the use of HHP is mainly centered on food preservation (by decreasing microbial counts and eliminating pathogens, improving microbiological quality without modification on flavor, taste or nutrimental value), the upgrading and development of new equipments with higher capabilities has opened the doors for more research and the possibility of upscaling at industrial level. In recent years, there has been an increased interest on the use of this process in diverse sciences such as medicine, biochemistry, molecular biology, etc.


REFERENCES

  1. Bert, P. (1978) La Pression Barométrique. In : Recherches de Physiologie Expérimentale. Paris : Masson ; 1978. p. 15-35.

  2. Regnard P. Recherches expérimentales sur l’influence des très hautes pressions sur les organismes vivants. CR Hebd Acad Sci. 1884; 98: 746-747.

  3. Hite BH. The effect of pressure in the preservation of milk. West Virginia Agricultural Experiment Station. 1899; 58(1): 15-35.

  4. Chlopin G, Tamman G. Über den einfluss hoher drücke auf mikroorganismen. Z Hyg Infektionskr. 1903; 45: 171-204.

  5. Shigehisa T, Ohmori T, Saito A, Taji S, Hayashi R. Effects of High Hydrostatic Pressure on Characteristics of pork slurries and inactivation of microorganisms associated with meat and meat products. Int J Food Microbiol. 1991; 12:207-216.

  6. Smelt JPPM. Recent advances in the microbiology of high pressure processing. T Food Sci & Technol. 1998; 9:152-158.

  7. Hugas M, Garriga M, Monfort JM. New mild Technologies in meat processing: high pressure as a model technology. Meat Sci. 2002; 62:359-371.

  8. Larson WP, Hartzell TB, Diehl HS. The effect of high hydrostatic pressure effects on bacteria. J Infect Dis. 1918; 22: 271-279.

  9. Silva JL, Luan P, Glaser M, Voss EW, Weber G. Effects of hydrostatic pressure on a membrane-enveloped virus: high immunogenicity of the pressure-inactivated virus. J Virol. 1992; 66: 2111-2117.

  10. Masson P, Tonello C, Balny C. High-pressure biotechnology in medicine and pharmaceutical science. J Biomed Biotech. 2001; 1(2): 85-88.

  11. Rivalain N, Roquain J, Demazeau G. Development of high hydrostatic pressure in biosciences : Pressure effect on biological structures and potencial applications in Biotechnologies. Biotech Adv. 2010; 28(6): 659-672.

  12. Bridgman PW. The coagulation of albume by pressure. J Biol Chem. 1914; 19: 511-512.

  13. Heinz V, Knoch A, Lickert T. Product innovation by high pressure processing. New Food. 2009; 2: 43-47.

  14. Sun XD, Holley RA. High Hydrostatic Pressure Effects on the Texture of Meat and Meat Products. J. Food Sci. 2010; 75(1): 17-23.

  15. Téllez-Luis SJ, Ramírez JA, Pérez-Lamela C, Vázquez M, Simal- Gándara J. Aplicación de la alta presión hidrostática en la conservación de los alimentos. Cienc Tecnol Aliment. 2001; 3(2): 66-80.

  16. Raventós M. Industria Alimentaria. Tecnologías Emergentes. España: Ediciones UPC; 2005: 25, 26, 77, 78.

  17. Herrero AM, Romero de Avila MD. Innovaciones en el procesado de alimentos: Tecnologías no térmicas. Rev. Med. Univ. Navarra. 2006; 50(4): 71-74..

  18. Kerr KG, Birkenhead D, Seale K, Major J, Hawkey PM. Prevalence of Listeria spp. on the hands of food workers. J Food Prot. 1993; 56: 525-527.

  19. Domínguez-Ramírez LL. Efecto de tratamientos de Presión Hidrostática Ultra Alta sobre la microbiota de carne fresca. Tesis de Maestría. Universidad Nacional Autónoma de México, Facultad de Química. México, D. F. 2013.

  20. Picouet P, Pérez-Juan M, Realini CE. High Hydrostatic Pressure technology on fresh beef and beef products. Recerca I Tecnologia Agroalimentáries. España. 2008 [citado 30 May, 2011] Formato electrónico: URL: http://prosafebeef.eu/

  21. Tao F, Shumacher RT, Lawrence NP, Gross V, Smejkal G, Lazarev A. Pressure Biosciences Inc. Extraction of biomolecular complexes assisted by alternating hydrostatic pressure. United State Patent US 2009/0286301. 2009 [citado 13 mayo, 2013] Formato electrónico: URL: http://www.freepatentsonline.com/y2009/ 0286301.html

  22. Gross V, Carlson G, Kwan AT, Smejkal G, Freeman E, Evanov AR. Tissue fractionation by hydrostatic pressure cycling technology: the unified sample preparation technique for systems biology studies. J Biomol Tech. 2008; 19: 189-199.

  23. Gross V, Lazarev A, Lawrence N, Schumacher R. Isolation of mitochondria from cell cultures by PTC for proteomic analysis. Biotechniques. 2008; 45: 99-100.

  24. Takemura G, Fujiwara H, Ogawa J, Fujiwara T, Sasayama S. Fixation of biological specimens by high hydrostatic pressure. Arch Histol Cytol. 1993; 56(4): 411-416.

  25. Seo YC, Choi WY, Kim JS, Yoon CS, Lim HW, Cho JS, Ahn J-H, Lee HY. Effect of ultra high pressure processing on immuno-modulatory activities of the fruits of Rubus coreanus Miquel. Inn Food Sci Emerg Technol. 2011; 12: 207-215.

  26. Cheftel JC, Cuolioli J. Effects of high pressure on meat: A review. Meat Sci. 1997; 46(3): 211-236.

  27. Kerry JP, Kerrym JF, Ledward DA. Eds. Meat processing: Improving quality. Cambridge, Reino Unido: Woodhead Publishing; 2002.

  28. Simonin H, Duranton F, de Lamballerie-Anton. New insights into the high-pressure processing of meat and meat products. Comprehensive Reviews. Food Sci Food Safe. 2012; 11: 285-306.

  29. Aymerich T, Picouet PA, Monfort JM. Decontamination technologies for meat products. Meat Sci. 2008; 78: 114-129.

  30. Farkas J. Métodos de conservación y conservantes: Métodos físicos. In: Eds. Doyle MP, Beuchant LR, Montville TJ. Microbiología de los alimentos. Fundamentos y fronteras. España: Editorial Acribia; 2001. p. 519, 522-526, 530-537.

  31. Fonberg-Broczek M, Windyga B, Szczawinski K, Szczawinska M, Pietrzak D, Prestamo G. High pressure processing for food safety. A. Bioch. Pol. 2005; 52(3): 721-724.

  32. Cheftel JC. High Pressure, microbial inactivation and food preservation. Food Sci. Technol. Int. 1995; 1: 75-90.

  33. Sangronis E, Pothakamury U, Ramos AM, Ibarz A, Barbosa GV. La alta presión hidrostática: Una alternativa en el procesamiento no térmico de los alimentos. Alimentos. 1997; 33: 32-43.

  34. Hicks DT, Pivarnik LF, McDermott R, Richard N, Hoover DG, Kniel K. Consumer Awareness and Willingness to Pay for High- Pressure Processing of Ready-to-Eat Food. Food Science Education Research. 2009; 8(2): 32-38.




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