C. Et and T. , 128 III.4.1-Influence des amidons acétylés et de leurs taux d'incorporation sur la composition globale des pâtés crus et cuits, ., p.132

. Hamm, suggère un masquage de certains groupements ionisables suivant la conformation des protéines de la viande, 1966.

C. La and . Significative, P<0,05) avec le taux d'incorporation des amidons modifiés de pomme de terre et de manioc dans les pâtés. Des résultats semblables ont été obtenus par Khalil (2000) sur du pâté de boeuf aux amidons modifiés soient 63, p.9

C. Cette-augmentation-de-la, H. Peut-Être-attribuée-À-lclaus, . Troutt, . Hunt, C. Johnson et al., aptitude des amidons modifiés à fixer une partie de l'eau libérée par les protéines A taux d'incorporation égal des amidons acétylés dans les pâtés, le temps d'acétylation a une influence significative (P<0,05) sur la CRE à 20, 40 et 50g/kg de mêlée, Des CRE semblables (P>0,05) à celle du témoin sont obtenues pour les amidons modifiés Sipiera, 1991.

A. J. Duodu-g, . And, and . Minnaar-a, Effect of ?-irradiation on some physicochemical and thermal properties of cowpea (Vigna unguiculata L. Walp) starch, Food Chemistry, vol.95, pp.386-393, 2006.

A. , K. O. Lawal, and O. S. , Microstructure, functional properties and retrogradation behaviour of mucuna bean (Mucuna pruriens) starch on heat moisture treatments, Food Hydrocolloids, vol.17, pp.265-272, 2003.

A. K. and A. T. Olu-owolabi-b, Functional, physicochemical and retrogradation properties of sword bean (Canavalia gladiata) acetylated and oxidized starches, Carbohydrate Polymers, vol.65, pp.93-101, 2006.

A. J. and P. J. Frangne-r, La Science Alimentaire de A à Z Technique et Documentation, p.477, 1995.

A. , J. M. Stanley, and D. W. , Microstructural principles of food processing and engineering, pp.373-411, 1999.

A. N. Gençcelep-h, Effect of starch type and its modifications on physicochemical properties of bologna-type sausage produced with sheep tail fat, Meat Science, vol.74, pp.404-408, 2006.

A. H. Mcminn-w and . R. Magee-t, Water sorption isotherms of starch powders Part 1: mathematical description of experimental data, Journal of Food Engineering, vol.61, pp.297-307, 2004.

A. R. Grossmann-m and . S. Silva-r, Gelling properties of extruded yam (Dioscorea alata) starch, Food Chemistry, vol.67, pp.123-127, 1999.

A. G. Dufour-d and M. C. Kamenan-a, Resistance to technological stress of yam starch gels. Food Africa, Internet Forum, 2003.

A. G. Kamenan-a, Potentialités nutritionnelles et technologie traditionnelle de transformation des denrées amylacées en Côte d'Ivoire. 2ème Atelier international / 2nd International Workshop. Voies alimentaires d'amélioration des situations nutritionnelles Food-based approaches for a healthy nutrition Ouagadougou, pp.23-28, 2003.

B. C. Et-prokopowich-d, Effect of polyhydroxy compounds on structure formation in waxy maize starch gels: a calorimetric study, Carbohydr. Polym, vol.23, pp.193-202, 1994.

B. A. Bay-smidt-a, . E. Olsen-c, and . L. Moller-b, The distribution of covalently bound phosphate in the starch granule in relation to starch crystallinity, International Journal of Biological Macromolecules, vol.27, pp.211-218, 2000.

B. E. Enfors-s and . Et-molin-g, Effect of hyperbaric carbon dioxide pressure on the microbial flora of pork at 4 or 14°C, J. Appl. Bacteriol, vol.50, pp.45-56, 1981.

B. E. Et-molin-g, The microbial flora of smoked pork loin and frankfurter sausage stored in differents atmospheres at 4°C, J. Appl. Bacteriol, vol.54, pp.493-504, 1983.

B. S. and E. P. Teller-e, Adsorption of gases in multimolecular layers, Journal of American Chemical Society, vol.60, pp.309-319, 1938.

B. A. Bizot, . M. Delage-m, and . L. Multon-j, Evolution of crystallinity and specific gravity of potato starch versus water Ad-and De-sorption, 1982.

C. , J. R. Hunt, and M. C. , Low-fat, high added water bologna formulated with texture-modifying ingredients, Journal of Food Science, vol.56, pp.643-647, 1991.

C. R. Van-den and D. C. Van-der-plas, Crystals structure of hydrated starch, Stärke, vol.31, pp.222-224, 1978.

C. P. Et and B. A. , Transformations structurales de l'amidon, dans « La cuisson-extrusion », Tec&Doc Lavoisier, pp.18-40, 1994.

C. P. Mercier-c, Macromolecular structure of wrinkled ?and smooth-pea starch components, Carbohydrate Res, vol.126, pp.233-247, 1984.

C. S. Manigat-c, . A. Seib-p, and . C. Hoseney-r, Starch paste clarity, Cereal Chem, vol.66, pp.173-182, 1989.

C. J. and B. C. Mourot-j, La viande, consommation, composition, qualité, en nutrition préventive, p.162, 2002.

D. Cock and P. , Functional properties of starch/Methods and applications. Agro-Food- Industry Hi-Tech, pp.18-22, 1996.

D. , I. Dehing, I. Delcour, and J. , Physicochemical properties of cassava starch, Starch, vol.50, pp.58-64, 1998.

D. F. and F. J. Charbonniere-r, Caractérisation des amidons des plantes alimentaires tropicales, Ann. Technol. Agric, vol.27, pp.809-826, 1978.

D. D. De, Le marché des produits agroalimentaires au Cameroun. Mission économique, fiche de syntèse. Version originale du 06/02, © MINEFI ? DGTPE, p.4, 2007.

G. D. Bouchet-b and . M. Baldwin-p, Microscopy of starch: evidence of a new level of granule organization. Carbohydrate Polymers, pp.177-191, 1997.

G. , D. J. Bewa, M. Buy, Q. H. Bouchet, B. Szylit et al., Ultrastructural nutritional aspects of some tropical tuber starches. Starch, pp.255-261, 1982.

G. S. , L. D. , and I. J. Colonna-p, Influence de l'humidité relative de conservation sur les propriétés texturales de films d'amidon plastifiés par du sorbitol, Agoral, Massy 1 et 2 avril, 1998.

G. M. Bociek-s, 13 C CP/MAS NMR studies of amylase inclusion complexes, cyclodextrines, and amorphous phase of starch granules: relationships between glycosidic linkage conformation and solid-state 13 C chemical shif, J. Am, 1988.

G. B. Gros-j and . P. Poma-j, Mesure et modélisation des phénomènes de diffusion lors du salage de la viande, V.P.C, vol.4, pp.35-41, 1983.

G. A. Hoover-r, Effect of heat-moisture treatment on the structure and physicochemical properties of tuber and root starches, Carbohydrate Polymers, vol.49, pp.425-437, 2002.

H. I. and W. P. Köksel-h, A rapid method for the estimation of damaged starch in wheat flours, Journal of Cereal Science, vol.39, pp.139-145, 2004.

H. R. Deatherage-f, Change in hydratation, solubility and charges of muscle proteins during heating of meat, Food Res, vol.25, pp.587-610, 1960.

H. , V. H. Lechet, H. Goemann, and W. , Examination of swelling mechanism of starch by pulsed NMR method, Starch, vol.28, pp.10-14, 1976.

H. , A. M. Svegmark, and K. , Developments in the understanding of starch functionality, Trends in Food Science and Technology, vol.7, pp.345-353, 1996.

H. S. and T. S. Nikuni-z, Studies on starch phosphate: Part 1. Estimation of glucose 6-phosphate residues in starch and the presence of tuber bound phosphate. Starch/ Stärke, pp.338-343, 1970.

H. , F. A. Bragg, and R. , Fluid flow for chemical engineers, p.358, 1995.

H. , R. Hadziyev, and D. , Characterisation of potato starch and its monoglyceride complexes, Starch, vol.33, pp.290-300, 1981.

H. F. Yamamoto-h and H. A. Kitamaru-r, Structural study of amylase polymorphus by cross-polarization-magic angle spinning, 13 C-NMR spectroscopy. Carbohydrate Research, pp.29-40, 1987.

I. Pasteur and . Production, Milieux de culture et réactifs du laboratoire Pasteur, p.573, 1980.

I. , N. Glover, D. V. Sugimoto, Y. Fuwa, and H. , Developmental changes in starch properties in several endosperm mutants of maize, pp.8-12, 1984.

I. , M. N. Rutledge, J. E. James, and W. H. , Influence of rice crystallinity on cross-linking, Cereal Chemistry, vol.51, pp.51-56, 1974.

J. T. , A. G. Sharp-t, and . W. Savell-j, Identification and evaluation of volatile compunds of vacuum and modified atmosphere packaged beef strip moins, Meat Sci, vol.31, pp.175-190, 1992.

J. R. , C. T. Schuck-p, and . Brule-g, Technologie des produits alimentaires, Tec & Doc Lavoisier, vol.2, p.456, 2007.

J. P. Donald-a, Gelation of starch: a combined SAXS/WAXS/DSC and SANS study, Carbohydrate Research, vol.308, pp.133-147, 1998.

J. M. and S. J. Kneifel-h, Iodine maltosaccharine complexes: relation between chain length and colour, Carbohydrate Ressearch, vol.119, pp.254-257, 1983.

K. O. Olayide-s, Functional properties and retrogradation behaviour of native and chemically modified starch of mucuna bean (Mucuna pruriens), J. Sci. Food Agric, vol.83, pp.1541-1546, 2003.

K. Y. Wang-s, Starch cooking with limited water as affected by zein and guar gum, Journal of Food Sciences, vol.64, pp.133-135, 1999.

K. K. Prusa-k and . V. Hughes-k, Cholesterol content and sensory analysis of ground beef as influenced by fat level, heating and storage, J. Food Sci, vol.51, pp.1161-1162, 1986.

K. , B. R. Knutson, C. A. Inglett, G. E. Walker, and C. E. , A differential scanning calorimetry study on the effect of annealing on gelatinization behaviour of corn starch, Journal of Food Science, vol.52, pp.715-718, 1987.

K. K. Schlauch-s, Comparative study about commercially available starches for high shear and high temperature application in foods, Starch/Stärke, vol.46, pp.208-218, 1994.

L. S. Alvarez and G. , The rheology of starch dispersions at high temperature and high sher rate : a review, Journal of Food Engineering, vol.50, pp.189-202, 2001.

L. M. Geiselmann-a, . Conde-petit-b, and . Escher-f, Starch transformation and structure, development in production and reconstitution of potato flakes, Lebensm.-Wiss. u.-Technol, vol.37, pp.417-427, 2004.

L. M. Nicolas, Influence des conditions de chauffage sur les teneurs en matière sèche et en cendre des échantillons de viande hachée. Réunion des chercheurs en viande, Texte de la conférence : viande et produits Carnés Paris (France) 2-4 mars 1983, pp.37-41, 1983.

L. H. Schoch-i, Structure of the starch granule. II. Action of various amylases on granular starches, Cereal Chem, vol.38, pp.34-46, 1959.

L. V. and C. V. Buleon-a, Studies on probe diffusion and accessibility in amylase gels, Macromolecules, vol.23, pp.862-866, 1990.

L. V. and C. P. Buleon-a, Influence of amylose-amylopectin ratio on gel properties, J. Cereal Sci, vol.13, pp.1-13, 1991.

L. E. and H. B. Belarbi-a, L'amidon et ses dérivés, applications industrielles, Collection Bio Campus, 2000.

L. , C. Chang, S. &. Young, and Y. , Investigation of the physical and chemical properties of banana starches, Journal of Food Science, vol.47, pp.1493-1497, 1982.

L. , H. Ramsden, L. Corke, and H. , Physical properties and enzymatic digestibility of acetylated ae, wx, and normal maize starch, Carbohydrate Polymers, vol.34, pp.283-289, 1997.

L. D. and C. B. Le, Propriétés fonctionnelles des macromolécules alimentaires, 1988.

M. M. , A. C. Pagani-m, and . M. &lucisano, Effect of puffing on ultrastructure and physical characteristics of cereal grains and flours, Journal of Cereal Science, vol.43, pp.47-56, 2006.

M. Lopez-soto-m, . San-martin-martinez-e, . J. Zazueta-morales-j, and . J. Velez-medina-j, Effects of high energy milling on some functional properties of jicama starch, 2006.

M. C. Bodson-b, L. J. Sindic-m, . Sinnaeve-g, F. A. Dardenne-p, and . Daroanne-c, L'amidon natif du grain de blé : un composé naturel à valoriser par la connaissance de ses propriétés technofonctionnelles, Livre blanc « Céréales » F.U.S.A. et CRA-W Gembloux. 7P, 2006.

M. P. , D. Tenin, C. Tchiegang-&-j, and . Scher, Effects of local spices on physico-chemical, microbiological and consumer acceptability of beef patties, Journal of Food Technology, vol.4, pp.16-21, 2006.

M. P. Stamberg-o, Some studies of flour absorption, Cereal Chemistry, vol.18, pp.632-639, 1941.

M. M. and M. C. Ring-s, Some recent observations on the retrogradation of amylose, Carbohydrate Polymers, vol.4, pp.73-77, 1984.

M. N. Mittal-j, Use of rheological terms and correlation of compatible measurements in food texture research, J. Texture Studies, vol.8, pp.395-408, 1977.

M. J. Githmann-j, Analyse des constituants alimentaires. 2 e édition Tec&doc, Lavoisier. APRIA, pp.202-203, 1991.

M. H. Mbouémboué-p-&-mouzong, Traditional food crop growing in the Yaoundé area (Cameroon) Synopsis of the system, Agro- Ecosystems, vol.6, pp.273-87, 1981.

O. S. Lawal, Composition, physicochemical properties and retrogradation characteristics of native, oxidised, acetylated and acid-thinned new cocoyam (Xanthosoma sagittifolium) starch, Food Chemistry, vol.87, issue.2, pp.205-218, 2004.
DOI : 10.1016/j.foodchem.2003.11.013

P. , D. L. Huijum, L. Duohai, P. Harold, and C. , General application of Raman spectroscopy for the determination of level of acetylation in modified starches, Cereal Chemistry, vol.76, pp.439-443, 1999.

P. K. and T. P. Sikora-m, Kinetics of gelatinization of potato starch studied by non-isothermal DSC, Carbohydrate Polymer, vol.35, pp.49-54, 1998.

P. J. Buleon-a and . Chanzy-h, Network formation in dilute amylase and amylopectin studied by TEM, Macromolecules, vol.33, pp.6416-6422, 2000.

R. G. and G. J. Eisenbraun-g, Correlation between chopin and AACC method of determining damaged starch, Cereal Chemistry, vol.70, pp.235-236, 1993.

R. M. Tattiyakul and J. , Granule size and rheological behavior of heated tapioca starch dispersions. Carbohydrate Polymers, pp.123-132, 1999.

R. I. Seib-p, Modified waxy wheat starch compared to modified waxy corn starch, Journal of Cereal Science, vol.31, pp.25-39, 2000.

R. J. and P. P. Sabatier, Le meilleur & le plus simple de la pomme de terre, éditions Robert Laffont, p.250, 1994.

J. Eds, Hand boock of fat replacers

R. M. Solarek-d, Starch Derivatives: Production and Uses, Starch, 1984.

S. M. Rai-t, Morphology and functional properties of corn, potato and tapioca starches, Food Hydrocolloids, vol.20, pp.557-566, 2006.

S. , E. Santoyo-gutierrez, S. Garcia, A. Espinosa, G. Moya et al., Rheological property measurement of drilling fluids used in geothermal wells, pp.283-302, 2001.

S. , T. Matsuki, and J. , Effect of wheat starch structure on swelling power, Cereal Chemistry, vol.75, issue.4, pp.525-529, 1998.

S. , C. C. Thevamalar, and K. , Internal plasticization of granular rice starch by hydroxypropylation: Effects on phase transitions associated with gelatinization. Starch, pp.85-88, 1993.

S. N. and C. D. Singh-j, Influence of acetic anhydride on physicochemical, morphological and thermal properties of corn and potato starch, Food Chemistry, vol.86, pp.601-608, 2004.

S. J. and K. L. Mccarthy-o, Factors influencing the physicochemical , morphological, thermal and rheological properties of some chemically modified starches for food application-A review, Food Hydrocolloids, vol.21, pp.1-22, 2007.

S. N. Singh-n, Characteristics of acetylated starches prepared using starches separated from different rice cultivars, Journal of Food Engineering, vol.70, pp.117-127, 2005.

S. N. Singh-j, . Kaur-l, . N. Singh-s, and . B. Singh-g, Morphological, thermal and rheological properties of starches from different botanical sources, Food Chemistry, vol.81, issue.2, pp.219-231, 2003.
DOI : 10.1016/S0308-8146(02)00416-8

S. , J. Singh, N. Saxena, and S. K. , Effect of fatty acids on the rheological properties of corn and potato starch, Journal of Food Engineering, vol.52, pp.9-16, 2002.

S. J. Ockerman-h and . F. Plimpton-r, The effect of cooking temperature, holding temperature and holding time on proximate analysis, aérobic plate count and coliform count on restructured beef roasts, Journal of Food Protection, vol.53, issue.5, pp.396-399, 1990.

S. N. Singh-n, Characteristics of acetylated starches prepared using starches separated from different rice cultivars, Journal of Food Engineering, vol.70, pp.117-127, 2005.

S. , P. A. &kiaka, and K. , Rheology and microstructure of sago starch from Papua New Guinea, Journal of Food Engineering, vol.50, pp.47-57, 2001.

S. L. Zhou-g and Z. G. Li-z, Effects of different milling methods on flour quality and performance in steamed breadmaking, Journal of Cereal Science, vol.45, pp.18-23, 2007.

T. V. Barbosa-canovas-g, Color and textural parameters of pressurized and heat-treated surimi gels as affected by potato starch and egg white, Food Research International, vol.37, pp.767-775, 2004.

&. Hiroaki and Y. , The effect of harvest dates on the starch properties of various potato cultivars, Food Chemistry, vol.86, pp.119-125, 2004.

T. N. Shogo-t, . Motoyuki-m, . Shigenobu-t, S. Chie-m-e, and N. H. Hiroaki-y, Determination of the phosphorus content in potato starch using an energy-dispersive X-ray. fluorescence method. Food Chemistry, pp.632-637, 2006.

V. Beynum and G. M. Roel-j, Starch conversion technology. Gistbrocades , Deft, The Netherlands, p.361, 1985.

V. Laach and R. J. Frans-j, Physical-Chemical Properties and Cooking Yield of Hamburgers Prepared from Accelerated Processed Beef, Journal of Food Science, vol.45, issue.5, pp.1268-1269, 1990.
DOI : 10.2527/jas1981.533658x

V. Oeckel, The quality of pork. Thesis, 1999.

V. T. Bergthaller-w, Y. J. Driedger-d, and . Sporns-p, Starch from Alberta potatoes: wet-isolation and some physicochemical properties, Food Research International, vol.32, pp.355-365, 1999.

V. , T. Sosulski, F. W. Hoover, and R. , The reactivity of native and autoclaved starches from different origins towards acetylation and cationization. Starch, pp.135-143, 1995.

V. C. Witte, G. F. Krause, and . Bailey, A NEW EXTRACTION METHOD FOR DETERMINING 2-THIOBARBITURIC ACID VALUES OF PORK AND BEEF DURING STORAGE, Journal of Food Science, vol.25, issue.538, pp.582-585, 1970.
DOI : 10.1111/j.1365-2621.1970.tb04815.x

W. T. Gidley-m, . U. Komanshek-b, and . M. Donald-a, The phase transformations in starch during gelatinisation: a liquid crystalline approach, 2000.

W. B. and Y. G. Jefery, Méthode de base pour l'évaluation sensorielle des aliments, p.145, 1991.

W. R. Bemiller-j and . F. Paschall-e, Starch, chemistry and technology. 2 e édition, 1984.

W. R. Bemiller-j, Carbohydrate chemistry for food scientists, 1997.

W. I. and O. D. Hilbert-g, Triesters of corn starch, amylose, and amylopectine, In. Eng. Chem, vol.43, pp.4-11, 1978.

W. A. Paul-p, External fat cover influence on raw and cooked beef1. Fat and moisture content. 2-cooking time, losses, press fluid an shear force values, J. Food Sci, vol.34, pp.554-556, 1969.

W. , M. Bamunuarachchi, and A. , Application of DSC to starch gelatinization, pp.201-204, 1979.

W. , M. Manatsathit, and A. , The influence of molar substitution on the water binding capacity of hydroxypropyl maize starches, pp.92-94, 1983.

Z. E. , G. S. Battaglia-a, and . Chizzolini-r, Lipolysis and lipid oxidation in fermented sausages depending on different processing conditions and different antioxidants, Meat Science, vol.66, pp.415-423, 2004.

Z. , J. F. Lin, and C. S. , Quality and characteristics of frankfurters containing corn germ protein, J. Food Sci, vol.35, pp.582-585, 1988.

Z. G. Sosulski-f, Determination of water separation from cooked starch and flour pastes after refrigeration and freeze-thaw, Journal of Food Science, vol.63, issue.1, pp.134-139, 1998.

Z. H. , R. L. Whistler, E. F. Paschall, and J. N. Bemiller-editors, Gelatinization of starch and mechanical properties of starch pastes, in Starch: Chemistry and Technology, pp.285-307, 1984.

Z. , H. F. Young, S. N. Rocca, and L. A. , Starch gelatinization: An X-ray diffraction study, Cereal Chemistry, vol.65, pp.443-446, 1988.

Z. L. Jian-ping, H. L. Xuan-, and . T. Zhang-fa, Effect of mechanical activation on physico-chemical properties and structure of cassava starch, 2006.

Z. G. Elevina-p, Effect of Acetylation on Some Properties of Rice Starch, Starch/Stärke, vol.54, pp.148-154, 2002.