Global ETD Search

11	The composition of milk from different species. Van Horn, Donald Russell. January 1975 (has links) No description available. Milk -- Composition
12	Studies on the constitution of porcine milk. Noroozi, Ebrahim January 1978 (has links) No description available. Milk -- Composition
13	Comparative studies on the proteins of milks from different species. Lauer, Bruce Howard. January 1971 (has links) No description available. Milk -- Composition
14	Vitamin content of human milk King, Pin, 1947- January 1972 (has links) No description available. Breast milk -- Composition. Milk -- Composition. Vitamins -- Research.
15	Vitamin E, total lipids and cholesterol in cow's milk of varying fat contents Kaushik, Supriya 16 March 2000 (has links) The present study was undertaken to analyze the vitamin E, total lipids, and cholesterol in regular and fat-reduced milk to assess whether decreases in fat result in lower vitamin E contents. Milk samples of varying fat contents (11%, 3.3%, 2%, 1% and 0.5% fat) were obtained from a local dairy on six different occasions, α-tocopherol was the major form of vitamin E found in different types of milk, γ-tocopherols and α-tocotrienol were found to a lesser extent in different milks. As the fat content of milk decreased from 11% to 0.3%, vitamin E content also decreased steadily. For example, raw milk as compared to non-fat milk had both a higher α-tocopherol contents (45.5 ± 4.59 μg/100 ml vs. 4.46 ± 0.54; p<0.0001) and a higher total lipids (3.46 ± 0.49 μg/100 ml vs. 0.30 ± 0.07 g/100 ml, (p [less than or equal to] 0.0001). The other detected forms of vitamin E, γ-tocopherol and α-tocotrienol, also varied as the total lipids. Vitamin E, cholesterol and total lipids increased as cream was added back to non-fat milk. For every 10 mg of cholesterol there was an increase of approximately 4 μg of α-tocopherol. For every 1 g increase in total lipid content, the α-tocopherol content increased by 17 μg. This study indicates that vitamin E; especially exotic forms of this vitamin are present in the dairy products analyzed. Also, vitamin E content varies with the total lipid and the cholesterol content. We suggest that vitamin E fortification of milk might be a reasonable approach to restore α-tocopherol intakes to those seen with whole milk. / Graduation date: 2000 Milk -- Composition Milk -- Quality
16	Chemistry of the flavor deterioration of sterilized concentrated milk Arnold, Roy Gary 08 August 1967 (has links) Deterioration of the flavor of sterilized concentrated milk (SCM) is recognized as the principal limiting factor to commercial acceptance of this product. Although a number of volatile compounds have been identified in SCM, quantitative information on these compounds is lacking. It is therefore difficult to ascertain the significance of these compounds. The purpose of this investigation was to determine the identity of additional flavor compounds of stored SCM and to determine the concentrations of the major flavor compounds. Vacuum steam distillation was utilized to recover volatile flavor compounds from samples of SCM. The distillates were extracted with ethyl ether, and components of the ethereal flavor concentrates were separated by gas-liquid chromatography (GLC). Major components whose identity was unknown were collected from the GLC effluent, and were analyzed by capillary column GLC and mass spectrometry. A system for transferring trapped components directly onto a capillary GLC column was developed. 2-Furfural, which had not previously been identified in SCM, and 2-furfurol, which had not been identified as a component of any stored milk product, were identified in stored SCM. Commercial samples of SCM were placed in controlled storage, and subjected to flavor panel evaluation and a number of quantitative determinations at selected intervals of storage. The concentration of the odd-numbered n-methyl ketones, C₃-C₁₁, and of o-aminoacetophenone were determined by measuring the absorbance of their respective 2, 4-dinitrophenylhydrazone derivatives. The concentration of 2-furfurol was determined by a gas entrainment, on-column trapping GLC technique. Acid degree values were obtained by titration of SCM milk fat. Hydroxymethylfurfural (HMF) values were determined by measuring the absorbance of the HMF thiobarbituric acid reaction product. The methyl ketones and o-aminoacetophenone were found to exceed their flavor threshold concentrations after 13 weeks storage of SCM at 27°C. The concentration of 2-furfurol exceeded its threshold concentration after 26 weeks at 27°C, but not after 13 weeks. Acid degree values increased slowly, but did not reach significant levels through 26 weeks at 27°C. Hydroxymethylfurfural values increased slowly through the first 13 weeks at 27°C storage, followed by a marked increase during the second 13 weeks. Heat degradation of thiamine was studied as a possible source of volatile flavor compounds. Heating of thiamine solutions in phosphate buffer at pH 6.7 resulted in the production of volatile components of potential flavor significance. The identity of these components was studied by gas entrainment, on-column trapping GLC, collection of components, and capillary column GLC in conjunction with mass spectrometry. The system developed for the transfer of trapped components directly onto the capillary GLC column was utilized. Hydrogen sulfide, 2-methyl furan, 2-methyl thiophene and a compound which appeared to be a dihydro-2-methyl thiophene were identified as volatile heat degradation products of thiamine. / Graduation date: 1968 Concentrated milk Milk -- Composition
17	Milk microcomponents during natrual and induced galactopoiesis in ruminants Alshaikh, Muhammad A. A. January 1991 (has links) No description available. 580 Milk composition
18	THE TRACE MINERAL COMPOSITION OF HUMAN MILK Vaughan, Linda Ann, 1950- January 1977 (has links) No description available. Breast milk -- Composition.
19	THE ROLE OF SOME LIPID PRECURSORS IN LIPOGENESIS IN THE DAIRY COW Mohammed, Kasheed, 1930- January 1967 (has links) No description available. Lipids -- Metabolism. Milk -- Composition.
20	The composition of bat milk; a chemical analysis Huibregtse, William Henry, 1936- January 1963 (has links) No description available. Bats -- Reproduction. Milk -- Composition.

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