Your search keyword '"H S, Strandler"' showing total 5 results

1. Fermentation of Cauliflower and White Beans with Lactobacillus plantarum – Impact on Levels of Riboflavin, Folate, Vitamin B12, and Amino Acid Composition

Author

Helen O. Thompson, H. S. Strandler, Malin Hultberg, G. Önning, and K. Holmgren

Subjects

biology, Chemistry, food and beverages, Riboflavin, biology.organism_classification, B vitamins, Microbiology (Microbiology in the medical area to be 30109), Chemistry (miscellaneous), Valine, Fermentation, Vitamin B12, Food science, Leucine, Isoleucine, Lactobacillus plantarum, Food Science

Abstract

As diets change in response to ethical, environmental, and health concerns surrounding meat consumption, fermentation has potential to improve the taste and nutritional qualities of plant-based foods. In this study, cauliflower, white beans, and a 50:50 cauliflower-white bean mixture were fermented using different strains of Lactobacillus plantarum. In all treatments containing cauliflower, the pH was reduced to 12 content of the cauliflower-white bean mixture was measured, and compared against that of an unfermented control. The riboflavin and folate content of the mixture increased significantly after fermentation. Relative to control samples, riboflavin increased by 76–113%, to 91.6 ± 0.6 μg/100 g fresh weight, and folate increased by 32–60%, to 58.8 ± 2.0 μg/100 g fresh weight. For one bacterial strain, L. plantarum 299, a significant 66% increase in vitamin B12 was observed, although the final amount (0.048 ± 0.013 μg/100 g fresh weight) was only a small fraction of recommended daily intake. Measurements of amino acid composition in the mixture revealed small increases in alanine, glycine, histidine, isoleucine, leucine, and valine in the fermented sample compared to the unfermented control.

Published

2020

2. Fermentation of Cauliflower and White Beans with Lactobacillus plantarum - Impact on Levels of Riboflavin, Folate, Vitamin B

Author

H O, Thompson, G, Önning, K, Holmgren, H S, Strandler, and M, Hultberg

Subjects

Original Paper, Riboflavin, food and beverages, Brassica, Vitamins, Nutritional quality, Phaseolus vulgaris, Vitamin B 12, Folic Acid, B-vitamins, Fermentation, Lactic acid bacteria, Brassica oleracea, Amino Acids, Lactobacillus plantarum

Abstract

As diets change in response to ethical, environmental, and health concerns surrounding meat consumption, fermentation has potential to improve the taste and nutritional qualities of plant-based foods. In this study, cauliflower, white beans, and a 50:50 cauliflower-white bean mixture were fermented using different strains of Lactobacillus plantarum. In all treatments containing cauliflower, the pH was reduced to

Published

2020

3. Microbiological Assay-Trienzyme Procedure for Total Folates in Cereals and Cereal Foods: Collaborative Study

Author

H S Strandler, C Wurz, N Doreanu, C Wo, C Hudson, J Martin, Gerald Angyal, Jayashree Arcot, M Castelli, John Szpylka, L Rosner, Carol A. Hudson, H van den Berg, P Lawrence, Pamela M. Keagy, Jeanne I. Rader, Jonathan W. DeVries, and Robert W. Peace

Subjects

Pharmacology, business.industry, Microbiological assay, Relative standard deviation, food and beverages, Analytical Chemistry, Food and drug administration, Microtiter plate, Multicenter study, Folic acid, Infant formula, Environmental Chemistry, Standard test, Medicine, Food science, business, Agronomy and Crop Science, Food Science

Abstract

In 1996, U.S. Food and Drug Administration regulations mandated the fortification of enriched cereal-grain products with folic acid, thereby emphasizing the need for validated methods for total folates in foods, particularly cereal products. The AOAC Official Methods (944.12, 960.46) currently used for the analysis of folate in foods for compliance purposes are microbiological methods. When the fortification regulations were finalized, no Official AOAC or Approved AACC methods for folate in cereal-grain products were in place. The AOAC Official Method (992.05) for folic acid in infant formula does not incorporate important improvements in the extraction procedure and was not considered suitable for the analysis of folates in foods in general. Amicrobiological assay protocol using a trienzyme extraction procedure was prepared and submitted for comments to 40 laboratories with recognized experience in folate analysis. On the basis of comments, the method was revised to have the conjugase (gamma-glutamyl-carboxy-peptidase) treatment follow a protease treatment, to include the use of cryoprotected inoculum, and to include the spectroscopic standardization of the standard and optional use of microtiter plates. Thirteen laboratories participated in a collaborative study of 10 required and 10 optional cereal-grain products, including flour, bread, cookies, baking mixes, and ready-to-eat breakfast cereals. The majority of the participating laboratories performed the assay by the standard test tube method; others used the microtiter plate modification for endpoint quantitation with equal success. For the required products, the relative standard deviation between laboratories (RSDR) ranged from 7.4 to 21.6% for 8 fortified (or enriched) products compared with expected (Horwitz equation-based) values of 11–20%. RSDR values were higher (22.7–52.9%) for 2 unfortified cereal-grain products. For the optional products, the RSDR ranged from 1.8 to 11.2% for 8 fortified products. RSDR values were higher (27.9–28.7%) for 2 unfortified cereal-grain products. Based on the results of the collaborative study, the microbiological assay with trienzyme extraction is recommended for adoption as Official First Action.

Published

2005

4. Microbiological assay-trienzyme procedure for total folates in cereals and cereal foods: collaborative study

Author

Jonathan W, DeVries, Jeanne I, Rader, Pamela M, Keagy, Carol A, Hudson, G, Angyal, J, Arcot, M, Castelli, N, Doreanu, C, Hudson, P, Lawrence, J, Martin, R, Peace, L, Rosner, H S, Strandler, J, Szpylka, H, van den Berg, C, Wo, and C, Wurz

Subjects

Quality Control, Reproducibility of Results, Guidelines as Topic, Bread, Folic Acid Deficiency, Hydrogen-Ion Concentration, Chemistry Techniques, Analytical, Nutrition Policy, Oxygen, Automation, Lactobacillus, Folic Acid, Nephelometry and Turbidimetry, Spectrophotometry, Food, Fortified, Humans, Edible Grain, Laboratories, Food Analysis

Abstract

In 1996, U.S. Food and Drug Administration regulations mandated the fortification of enriched cereal-grain products with folic acid, thereby emphasizing the need for validated methods for total folates in foods, particularly cereal products. The AOAC Official Methods (944.12, 960.46) currently used for the analysis of folate in foods for compliance purposes are microbiological methods. When the fortification regulations were finalized, no Official AOAC or Approved AACC methods for folate in cereal-grain products were in place. The AOAC Official Method (992.05) for folic acid in infant formula does not incorporate important improvements in the extraction procedure and was not considered suitable for the analysis of folates in foods in general. A microbiological assay protocol using a trienzyme extraction procedure was prepared and submitted for comments to 40 laboratories with recognized experience in folate analysis. On the basis of comments, the method was revised to have the conjugase (gamma-glutamyl-carboxy-peptidase) treatment follow a protease treatment, to include the use of cryoprotected inoculum, and to include the spectroscopic standardization of the standard and optional use of microtiter plates. Thirteen laboratories participated in a collaborative study of 10 required and 10 optional cereal-grain products, including flour, bread, cookies, baking mixes, and ready-to-eat breakfast cereals. The majority of the participating laboratories performed the assay by the standard test tube method; others used the microtiter plate modification for endpoint quantitation with equal success. For the required products, the relative standard deviation between laboratories (RSD(R)) ranged from 7.4 to 21.6% for 8 fortified (or enriched) products compared with expected (Horwitz equation-based) values of 11-20%. RSD(R) values were higher (22.7-52.9%) for 2 unfortified cereal-grain products. For the optional products, the RSD(R) ranged from 1.8 to 11.2% for 8 fortified products. RSD(R) values were higher (27.9-28.7%) for 2 unfortified cereal-grain products. Based on the results of the collaborative study, the microbiological assay with trienzyme extraction is recommended for adoption as Official First Action.

Published

2005

5. Pharmacokinetic study of IV infusions of adriamycin

Author

H. S. Strandler, I. Näslund, S. Eksborg, P. Tahvanainen, and F. Edsmyr

Subjects

Adult, Male, Pharmacology, Time Factors, business.industry, Pharmacology toxicology, Age Factors, Cancer, General Medicine, Liver tumours, Middle Aged, medicine.disease, nervous system diseases, Kinetics, Pharmacokinetics, Doxorubicin, medicine, Humans, Female, Infusions, Parenteral, Pharmacology (medical), business, Aged

Abstract

The plasma pharmacokinetics of adriamycin has been studied in 21 cancer patients (31-85 years old) without liver tumours after short (3.00 min) and prolonged (45 min-16 h) i.v. infusions. The area under the plasma concentration-time curve and the maximum plasma concentration compensated for dose variation showed a more than 3-fold individual variation. The pharmacokinetics of adriamycin was linear. There was no pharmacokinetic rational for variation of the dose with the age of the patients. There was good agreement between the measured plasma concentration-time curves for prolonged infusions and curves predicted from pharmacokinetic data from short term infusions.

Published

1985