Current Strategies to Improve the Nutritional and Physical Quality of Baked Goods

The lifestyle of humans is rapidly changing, and, correspondingly, their needs and the current and future megatrends of the food market. It is worth mentioning (1) the preference for natural, simple, and flexible diets that drive the further expansion of plant-focused formulations, (2) the focus on...

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Main Authors: Martinez, Mario Martinez, Gomez, Manuel
格式: Online
語言:英语
出版: MDPI - Multidisciplinary Digital Publishing Institute 2021
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在線閱讀:44828
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author Martinez, Mario Martinez
Gomez, Manuel
author_browse Gomez, Manuel
Martinez, Mario Martinez
author_facet Martinez, Mario Martinez
Gomez, Manuel
author_sort Martinez, Mario Martinez
collection Directory of Open Access Books
description The lifestyle of humans is rapidly changing, and, correspondingly, their needs and the current and future megatrends of the food market. It is worth mentioning (1) the preference for natural, simple, and flexible diets that drive the further expansion of plant-focused formulations, (2) the focus on food sustainability (food waste reduction), and (3) the interest in healthy eating as the basis for good health. The hectic routine and rapid urbanization in developed and developing regions, respectively, have shifted consumer preferences toward bread and baked foods, which, interestingly, are often high in sugars and are categorized as having a high glycemic index. Therefore, it is of major importance to address the technological challenges of manufacturing baked goods with high physical and sensory quality that result in positive metabolic responses. This Special Issue seeks to provide fundamental understanding in this area and novel strategies to improve the nutritional properties of baked goods, including a decrease in starch bioaccessibility, sugar reduction, increase in fiber and/or protein content, and the improvement of phytochemical bioactivity. This Special Issue will also cover studies on the physical and sensory improvements of baked goods that may provide a mechanistic understanding to minimize the loss of quality after the incorporation of nutritional-improving ingredients, such as edible byproducts, proteins, or fibers. Last but not least, studies focused on the reduction of additives (clean label) or fat and on the use of sourdough to improve the sensory properties of baked goods will also be included.
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publishDate 2021
publishDateRange 2021
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spelling doab-20.500.12854ir-444282024-04-05T12:33:04Z Current Strategies to Improve the Nutritional and Physical Quality of Baked Goods Martinez, Mario Martinez Gomez, Manuel QH301-705.5 Q1-390 TX341-641 particle size n/a tempering maize bread pea bakery products antinutritional factors nutrition knowledge baking chia analytical quality antioxidant capacity protein enrichment mucilage cookie bakery cereals sustainability amylopectin germination functional foods maize flour sensory QDA shortening upcycled food by-products pulses processing fermentation sesame glycemic response sieve flaxseed Mixolab bio-technological processing ?-amylase TPA high-amylose baking activity defatted sunflower seed flour gluten-free wheat–flaxseed composite protein digestibility bran pseudocereals legume fortification digestion flour refinement consumer milk lipids bread biscuits air classification faba bean whole grains retrogradation intermediate wheatgrass lentil sunflower chickpea colour protein content sensory evaluation valorisation amylose fat replacer fortification principal component analysis thema EDItEUR::P Mathematics and Science::PS Biology, life sciences The lifestyle of humans is rapidly changing, and, correspondingly, their needs and the current and future megatrends of the food market. It is worth mentioning (1) the preference for natural, simple, and flexible diets that drive the further expansion of plant-focused formulations, (2) the focus on food sustainability (food waste reduction), and (3) the interest in healthy eating as the basis for good health. The hectic routine and rapid urbanization in developed and developing regions, respectively, have shifted consumer preferences toward bread and baked foods, which, interestingly, are often high in sugars and are categorized as having a high glycemic index. Therefore, it is of major importance to address the technological challenges of manufacturing baked goods with high physical and sensory quality that result in positive metabolic responses. This Special Issue seeks to provide fundamental understanding in this area and novel strategies to improve the nutritional properties of baked goods, including a decrease in starch bioaccessibility, sugar reduction, increase in fiber and/or protein content, and the improvement of phytochemical bioactivity. This Special Issue will also cover studies on the physical and sensory improvements of baked goods that may provide a mechanistic understanding to minimize the loss of quality after the incorporation of nutritional-improving ingredients, such as edible byproducts, proteins, or fibers. Last but not least, studies focused on the reduction of additives (clean label) or fat and on the use of sourdough to improve the sensory properties of baked goods will also be included. 2021-02-11T10:53:39Z 2021-02-11T10:53:39Z 2020-04-07 23:07:09 2020 book 44828 9783039283477 9783039283460 https://directory.doabooks.org/handle/20.500.12854/44428 eng application/octet-stream Attribution-NonCommercial-NoDerivatives 4.0 International https://mdpi.com/books/pdfview/book/2105 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-03928-347-7 10.3390/books978-3-03928-347-7 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783039283477 9783039283460 164 open access
spellingShingle QH301-705.5
Q1-390
TX341-641
particle size
n/a
tempering
maize bread
pea
bakery products
antinutritional factors
nutrition knowledge
baking
chia
analytical quality
antioxidant capacity
protein enrichment
mucilage
cookie
bakery
cereals
sustainability
amylopectin
germination
functional foods
maize flour
sensory QDA
shortening
upcycled food by-products
pulses
processing
fermentation
sesame
glycemic response
sieve
flaxseed
Mixolab
bio-technological processing
?-amylase
TPA
high-amylose
baking activity
defatted sunflower seed flour
gluten-free
wheat–flaxseed composite
protein digestibility
bran
pseudocereals
legume fortification
digestion
flour refinement
consumer
milk lipids
bread
biscuits
air classification
faba bean
whole grains
retrogradation
intermediate wheatgrass
lentil
sunflower
chickpea
colour
protein content
sensory evaluation
valorisation
amylose
fat replacer
fortification
principal component analysis
thema EDItEUR::P Mathematics and Science::PS Biology, life sciences
Martinez, Mario Martinez
Gomez, Manuel
Current Strategies to Improve the Nutritional and Physical Quality of Baked Goods
title Current Strategies to Improve the Nutritional and Physical Quality of Baked Goods
title_full Current Strategies to Improve the Nutritional and Physical Quality of Baked Goods
title_fullStr Current Strategies to Improve the Nutritional and Physical Quality of Baked Goods
title_full_unstemmed Current Strategies to Improve the Nutritional and Physical Quality of Baked Goods
title_short Current Strategies to Improve the Nutritional and Physical Quality of Baked Goods
title_sort current strategies to improve the nutritional and physical quality of baked goods
topic QH301-705.5
Q1-390
TX341-641
particle size
n/a
tempering
maize bread
pea
bakery products
antinutritional factors
nutrition knowledge
baking
chia
analytical quality
antioxidant capacity
protein enrichment
mucilage
cookie
bakery
cereals
sustainability
amylopectin
germination
functional foods
maize flour
sensory QDA
shortening
upcycled food by-products
pulses
processing
fermentation
sesame
glycemic response
sieve
flaxseed
Mixolab
bio-technological processing
?-amylase
TPA
high-amylose
baking activity
defatted sunflower seed flour
gluten-free
wheat–flaxseed composite
protein digestibility
bran
pseudocereals
legume fortification
digestion
flour refinement
consumer
milk lipids
bread
biscuits
air classification
faba bean
whole grains
retrogradation
intermediate wheatgrass
lentil
sunflower
chickpea
colour
protein content
sensory evaluation
valorisation
amylose
fat replacer
fortification
principal component analysis
thema EDItEUR::P Mathematics and Science::PS Biology, life sciences
topic_facet QH301-705.5
Q1-390
TX341-641
particle size
n/a
tempering
maize bread
pea
bakery products
antinutritional factors
nutrition knowledge
baking
chia
analytical quality
antioxidant capacity
protein enrichment
mucilage
cookie
bakery
cereals
sustainability
amylopectin
germination
functional foods
maize flour
sensory QDA
shortening
upcycled food by-products
pulses
processing
fermentation
sesame
glycemic response
sieve
flaxseed
Mixolab
bio-technological processing
?-amylase
TPA
high-amylose
baking activity
defatted sunflower seed flour
gluten-free
wheat–flaxseed composite
protein digestibility
bran
pseudocereals
legume fortification
digestion
flour refinement
consumer
milk lipids
bread
biscuits
air classification
faba bean
whole grains
retrogradation
intermediate wheatgrass
lentil
sunflower
chickpea
colour
protein content
sensory evaluation
valorisation
amylose
fat replacer
fortification
principal component analysis
thema EDItEUR::P Mathematics and Science::PS Biology, life sciences
url 44828
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