Your search keyword '"MaryAnne Drake"' showing total 366 results

1. Effect of temperature and protein concentration on the protein types within the ultracentrifugation supernatant of liquid micellar casein concentrate

Author

Joice Pranata, Marshall Dunn, MaryAnne Drake, and David M. Barbano

Subjects

micellar casein concentrate, protein composition, viscosity, Dairy processing. Dairy products, SF250.5-275, Dairying, SF221-250

Abstract

ABSTRACT: Liquid micellar casein concentrate (MCC) is an ideal milk-based protein ingredient for neutral-pH ready-to-drink beverages. The texture and mouthfeel of liquid MCC-based beverages depend on the beverage protein content, as well as the composition of soluble proteins in the aqueous phase around the casein micelle. The objective of this study was to determine the composition of soluble proteins in the aqueous phase around the casein micelles in skim milk and liquid MCC containing 7.0% and 11.6% protein content. Skim milk was pasteurized and concentrated to 7% protein content by microfiltration and then to 18% protein content by ultrafiltration. The 18% MCC was then serially diluted with distilled water to produce 11.6% and 7.0% protein MCC. Skim milk, 7.0% MCC, and 11.6% MCC representing starting materials with different protein concentrations were each ultracentrifuged at 100,605 × g for 2 h. The ultracentrifugation for each of the starting materials was performed at 3 different temperatures: 4°C, 20°C, and 37°C. The ultracentrifugation supernatants were collected to represent the aqueous phase around the casein micelle in MCC solutions. The supernatants were analyzed by Kjeldahl to determine the crude protein, casein, and casein as a percentage of crude protein content, and by sodium dodecyl sulfate PAGE to determine the composition of the individual proteins. Most of the proteins in MCC supernatant (about 45%) were casein proteolysis products. The remaining proteins in the MCC supernatant consisted of a combination of intact αS-, β-, and κ-caseins (about 40%) and serum proteins (14–18%). Concentrations of αS-casein and β-casein in the supernatant increased with decreasing temperature, especially at higher protein concentrations. Temperature and interaction between temperature and protein explained about 80% of the variation in concentration of supernatant αS- and β-caseins. Concentration of supernatant κ-casein, casein proteolysis products, and serum protein increased with increasing MCC protein concentration, and MCC protein concentration explained most of the variation in supernatant κ-casein, casein proteolysis products, and serum protein concentrations. Predicted MCC apparent viscosity was positively associated with the dissociation of αS- and β-caseins. Optimal beverage viscosity could be achieved by controlling the dissociation of these proteins in MCC.

Published

2023

2. Effect of dipotassium phosphate and heat on milk protein beverage viscosity and color

Author

Hayden M. Hoyt, Joice Pranata, David M. Barbano, and MaryAnne Drake

Subjects

dipotassium phosphate, micellar casein concentrate, milk protein concentrate, Dairy processing. Dairy products, SF250.5-275, Dairying, SF221-250

Abstract

ABSTRACT: Our objective was to determine the effect of addition of dipotassium phosphate (DKP) at 3 different thermal treatments on color, viscosity, and sensory properties of 7.5% milk protein-based beverages during 15 d of storage at 4°C. Micellar casein concentrate (MCC) and milk protein concentrate (MPC) containing about 7.5% protein were produced from pasteurized skim milk using a 3×, 3-stage ceramic microfiltration process and a 3×, 3-stage polymeric ultrafiltration membrane process, respectively. The MCC and MPC were each split into 6 batches, based on thermal process and addition of DKP. The 6 batches were no postfiltration heat treatment with added DKP (0.15%), no postfiltration heat without added DKP (0%), postfiltration high-temperature, short time (HTST) with DKP, postfiltration HTST without DKP, postfiltration direct steam injection with DKP, and postfiltration direct steam injection without DKP. The 6 MCC milk-based beverages and the 6 MPC milk-based beverages were stored at 4°C. Viscosity, color, and sensory properties were determined over 15 d of refrigerated storage. MCC- and MPC-based beverages at 7.5% protein with and without 0.15% added dipotassium phosphate were successfully run through an HTST and direct steam injection thermal process. The 7.5% protein MCC-based beverage contained a higher calcium and phosphorus content (2,425 and 1,583 mg/L, respectively) than the 7.5% protein MPC-based beverages (2,141 and 1,338 mg/L, respectively). Pasteurization (HTST) had very little effect on beverage particle size distribution, whereas direct steam injection thermal processing produced protein aggregates with medians in the range of 10 and 175 μm for MPC beverages. A population of casein micelles at about 0.15 μm was found in both MCC- and MPC-based beverages. Larger particles in the 175-μm range were not detected in the MCC beverages. In general, the apparent viscosity (AV) of MCC beverages was higher than MPC beverages. Added DKP increased the AV of both MCC- and MPC-based beverages, while increasing heat treatment decreased AV. The AV of beverages with DKP increased during 15 d of 4°C of storage for both MCC and MPC, whereas there was very little change in AV during storage without DKP and a similar effect was observed for sensory viscosity scores. The L value of beverages was higher with higher heat treatment, but DKP addition decreased L value and sensory opacity greatly. Sulfur-eggy flavors were detected in MPC beverages, but not MCC-based beverages.

Published

2023

3. Dairy, Plant, and Novel Proteins: Scientific and Technological Aspects

Author

Yaozheng Liu, William R. Aimutis, and MaryAnne Drake

Subjects

dairy proteins, plant proteins, precision fermentation, cell culturing, algal proteins, mycoprotein, Chemical technology, TP1-1185

Abstract

Alternative proteins have gained popularity as consumers look for foods that are healthy, nutritious, and sustainable. Plant proteins, precision fermentation-derived proteins, cell-cultured proteins, algal proteins, and mycoproteins are the major types of alternative proteins that have emerged in recent years. This review addresses the major alternative-protein categories and reviews their definitions, current market statuses, production methods, and regulations in different countries, safety assessments, nutrition statuses, functionalities and applications, and, finally, sensory properties and consumer perception. Knowledge relative to traditional dairy proteins is also addressed. Opportunities and challenges associated with these proteins are also discussed. Future research directions are proposed to better understand these technologies and to develop consumer-acceptable final products.

Published

2024

4. The effect of flash vacuum cooling on the flavor of ultrapasteurized milk

Author

B.G. Carter, Y. Jo, D.C. Cadwallader, and MaryAnne Drake

Subjects

Dairy processing. Dairy products, SF250.5-275

Abstract

Ultrapasteurization (UP) extends the shelf life of milk. Direct steam injection (DSI) is commonly used for UP because milk is quickly heated and cooled. During this process, steam is directly injected into milk and removed by a vacuum cooler. Consumers do not prefer the flavor of DSI-UP milk compared with traditional high temperature short time (HTST) milk due to the higher cooked and eggy flavors of DSI-UP milk. The objective of this research was to characterize the effect of the vacuum cooler on the flavor of DSI-UP milk. Raw skim milk was pasteurized at 140°C for 2.3 s by DSI and homogenized at 20.7 MPa. By using a liquid sample port, steam-infused pasteurized milk was sampled after heating but before reaching the vacuum chamber. A septum was installed in the vacuum chamber to allow sampling of the removed volatiles by solid-phase microextraction (SPME) fiber followed by gas chromatography-triple quadrupole mass spectrometry (GC-MS/MS) combined with a sulfur-selective flame photometric detector. Steam-infused milk and vacuum-cooled milk diluted to the same solids contents were evaluated by descriptive sensory analysis and volatile compound analysis. The entire experiment was replicated 3 times. Milks cooled by the vacuum cooler were lower in sweet aromatic, sulfur/eggy, and cooked flavors than milk sampled before the vacuum cooler. Volatile compounds removed by the vacuum cooler included the sweet aromatic flavor contributors furaneol, maltol, furfural, sotolon, 2-heptanone, γ-dodecalactone, γ-decalactone, and δ-decalactone, as well as the cooked and sulfur/eggy contributors hydrogen sulfide and dimethyl sulfide. The vacuum cooler applied during DSI-UP of milk is effective at removing steam and cooling UP milk, but this process may also remove important flavor compounds from fluid milk.

Published

2022

5. Physical and sensory properties of lemon-flavored acidic beverages formulated with nonfat dry milk during storage

Author

Nan Li, Inseob Choi, Jennifer Vuia-Riser, Brandon Carter, MaryAnne Drake, and Qixin Zhong

Subjects

acidic dairy beverage, storage stability, sensory, physical property, Dairy processing. Dairy products, SF250.5-275, Dairying, SF221-250

Abstract

ABSTRACT: Sensory and physical properties of 2 lemon-flavored beverages with 5% and 7.5% wt/wt nonfat dry milk (NFDM) at pH 2.5 were studied during storage. The 2 beverages had similar volatile compounds, but the 5% NFDM had higher aroma and lemon flavor, with a preferred appearance by consumers due to the lower turbidity and viscosity. After 28 d of storage at 4°C, lemon flavor decreased in the 5% NFDM beverage but was still more intense than the 7.5% one. During 70 d of storage, no microorganisms were detected, and the beverages were more stable when stored at 4°C than at room temperature according to changes of physical properties measured for appearance, turbidity, color, particle size, zeta potential, rheological properties, and transmission electron microscopy morphology. Findings of the present study suggest that NFDM may be used at 5% wt/wt to produce stable acidic dairy beverages with low turbidity when stored at 4°C.

Published

2022

6. Components Associated With Saltiness Potentiation in Frankfurters Made With Traditionally Brewed Soy Sauce

Author

Elizabeth Price, Jeff Sindelar, MaryAnne Drake, Scott Rankin, and Taro Horiba

Subjects

potentiation, saltiness, ethyl hexanoate, soy sauce, frankfurters, Animal culture, SF1-1100, Nutrition. Foods and food supply, TX341-641

Abstract

Salt is a critical ingredient in processed meat and poultry products because of its multiple functions that affect product quality and safety. Although salt is a functional ingredient in food products, sodium reduction continues to be an important topic within the food industry due to interests in reducing dietary sodium intake. Previous work has shown that soy sauce addition may potentiate saltiness perception in processed meats and thus allow for novel formulations with reduced sodium content. Two studies were conducted to further elucidate these effects. First, trained panel sensory char- acteristics, relevant quality parameters, and selected chemical profiles were determined comparing frankfurters containing flake salt and traditionally brewed soy sauce. Seven aqueous compounds were found to be more abundant (P < 0.001) in the soy sauce – containing treatment, and 56 volatile compounds were identified. Principal component analysis of the sensory and selected chemical profiles led to the consideration that ethyl hexanoate (EHEX) may be a causative agent of the saltiness-potentiating phenomenon. Thus, a second study further evaluated concentrations of EHEX, revealing that trained sensory panelists perceived frankfurters containing EHEX as saltier (P < 0.05) and these frankfurters had higher scores for fermented/sour aromatic score (P < 0.05) than the control (Control: 100% NaCl from flake salt). This research demon- strated the ability of EHEX to potentiate saltiness in frankfurters with minimal effects on quality.

Published

2021

7. Metabolomic Biomarkers Differentiate Soy Sauce Freshness under Conditions of Accelerated Storage

Author

Thiruchelvi R. Reddy, Katherine A. Overmyer, Joshua J. Coon, MaryAnne Drake, Taro Horiba, and Scott A. Rankin

Subjects

Nutrition. Foods and food supply, TX341-641

Abstract

Naturally fermented soy sauce is one of the few globally valued food condiments. It is complex in its substrate, manufacturing processes, and chemical profile of salts and organic compounds, resulting from spontaneous, enzymatic and biochemical reactions. The overall chemical character of soy sauce has a few rivals relative to its chemical and bioactive complexity. Resulting from this complexity are unique sensory attributes contributing to the characteristic soy sauce flavor as well as potentiating other sensory sensations. Soy sauce is susceptible to deterioration after bottling during storage. This work examined soy sauces over an eight-month period using descriptive sensory methods and the discovery of metabolomic biomarkers with high resolution mass spectrometry, wherein samples were derivatized to enable volatility and identification of polar analytes. While several thousand metabolites were detected, only organic acids, amino acids, and various glycosylated metabolites were statistically defensible biomarkers of storage time. The relationships between sensory and metabolomic data were assessed using Kendall rank-based correlations to generate Kendall Tau correlation coefficients. A second approach filtered the data based on correlation significance and grouped molecules based on hierarchical clustering. Mass spectrometry analyses discovered several thousand unique analyte peaks with relevant changes denoted as significant relative to the fresh samples using volcano depictions of p values versus changes in compound abundances. We present a metabolomic approach for the analysis of complex food systems capable of differentiating a quantifiable extrinsic variable, which is, in this case, storage time with a correlation coefficient of 0.99. We further demonstrate that changes in soy sauce resulting from storage are characterized by sensory decreases in fruity/grape and nutty/sesame aroma and increases in methional/potato aroma and astringent attributes with concomitant changes in the concentrations of several key biomarkers.

Published

2021

8. A Cross-Cultural Evaluation of Liking and Perception of Salted Butter Produced from Different Feed Systems

Author

Emer C. Garvey, Thorsten Sander, Tom F. O’Callaghan, MaryAnne Drake, Shelley Fox, Maurice G. O’Sullivan, Joseph P. Kerry, and Kieran N. Kilcawley

Subjects

dairy, diet, butter preference, sensory, volatiles, Chemical technology, TP1-1185

Abstract

Perception and liking among Irish, German and USA consumers of salted butter produced from different feed systems—outdoor grass (FS-GRSS), grass/clover (FS-CLVR), and indoor concentrate (FS-TMR)—was investigated. A consumer study was conducted in all three countries. Irish and German assessors participated in ranking descriptive analysis (RDA), whereas descriptive analysis (DA) was carried out by a trained panel in the USA. Volatile analysis was conducted to identify differences in aroma compounds related to cow diet. Overall, there was no significant difference in overall liking of the butters, among USA, German and Irish consumers, although cross-cultural preferences were evident. Sensory attribute differences based on cow diet were evident across the three countries, as identified by German and Irish assessors and trained USA panelists, which are likely influenced by familiarity. The abundance of specific volatile aromatic compounds, especially some aldehydes and ketones, were significantly impacted by the feed system and may also contribute to some of the perceived sensory attribute differences in these butters.

Published

2020

9. Consumer perception of restaurant and ready‐to‐eat cheese dips

Author

Anita R. Best, Clara M. Racette, and MaryAnne Drake

Subjects

Food Science

Published

2023

10. Consumer perception of ice cream and frozen desserts in the 'better-for-you' category

Author

L.R. Sipple, MaryAnne Drake, A.N. Schiano, and C.M. Racette

Subjects

Sucralose, Ice Cream, Nutritional information, Consumer Behavior, Added sugar, Sweetening, chemistry.chemical_compound, Ingredient, chemistry, Physical Conditioning, Animal, Taste, Ice cream, Genetics, Animals, Perception, Animal Science and Zoology, Food science, Business, Wine tasting, Flavor, Food Science

Abstract

The consumption of ice cream and frozen desserts in the “better-for-you” (BFY) category has grown rapidly over the past few years, even as traditional ice cream sales remain stagnant. To better understand consumer preferences within the BFY category, an online survey (n = 1,051) was conducted with ice cream and frozen dessert consumers, followed by consumer acceptance testing of commercial BFY frozen dairy desserts. Consumers of BFY frozen desserts (n = 578) completed an adaptive choice-based conjoint survey and MaxDiff exercise to identify the attributes that drive purchase of BFY frozen desserts. MaxDiff exercises were also used to determine which attributes all frozen dessert consumers (n = 1,051) perceived to make a frozen dessert BFY and which stabilizers or emulsifiers were most attractive on an ice cream or frozen dessert label. Subsequently, a consumer acceptance test (n = 186) was conducted using 4 commercial vanilla-flavored frozen dairy desserts made with different sweetening systems (sugar, sucralose + acesulfame K, monk fruit + allulose, and stevia + erythritol). Half of consumers were primed or informed with the sweeteners and basic nutritional information for the frozen desserts before tasting, and the other half of consumers evaluated samples blinded, where they were only informed that they were tasting a vanilla-flavored frozen dessert. Sweetener type and base (dairy vs. plant) were the most important attributes to BFY consumers when selecting a BFY frozen dessert (n = 578). For all ice cream and BFY dessert consumers (n = 1,051), sweetener-related claims (naturally sweetened, reduced sugar, no added sugar), along with “all natural” and a short ingredient list, were the top attributes that contributed to perception of a “healthier” frozen dessert. When BFY frozen desserts were tasted by consumers, purchase intent decreased after tasting, suggesting that frozen desserts made with natural non-nutritive sweeteners did not meet consumer expectations. Flavor of BFY frozen desserts remains more important than perceived healthiness. Consumers perceive frozen desserts, even those in the BFY category, as an indulgence. Frozen dessert manufacturers should focus on naturally sweetened, dairy-based desserts with minimal sweetener-related flavor defects when designing products for the BFY category.

Published

2022

11. A Timely Application—Temporal methods, past, present, and future

Author

Heather R. M. Keefer, Dominic Rovai, and MaryAnne Drake

Subjects

Food Science

Published

2023

12. Consumer perception of dried dairy ingredients: Healthy, natural, and sustainable?

Author

A.N. Schiano, MaryAnne Drake, and Patrick D. Gerard

Subjects

Marketing, Consumerism, media_common.quotation_subject, Information processing, Consumer Behavior, Physical Conditioning, Animal, Perception, Animal welfare, Sustainability, Genetics, Happiness, Animals, Position (finance), Cattle, Female, Animal Science and Zoology, Social consciousness, Dairy Products, Business, Food Science, media_common

Abstract

Conscious consumerism is growing, along with consumer demand for socially conscious dairy products or dairy alternatives. To successfully position dairy products (especially conventional dairy) in this changing marketplace, dairy producers and processors must understand how to strategically use both on- and off-package messaging aligned with consumer perceptions. However, consumer perception of attributes such as sustainable, natural, and healthy is complex, and varies between product categories as well as among products within a category. The objective of this study was to characterize consumer definitions of the terms sustainable, natural, and healthy as they pertain to dried dairy ingredients. To meet this objective, we conducted an online survey with 3 maximum difference scaling exercises to determine the importance of 63 label claims to consumer definitions of the terms sustainable, natural, and healthy. The role of priming with dried ingredient processing information on consumer perception of these terms was also explored. Within the dried dairy ingredients category, there is extensive cognitive overlap between the terms sustainable, natural, and healthy. Priming did not affect consumer definitions of any of these terms. Certification-related claims were considered among the least important claims for consumer definitions of sustainable, natural, and healthy, whereas claims that were simple to read and visualize were considered among the most important. Claims related to animal welfare and happiness or simple, minimal ingredients and processing were considered by consumers to be important for all 3 terms. For each of these terms, there was a cluster of consumers who defined the term primarily by simple ingredients and minimal processing, and another cluster who defined the term primarily by happy cows and conscious farming practices. The terms sustainable and healthy each had a third, unique consumer cluster. This third definition cluster defined sustainability primarily by environmental effects, whereas this cluster defined healthy primarily in fitness and nutrition terms. Age and to a lesser extent, gender, affected importance placed on these 3 terms and also affected definition of the term. Understanding these consumer definitions provides insight on how to formulate marketing and educational messaging to speak to each consumer segment.

Published

2021

13. Viscosity changes and gel formation during storage of liquid micellar casein concentrates

Author

MaryAnne Drake, Marshall Dunn, and David M. Barbano

Subjects

food.ingredient, Chromatography, Viscosity, Chemistry, Microfiltration, Ultrafiltration, Aqueous two-phase system, Caseins, food and beverages, Apparent viscosity, Micelle, Milk, food, Casein, Skimmed milk, Genetics, Animals, Animal Science and Zoology, Gels, Kjeldahl method, Micelles, Food Science

Abstract

Our objective was to determine the effects of temperature and protein concentration on viscosity increase and gelation of liquid micellar casein concentrate (MCC) at protein concentrations from 6 to 20% during refrigerated storage. Skim milk (~350 kg) was pasteurized (72°C for 16 s) and filtered through a ceramic microfiltration system to make MCC and replicated 3 times. The liquid MCC was immediately concentrated via a plate ultrafiltration system to 18% protein (wt/wt). The MCC was then diluted to various protein concentrations (6–18%, wt/wt). The highest protein concentrations of MCC formed gels almost immediately on cooling to 4°C, whereas lower concentrations of MCC were viscous liquids. Apparent viscosity (AV) determination using a rotational viscometer, gel strength using a compression test, and protein analysis of supernatants from ultracentrifugation by the Kjeldahl method were performed. The AV data were collected from MCC (6.54, 8.75, 10.66, and 13.21% protein) at 4, 20, and 37°C, and compression force test data were collected for MCC (15.6, 17.9, and 20.3% protein) over a period of 2-wk storage at 4°C. The maximum compressive load was compared at each time point to determine the changes in gel strength over time. Supernatants from MCC of 6.96 and 11.61% protein were collected after ultracentrifugation (100,605 × g for 2 h at 4, 20, and 37°C) and the nitrogen distributions (total, noncasein, casein, and nonprotein nitrogen) were determined. The protein and casein as a percent of true protein concentration in the liquid phase around casein micelles in MCC increased with increasing total MCC protein concentration and with decreasing temperature. Casein as a percent of true protein at 4°C in the liquid phase around casein micelles increased from about 16% for skim milk to about 78% for an MCC containing 11.6% protein. This increase was larger than expected, and this may promote increased viscosity. The AV of MCC solutions in the range of 6 to 13% casein increased with increasing casein concentration and decreasing temperature. We observed a temperature by protein concentration interaction, with AV increasing more rapidly with decreasing temperature at high protein concentration. The increase in AV with decreasing temperature may be due to the increase in protein concentration in the aqueous phase around the casein micelles. The MCC containing about 16 and 18% casein gelled upon cooling to form a gel that was likely a particle jamming gel. These gels increased in strength over 10 d of storage at 4°C, likely due either to the migration of casein (CN) out of the micelles and interaction of the nonmicellar CN to form a network that further strengthened the random loose jamming gel structure or to a gradual increase in voluminosity of the casein micelles during storage at 4°C.

Published

2021

14. Invited review: Sustainability: Different perspectives, inherent conflict

Author

A.N. Schiano and MaryAnne Drake

Subjects

Marketing, Animal Welfare (journal), media_common.quotation_subject, Consumer Behavior, Animal Welfare, Work (electrical), Perception, Sustainability, Genetics, Animals, Animal Science and Zoology, Dairy Products, Business, Product (category theory), Dairy foods, Food Science, media_common

Abstract

Consumer definitions of sustainability are largely uninformed by scientific research and may not align with industry definitions. Furthermore, consumers themselves have varied perceptions, definitions, and opinions of sustainability that vary between categories and products within the dairy category. Understanding these differences and developing marketing messaging aligned with consumer sustainability definitions offer an advantage to dairy product producers when strategically positioning their products in a changing marketplace. This review outlines the factors that may affect consumer sustainability perceptions to provide a basis for future marketing and scientific work. Consumer trends and desires for sustainability are explored, including how they are reflected in the rapid growth of plant-based alternatives. Factors that may influence consumer perception of dairy as sustainable are covered in detail, including packaging, labeling, animal welfare, organic status, grass-fed or pasture-raised feeding systems, and local and clean label perceptions. Finally, a discussion of the challenges of marketing dairy foods with sustainability messages is addressed.

Published

2021

15. Efficiency of removal of whey protein from sweet whey using polymeric microfiltration membranes

Author

David M. Barbano, Larissa DiMarzo, MaryAnne Drake, Joice Pranata, and B.G. Carter

Subjects

Whey protein, Food Handling, Microfiltration, Phospholipid, Pasteurization, Whey protein isolate, law.invention, 03 medical and health sciences, chemistry.chemical_compound, law, Whey, Genetics, Animals, Food science, 030304 developmental biology, 0303 health sciences, biology, 0402 animal and dairy science, food and beverages, Membranes, Artificial, Blood Proteins, 04 agricultural and veterinary sciences, Permeation, Milk Proteins, 040201 dairy & animal science, Milk, Whey Proteins, Membrane, chemistry, Yield (chemistry), biology.protein, Animal Science and Zoology, Filtration, Food Science

Abstract

Our objective was to measure whey protein removal percentage from separated sweet whey using spiral-wound (SW) polymeric microfiltration (MF) membranes using a 3-stage, 3× process at 50°C and to compare the performance of polymeric membranes with ceramic membranes. Pasteurized, separated Cheddar cheese whey (1,080 kg) was microfiltered using a polymeric 0.3-μm polyvinylidene (PVDF) fluoride SW membrane and a 3×, 3-stage MF process. Cheese making and whey processing were replicated 3 times. There was no detectable level of lactoferrin and no intact α- or β-casein detected in the MF permeate from the 0.3-μm SW PVDF membranes used in this study. We found BSA and IgG in both the retentate and permeate. The β-lactoglobulin (β-LG) and α-lactalbumin (α-LA) partitioned between retentate and permeate, but β-LG passage through the membrane was retarded more than α-LA because the ratio of β-LG to α-LA was higher in the MF retentate than either in the sweet whey feed or the MF permeate. About 69% of the crude protein present in the pasteurized separated sweet whey was removed using a 3×, 3-stage, 0.3-μm SW PVDF MF process at 50°C compared with 0.1-μm ceramic graded permeability MF that removed about 85% of crude protein from sweet whey. The polymeric SW membranes used in this study achieve approximately 20% lower yield of whey protein isolate (WPI) and a 50% higher yield of whey protein phospholipid concentrate (WPPC) under the same MF processing conditions as ceramic MF membranes used in the comparison study. Total gross revenue from the sale of WPI plus WPPC produced with polymeric versus ceramic membranes is influenced by both the absolute market price for each product and the ratio of market price of these 2 products. The combination of the market price of WPPC versus WPI and the influence of difference in yield of WPPC and WPI produced with polymeric versus ceramic membranes yielded a price ratio of WPPC versus WPI of 0.556 as the cross over point that determined which membrane type achieves higher total gross revenue return from production of these 2 products from separated sweet whey. A complete economic engineering study comparison of the WPI and WPPC manufacturing costs for polymeric versus ceramic MF membranes is needed to determine the effect of membrane material selection on long-term processing costs, which will affect net revenue and profit when the same quantity of sweet whey is processed under various market price conditions.

Published

2021

16. Child preferences and perceptions of fluid milk in school meal programs

Author

MaryAnne Drake, A.N. Schiano, L.R. Sipple, and D.C. Cadwallader

Subjects

business.product_category, Food Preferences, 03 medical and health sciences, fluids and secretions, Fluid milk, Genetics, Bottle, Animals, Humans, Food science, Child, 030304 developmental biology, Paperboard, 0303 health sciences, Schools, 0402 animal and dairy science, food and beverages, 04 agricultural and veterinary sciences, Consumer Behavior, School meal, 040201 dairy & animal science, Focus group, United States, Life stage, Conjoint analysis, Carton, Milk, Taste, visual_art, visual_art.visual_art_medium, Perception, Animal Science and Zoology, business, Psychology, Food Science

Abstract

School meal programs in the United States feed approximately 30 million children each day and account for the majority of child milk intake. Dairy consumption during childhood and adolescence has lasting effects on lifelong health status, so it is important for schools to ensure adequate consumption in this life stage by offering an appealing product. This study identified the intrinsic and extrinsic attributes that influence children's perceptions, attitudes, and consumption of fluid milk at school, especially as they relate to fluid milk packaging. An online choice-based conjoint survey (n = 211) and four 1-h focus groups (n = 31) were conducted with child milk consumers ages 8 to 13 yr to evaluate extrinsic attributes. The survey evaluated milk package attributes including packaging type, front-of-package graphics, package color, and labeled milk fat content. Focus group topics included preferences, usability, health, taste of fluid milk, and milk consumption habits. To evaluate intrinsic properties related to packaging, 3 varieties of milk (unflavored fat-free, unflavored low-fat, and chocolate-flavored fat-free) were produced and packaged in polyethylene-coated paperboard cartons, polyethylene terephthalate (PET) bottles, and high-density polyethylene (HDPE) bottles (all 250 mL). After 10 to 13 d of storage at 4°C under dark conditions, milks were evaluated by descriptive analysis and child acceptance testing (ages 8–13 yr; n = 126, 122, and 126 for each variety, respectively). Extrinsically, package type was the most important attribute to children, but graphics, nutritional labeling, branding, package size, and overall familiarity also drove preferences. The ideal milk packaging build from the conjoint survey was an HDPE bottle with blue-colored packaging and a cow graphic, labeled as low-fat milk. Intrinsically, all varieties of milks packaged in paperboard cartons developed package-specific flavors, including refrigerator/stale and paperboard, after 10 d of storage. These off-flavors were not detected in HDPE- or PET-packaged milks. For unflavored milks, child consumers preferred the flavor of PET- or HDPE-packaged milks over cartons, regardless of milk fat content, but preferences were not distinct for chocolate-flavored milk. The results of this study demonstrate that children's liking and preference for milk are driven by both intrinsic and extrinsic factors and suggest that improvements are needed to increase acceptance of milk currently served in school meal programs.

Published

2021

17. Identification of predominant aroma components of dried pea protein concentrates and isolates

Author

Yaozheng Liu, Dylan C. Cadwallader, and MaryAnne Drake

Subjects

General Medicine, Food Science, Analytical Chemistry

Abstract

Pea protein is a growing plant-based protein ingredient. Pea proteins have characteristic undesirable flavors, leading to challenges in ingredient applications. The objective of this study was to characterize the flavor of pea proteins using descriptive sensory analysis and instrumental volatile compound analyses. Seven sensory attributes were identified in most pea proteins at variable intensities: cereal/grain, cardboard, green pea, beany/yellow pea, bitter, umami, and astringent. Other attributes, cheesy, doughy, sulfur, pyrazine, fecal, sweet aromatic and salty taste, were distinguishing flavors of some pea proteins (p 0.05). The key aroma-active compounds in pea proteins were hexanal, heptanal, benzaldehyde, methional, 2-hexanone, 2-heptanone, 1-octen-3-one, 2-nonanone, 1-nonen-3-one, 1-pentanol, 2-pentyl furan, 2-isopropyl-3-methoxypyrazine, 2,5-dimethyl-3-(3-methylbutyl)-pyrazine and 2-methyl-isoborneol (present in all representative samples). Volatile compounds responsible for the majority of sample variation included 2-methyl butanal, (Z)-3-hexanal, (E,E)-2,4-decadienal, 1-octen-3-one, 2-decanone, 1-pentanol, 1-octen-3-ol, geosmin and 2,3-diethyl-5-methyl pyrazine (p 0.05). This study can facilitate product development and flavor masking of various pea protein applications.

Published

2023

18. Consumer perception of smoked Cheddar cheese

Author

MaryAnne Drake, D. J. Hanson, R.S. Del Toro-Gipson, and P.V. Rizzo

Subjects

Adult, Male, food.ingredient, Adolescent, media_common.quotation_subject, Agglomerative hierarchical clustering, Food Preferences, Young Adult, 03 medical and health sciences, Liquid smoke, food, Cheese, Smoke, Surveys and Questionnaires, Perception, Genetics, Animals, Cluster Analysis, Humans, Food science, Flavor, 030304 developmental biology, media_common, 0303 health sciences, High intensity, 0402 animal and dairy science, Taste Perception, Bayes Theorem, 04 agricultural and veterinary sciences, Consumer Behavior, Focus Groups, Middle Aged, Adaptive choice, 040201 dairy & animal science, Conjoint analysis, Flavoring Agents, Taste, Female, Animal Science and Zoology, Wine tasting, Psychology, Food Science

Abstract

Consumer perception of smoked cheese was evaluated through focus groups, surveys, and central location testing. Three focus groups (n = 29) were conducted with consumers of smoked cheese. Subsequently, 2 online surveys were conducted. The purpose of the first survey (n = 1,195) was to understand types of smoked cheeses consumed and if consumers associated specific wood smokes with smoked cheese. Next, an adaptive choice-based conjoint (n = 367) was designed to evaluate consumer perception of different attributes of smoked cheese. Maximum difference scaling and familiarity questions were also included in the adaptive choice-based conjoint survey. Following the surveys, a central location test (n = 135) was conducted with cheeses smoked with 3 different woods at a low and high intensity (6 cheeses total). Hierarchical Bayesian estimation, 1-way ANOVA, agglomerative hierarchical clustering, and 2-way ANOVA (smoke type × intensity level) were used to interpret the collected data. Results from the focus groups indicated that smoked cheese was perceived as an artisan, high-end product and that appearance and price were strong purchase factors. In general, consumers were not aware of how smoked flavor was imparted to cheese, but when informed of the processes, they preferred cold-smoked cheese to the addition of liquid smoke flavor. Results from both surveys confirmed focus group observations. Consumers perceived flavor differences among different wood smokes and smoked products. Method of smoking, smoke intensity, type of wood, and type of cheese were the most important attributes for purchase of smoked cheese. When tasting, consumers differentiated smoke aroma and flavor among cheeses and preferred cherry wood smoked cheeses over apple wood or hickory smoked cheeses. Understanding consumer perceptions of smoked cheese will give insight into the desired experience that consumers expect when purchasing smoked cheese.

Published

2021

19. The role of heat treatment in light oxidation of fluid milk

Author

MaryAnne Drake, W.S. Harwood, B.G. Carter, and D.C. Cadwallader

Subjects

Hot Temperature, Time Factors, food.ingredient, Light, Riboflavin, Pasteurization, chemistry.chemical_element, Solid-phase microextraction, Oxygen, Hexanal, Gas Chromatography-Mass Spectrometry, law.invention, 03 medical and health sciences, chemistry.chemical_compound, fluids and secretions, food, Lipid oxidation, law, Skimmed milk, Genetics, Animals, Food science, Solid Phase Microextraction, Flavor, 030304 developmental biology, Aldehydes, 0303 health sciences, Sulfur Compounds, 0402 animal and dairy science, food and beverages, 04 agricultural and veterinary sciences, Lipids, 040201 dairy & animal science, Steam, Milk, chemistry, Taste, Animal Science and Zoology, Oxidation-Reduction, Food Science

Abstract

Light-oxidized flavor (LOF) resulting from photooxidation of riboflavin following light exposure is one of the most common off-flavors in fluid milk. The sensory perception of LOF has been studied extensively in high temperature, short time pasteurized (HTST) milk, but few studies have evaluated ultrapasteurized (UP) milk. The objective of this study was to evaluate the role of heat treatment in the development of LOF in UP fluid skim milk. Skim milk was processed by HTST or by direct steam injection (DSI-UP) and subsequently exposed to 2,000-lx light-emitting diode light for various times. Sensory properties were monitored by descriptive analysis and threshold tests, and volatile compounds were evaluated by solid phase microextraction with gas chromatography-mass spectrometry. Dissolved oxygen and riboflavin were determined at each time point using an oxygen meter and ultra-performance liquid chromatography with a fluorescence detector, respectively. The entire experiment was performed in triplicate. Typical cardboard and mushroom flavors (LOF) were detected by trained panelists in HTST milk after 3.5 h of light exposure. In contrast, LOF was not detected by trained panelists in UP milk until 36 h of light exposure. Similarly, the best estimate threshold for LOF from untrained consumers (n = 101) was higher for DSI-UP milk (61.0 h) than for HTST milk (15.2 h). Milks with LOF were characterized by higher relative abundance of the lipid oxidation compounds hexanal and heptanal. Dissolved oxygen (DO) and riboflavin concentrations decreased with increased light exposure time, and the decrease was slower in UP milk compared with HTST milk. Initial DO concentration was investigated as a possible influence in LOF development because DSI-UP milks had lower initial DO concentrations than HTST milks. However, follow-up evaluations of deaerated HTST milks suggested that DO was not a significant factor in LOF development. These results demonstrate that UP milk is less sensitive to LOF than HTST milk, possibly due to sensory masking effects or antioxidant effects of volatile sulfur compounds. An enhanced understanding of light and storage effects on milks will assist with best practices when transporting and displaying fluid milk products for sale.

Published

2020

20. The influence of automatic associations on preference for milk type

Author

W.S. Harwood and MaryAnne Drake

Subjects

media_common.quotation_subject, Pasteurization, Context (language use), law.invention, 03 medical and health sciences, fluids and secretions, law, Genetics, Animals, Humans, Quality (business), Organic milk, 030304 developmental biology, media_common, Organic Agriculture, 0303 health sciences, 0402 animal and dairy science, food and beverages, Implicit-association test, 04 agricultural and veterinary sciences, Consumer Behavior, 040201 dairy & animal science, United States, Preference, Dairying, Milk, Categorization, Taste, Cattle, Female, Food, Organic, Animal Science and Zoology, Pairwise comparison, Psychology, Social psychology, Food Science

Abstract

In recent decades, organic milk has been an exception to the trend of decreased fluid milk consumption in the United States. However, the reasons behind consumer preference for organic milk over conventional and other milk types are ill-defined. The objective of this study was to use an implicit association test (IAT) and primed and unprimed preference testing to determine if fluid milk consumer preferences for milk types are influenced by implicit biases and, if so, to define these biases within the context of the consumer sensory experience. Self-reported fluid milk consumers (n = 473) participated in online IAT exercises where pairwise comparisons of milk types (conventional, organic, local, pasture-raised) were measured on both positive and negative dimensions related to cow-welfare, sustainability, health, trust, safety, and quality. Latency times from IAT responses were subsequently transformed into standardized D-scores to categorize bias effect sizes. Additionally, fluid milk consumers (n = 174) participated in preference tests that compared commercial milks representing different milk types through presentations where milk type was shown (primed) or hidden (unprimed). Following preference tests, consumers were asked to explain their preferred sample using check-all-that-apply tasks. Analysis of IAT results showed that conventional milk was more associated with negative dimension descriptors compared with organic, local, and pasture-raised milks. Additionally, a positive bias in favor of organic milk was expressed when compared with pasture-raised milk offerings; however, no differences were found in pairwise comparisons of other nonconventional milk type pairings, suggesting that consumers may conflate these designations. Blinded preference testing showed that milk preferences were largely dictated by flavor, with consumers differentiating milk types based upon flavors related to packaging, pasteurization method, and feeding systems. In primed evaluations, consumers generally expressed preferences that aligned with their explicit beliefs, and flavor considerations appeared to be a secondary differentiator of preference. Based on these results, conventional milk is associated with negative implicit beliefs related to production and product quality more often than other milk types, which was reflected in IAT evaluations and primed preference tests. However, the blinded tastings suggested that conventional milk was preferred, or competitive with, other milk types based on flavor alone. Findings from this study suggest consumer differentiation and preference of milks is significantly affected by perceptions and beliefs related to milk type. In particular, conventional milk was associated with relatively few unique belief descriptions, indicating strict utilitarian consumer categorization. Organic and local milks were comparatively associated with greater care for nutrition, sustainability, animal welfare, and local farm support. These results demonstrate a need for greater education related to conventional milk offerings to dispel factors influencing negative implicit bias. Furthermore, improving product narrative via label information and alignment with locality and regionality were identified as possible opportunities for improving consumer sentiments related to conventional milk. A more thorough understanding of these attributes may reinforce stated beliefs more effectively and stave off consumer losses to plant-based alternatives that fulfill similar beliefs.

Published

2020

21. Flavor of Dairy Products

Author

Keith R. Cadwallader, MaryAnne Drake, Robert J. McGorrin, W. James (Jim) Harper, Robert J. McGorrin, MaryAnne Drake, Keith R. Cadwallader, Mary E. Carunchia Whetstine, Raymond T. Marsili, Jennifer Mei, Gary Reineccius, Keith R. Cadwallader, Tanoj. K. Singh, John P. Jerrell, Hedwig Schlichtherle-Cern

Published

2007

22. Validation of fluid milk consumer segments using qualitative multivariate analysis

Author

MaryAnne Drake and W.S. Harwood

Subjects

Multivariate analysis, media_common.quotation_subject, Food Preferences, 03 medical and health sciences, Surveys and Questionnaires, Perception, Genetics, Animals, Humans, Quality (business), Product (category theory), Marketing, Preference (economics), 030304 developmental biology, Mathematics, media_common, Consumption (economics), 0303 health sciences, business.industry, 0402 animal and dairy science, 04 agricultural and veterinary sciences, Consumer Behavior, Focus Groups, 040201 dairy & animal science, Focus group, Milk, Taste, Multivariate Analysis, New product development, Animal Science and Zoology, business, Food Science

Abstract

Consumption of fluid milk in the United States has declined in recent years. To increase appeal and meet ever-changing consumer demands, several product features have been introduced to the fluid milk market. As such, it is imperative to assess consumer sentiments from both quantitative and qualitative perspectives to better understand the effect of various product offerings. The objectives of this study were to identify fluid milk consumer segments that were characterized by preference for specific product features and to verify those sentiments using qualitative multivariate analysis (QMA). An adaptive choice-based conjoint survey (n = 719) was designed to explore consumer desires regarding the fat content, package type, shelf life, label claims, and prices of commercial milks. Part-worth utilities from the conjoint task were subsequently clustered, revealing 4 unique consumer segments. Representative consumers from each cluster (n = 18 total) were selected to participate in a 4-wk QMA study, consisting of a home-usage test followed by focus groups and projective mapping. Nine commercial milks representing various pasteurization methods, label claims, and packaging types were used within the study. When analyzed by segment, significant differences in conjoint utilities for specific product features were identified. Overall, price was the largest differentiator of segments, followed by fat content, shelf life, and milk designation. Several of the segmental differences were confirmed in the QMA study, with sentiments regarding price and milk type (i.e., conventional, organic, local) consistent between conjoint survey and QMA for each consumer group. Within the projective mapping exercise, intrinsic sensory properties, price, and quality perception were the primary differentiators for fluid milks. Comments from QMA journal entries and focus groups revealed that consumer segments with preferences for nonconventional milk types were primarily motivated by the belief that organic, local, or pasture-raised milks were superior in sensory quality and congruent with personal values. Overall, QMA was an effective means for verifying conjoint-derived consumer groups and provided a contextual support for conjoint insights. Joint conclusions drawn from the components of this study may serve to guide marketing campaigns and new product development for fluid milk processors.

Published

2020

23. Sensory properties and consumer acceptance of ready‐to‐drink vanilla protein beverages

Author

Yaozheng Liu, Rachel S. Del Toro-Gipson, and MaryAnne Drake

Subjects

Chemistry, Advertising, Sensory system, Ready to drink, Sensory Systems, Food Science

Published

2021

24. The effect of carrier on consumer liking of soy sauce

Author

Heather R. M. Keefer, W.S. Harwood, Daniel M. Ennis, and MaryAnne Drake

Subjects

Psychology, Sensory Systems, Food Science

Published

2021

25. Identification of the source of volatile sulfur compounds produced in milk during thermal processing

Author

B.G. Carter, Y. Jo, David M. Barbano, and MaryAnne Drake

Subjects

Hot Temperature, food.ingredient, Hydrogen sulfide, chemistry.chemical_element, Sulfides, Gas Chromatography-Mass Spectrometry, 03 medical and health sciences, chemistry.chemical_compound, fluids and secretions, food, Milk Serum, Skimmed milk, Genetics, Animals, Dimethyl disulfide, Food science, Solid Phase Microextraction, Flavor, 030304 developmental biology, 0303 health sciences, Sulfur Compounds, Methional, 0402 animal and dairy science, Caseins, food and beverages, 04 agricultural and veterinary sciences, Milk Proteins, 040201 dairy & animal science, Sulfur, Steam, Milk, chemistry, Taste, Odorants, Pasteurization, Cattle, Animal Science and Zoology, Dimethyl trisulfide, Food Science

Abstract

Volatile sulfur compounds in ultra-pasteurized (UP) milk are the major contributors to sulfur/burnt and eggy flavors, and these flavors are disliked by consumers. Previous research has established distinct differences in flavor profiles of fluid milk processed by high temperature, short time pasteurization (HTST) and UP by direct steam injection (DSI-UP) or indirect heat (IND-UP). An understanding of the contribution of the individual milk proteins to sulfur off-flavors would clarify the source of sulfur flavors in UP milks. The objective of this study was to determine the source of volatile sulfur compounds in fluid milk with a specific focus on the comparison of heat treatment effects on milks by HTST and UP. Formulated skim milks (FSM) were manufactured by blending micellar casein concentrate and serum protein isolate (SPI). Three different caseins as a percentage of true protein (FSM95, FSM80, and FSM60) were formulated to determine the source of sulfur/burnt and eggy flavors. Freshly processed micellar casein concentrate or SPI were blended to achieve a true protein content of about 3.2%. Raw skim milk served as a control. Skim milk and FSM were pasteurized at 78°C for 15 s (HTST) or 140°C for 2.3 s by IND-UP or DSI-UP. The experiment was replicated twice. Sensory properties of milks and FSM were documented by descriptive sensory analysis. Volatile sulfur compounds in milks and FSM were evaluated using solid-phase microextraction followed by gas chromatography-triple quadrupole mass spectrometry combined with a sulfur selective flame photometric detector. The FSM with higher SPI as a percent of true protein had higher sensory sulfur/burnt and eggy flavors along with elevated concentrations of hydrogen sulfide and carbon disulfide compared with skim milk or FSM with lower proportions of SPI. Sulfur compounds including dimethyl sulfide, dimethyl disulfide, dimethyl trisulfide, dimethyl sulfoxide, and methional were not associated with sulfur/burnt and eggy flavors, which suggests that these compounds may not specifically contribute to the sulfur/burnt and eggy off-flavors of UP milks. Sensory panelists found higher overall aroma impact, and cooked, sulfur/burnt, and eggy flavors for DSI-UP, followed by IND-UP and HTST. The combination of sensory and instrumental methods used in the current study effectively identified that milk serum proteins are the source of sulfur compounds in milk, and further confirmed the contribution of hydrogen sulfide and carbon disulfide to eggy and sulfur/burnt flavors, respectively.

Published

2019

26. Effects of milk fat, casein, and serum protein concentrations on sensory properties of milk-based beverages

Author

David M. Barbano, MaryAnne Drake, and Ni Cheng

Subjects

Adult, Male, Serum protein, Color, Pasteurization, Sensory system, law.invention, Beverages, Butterfat, 03 medical and health sciences, Ingredient, law, Casein, Genetics, Animals, Humans, Food science, Particle Size, Aroma, Flavor, Glycoproteins, 030304 developmental biology, 0303 health sciences, biology, Viscosity, Chemistry, 0402 animal and dairy science, Caseins, food and beverages, Blood Proteins, Lipid Droplets, 04 agricultural and veterinary sciences, Middle Aged, Milk Proteins, biology.organism_classification, 040201 dairy & animal science, Milk, Taste, Cattle, Female, Animal Science and Zoology, Glycolipids, Food Science

Abstract

Our goal was to determine the effect of systematically controlled variation in milk fat, true protein, casein, and serum protein concentrations on the sensory color, flavor and texture properties, instrumental color and viscosity, and milk fat globule size distribution of milk-based beverages. Beverage formulations were based on a complete balanced 3-factor (fat, true protein, and casein as a percentage of true protein) design with 3 fat levels (0.2, 1.0, and 2.0%), 4 true protein (TP) levels (3.00, 3.67, 4.34, and 5.00%) within each fat level, and 5 casein as a percentage of true protein (CN%TP) levels (5, 25, 50, 75, and 80%) within each protein level (for a total of 60 formulations within each of 2 replicates). Instrumental measures of Hunter L and a values and Commission Internationale de l'Eclairage (CIE) b* values, instrumental viscosity, particle size, flavor, sensory texture and sensory appearance evaluations were done on each pasteurized/homogenized beverage formulation. Within each of the 3 fat levels, higher serum protein concentration drove higher aroma intensity, sweet aromatic, cooked/sulfur, cardboard/doughy flavors, and sensory yellowness scores, whereas higher casein concentration drove higher instrumental viscosity in milk protein beverages. Increasing serum protein concentration increased yellowness, sweet aromatic, aroma intensity, cooked/sulfur, and cardboard/doughy flavors across all fat levels and also had the largest effect on L, a, and b* values, sensory whiteness, and opacity within each fat level. Increases in true protein increased throat cling and astringency intensities. Increases in fat concentration were correlated with higher L, a, and b* values, larger particle size, and increased sensory whiteness, mouth coating, cooked/milky, and milkfat flavors. Multiple linear regression of L, a, and b* values produced better predictions of sensory whiteness and yellowness of pasteurized milk protein beverages than simple linear regression of L or b* values, respectively. Formulating milk protein beverages to a higher true protein level increased astringency regardless of fat level. When formulating milk protein beverages, a product developer has a wide range of milk-based protein ingredient choices that differ in price and change price relationship across time. Understanding the expected relative effect of different milk protein ingredients on the textural and flavor characteristics of milk-based beverages could be used to help guide product reformulation decisions and ingredient choices to achieve a specific sensory profile while controlling total beverage ingredient cost.

Published

2019

27. Use of acid whey protein concentrate as an ingredient in nonfat cup set-style yogurt

Author

Bryan Wherry, MaryAnne Drake, and David M. Barbano

Subjects

Whey protein, food.ingredient, Food Handling, Pasteurization, Titratable acid, law.invention, Butterfat, Ingredient, chemistry.chemical_compound, fluids and secretions, food, Cheese, law, Whey, Skimmed milk, Genetics, Animals, Food science, Lactose, digestive, oral, and skin physiology, Food Ingredients, food and beverages, Milk Proteins, Yogurt, Milk, Whey Proteins, chemistry, Taste, Fermentation, Animal Science and Zoology, Food Science

Abstract

Acid whey resulting from the production of soft cheeses is a disposal problem for the dairy industry. Few uses have been found for acid whey because of its high ash content, low pH, and high organic acid content. The objective of this study was to explore the potential of recovery of whey protein from cottage cheese acid whey for use in yogurt. Cottage cheese acid whey and Cheddar cheese whey were produced from standard cottage cheese and Cheddar cheese-making procedures, respectively. The whey was separated and pasteurized by high temperature, short time pasteurization and stored at 4°C. Food-grade ammonium hydroxide was used to neutralize the acid whey to a pH of 6.4. The whey was heated to 50°C and concentrated using ultrafiltration and diafiltration with 11 polyethersulfone cartridge membrane filters (10,000-kDa cutoff) to 25% total solids and 80% protein. Skim milk was concentrated to 6% total protein. Nonfat, unflavored set-style yogurts (6.0 ± 0.1% protein, 15 ± 1.0% solids) were made from skim milk with added acid whey protein concentrate, skim milk with added sweet whey protein concentrate, or skim milk concentrate. Yogurt mixes were standardized to lactose and fat of 6.50% and 0.10%, respectively. Yogurt was fermented at 43°C to pH 4.6 and stored at 4°C. The experiment was replicated in triplicate. Titratable acidity, pH, whey separation, color, and gel strength were measured weekly in yogurts through 8 wk. Trained panel profiling was conducted on 0, 14, 28, and 56 d. Fat-free yogurts produced with added neutralized fresh liquid acid whey protein concentrate had flavor attributes similar those with added fresh liquid sweet whey protein but had lower gel strength attributes, which translated to differences in trained panel texture attributes and lower consumer liking scores for fat-free yogurt made with added acid whey protein ingredient. Difference in pH was the main contributor to texture differences, as higher pH in acid whey protein yogurts changed gel structure formation and water-holding capacity of the yogurt gel. In a second part of the study, the yogurt mix was reformulated to address texture differences. The reformulated yogurt mix at 2% milkfat and using a lower level of sweet and acid whey ingredient performed at parity with control yogurts in consumer sensory trials. Fresh liquid acid whey protein concentrates from cottage cheese manufacture can be used as a liquid protein ingredient source for manufacture of yogurt in the same factory.

Published

2019

28. Emulsion filled polysaccharide gels: Filler particle effects on material properties, oral processing, and sensory texture

Author

Hicran Koç, Gregory K Essick, MaryAnne Drake, Fred van de Velde, E. Allen Foegeding, Christopher J. Vinyard, and OpenMETU

Subjects

Filler (packaging), Materials science, 010304 chemical physics, General Chemical Engineering, 04 agricultural and veterinary sciences, General Chemistry, 040401 food science, 01 natural sciences, Stress (mechanics), 0404 agricultural biotechnology, Brittleness, Oil droplet, 0103 physical sciences, Emulsion, Texture (crystalline), Particle size, Composite material, Stress intensity factor, Food Science

Abstract

Addition of filler particles is a common approach to alter food structure and thereby change sensory properties. The goal of this investigation was to determine how filler particles alter oral processing patterns and sensory texture perception of two model food gels with distinct mechanical properties. Agar gels (brittle) and kappa-carrageenan-locust bean gum gels (ductile) were formulated to have similar strength (fracture stress) but different deformability (fracture strain). Increasing the phase volume of oil droplets decreased fracture stress and stress intensity factor of both filled gels, while the main effect on fracture strain and fracture surface energy was observed for the highly deformable kappa-carrageenan-locust bean. Adding oil had general effects of decreasing sensory hardness and particle size and increasing the rate of breakdown. Furthermore, agar gel texture was more sensitive to adding oil, with changes observed in several textural properties of agar gels with no corresponding change in kappa-carrageenan-locust bean gels. Adding oil did not change the oral processing pattern based on distance and velocity of jaw movement, along with temporal aspects of each chewing cycle. However, jaw velocity and movement were adjusted for differences in gel type. kappa-carrageenan-locust bean gels generally required more muscle activity to prepare for swallowing, and increasing oil content decreased overall muscle activity for both gels. These results imply that gel structure, rather than the amount of oil filler, determined the oral processing pattern.

Published

2019

29. Sweetness perception in protein-polysaccharide beverages is not explained by viscosity or critical overlap concentration

Author

E. Allen Foegeding, MaryAnne Drake, Esra Çakır-Fuller, and Ty B. Wagoner

Subjects

chemistry.chemical_classification, Taste, Sucrose, Aqueous solution, 010304 chemical physics, General Chemical Engineering, 04 agricultural and veterinary sciences, General Chemistry, Sweetness, Polysaccharide, 040401 food science, 01 natural sciences, Random coil, Carboxymethyl cellulose, chemistry.chemical_compound, Viscosity, 0404 agricultural biotechnology, chemistry, 0103 physical sciences, medicine, Food science, Food Science, medicine.drug

Abstract

It is generally reported that in random coil polysaccharide solutions, increasing polymer concentration above the critical overlap concentration (c*) results in decreased taste perception due to a high degree of polymer entanglement and resultant poor mixing efficiency with saliva in the mouth. However, these reports are commonly based on aqueous solutions of polymers and it is unknown if this phenomenon applies to more complex fluids containing protein and fat, or if taste suppression can be explained on the basis of an altered temporal profile of taste. In this study, the effects of carboxymethyl cellulose (CMC) concentration (0.15–1.50% w/w) on sensory texture and sweet taste perception (6.0% w/w sucrose) were evaluated. Zero-shear viscosity of CMC solutions ranged from 5.5 to 133 mPa s, and c* was experimentally determined to be 0.67% w/w. Three concentrations above c* were tested and only the highest (1.5% CMC) caused a significant (p

Published

2019

30. Concentration of furfuryl alcohol in fluid milk, dried dairy ingredients, and cultured dairy products

Author

Y. Jo, B.M. Wherry, and MaryAnne Drake

Subjects

Whey protein, food.ingredient, Cultured Milk Products, Furfural, California, Gas Chromatography-Mass Spectrometry, Sour cream, Furfuryl alcohol, 03 medical and health sciences, chemistry.chemical_compound, symbols.namesake, food, Cheese, Food, Preserved, Skimmed milk, Genetics, Animals, Food science, Furans, Solid Phase Microextraction, Flavor, 030304 developmental biology, 0303 health sciences, Extraction (chemistry), 0402 animal and dairy science, food and beverages, 04 agricultural and veterinary sciences, Milk Proteins, 040201 dairy & animal science, Flavoring Agents, Maillard reaction, Milk, Whey Proteins, chemistry, symbols, Pasteurization, Animal Science and Zoology, Dairy Products, Food Science

Abstract

Maillard reactions occur in dairy products during heat treatment. Furfuryl alcohol (FA) may be found in dairy products as a result of Maillard reactions. The recent posting in California Proposition 65 indicates that FA may be carcinogenic, and for this reason it is crucial to accurately measure FA concentrations in dairy products. The objective of this study was to identify an extraction and quantitation method for FA from dairy products and to determine FA concentrations in milk, dairy powders, and cultured dairy products. Solvent-assisted flavor extraction, solid-phase microextraction, stir bar sorptive extraction with gas chromatography-mass spectrometry and triple quadrupole mass spectrometry were compared for recovery of FA. Internal standards for the quantitation of FA (2-methyl-3-heptanone, furfuryl-d5 alcohol, 2,5-dimethylphenol, 5-methyl-2-furfuryl alcohol, and 5-methyl furfural) were also compared. Subsequently, fluid milk [high temperature, short time (HTST) and ultrapasteurized], whey protein isolates (3 mo–4 yr), whey protein concentrates (3 mo–4 yr), whole milk powders (1 yr), high and low heat skim milk powders (SMP; 0–8 yr), milk protein isolates (3 mo–3 yr), milk protein concentrates (3 mo–3 yr), Cheddar cheese (mild, medium, sharp, and extra sharp), mozzarella cheese (whole and part skim), cottage cheese (nonfat, low fat, and full fat), sour cream (nonfat, low fat, and full fat), traditional yogurt (nonfat, low fat, and full fat), and Greek-style yogurt (nonfat; n = 139 products total) were evaluated. Furfuryl alcohol was extracted from products by headspace solid-phase microextraction followed by gas chromatography-triple quadrupole mass spectrometry using a ZB-5ms column (30 m × 0.25 mm × 0.25 µm; Phenomenex Inc., Torrance, CA). Furfuryl-d5 alcohol was used as an internal standard. Each food was extracted in triplicate. Ultrapasteurized milks had higher levels of FA than HTST milks (122.3 vs. 7.350 µg/kg). Furfuryl alcohol concentrations ranged from 0.634 to 26.55 µg/kg in whey protein isolates, 2.251 to 56.19 µg/kg in whey protein concentrates, 11.99 to 121.9 µg/kg in milk protein isolates, and 8.312 to 49.71 µg/kg in milk protein concentrates, and concentrations increased with powder storage. High heat SMP had higher concentrations of FA than low heat SMP (11.8 vs. 1.36 µg/kg) and concentrations increased with storage time. Concentrations of FA in Cheddar and mozzarella cheese ranged from 2.361 to 110.5 µg/kg and were higher than FA concentrations in cottage cheese or sour cream (0.049–1.017 µg/kg). These results suggest that FA is present at higher levels in dairy products that have been subjected to higher temperatures or have been stored longer. Sour cream and cottage cheese had lower levels of FA. Compared with other studies on food products with reported levels of FA, such as coffee (200–400 µg/g), dairy products have very low levels of FA.

Published

2019

31. Suitability of a novel camel (Camelus dromedarius) chymosin as a coagulant for Cheddar cheese manufacture

Author

Bozhao Li, David S. Waldron, MaryAnne Drake, John Lyne, Alan L. Kelly, and Paul L.H. McSweeney

Subjects

Applied Microbiology and Biotechnology, Food Science

Published

2022

32. Components Associated With Saltiness Potentiation in Frankfurters Made With Traditionally Brewed Soy Sauce

Author

Scott A. Rankin, Jeffrey J. Sindelar, MaryAnne Drake, Elizabeth M. Price, and Taro Horiba

Subjects

Food industry, Chemistry, business.industry, 010401 analytical chemistry, Dietary sodium intake, Ethyl hexanoate, 04 agricultural and veterinary sciences, 040401 food science, 01 natural sciences, 0104 chemical sciences, Ingredient, chemistry.chemical_compound, 0404 agricultural biotechnology, Food products, Fermentation, Processed meat, Food science, Sodium reduction, business

Abstract

Salt is a critical ingredient in processed meat and poultry products because of its multiple functions that affect product quality and safety. Although salt is a functional ingredient in food products, sodium reduction continues to be an important topic within the food industry due to interests in reducing dietary sodium intake. Previous work has shown that soy sauce addition may potentiate saltiness perception in processed meats and thus allow for novel formulations with reduced sodium content. Two studies were conducted to further elucidate these effects. First, trained panel sensory char- acteristics, relevant quality parameters, and selected chemical profiles were determined comparing frankfurters containing flake salt and traditionally brewed soy sauce. Seven aqueous compounds were found to be more abundant (P < 0.001) in the soy sauce – containing treatment, and 56 volatile compounds were identified. Principal component analysis of the sensory and selected chemical profiles led to the consideration that ethyl hexanoate (EHEX) may be a causative agent of the saltiness-potentiating phenomenon. Thus, a second study further evaluated concentrations of EHEX, revealing that trained sensory panelists perceived frankfurters containing EHEX as saltier (P < 0.05) and these frankfurters had higher scores for fermented/sour aromatic score (P < 0.05) than the control (Control: 100% NaCl from flake salt). This research demon- strated the ability of EHEX to potentiate saltiness in frankfurters with minimal effects on quality.

Published

2021

33. Ready-to-drink protein beverages: Effects of milk protein concentration and type on flavor

Author

David M. Barbano, Ni Cheng, MaryAnne Drake, Kenneth Vogel, and B.G. Carter

Subjects

Sucralose, Chemistry, Vanillin, food and beverages, Proximate, Milk Proteins, Beverages, Flavoring Agents, chemistry.chemical_compound, Ingredient, Milk, Taste, Genetics, Milk protein concentrate, Animals, Animal Science and Zoology, Food science, Vanilla Flavor, Lactose, Flavor, Food Science

Abstract

This study evaluated the role of protein concentration and milk protein ingredient [serum protein isolate (SPI), micellar casein concentrate (MCC), or milk protein concentrate (MPC)] on sensory properties of vanilla ready-to-drink (RTD) protein beverages. The RTD beverages were manufactured from 5 different liquid milk protein blends: 100% MCC, 100% MPC, 18:82 SPI:MCC, 50:50 SPI:MCC, and 50:50 SPI:MPC, at 2 different protein concentrations: 6.3% and 10.5% (wt/wt) protein (15 or 25 g of protein per 237 mL) with 0.5% (wt/wt) fat and 0.7% (wt/wt) lactose. Dipotassium phosphate, carrageenan, cellulose gum, sucralose, and vanilla flavor were included. Blended beverages were preheated to 60°C, homogenized (20.7 MPa), and cooled to 8°C. The beverages were then preheated to 90°C and ultrapasteurized (141°C, 3 s) by direct steam injection followed by vacuum cooling to 86°C and homogenized again (17.2 MPa first stage, 3.5 MPa second stage). Beverages were cooled to 8°C, filled into sanitized bottles, and stored at 4°C. Initial testing of RTD beverages included proximate analyses and aerobic plate count and coliform count. Volatile sulfur compounds and sensory properties were evaluated through 8-wk storage at 4°C. Astringency and sensory viscosity were higher and vanillin flavor was lower in beverages containing 10.5% protein compared with 6.3% protein, and sulfur/eggy flavor, astringency, and viscosity were higher, and sweet aromatic/vanillin flavor was lower in beverages with higher serum protein as a percentage of true protein within each protein content. Volatile compound analysis of headspace vanillin and sulfur compounds was consistent with sensory results: beverages with 50% serum protein as a percentage of true protein and 10.5% protein had the highest concentrations of sulfur volatiles and lower vanillin compared with other beverages. Sulfur volatiles and vanillin, as well as sulfur/eggy and sweet aromatic/vanillin flavors, decreased in all beverages with storage time. These results will enable manufacturers to select or optimize protein blends to better formulate RTD beverages to provide consumers with a protein beverage with high protein content and desired flavor and functional properties.

Published

2021

34. Influence of oral movement, particle size, and zeta potential on astringency of whey protein

Author

B.G. Carter and MaryAnne Drake

Subjects

Whey protein, Chemistry, Zeta potential, Biophysics, Particle size, Sensory Systems, Food Science

Published

2021

35. Metabolomic Biomarkers Differentiate Soy Sauce Freshness under Conditions of Accelerated Storage

Author

Joshua J. Coon, Thiruchelvi R. Reddy, Scott A. Rankin, Taro Horiba, MaryAnne Drake, and Katherine A. Overmyer

Subjects

0303 health sciences, Analyte, biology, Correlation coefficient, Article Subject, 030309 nutrition & dietetics, Nutrition. Foods and food supply, Methional, 04 agricultural and veterinary sciences, Mass spectrometry, biology.organism_classification, 03 medical and health sciences, chemistry.chemical_compound, Metabolomics, chemistry, Fermentation, TX341-641, Food science, 0405 other agricultural sciences, Safety, Risk, Reliability and Quality, Aroma, Flavor, 040502 food science, Food Science

Abstract

Naturally fermented soy sauce is one of the few globally valued food condiments. It is complex in its substrate, manufacturing processes, and chemical profile of salts and organic compounds, resulting from spontaneous, enzymatic and biochemical reactions. The overall chemical character of soy sauce has a few rivals relative to its chemical and bioactive complexity. Resulting from this complexity are unique sensory attributes contributing to the characteristic soy sauce flavor as well as potentiating other sensory sensations. Soy sauce is susceptible to deterioration after bottling during storage. This work examined soy sauces over an eight-month period using descriptive sensory methods and the discovery of metabolomic biomarkers with high resolution mass spectrometry, wherein samples were derivatized to enable volatility and identification of polar analytes. While several thousand metabolites were detected, only organic acids, amino acids, and various glycosylated metabolites were statistically defensible biomarkers of storage time. The relationships between sensory and metabolomic data were assessed using Kendall rank-based correlations to generate Kendall Tau correlation coefficients. A second approach filtered the data based on correlation significance and grouped molecules based on hierarchical clustering. Mass spectrometry analyses discovered several thousand unique analyte peaks with relevant changes denoted as significant relative to the fresh samples using volcano depictions of p values versus changes in compound abundances. We present a metabolomic approach for the analysis of complex food systems capable of differentiating a quantifiable extrinsic variable, which is, in this case, storage time with a correlation coefficient of 0.99. We further demonstrate that changes in soy sauce resulting from storage are characterized by sensory decreases in fruity/grape and nutty/sesame aroma and increases in methional/potato aroma and astringent attributes with concomitant changes in the concentrations of several key biomarkers.

Published

2021

36. Suitability of a Novel Camel ( Camelus Dromedarius) Chymosin as a Coagulant for Cheddar Cheese Manufacture

Author

John Lyne, Alan L. Kelly, David S. Waldron, MaryAnne Drake, Bozhao Li, and Paul L.H. McSweeney

Subjects

medicine.diagnostic_test, Chemistry, Proteolysis, medicine, Ripening, Chymosin, Food science, Sensory analysis

Published

2021

37. The Sensory Evaluation of Dairy Products

Author

Stephanie Clark, MaryAnne Drake, Kerry Kaylegian, Stephanie Clark, MaryAnne Drake, and Kerry Kaylegian

Subjects

Food—Microbiology, Food—Sensory evaluation, Food science

Abstract

The Sensory Evaluation of Dairy Products, Third Edition is for all who seek a book entirely devoted to sensory evaluation of dairy products and modern applications of the science. It is an excellent scientific reference for training in dairy product evaluation and is a practical guide to the preparation of samples for sensory evaluation. The book contains updates of the original text of the well-received first edition, as well as brand new material. This unique book is designed for professionals involved in many aspects of dairy production, including academic teaching and research, processing, quality assurance, product development and marketing. It is an invaluable tool for those who compete in the annual Collegiate Dairy Product Evaluation Contest.

Published

2023

38. A Cross-Cultural Evaluation of Liking and Perception of Salted Butter Produced from Different Feed Systems

Author

Thorsten Sander, Emer C. Garvey, Shelley Fox, Tom F. O'Callaghan, Maurice G. O'Sullivan, Joseph P. Kerry, Kieran N. Kilcawley, and MaryAnne Drake

Subjects

Health (social science), 030309 nutrition & dietetics, media_common.quotation_subject, Plant Science, sensory, lcsh:Chemical technology, Health Professions (miscellaneous), Microbiology, Article, German, 03 medical and health sciences, Irish, Perception, Cross-cultural, lcsh:TP1-1185, Aroma, media_common, 0303 health sciences, biology, Descriptive statistics, Significant difference, 0402 animal and dairy science, 04 agricultural and veterinary sciences, biology.organism_classification, 040201 dairy & animal science, language.human_language, Geography, volatiles, language, dairy, diet, butter preference, Food Science, Demography

Abstract

Perception and liking among Irish, German and USA consumers of salted butter produced from different feed systems&mdash, outdoor grass (FS-GRSS), grass/clover (FS-CLVR), and indoor concentrate (FS-TMR)&mdash, was investigated. A consumer study was conducted in all three countries. Irish and German assessors participated in ranking descriptive analysis (RDA), whereas descriptive analysis (DA) was carried out by a trained panel in the USA. Volatile analysis was conducted to identify differences in aroma compounds related to cow diet. Overall, there was no significant difference in overall liking of the butters, among USA, German and Irish consumers, although cross-cultural preferences were evident. Sensory attribute differences based on cow diet were evident across the three countries, as identified by German and Irish assessors and trained USA panelists, which are likely influenced by familiarity. The abundance of specific volatile aromatic compounds, especially some aldehydes and ketones, were significantly impacted by the feed system and may also contribute to some of the perceived sensory attribute differences in these butters.

Published

2020

39. Efficient analytical methods to identify lipid oxidation in dairy products

Author

Dylan Cadwallader, Christopher Reusz, and Maryanne Drake

Published

2020

40. Impact of plastic package and storage on off-flavors in fluid milk and cream

Author

Maryanne Drake, Christopher Reusz, and Dylan Cadwallader

Published

2020

41. Identification of aroma-active compounds in pea proteins

Author

Yaozheng Liu and Maryanne Drake

Published

2020

42. The sensory properties and consumer acceptance of cold brew coffee

Author

Stephanie Meals, Heather R. McCain‐Keefer, and MaryAnne Drake

Subjects

Sensory system, Food science, Sensory Systems, Food Science, Mathematics

Published

2020

43. Consumer perceptions of anticake agents on shredded Cheddar cheese

Author

MaryAnne Drake, W.S. Harwood, and S.E. Meals

Subjects

Food Handling, Sensation, Color, Shelf life, Calcium Sulfate, Zea mays, 03 medical and health sciences, chemistry.chemical_compound, Cheese, Genetics, Animals, Humans, Food science, Cellulose, Potato starch, Flavor, 030304 developmental biology, Solanum tuberosum, 0303 health sciences, Analysis of Variance, 0402 animal and dairy science, Starch, 04 agricultural and veterinary sciences, Consumer Behavior, 040201 dairy & animal science, Flavoring Agents, Minimal effect, chemistry, Animal Science and Zoology, Food Additives, Corn starch, Food Science

Abstract

Prepackaged natural cheese shreds are a growing consumer category. Anticake agents are applied to commercial cheese shreds to assist with shelf life and ease of use. The objective of this study was to investigate consumer perception of 3 anticake agents applied at various levels to Cheddar cheese shreds. Three common anticake agents (80% potato starch/20% cellulose blend, 100% potato starch, or potato starch/corn starch/calcium sulfate blend) were applied to duplicate lots of Cheddar cheese shreds at 1, 2, 3, 4, and 5% (wt/wt). Control Cheddar cheese shreds with no anticake were also included. Sensory properties (appearance, flavor, texture, and hot texture) were documented using a trained sensory panel (n = 8), and 3 consumer acceptance tests were also conducted. In test 1, consumers (n = 110) visually evaluated liking of cold shred appearance. In test 2, consumers (n = 100) evaluated melted shreds on a flour tortilla for overall liking and appearance, flavor, and texture liking. In test 3, consumers (n = 49) participated in a home usage test. Two-way ANOVA (anticake × anticake application rate) was used to interpret the collected data from each test. Visual appearance of shreds was the primary attribute influenced by anticake application and anticake agent. Trained panel evaluation demonstrated that the 100% potato starch anticake had minimal effects on visual appearance. The other 2 agents (80% potato starch/20% cellulose blend and potato starch/corn starch/calcium sulfate blend) showed increases in visible powder at >3% (wt/wt). Consistent with results from trained panelists, higher application rates decreased consumer appearance and color liking for Cheddar shreds with 80% potato starch/20% cellulose and potato starch/corn starch/calcium sulfate blends at >2 or 3% (wt/wt), respectively. Appearance liking of melted shreds decreased with increased anticake application percent but decreased the most for 100% potato starch anticake at greater than 1% (wt/wt) application. Overall liking, flavor liking, and texture liking attributes for melted shreds were negatively affected at >3% (wt/wt) application regardless of anticake agent used. In general, anticake agents can be applied to Cheddar cheese shreds at up to 3% (wt/wt) with minimal effect on consumer perception.

Published

2020

44. Determination of the efficiency of removal of whey protein from sweet whey with ceramic microfiltration membranes

Author

David M. Barbano, MaryAnne Drake, Joice Pranata, B.G. Carter, and Larissa DiMarzo

Subjects

Whey protein, Ceramics, Food Handling, Microfiltration, Sodium, chemistry.chemical_element, 03 medical and health sciences, Casein, Whey, Genetics, Animals, Kjeldahl method, 030304 developmental biology, 0303 health sciences, Chromatography, Chemistry, 0402 animal and dairy science, food and beverages, Membranes, Artificial, 04 agricultural and veterinary sciences, Blood Proteins, Permeation, 040201 dairy & animal science, Diafiltration, Membrane, Milk, Whey Proteins, Animal Science and Zoology, Filtration, Food Science

Abstract

Our research objective was to measure percent removal of whey protein from separated sweet whey using 0.1-µm uniform transmembrane pressure ceramic microfiltration (MF) membranes in a sequential batch 3-stage, 3× process at 50°C. Cheddar cheese whey was centrifugally separated to remove fat at 72°C and pasteurized (72°C for 15 s), cooled to 4°C, and held overnight. Separated whey (375 kg) was heated to 50°C with a plate heat exchanger and microfiltered using a pilot-scale ceramic 0.1-µm uniform transmembrane pressure MF system in bleed-and-feed mode at 50°C in a sequential batch 3-stage (2 diafiltration stages) process to produce a 3× MF retentate and MF permeate. Feed, retentate, and permeate samples were analyzed for total nitrogen, noncasein nitrogen, and nonprotein nitrogen using the Kjeldahl method. Sodium dodecyl sulfate-PAGE analysis was also performed on the whey feeds, retentates, and permeates from each stage. A flux of 54 kg/m2 per hour was achieved with 0.1-µm ceramic uniform transmembrane pressure microfiltration membranes at 50°C. About 85% of the total nitrogen in the whey feed passed though the membrane into the permeate. No passage of lactoferrin from the sweet whey feed of the MF into the MF permeate was detected. There was some passage of IgG, bovine serum albumen, glycomacropeptide, and casein proteolysis products into the permeate. β-Lactoglobulin was in higher concentration in the retentate than the permeate, indicating that it was partially blocked from passage through the ceramic MF membrane.

Published

2020

45. A cross-cultural sensory analysis of skim powdered milk produced from pasture and non-pasture diets

Author

Joseph P. Kerry, Song Miao, MaryAnne Drake, Maurice G. O'Sullivan, D. Kaibo, Kieran N. Kilcawley, and Z. Cheng

Subjects

Cross-Cultural Comparison, China, 030309 nutrition & dietetics, Biology, Sensory analysis, Pasture, 03 medical and health sciences, 0404 agricultural biotechnology, Animal science, Irish, Cross-cultural, Animals, Humans, Pasture based, 0303 health sciences, geography, geography.geographical_feature_category, 04 agricultural and veterinary sciences, 040401 food science, Animal Feed, language.human_language, Diet, Milk, Hay, language, Cattle, Female, Powders, Food Science

Abstract

Understanding potential cross-cultural sensory differences in the perception of Irish dairy products is important for key markets such as the USA and China. As most Irish dairy products are produced from pasture derived milk, this study investigated the impact of pasture and non-pasture diets on the cross cultural sensory perception of skim milk powder (SMP) in Ireland, USA and China. SMP was produced from cows fed outdoors on ryegrass (GRS), ryegrass/white clover (CLV), and indoors on trial mixed rations (TMR). SMP samples were evaluated by Irish (n = 78), USA (n = 100) and Chinese (n = 106) consumers using an identical hedonic sensory acceptance test in Ireland, USA and China. Optimized Descriptive Profiling (ODP) was performed using trained assessors familiar with dairy products in Ireland (n = 25) and China (n = 22), and traditional descriptive analysis was undertaken by a trained panel (n = 7) in the USA. Volatile analysis was undertaken on each SMP sample. Hedonic assessment found that USA consumers preferred SMP derived from TMR, and Irish consumers preferred SMP from either GRS or CLV. Chinese consumers perceived SMP samples differently to the USA and Irish consumers, but preference was not influenced by diet. Both Irish and Chinese trained assessors found it more difficult to discern differences between GRS or CLV SMP, but could differentiate TMR SMP. Irish assessors preferred GRS and CLV SMP. Chinese and Irish assessors had different preferences for many attributes. Trained USA panelists found significant differences, exclusively associating pasture based diets with “cowy/barny” and “cardboard/wet paper” attributes and more intense “grassy/hay” attributes than in TMR SMP. The abundance of ten volatile compounds differed significantly based on diet with acetoin derived from carbohydrate metabolism at much greater abundance in TMR SMP. This study found that sensory perception and volatile profiles of SMP were influenced by diet and differences in sensory perception existed between the three cultural groups. Irish and USA sensory responses aligned with familiarity of dairy products derived from pasture and non-pasture diets, respectively, and Chinese sensory responses differed to Irish and USA responses likely reflecting their lack of familiarity with dairy products.

Published

2020

46. Consumer perception of the sustainability of dairy products and plant-based dairy alternatives

Author

W.S. Harwood, A.N. Schiano, MaryAnne Drake, and Patrick D. Gerard

Subjects

Adult, Male, Adolescent, media_common.quotation_subject, Animal Welfare, 03 medical and health sciences, Young Adult, Perception, Surveys and Questionnaires, Genetics, Animals, Humans, Product (category theory), Marketing, Qualitative Research, 030304 developmental biology, media_common, Aged, Carbon Footprint, 0303 health sciences, Diet, Vegetarian, 0402 animal and dairy science, Commerce, 04 agricultural and veterinary sciences, Consumer Behavior, Focus Groups, Middle Aged, 040201 dairy & animal science, Focus group, Milk, Sustainability, Carbon footprint, Position (finance), Animal Science and Zoology, Female, Business, Dairy Products, Welfare, Food Science, Qualitative research, Program Evaluation

Abstract

Plant-based dairy alternative beverage sales have increased in recent years. Plant-based dairy alternatives often advertise on a platform of sustainability and environmental commitment. To successfully position and market dairy products in this competitive environment, dairy companies must understand the consumer definition of and importance placed on sustainability, as well as communicate sustainability information effectively. The objective of this study was to characterize consumer perception of the sustainability of milk and dried dairy ingredients and their respective plant-based alternatives. Focus groups and 2 online surveys were conducted. In the first survey, maximum difference scaling was used to rank the importance of specific dairy product attributes to sustainability, along with an exercise in which respondents selected whether a fluid milk or protein powder product was sustainable. A follow-up survey included 2 exercises in which respondents selected whether generic dairy products or dried dairy ingredients were sustainable, natural, healthy, trustworthy, or ethical. Over half of dairy product consumers reported that they looked for sustainability-related information. Consumers who purchased both plant-based dairy alternative and dairy products placed a higher self-reported importance on sustainability than those who purchased dairy products only. Focus group and survey maximum difference scaling results identified 5 key attributes for sustainability: minimal carbon footprint/greenhouse gas emissions, few/no preservatives, animal happiness and welfare, and simple/minimal ingredients. Plant-based dairy alternatives followed by fluid milk and protein powders were considered more sustainable than dairy products, but package type and organic status also played a role in consumer sustainability perception. Product labels were the most common source of sustainability information, although consumers also sought information on websites affiliated and unaffiliated with dairy companies. There was cognitive overlap among the terms sustainable, natural, healthy, ethical, and trustworthy as they relate to dairy products, but consumers used the terms distinctly. Consumers perceived differences in these terms between general categories of dairy as well as among products in a specific dairy category. Dairy companies may be able to differentiate themselves by helping consumers make these choices by simplifying sustainability-related messaging and by maintaining open, transparent communication regarding sustainability.

Published

2020

47. Sensory characterization of specific wood smoke aromas and their contributions to smoked Cheddar cheese flavor

Author

MaryAnne Drake, D. J. Hanson, Rachel S. Del Toro-Gipson, and Peter V. Rizzo

Subjects

Chemistry, Cheese Flavor, Wood smoke, Sensory system, Food science, Sensory Systems, Food Science

Published

2020

48. Comparison of preference mapping with projective mapping for characterizing consumer perception of brewed black coffees

Author

Daniel M. Ennis, MaryAnne Drake, Kyle G. McLean, W.S. Harwood, and John M. Ennis

Subjects

Projective mapping, business.industry, Perception, media_common.quotation_subject, Preference mapping, Pattern recognition, Artificial intelligence, business, Sensory Systems, Food Science, Mathematics, media_common

Published

2020

49. Invited review: Maintaining and growing fluid milk consumption by children in school lunch programs in the United States

Author

David M. Barbano, MaryAnne Drake, and Lauren R. Sipple

Subjects

Reduced risk, Calorie, media_common.quotation_subject, education, Added sugar, 03 medical and health sciences, fluids and secretions, Fluid milk, Environmental health, Genetics, medicine, Animals, Humans, 030304 developmental biology, media_common, Consumption (economics), 0303 health sciences, Schools, 0402 animal and dairy science, Food Services, food and beverages, 04 agricultural and veterinary sciences, medicine.disease, School meal, 040201 dairy & animal science, Obesity, United States, Lunch, Milk, Animal Science and Zoology, Habit, Psychology, Energy Intake, Sugars, Food Science

Abstract

Fluid milk consumption among children has declined for decades. Adequate consumption of milk and dairy products, especially during childhood, has beneficial health outcomes for growth, development, and reduced risk of osteoporosis, hypertension, obesity, and cancer during adulthood. Satisfaction with milk flavor, perceived health benefits derived from milk, and habit are primary drivers of lifelong milk consumption. Child preferences and attitudes for milk may differ from those of adults, and as such, understanding and fulfilling the needs of children is crucial to reverse the decline in milk consumption. School meal programs make fluid milk accessible to millions of children each day; however, regulations and school lunch procurement systems in the United States sometimes make it difficult to provide novel or value-added milk products in these programs. Total consumption of all milk types in US schools declined by 14.2% from 2008 to 2017, and the percentage of children participating in the school lunch program has also declined. This decline has also been driven by declining average daily participation in the school meal program and may also reflect children's dissatisfaction with the sensory characteristics and the form of milk offered in schools. The change in form of milk offered in schools to lower fat and lower added sugar content in the United States has been driven by government-mandated school lunch calorie and fat requirements. This review describes the current milk consumption trends among children; the structure and basic requirements of the school lunch program in total and for milk; and the intrinsic, extrinsic, and environmental factors that influence child perception, preference, and consumption of fluid milk in the US school system.

Published

2020

50. Identification and characterization of fluid milk consumer groups

Author

MaryAnne Drake and W.S. Harwood

Subjects

Pasteurization, Choice Behavior, law.invention, Beverages, Butterfat, Food Preferences, Agricultural science, fluids and secretions, 0404 agricultural biotechnology, law, Genetics, Animals, Production (economics), Organic milk, Consumption (economics), 0402 animal and dairy science, food and beverages, 04 agricultural and veterinary sciences, Consumer Behavior, 040401 food science, 040201 dairy & animal science, Conjoint analysis, Product (business), Identification (information), Milk, Taste, Perception, Animal Science and Zoology, Dairy Products, Business, Food Science

Abstract

Consumption of fluid milk has steadily declined over the last few decades. Understanding the attributes of fluid milk products that are attractive to specific consumer groups may provide a sound basis for education and marketing to encourage increased dairy consumption and reverse the downward trend. The objective of this study was to identify the attributes of fluid milk that specific consumer groups find attractive and attributes that suggest a higher purchase likelihood. An adaptive choice-based conjoint (ACBC) survey was designed to assess attributes of fluid milk. The ACBC survey included Kano, importance, labeling identification, and beliefs questions to determine the key attributes that dictated consumer purchase and consumption. Self-reported purchase habits and attitudes for organic food products were also collected. Attributes in the ACBC exercise included fat content, package type, shelf life, and label claims. Maximum difference scaling was used to rank the importance of attributes in fluid milk that affected purchase. Maximum difference scaling was also used to rank qualities and issues associated with organic milk that were most motivating for those who identified as organic milk consumers. Results were analyzed by univariate and multivariate statistics. A total of 1,163 fluid milk consumers completed the survey, and of those, 434 were regular purchasers of organic milk. The ideal fluid milk from conjoint analysis was 2% milkfat, organic, packaged in a plastic jug, conventionally pasteurized, and contained no additives or label claims. The belief that “organic milk is healthier” was the most important motivator for purchases of organic milk, followed by the beliefs that “organic milk production encourages ethical treatment of animals” and “organic milk production supports local farms and farmers.” Conjoint importance scores of all fluid milk consumers showed that milkfat content was the most important attribute, followed by flavor, package size, and price. For all milk consumers, designation as organic was ranked as the 8th most important of 14 attributes. Evaluation of these results on both aggregate and individual levels suggest that fluid milk consumers are not a homogeneous consumer group and that underlying consumer groups are led to purchase decisions by specific product features or expectations.

Published

2018