Performance and Emissions of Emulsified Biodiesel Operated ...
N-3 Pufa Enriched Emulsified Foods And Strategies For ......DTU Food, Technical University of...
Transcript of N-3 Pufa Enriched Emulsified Foods And Strategies For ......DTU Food, Technical University of...
-
General rights Copyright and moral rights for the publications made accessible in the public portal are retained by the authors and/or other copyright owners and it is a condition of accessing publications that users recognise and abide by the legal requirements associated with these rights.
Users may download and print one copy of any publication from the public portal for the purpose of private study or research.
You may not further distribute the material or use it for any profit-making activity or commercial gain
You may freely distribute the URL identifying the publication in the public portal If you believe that this document breaches copyright please contact us providing details, and we will remove access to the work immediately and investigate your claim.
Downloaded from orbit.dtu.dk on: Apr 04, 2021
N-3 Pufa Enriched Emulsified Foods And Strategies For Their Stabilization
Jacobsen, Charlotte
Publication date:2018
Document VersionPublisher's PDF, also known as Version of record
Link back to DTU Orbit
Citation (APA):Jacobsen, C. (Author). (2018). N-3 Pufa Enriched Emulsified Foods And Strategies For Their Stabilization.Sound/Visual production (digital), Technical University of Denmark.
https://orbit.dtu.dk/en/publications/7bef6246-aba9-4df8-a28d-1c2b247a6174
-
n-3 PUFA Enriched Emulsified Foods and Strategies for Their Stabilization
Charlotte JacobsenResearch group for Bioactives – Analysis and ApplicationDivision of Food [email protected]
-
5 May 2018Functionality of Oils and Fats and Their Applications2 DTU Food, Technical University of Denmark
Outline• Introduction• Lipid oxidation• Factors affecting oxidation in complex emulsified foods • Effect of oil quality• Effect of ingredients• Optimization of production process• Use of delivery systems• Antioxidants in emulsified foods• Conclusions• Acknowledgements
-
5 May 2018Functionality of Oils and Fats and Their Applications3 DTU Food, Technical University of Denmark
Initiation: RH R•
Propagation: R• + O2 ROO• ROO• + RH ROOH + R• ROOH RO• + OH- RO• + ROOH ROO• + ROH RO• + RH ROH + R• •OH + RH H2O + R•
Termination: High O2 2 ROO• NRP (non radical products)
Low O2 ROO• + R• NRP 2 R• NRP
Lipid Oxidation
Initiation: RH
R•
Propagation: R• + O2
ROO•
ROO• + RH
ROOH + R•
ROOH
RO• + OH-
RO• + ROOH
ROO• + ROH
RO• + RH
ROH + R•
•OH + RH
H2O + R•
Termination:
High O2
2 ROO• NRP (non radical products) Low O2
ROO• + R•
NRP
2 R• NRP
-
5 May 2018Functionality of Oils and Fats and Their Applications4 DTU Food, Technical University of Denmark
Initiation Oxidizability depends on number of abstractable hydrogen atoms, i.e. allylic hydrogen atoms
Oxidizability ”index”: H indicates doubly allylic hydrogens
Pryor 1994
PUFA Symbol H Oxidizability
Linoleate 18:2 2 20
Linolenate 18:3 4 41
Arachidonate 20:4 6 55
DHA 22:6 10 102
-
5 May 2018Functionality of Oils and Fats and Their Applications5 DTU Food, Technical University of Denmark
Primary and secondary initiation:
Metals play important role
Mn+ + ROOH M(n+1)+ + RO• + OH- reaction 1
M(n+1)+ + ROOH Mn+ + ROO• + H+ reaction 2 Reaction 1: typically Fe2+ → Fe3+ or Cu+ → Cu2+
Rate of reaction 1 >> Rate of reaction 2
Radicals via electron transfer
Mn+1 + RH Mn + R• + H+ direct H abstraction
Radicals via peroxide decomposition
Peroxides always present
→ Homolytic ROOH scission important initiation mechanism
Mn+ + ROOH
M(n+1)+ + RO• + OH- reaction 1
M(n+1)+ + ROOH Mn+ + ROO• + H+reaction 2
Mn+1 + RH
Mn + R• + H+ direct H abstraction
-
5 May 2018Functionality of Oils and Fats and Their Applications6 DTU Food, Technical University of Denmark
Further peroxide decomposition
Metal ions catalyzes this reaction
β-cleavage of alkoxyl radicals after homolytic scission: R2 -↓- CH(O•) -↓- R1 → Aldehydes + other volatiles
Off flavors
AldehydesAlkyl radicalsOlefin radicals
Frankel 1998
-
5 May 2018Functionality of Oils and Fats and Their Applications7 DTU Food, Technical University of Denmark
COOH
Autoxidation
COOH
HOO
propanal
COOHOOH
2,4-heptadienalCOOH
HOO
3-hexenal
COOH
OOH
2,4,7-decatrienal
Oxidative decomposition of EPA
-
5 May 2018Functionality of Oils and Fats and Their Applications8 DTU Food, Technical University of Denmark
Flavour thresholds
Source: Frankel, 1998Akoh and Min, Food Lipids, Marcel Dekker, 1998
-
5 May 2018Functionality of Oils and Fats and Their Applications9 DTU Food, Technical University of Denmark
Oxidation and analysis of oxidation
Volatile oxidation products
Rancid off-flavour
Hydroperoxides: peroxide value (PV) or conjugated dienes
Volatiles: Anisidine value, TBARS, GC/MS (HS, DHS, SPME)
Sensory evaluation
-
5 May 2018Functionality of Oils and Fats and Their Applications10 DTU Food, Technical University of Denmark
Factors that can affect lipid oxidation in emulsified foods:
OilWater
1. Ingredients (Amount, type and quality)
3. The surface charge
2. pH
5. Oil droplet size / surface area
4. Viscosity
6. Processing conditions
7. Antioxidants
AOAO
AO
++
++
Fe3+
Fe2+
Emulsifier at the interface(Structure/thickness)
Emulsifier in the aqueous phase(Antioxidative properties)
PresenterPresentation NotesDigging deeper into the details of lipid oxidation in emulsionsExplain the different points
-
5 May 2018Functionality of Oils and Fats and Their Applications11 DTU Food, Technical University of Denmark
Effect of oil quality
-
5 May 2018Functionality of Oils and Fats and Their Applications12 DTU Food, Technical University of Denmark
Milk with a fish oil and rapeseed oil mixture
0
1
2
3
Milk FRO 0.1 FRO 0.5 FRO 1.0 FRO 2.0 Day 1Day 4
Day 8
Fishy taste
[0-9]
Let et al., 2005. Int. Dairy J. 15:173-182
Fish oil enriched milk
Oil quality affects the food quality
→ seems that PV needs to be
≤ 0.1 meq/kg fish oil
PresenterPresentation Notes Seems that PV needs to be app. 0.1 meq/kg or below
-
5 May 2018Functionality of Oils and Fats and Their Applications13 DTU Food, Technical University of Denmark
Effect of foodcomposition
-
5 May 2018Functionality of Oils and Fats and Their Applications14 DTU Food, Technical University of Denmark
Comparing Milk and Drinking yoghurt: Effect of Ingredients in Yoghurt
• Fish oil enriched milk oxidised much faster than fish oil enriched
yoghurt
• Ingredients added to yoghurt did not affect oxidation
Intensity of fishy off-flavour (0-9):
Nielsen, Klein & Jacobsen, 2009, Eur. J. Lipid Sci. Technol. 111, 337-345
Week 0 Week 1 Week 3
Milk 5.4 ± 1.5 6.0 ± 2.4 7.4 ± 1.0
Yoghurt(CA+P+FS)
0.0 ± 0.1 0.5 ± 1.0 0.4 ± 0.7
Yoghurt(CA+P)
0.4 ± 0.5 0.9 ± 1.4 1.0 ± 1.3
Yoghurt(CA)
0.4 ± 0.5 0.7 ± 1.0 1.3 ± 0.9
Yoghurt 0.5 ± 0.4 0.8 ± 1.0 1.6 ± 1.2
CA: Citric acid; P: Pectin; FS: Fruit preparation and sugar
-
5 May 2018Functionality of Oils and Fats and Their Applications15 DTU Food, Technical University of Denmark
Comparing Milk and Yoghurt: Antioxidant Assays on Peptide Fractions in Yoghurt
Crude protein
>30 10-30 3-10
-
5 May 2018Functionality of Oils and Fats and Their Applications16 DTU Food, Technical University of Denmark
Comparing Milk and Yoghurt: Oxidative Stability of Milk with Peptide Fractions from Yoghurt
0 2 4 6 8 10 12 140
1
2
3
4
5
6
7
M+RO
M+FO
M+FO+CPP
M+FO+3-10KDa
M+FO+
-
5 May 2018Functionality of Oils and Fats and Their Applications17 DTU Food, Technical University of Denmark
Optimisinghomogenization
conditions
- Temperature and pressure
-
5 May 2018Functionality of Oils and Fats and Their Applications18 DTU Food, Technical University of Denmark
Effect of Emulsification Conditions:Milk Affected by Temperature and Pressure
• Homogenization with a low temperature and a low pressure leads to more oxidation than a high temperature and a high pressure!
0 3 8
1 4 7 110
5
10
15
Temp. 72C/Pressure 5 MPa
Temp. 50C/Pressure 22.5 MPa
Temp. 72C/Pressure 22.5 MPa
Temp. 50C/Pressure 5MPa
2-hexenal
[ng/g milk]
Days of storage at 2°C
Let, Jacobsen, Sørensen & Meyer (2007), J. Agric. Food Chem. 55:1773-1780
-
5 May 2018Functionality of Oils and Fats and Their Applications19 DTU Food, Technical University of Denmark
Homogenisation Conditions Affect Protein Composition at the Interface
Sørensen, Baron, Brüggemann, Pedersen & Jacobsen (2007) J. Agric. Food Chem. 55:1781-1789
Pressure [MPa]
Temperature [°C]
β -lactoglobulin α -casein α -casein
Reference, no treatment 4.92 5.18 4.19
550 8.01 5.94 5.14
72 10.17 4.28 4.09
1550 9.36 5.21 5.08
72 14.56 4.55 4.59
22.550 9.45 4.56 4.23
72 13.72 3.68 3.74
s1 s2
+ --
-
5 May 2018Functionality of Oils and Fats and Their Applications20 DTU Food, Technical University of Denmark
Effect of using an omega-3 PUFA
delivery system
-
5 May 2018Functionality of Oils and Fats and Their Applications21 DTU Food, Technical University of Denmark
The Effect of Delivery Systems: Bulk oil vs. Fish Oil Emulsion
5
Milk oxidized much more than both yoghurt and dressing
Yoghurt and dressing with fish oil-in-water emulsion tend to be
more fishy than those with neat fish oil
Fishy off-flavour
[Intensity 0 – 18]
Days of
storage
0
2
4
6
8
10
12
Milk +
bulk FO
Milk +
FO emulsion
Yoghurt
+ bulk FO
Yoghurt
+ FO emulsion
Dressing
+ bulk FO
Dressing
+ FO emulsion
29228
1
Let, Jacobsen & Meyer (2007) J. Agric. Food Chem. 55:7802-7809
-
5 May 2018Functionality of Oils and Fats and Their Applications22 DTU Food, Technical University of Denmark
Omega-3 enriched fish paté: Bulk oil vs. Emulsion or Powder
• Oxidation rate: FO powder < FO emulsion < FO • Similar results in fitness bars
FO
FO powderFO emulsion
No FOFO MAP
Nielsen & Jacobsen, J. Food Biochemistry (2013), 37, 88-97
1-Penten-3-ol
0
50
100
150
200
250
0 1 2 3 4 5 6 7 8 9
Storage time (weeks)
ng/g
fish
pat
é
Fish oil
Fish oil emulsionFish oil powder
-
5 May 2018Functionality of Oils and Fats and Their Applications23 DTU Food, Technical University of Denmark
Effect of antioxidants
in omega-3 enriched foods
-
5 May 2018Functionality of Oils and Fats and Their Applications24 DTU Food, Technical University of Denmark
Antioxidants
24
Antioxidants = Compounds that prevent or delay lipid oxidation
1) Primary antioxidants / Radical scavenging
2) Secondary antioxidants
Inactivate reactive radicals
Bind oxygen
Chelate metal ions
Quench singlet oxygen
Regenerate other antioxidants
-
5 May 2018Functionality of Oils and Fats and Their Applications25 DTU Food, Technical University of Denmark
Lipid oxidation
25
LH
X●XH
L●
O2
LOO●
LOOH
LH
Secondary oxidationproducts
andoff flavors
I
Men+Metal chelator
Radical
scavengers
Under certain conditions, antioxidants are also found to be prooxidants…
-
5 May 2018Functionality of Oils and Fats and Their Applications26 DTU Food, Technical University of Denmark
Polar paradox hypothesisInterfacial phenomena in antioxidant activity
Air
Bulk oil Emulsion (o/w)
Air
Water
Oil
Oil Oil
● Hydrophilic
● Amphiphilic
● LipophilicAntioxidants
● ●● ●
●
●
●
●
●
●
●
●
●
●
●
●
● ●
●●
●●
●
●
●●
●
●
●
●●
●●
Porter., 1993. Toxicol Ind Health, 9:93-122 and Frankel et al., 1994. J AgricFood Chem, 42:1054-1059
-
5 May 2018Functionality of Oils and Fats and Their Applications27 DTU Food, Technical University of Denmark
AO in fish oil enriched mayonnaise
0
40
80
120
160
200
0 1 2 3 4
2-Pe
nten
al [n
g/g
may
onna
ise]
Storage time [weeks]
No antioxidant
Nielsen et al., 2004. J. Agric. Food Chem. 52:7690-7699
EDTA
(6 & 24 ppm)
Lactoferrin
(700-2800 ppm)
& Phytic acid
(15-116 ppm)
-
5 May 2018Functionality of Oils and Fats and Their Applications28 DTU Food, Technical University of Denmark
Antioxidant effects in fish oil enriched foods• Different antioxidants have very different effects in different
foods• Possibly due to different mechanisms of action and localizations
Tocopherol Ascorbyl palmitate
Ascorbic acid
EDTA Propyl gallate/
Gallic acid
Lactoferrin Caffeic acid
Milk1.5% fat
Weak anti Anti - Anti to no
- - -
Milk drink1.5% fat
- Pro - Anti - Weak anti to pro
-
Drinking yoghurt1.5% fat
- - - Anti - - -
Dressing25% fat
Weak anti Pro - Anti - - -
Mayonnaise80% fat
Weak anti to pro
Pro Pro Anti Pro Weak anti to pro
-
Energy bars6.2% fat
Anti to weak pro
Pro - Pro - - Pro
Pro: Prooxidative; Anti: Antioxidative
-
5 May 2018Functionality of Oils and Fats and Their Applications29 DTU Food, Technical University of Denmark
Effect of rosemary extracts on fish oilenriched milk
Qui, Jacobsen and Sørensen, Food Chem (2018)
Rosemary extracts
(0.03 % or 0.06 %)
efficiently prevented
lipid oxidation
Tocopherol levels
were stable in milk
with rosemary
extracts
-
5 May 2018Functionality of Oils and Fats and Their Applications30 DTU Food, Technical University of Denmark
Aqueous
phase
Cut-off effect (Model emulsions, o/w)
CCL
Ant
ioxi
dant
cap
acity
Alkyl chain length
0 n
Increased lipophilicity
Antioxidant (CCL) location
in an emulsion
CCL = Critical chain length
Decreased Oxidation
Modified from Laguerre et al., 2013. In: Lipid Oxidation: Challenges in Food systems, 261-295
Lipophilised antioxidants
-
5 May 2018Functionality of Oils and Fats and Their Applications31 DTU Food, Technical University of Denmark
Caffeates as antioxidants
Conjugated Autoxidizable Triene (CAT) Assay
Emulsion (o/w): Phosphate buffer, Brij, Tung Oil. AAPH as initiator
Sørensen et al. 2014. J. Agric. Food Chem. 62, 12553–12562
Efficacy of Caffeates
Caffeates with medium chain length
PresenterPresentation NotesSubstituion of one OH group by an alkyl chain
-
5 May 2018Functionality of Oils and Fats and Their Applications32 DTU Food, Technical University of Denmark
ConCA C0CA C16
Day 12
CA C4CA C1
CA C12
CA C8CA C20
General trend of volatile development
Lowest concentration: CA C4 and CA C1
The “cut-off” effect is influenced by the food system different results in mayonnaise
-
5 May 2018Functionality of Oils and Fats and Their Applications33 DTU Food, Technical University of Denmark
Conclusions• Ingredients can affect lipid oxidation
• Oil quality is more important in some systems than in others
• The emulsifiers used and the composition of the interface in emulsions affect lipid oxidation
• Emulsification processes must be optimised to minimise oxidation
• Delivery emulsions can reduce lipid oxidation, but delivery emulsion must be optimized for each food system
-
5 May 2018Functionality of Oils and Fats and Their Applications34 DTU Food, Technical University of Denmark
Conclusions
• The same antioxidant can have very different effects in different food systems
• Antioxidant efficacy cannot be predicted from polar paradox or from simple emulsion systems
• Rosemary extracts are efficient in some omega-3 enriched food systems
• Antioxidants are most efficient when located at the oil-water interface
-
5 May 2018Functionality of Oils and Fats and Their Applications35 DTU Food, Technical University of Denmark
Acknowledgements
• Caroline Baron
• Nina Skall Nielsen
• Mette Bruni Let
• Anna F. Horn
• Ann-Dorit Moltke Sørensen
• Anne S. Meyer
• Anna Klein
• Sabeena Farvin
• Lis Berner
• Inge Holmberg
• Trang Vu
• Jane Jørgensen
• Xujian Qiu
��n-3 PUFA Enriched Emulsified Foods and Strategies for Their Stabilization��OutlineSlide Number 3Slide Number 4Slide Number 5Slide Number 6Slide Number 7Flavour thresholdsOxidation and analysis of oxidationFactors that can affect lipid oxidation in emulsified foods: �Effect of oil quality� Fish oil enriched milkEffect of food composition Comparing Milk and Drinking yoghurt: �Effect of Ingredients in YoghurtComparing Milk and Yoghurt: �Antioxidant Assays on Peptide Fractions in YoghurtComparing Milk and Yoghurt: �Oxidative Stability of Milk with Peptide Fractions from YoghurtOptimising homogenization conditionsEffect of Emulsification Conditions:�Milk Affected by Temperature and PressureHomogenisation Conditions Affect Protein Composition at the InterfaceSlide Number 20The Effect of Delivery Systems: �Bulk oil vs. Fish Oil EmulsionOmega-3 enriched fish paté: �Bulk oil vs. Emulsion or PowderSlide Number 23AntioxidantsLipid oxidationPolar paradox hypothesisAO in fish oil enriched mayonnaiseAntioxidant effects in fish oil enriched foodsEffect of rosemary extracts on fish oil enriched milkCut-off effect (Model emulsions, o/w)Caffeates as antioxidantsSlide Number 32ConclusionsConclusionsAcknowledgements