M. Shafiur Rahman Food Stability Determination: …M. Shafiur Rahman Food Stability Determination:...
Transcript of M. Shafiur Rahman Food Stability Determination: …M. Shafiur Rahman Food Stability Determination:...
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M. Shafiur Rahman
Food Stability Determination: Challenges beyond Water Activity and Glass Transition Concepts
Mohammad Shafiur RahmanDepartment of Food Science and Nutrition, Sultan Qaboos University, P. O. Box 34, Al Khod 123Sultanate of Oman
6th Conference on Water in Food (Euro Food Water)21-23 March 2010, Reims, France Plenary Lecture
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Scientific Knowledge to Make the World a Better Place
Food Preservation is One of the Keys in Food Security
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Our Books and Journals
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Raw Fish Uncooked Rice Grain
Microbiological Enzymatic
Chemical Physical
Mechanical
Inhibition
Avoid RecontaminationInactivation
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Drying of Foods in the Sun Started during The Stone Age (10,000 years ago)
Canning (End of 1700s)14 years of experimentationNicolas Appert won award in 180950 years later Louis Pasteur
Freezing
Nicolas Appert Louis Pasteur
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Microbial Growth Factors
• Water Content• Food Composition and Structure• pH• Redox Potential• Preservatives• Environmental Condition• Processing Conditions
Active Water is more Important than TotalWater
Scott (1953)
Generic Rules for Food Stability
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Gaseous Phase
Food
Water Vapor
ERHaw == WaterPure of PressureVapor
Foodin Water ofPressureVapor
(At Constant Temperature)
Water is one of the main causes of food Spoilage
Water Activity Range: 0-1.0
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Water Activity Limits for Microbial Growth
KarelLabuzaChirifeBuera
•Foods are most stable at itsmonolayer moisture
•No micro-organisms can notgrow below 0.6 water activity
•Critical limits exist for differenttypes of micro-organisms
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K+
Turgor Cell
Normal (Turgor Cell)
Low Water Activity
K+
CS: Compatible Solutes
K+
K+
Water (if low aw environment)
Water
CS
K+K+
CSCS
Low Water Activity
Loss of TurgorCell membrane ChangePhospholipidsFatty acids
Osmotic Stress in Microbial Cell
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Active Sites
Monolayer
Multilayer
Free water
Water and Deteriorative Chemical Reactions
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0 1Water Activity
Rat
e or
Gro
wth
or A
ttrib
ute
Zone I Zone II Zone III
a b
c d
e
f
g
hi
j
kl
m
Mic
robi
al G
row
th
Mechanical
Properties
Chem
ical
Reacti
on
Bel
ow M
onol
ayer
Revised Food Stability Map Based on Water Activity
Solv
ent W
ater
Rahman (2009) International Journal of Food Properties
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Limitations of Water Activity Concept
•Defined at Equilibrium•Shift of Critical Limits by Other Factors•Solute Selectivity or solute effect•No Indication of Mobility or Reactivity of Water•Shift of water activity with temperature is relatively very low[reaction rates are significantly affected by temperature]•Many Physical Changes Could not be Explained
Multi-phases or states (crystalline, amorphous, glass)
State of Equilibrium ????
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BET-Monolayer
Solvent Water
Non-Enzymatic Browning Rate at 70oC in Gelatinized Starch MediumSource: Acevedo et al. (2008)
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Nature of solute used to reduce wateractivity plays a role
aw 0.90 with sodium chloride: low growthaw 0.90 with sucrose: high growth
All these limitations could not make completely invalid the concept rather difficult to apply universally
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What is Glass? It is a supercooled liquid
BrittleTransparentInertCan not handle tensionCan not flow with gravity
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Glassy State Melting State
Heat
Moisture
Glassy State Melting State Flow with Gravity
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α
α
α
α
β
β
β
β
β
Amorphous Solid
β
Sodium Chloride Crystal
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At Glassy State•Not a regular structure
•Super-cooled liquid with viscosity 1012 and 1013 Pa s
•Flow of super-cooled liquid: 10-14 m/s (viscosity; 1014 Pa s)Typical liquid: 10 m/s
•Molecular diffusion in the order of months or years
•Molecules are kinetically immobilized
•Arrest of translational molecular motion
•Rigid and brittle
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VibrateTranslate
Rotate
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Glass Transition
A nature of second-order time-temperature dependenttransition, which is generally characterized by a discontinuity in physical, mechanical, electrical, thermal, and other properties of a material
Glass Transition Concept
•Foods are most stable at and below its glass transition•Higher the T-Tg, higher the deterioration or reaction rates
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Fresh Dried
Freeze-Drying
•Less collapse•More Pores•Less loss of volatiles•Less biochemical deterioration
Air-Drying
•More collapse•Less pores•More loss of volatiles•More biochemical deterioration
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Temperature
Temperature
Temperature
Temperature
Hea
t Flo
w (W
/g)
Tgi
Tge
Vol
ume
(m3 )
Diff
usiv
ity (m
2 /s)
Rat
e C
onst
ant (
s-1 )
Tgi
Tgi
Tgi
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0 1Solute Mass Fraction
Tem
pera
ture
F
E
G
A
c
Xs′
Tgs
Tgw
Tg′
Rubber
Glass
Ice
Levine and Slade (1986) and Slade and Levine (1988)
12
3
4
Glass Line
Freezing Curve
Stable
Unstable
Higher the numberhigher the unstable
In 1960s
White and Cakebread (1966)Luyet and Rasmussen (1968)
In 1980s
Levine and Slade (1986)
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Tem
pera
ture
(oC
)
Glass Transition Line
Water Activity
a
Source: Karel et al. 2004 and Sablani et al. 2007
Moi
stur
e C
onte
nt
IsothermBET-Monolayer
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0 1Solute Mass Fraction
Tem
pera
ture
F
J
B
A
Glass
ice+glass at Tg″′
CrystalCollapseStickinessRubberSoftening zoneReaction zoneEntangle flow
Solution
C
E (Tgs)
Xs ′
Tgw
Tg′
Tm′ice+rubber (solid matrix+un-freezable water)
GTu
H
I
ice+solution (solute+free water)
LiquidL (Tms)
Solid
DM
Water vapor
Tbw
N
O
BET
-Mon
olay
erQ
ice+glass Tg″
R
K
1
24
5
6
7
8
1110
9
12
13
Tg″′
Tg″
glass
Xs ″
ice+solution (solute crystal+free water)
ice+glass Tg′
3
S
Highest Molecular Mobility
PTg
iv
U (Tds)S
tate
Dia
gram
Mac
ro-M
icro
Reg
ion
Con
cept
(Rah
man
, 200
6, T
rend
s in
Foo
d S
cien
ce a
nd T
echn
olog
y)
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0 1Solute Mass Fraction
Tem
pera
ture
F
E (Tgs)
J
B
A
Glass
ice+glass at Tg″′
CrystalCollapseStickinessRubberSoftening zoneReaction zoneEntangle flow
Solution
C
Xs ′
Tgw
Tg′
Tm′ice+rubber (solid matrix+un-freezable water)
GTu
H
I
ice+solution (solute+free water)
LiquidL (Tms)
Solid
DM
Water vapor
Tbw
N
O
BET
-Mon
olay
erQ
ice+glass Tg″
R
K
1
24
5
6
7
8
1110
9
12
13
Tg″′
Tg″
glass
Xs ″
ice+solution (solute crystal+free water)
ice+glass Tg′
3
S
Highest Molecular Mobility
PTg
iv
U (Tds)
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Advantages of Proposed Macro-Micro Regions
•More organized approach could be applied
•Stability Criteria could be determined in different micro-regions
•In each micro-region, it would be easy to determine how multi-factors are linked
•Knowledge base could be developed in each micro-region
Sources: Rahman 2010. Journal of Food EngineeringRahman 2009. International Journal of Food Properties
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Tem
pera
ture
(oC
)
Glass
Rubber
Mass Fraction of Solids
a Room Temperature
Dry Bulb Temperature
b
c
Rahman 2009. Journal of Food Engineering (submitted)
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Baking Process in the State Diagram (Source: Cuq et al. 2003)
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B
Glass
Rubbe
r
Tem
pera
ture
(oC
)
Mass Fraction of Solids
A
Stability of Enzymes in the State Diagram (Source: Mazzobre et al. 2008)
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Tem
pera
ture
(oC
)
Glass
Rubber
Mass Fraction of Solids
1
1
2
3
Drying Process for Rice Kernel (Perdon et al. 2000)
RR GG
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Tem
pera
ture
(oC
)
Glass
Rubber
Mass Fraction of Solids
1
2
Alternative Approach for Rice Tempering (Cnossen et al. 2001)
SMCTe
mpe
ratu
re (o
C)
Glass
Rubber
Mass Fraction of Solids
SMC
A
B
A: Improved QualityB: Reduced Quality
C: CenterB: MidS: Surface
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A B
C D
Data Source: Chen et al. 1999, Kouassi et al. 2001
Rate of Hydrolysis in PVP and carbohydrate
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A B
C D
Rate of Hydrolysis in PVP and starch
Data Source: Schebor et al. 1995, Buera et al. 1995
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Storage Time (days)
Per
oxid
e V
alue
LT
HT
MT-H
MT-L
HT: High TemperatureMT-H: Medium Temperature (high)MT-L: Medium Temperature (low)LT: Low Temperature [ ] [ ] ( ) [ ] { }{ }
Fat Oxidation Kinetics in Freeze-Dried Fish Muscle
Source: Rahman et al. 2009. Food Chemistry
⎥⎦
⎤⎢⎣
⎡−
−−+−=
⎯→⎯⎯→⎯
12
2112
)exp(exp(exp
21
kktktkAktkBB
CBA
oo
kk
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Fat Oxidation in Fish Muscle (Rahman et al. 2009, Food Chemistry)
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Fat Oxidation in Fish Muscle (Rahman et al. 2009. Food Chemistry)
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FDA Guide Lines
Tc/Tg= Function (Xw/Xb, pH, salts, treatments)
Water activity and glass transitionconcepts could complement eachOther
Water activity and glass transition concepts overshadow the extreme complexity of food stability determination
Universality of stability could not beachieved using only one or two factors
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Hur
dle
Tech
nolo
gy
Key is ????
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Food Stability
Water Activity
Glass Transition
Sim
plifi
ed F
orm
of t
he R
eal C
ompl
exity
Stat
e D
iagr
am
Molecular Mobility
NMR (Nuclear Magnetic Resonance)ESR (Electron Spin Resonance)Dielectric SpectroscopyLuminescence Spectroscopy
Results indicated water activity and glass transition are the simplified nature of the real complexity
All developments arestill empirical in nature
Theoretical Development
?
Varied Characteristics of Glassy Foods
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Conclusion
•State diagram combines water activity and glasstransition concepts
•Multi-factors could be linked in each micro region
•A critical temperature could be defined and then relatingit with water content and other factors
•Knowledge base is required in each macro and micro-region
•Knowledge of critical temperature and its relationshipswith other hurdle is required
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Thank You