1. C H E W I N G G U M : P R O D U C T I O N ,
Q U A L I T Y P A R A M E T E R S &
O P P O R T U N I T I E S F O R D E L I V E R I N G
B I O A C T I V E S
P R E S E N T E D B Y
S H A S H A N K B A N S A L - A N A S S H A I K H
1 3 F E T 1 0 0 5 - 1 0 0 6
Authors: Nevzat Konar, Ä°brahim Palabiyik, Omer Said Toker, Osman
Sagdic
2. BUT WHY CHEWING GUM?
ā¢ Chewing gum is a popular confectionary product which is consumed by a diverse set
of consumers. Accessibility is also an advantage.
ā¢ Enjoyed as a confection and latterly as an aid in oral hygiene and an alternative to
smoking
ā¢ Chewing gums have been produced for treating disorder/disease conditions like
inhibition of dental disorders, appetite arrangement delivery, smoking mimetics,
carriers of functional ingredients and regulation of stress and mood changes
ā¢ $$: The global chewing gum market reported sales amounting to 25.83 billion U.S.
dollars in 2015
ā¢ Scope in India: The graph shows that the chewing gum market in India is constantly
increasing since 2010.
5. 4. Scoring: Cutting into a pattern for
sticks, short thicker tabs, long rolled
strips or small rectangular gum
centers, depending on what type of
gum is being made.
1. Melting and purification of gum
base
2. Mixing
3. Rolling to form wide,
thin ribbons.
A light coating of finely
powdered sugar or sugar
substitute is added during
this process to keep the
gum from sticking and to
enhance flavour.
5. Conditioning
6.
Breaking
and
coating
7A.
Wrapping
7B.
Packaging
11. QUALITY PARAMETERS: TEXTURE
ā¢ Ingredients play a major role in determining texture of chewing gum
ā¢ Resins: provide a cohesive body and strength, and most often include glycerol esters of gum
gum rosin, terpene resins and polyvinyl acetate
ā¢ Elastomers: important hydrophilic de-tackifier role by absorbing saliva and becoming
slippery when the gum is chewed
ā¢ Emulsifier: Provide smooth surface for gum, reduce adhesive nature (aids in mixing as well),
form a stable system by bringing all the constituents together in a cohesive mass and enable
uniform flavour distribution
ā¢ Waxes and Plasticizers: Give better chewing ability to gum
ā¢ Sugar: Size< 40Āµm: Firm chewing gum; Size> 150Āµm: Sandy texture
12. QUALITY PARAMETER: FLAVOUR
ā¢ Release period of flavour of chewing gum is considered as main evaluation quality
criterion
ā¢ Flavour of chewing gum is strongly required with an excellent characteristics of in-
mouth release such as immediate flavour impression, long duration of perception of
odorants during chewing, excellent odour quality and appropriate intensity
ā¢ Although flavourings exist in low concentrations (about 0.4% to 1.0%) in the final gum
formula, it is the second in importance after gum base considering quality of the end
product
ā¢ Uneven distribution of flavour compound during chewing could be accepted as quality
defect, which can be eliminated by controlled release of flavour compounds through
encapsulation.
13. QUALITY PARAMETERS: SENSORY
(FLAVOR)
ā¢ Sensory Response ļ In-mouth flavour release ļ 1) Partition b/w the different phases
(CG-Saliva-Air) & II) Mass Transfer Rate
ā¢ Time-Resolved Research Methods ļ Dynamic Process of Food Flavour Perception
ā¢ Time-Intensity (TI) Study ļ Chewing gum ļ Effective Monitoring ļ Changes in
Flavour Intensity == f (Time)
ā¢ Mass Transfer for Solid Foods:
Solid Matrix (Chewing Gum) ļ Liquid (Saliva) ļ Gas (Breath)
14. QUALITY PARAMETERS: SENSORY
(FLAVOR)
ā¢ Aroma release ļ Amt & Str of Matrix
ā¢ Matrix degradation level & Effective Surface Area ļ Mastication Intensity & Duration
ā¢ Sensory (in vivo): Release ļ Oral Processing & Volatile Release [Blee at al., 2011]
ā¢ Chewing Device (in vitro): Better than panelists (Krause at al., 2011]
Instrumental Sensory Special Chewing Devices
APCI-MS TI Special Device
Ovejero-Lopez et al. (2004) Ovejero-Lopez et al. (2004) Krause at al. (2011)
--
ā¢ Volatile delivery differences
across panelistsļ variations
in velum opening ļ
Different mouth movements
ā¢ Drawbacks eliminated
15. QUALITY PARAMETERS: SENSORY
(FLAVOR)āDIFF IN PERCEPTION
ā¢ Sweetness and peppermint perceptions ļ dual-attribute ļ faster release of sweetness
increased the duration and intensity of sweet perception, as well as the duration of
peppermint flavor (Druizer, Bloom & Findlay, 1996).
ā¢ In the study of Davidson et al. (1999), delivery of sucrose and menthone in chewing
gum system during masticating was determined in mouth and in-nose, respectively.
ā¢ They indicated that the panelistsā perception of mint flavor followed sucrose release
rather than menthone release.
ā¢ The temporal analysis of the chemical stimuli, with simultaneous TI analysis provided
unequivocal evidence of the perceptual interaction between nonvolatile and volatile
flavor compounds from chewing gum (Davidson et al., 1999).
16. QUALITY PARAMETERS: SENSORY
(COLOR)
ā¢ Color ļ Consumer acceptability
ā¢ Stability of Coloring compounds against mouth condition (CG used > once a day)
1) Stable Coloring compounds
2) Encapsulated Coloring agents ļ Stability for longer time
ā¢ In the study performed by Chranioti et al. (2015), the chewing gum samples produced
with saffron and beetroot colouring extracts encapsulated in gum Arabic-modified
starch showed the greatest a* (for beetroot) and b* (for saffron) values indicating a
better protection.
17. OPPORTUNITIES FOR DELIVERING
BIOACTIVE COMPOUNDS
ā¢ During the chewing process, bioactive compounds are released from chewing gum
matrix into saliva.
ā¢ After release, they could reach the stomach by absorption or swallowing mechanisms
(Chandran et al., 2014)
18. ADVANTAGES OF CHEWING GUM FOR
BIOACTIVE COMPOUNDSā(1)
ā¢ Chewing gum is the most suitable media for encapsulated and un-encapsulated
bioactive substances due to its fabrication conditions where extreme heat and
moisture conditions are not applied (Santos et al., 2014).
ā¢ These characteristics of chewing gum enable the food industry to produce functional,
nutritional and dietetic chewing gums (Abbasi et al., 2009).
19. ADVANTAGES OF CHEWING GUM FOR
BIOACTIVE COMPOUNDSā(2)
ā¢ Another advantage of chewing gums in delivering bioactive compounds is that
generally chewing gums are not swallowed and they are low calorie products.
ā¢ Therefore, in recent years when obesity is a big problem throughout the world, such
products providing less energy to body have attracted attention in terms of delivering
functional compounds.
20. ADVANTAGES OF CHEWING GUM FOR
BIOACTIVE COMPOUNDSā(3) & (4)
ā¢ Water content of gum base is low, and the matrix of the gum can preserve the active
compounds from extrinsic factors such as oxygen, light and humidity, which can
reduce or eliminate chemical degradation reactions and growth of microorganisms
(Maggi et al., 2013).
ā¢ In addition, shelf life and stability can further be improved by optimization of process
and ingredients.
ā¢ The impact of sodium lactate addition and storage conditions on the stability of
chewing gums was investigated by Valduga et al. (2012).
ā¢ They noted that sodium lactate incorporation to the formulation in concentrations of
1.08 % on dry basis improved the stability of the product, as well as the use of lactic
acid in place of citric acid.
21. CHALLENGES OF CHEWING GUM FOR
BIOACTIVE COMPOUNDS
ā¢ Chemical Losses ļ Owing to the high hydrophilic characteristics of chewing gums,
the strong attraction leads to deprivation of volatile organic compounds upon
concentration (Wong et al., 2009).
ā¢ Ingredient Interactions ļ chewing gums are composed of many different ingredients
which have tendency to interact with themselves and with the active substance
et al., 2013).
ā¢ Particle size of the bioactive compound ļ The particle size of the active ingredient
should be kept below approximately 100 Āµm to avoid unpleasant gritty feeling during
chewing (Chandran et al., 2014).
ā¢ Target Consumer Groupsā Characteristics & Consumption patterns ļ Hearthy et al.
(2014) noted that older children consume more chewing gum than younger children
and adolescents chew much more than older adults in Europe.
22. IMPROVEMENTS IN MEDICATED CHEWING
GUMS: DIRECTIONS FOR FST
I) Characteristics:
ā¢ Although drug release performance during chewing had less variability during storage,
should be controlled since gum matrix is semi-solid and may be affected by mastication
which can significantly influence the delivery characteristics of the drug (Maggi et al.,
2013).
II) Taste:
ā¢ The taste of active ingredient must be within the acceptable limits (Chandran et al.,
III) Time:
ā¢ Release of most water-soluble components from chewing gum was sustained not more
than 5 min, which is not sufficient for the effective treatment (Yang et al., 2004).
ā¢ Also, Delarue & Loescher (2004) found out that some consumers chew for few min and
then they substitute it with fresh gum.
ā¢ On the contrary other ones may chew the same gum for half-a-day or more. So that,
dose active ingredients are the prime candidates for the formulation of functional
chewing gums (Chandran et al., 2014).
24. NEWER OPPORTUNITIES FOR FST
ā¢ Production Methods:
1) In fusion method, high temperature levels are applied for melting of gum base,
which causes deterioration of bioactive compounds.
2) If the bioactive compound is added at lower temperature levels the homogeneity of
it in chewing gum is very difficult due to high viscous character of the sample.
3) Regarding the methods mentioned, direct compression method is suitable for the
manufacturing of chewing gum for delivery aims.
25. CONCLUSIONS
ā¢ In food science and technology area, awareness of potential uses of chewing gum is
scarce due to lack of scientific studies conducted about chewing gum.
ā¢ There are wide range of chewing gum benefits from freshening breath to acting as a
pleasant way to take vitamins and medicine.
ā¢ However, to improve these functions of chewing gum, detailed understanding of
chewing gum ingredients, production process, interaction of flavor or bioactive
compounds release behavior with its texture and ingredients are necessary.
ā¢ According to the results it could be concluded that chewing gum is a promising
confection providing the most hospitable environment for bioactive compounds due
to the mild production conditions and having the longest duration of remaining in
mouth among other foods.