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Kibble Shape and its Effect on Feline Palatability

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Title: Kibble Shape and its Effect on Feline Palatability


1
Kibble Shape and its Effect on Feline Palatability
  • Kristopher Figge
  • Senior Scientist, Technical Services Mgr.
  • AFB International

2
Presentation Layout
  • Introduction
  • Experimental design
  • Definitions Results
  • Other related topics
  • Comments / discussion

3
General Items about Cats
  • As obligate carnivores, will choose higher
    protein diets over lower protein diets.
  • More likely than dogs to avoid spoilage aromas.
  • Lack lateral jaw movement hence, texture and
    size are very important.
  • Lack molars, and cannot grind their food.
    Acidification helps salivation.
  • Surface texture plays a role in palatability.
  • Different breeds of cats pick up their food
    differently with their tongue.
  • In PAL testing, cats tend to consume food from
    both bowls. First choice is not necessarily
    linked to total consumption. Feeding time is
    generally 15 hours.

4
Factors Affecting Feline PAL
Raw Materials (Fats, oils, meals, palatants, etc.)
Texture / Size / Shape
Processing
5
Hypothesis
  • Kibble shape affects the PAL of dry cat food(s).

6
Experimental Design
  • Standard / fixed reference points
  • A finely ground (3) 34/13, grain-based meal
  • Same lot of meal used for all shapes
  • All variables coated with the same components
  • Fat 5.0 poultry fat
  • Palatant 1.5 dry cat palatant
  • Same moisture specification 6.5 - 9.5
  • Same density specification 19 - 24 lbs./ft3

7
Experimental Design (contd)
  • Variable(s) in the study
  • Kibble shapes
  • X Cross / Star
  • ? Triangle
  • O Flat Disc
  • Cylinder
  • Triangle w/ center hole

8
Experimental Design (contd)
  • What was measured
  • Texture
  • Max. Load c) Energy to Break Pt.
  • Energy to Yield Pt. d) Toughness
  • PAL due to kibble shape
  • 2 bowl, paired comparison test
  • 25 cats x 2 days
  • Same panel of cats was used
  • All possible paired tests were done (10)

9
Equipment
10
Results
  • In-process data
  • Kibble shape pictures
  • Texture terms results
  • PAL data terms results

11
In-Process Data
Shape Moisture () Density (lbs./ft3) Diameter (cm) Thickness (cm)
O Disc 7.40 21.13 0.36 0.19
X Cross 8.59 22.25 0.54 0.18
? Triangle 8.59 23.25 0.45 0.18
Triangle w/ hole 6.96 20.00 0.41 0.20
Cylinder 8.58 21.37 0.32 0.39
  • Moisture 6.5 - 9.5
  • Bulk Density 19 24 lbs. / ft3
  • Based on In-Process data, all variables were
    within target specifications.

12
Kibble Shape Pictures
  • Uncoated kibble is shown on the top row
    comparable commercial products are on the bottom.

13
Texture Analysis Terms
  • Maximum Load maximum amt. of force necessary to
    fracture a kibble (measured in kgs of force).
  • Energy to Yield Point energy required to reach
    a point where kibble begins to fracture (measured
    in graminch).
  • Energy to Break Point energy required to reach
    a point where kibble finally gives way and
    fractures completely (measured in graminch)
  • Toughness energy to break point divided by
    gauge length kibble width kibble thickness
    (measured in g/inch2)

14
Texture Analysis
Shape Max. Load (kg-Force) Energy to Yield Pt. (gram-inch) Energy to Break Pt. (gram-inch) Toughness (g/inch2)
O Disc 5.39 41.46 56.85 227.39
X Cross 8.08 51.39 69.06 276.23
? Triangle 7.06 63.79 100.10 400.41
Triangle w/ hole 2.48 14.07 20.54 82.15
Cylinder 4.23 61.99 145.45 626.90
  • Measurements done with an Instron Texture
    Analyzer 3342 and Cherry Pitter Needle probe

15
Maximum Load
16
Energy to Yield Point
17
Energy to Break Point
18
Toughness
19
Texture Summary
  • The Triangle w/ hole had the lowest texture
    numbers.
  • The Cylinder had the highest scores in all
    categories except maximum load.
  • The O Disc had the second lowest texture
    numbers.
  • The X Cross scored in the middle except for
    max. load where it had the highest number.
  • The ? Triangle had the second highest scores.

20
PAL Data Interpretation
  • Consumption Ratio (CR) Consumed A / Consumed B
  • Intake Ratio (IR-A) Consumed A

  • (Consumed A Consumed B)

  • First Choice (FC-A) Animals eating out of
    Bowl A first
  • Preference Outside the range of 0.45-0.55 IR
  • p-Value (p) Probability that A is significantly
    different from B (want lt 0.05 95
    confidence level)

21
O Discs
Ration A Ration B IR-A CR FC-A PREF p-Value
X Cross / Star 0.57 1.3A 0.57 10A 3B 0.013
? Triangle 0.47 1.0B 0.55 7A 9B 0.222
Cylinder 0.64 1.9A 0.39 12A 2B 0.002
Triangle w/ hole 0.66 2.0A 0.56 12A 1B 0.000
  • O gt X, Cylinder Triangle-hole
  • O ?

22
X Cross / Star
Ration A Ration B IR-A CR FC-A PREF p-Value
? Triangle 0.61 1.5A 0.55 14A 5B 0.007
O Disc 0.43 1.3B 0.43 3A 10B 0.013
Cylinder 0.63 1.7A 0.52 17A 5B 0.000
Triangle w/ hole 0.56 1.3A 0.50 12A 6B 0.078
  • X gt Cylinder, Triangle Triangle-hole
  • X lt Disc

23
? Triangle
Ration A Ration B IR-A CR FC-A PREF p-Value
X Cross / Star 0.39 1.5B 0.45 5A 14B 0.007
O Disc 0.53 1.0A 0.45 9A 7B 0.222
Cylinder 0.71 1.5A 0.41 12A 3B 0.086
Triangle w/ hole 0.51 1.0B 0.57 10A 9B 0.408
  • ? gt Cylinder
  • ? Disc Triangle-hole
  • ? lt X

24
Triangle w/ Hole
Ration A Ration B IR-A CR FC-A PREF p-Value
X Cross / Star 0.44 1.3B 0.50 6A 12B 0.078
? Triangle 0.49 1.0A 0.43 9A 10B 0.408
O Disc 0.34 2.0B 0.44 1A 12B 0.000
Cylinder 0.61 1.6A 0.61 11A 5B 0.028
  • Triangle-hole lt O
  • Triangle-hole gt Cylinder
  • Triangle-hole ? X

25
Cylinder
Ration A Ration B IR-A CR FC-A PREF p-Value
X Cross / Star 0.37 1.7B 0.48 5A 17B 0.000
? Triangle 0.29 1.5B 0.59 3A 12B 0.086
O Disc 0.36 1.9B 0.61 2A 12B 0.002
Triangle w/ hole 0.39 1.6B 0.39 5A 11B 0.028
  • Cylinder lost to the other (4) shapes

26
Conclusions
  • Kibble shape was the primary driver for PAL -
    texture across a given range did not drive PAL.
  • Triangle-hole had the lowest texture scores, but
    few cats preferred this shape.
  • The O Disc had mid-range texture scores and
    was the most preferred shape.
  • The Cylinder was outside the range and was least
    preferred.
  • The X Cross had slightly more favorable
    texture scores than the cylinder however, its
    PAL was closer to the O Disc
  • The ? Triangle had higher texture scores than
    the O Disc but similar PAL

27
Product Considerations
  • The O and the X had the best overall PAL
  • Head-to-head, the O was better.
  • Operations Implications
  • The O is easier to extrude
  • Less potential for die blockage
  • ? drag ? throughput
  • The O has lower tooling costs
  • Product Implications
  • The O is more durable
  • The O had less fines
  • The O has more surface area

28
References
  • Royal Canin Almond 11 / Persian cat study

29
Thank You!
  • Kristopher Figge
  • AFB International
  • Sr. Scientist Tech. Service Mgr.
  • Tel (636) 634-4142
  • Fax (636) 634-4644
  • Email kfigge_at_afbinternational.com

Other Contributors Pat Moeller, PhD Amy
McCarthy, PhD Cheryl Murphy Bola Oladipupo, DA
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