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Mineral Bioavailability

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* Regression based on individual Cu intake The proportion of the element consumed that is utilized for a biochemical or physiologic function (O Dell, 1997) A ... – PowerPoint PPT presentation

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Title: Mineral Bioavailability


1
Mineral Bioavailability
2
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3
Definitions of Bioavailability
  • The proportion of the element consumed that is
    utilized for a biochemical or physiologic
    function (ODell, 1997)
  • A measure of the proportion of the total amount
    of a nutrient that is utilized for normal body
    functions (Fairweather-Tart, 1999)
  • The degree to which an ingested nutrient in a
    particular source is absorbed in a form that can
    be utilized in metabolism by the animal (Ammerman
    et al., 1995)
  • The fraction of the ingested nutrient that is
    utilized for normal physiological functions or
    storage (Jackson, 1997)

4
Utilization Consists of
  • Intestinal absorption (major barrier)
  • Transport to site of action
  • Cellular uptake
  • Incorporation into a biochemically active form

5
Incorporation into biological processes
Small Intestine
Frataxin
Fe
Transferrin
Transport Proteins
Cu
Heme
Chaperone Proteins
Ceruloplasmin
CCS
Extracellular
Intracellular
Superoxide Dismutase
6
Intrinsic or Physiological Factors that Influence
Bioavailability
  • Species and Genetics
  • Age and Sex
  • Metabolic Function growth, lactation,
    maintenance
  • Nutritional Status
  • Intestinal or Rumen Microflora
  • Physiological Stress

7
Extrinsic or Dietary Factors that Influence
Bioavailability
  • Solubility of element CuS, CuMoS4
  • Binding to other dietary components (fiber,
    silica) in the intestine
  • State of Oxidation Fe2 vs. Fe3
  • Competitive Antagonisms of similar ions
  • Chelation effects Can be positive or negative
    depending on the
  • solubility and dissociation constant of
    the complex formed.

8
Tissue Utilization
Cu Transporters
Absorbed Cu
Unabsorbed Endogenous Cu
Biliary Cu
Dietary Cu
Total Fecal Cu
9
Intestinal absorption changes in a situation of
excessive mineral consumption verses normal
Normal mineral consumption
Excessive mineral consumption
Dietary Zn, Fe
High
Passive Diffusion
Zn Fe
Zn Fe
10
Responses of various criteria to physiological
concentrations of dietary zinc in lambs
aBasal diet analyzed 3.7 mg Zn/kg. b,c,dP lt 0.05.
Droke and Spears, 1993
11
Suitable criteria for estimating zinc
bioavailability
12
Indices of copper status in cattle fed diets
adequate or deficient in copper
Legleiter and Spears, 2007
13
Suitable Criteria For Estimating Copper
Bioavailability
14
Mineral composition of feedstuffs
Hale and Olson, MU Epub
15
Chemical Forms of Trace Minerals in Plant
Materials
16
Mineral Sources
17
Copper Sources
18
Relative bioavailability of Cu glycinate based on
regression of liver Cu following 6 mg Mo/kg DM
499/332 150 RVB
P lt 0.01
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20
Solubility
  • Minerals must be soluble at site of absorption
  • Information on trace mineral bioavailability from
    feeds is based on GIT solubility

21
Ruminal disappearance of copper and zinc from
forages from dacron bags incubated for 0 or 72
hours in the rumen of cattle
aAmount disappearing following washing with water.
Emanuele and Staples, 1990
22
Trace Mineral Concentrations in Feedstuffs vs
Bioavailability
  • Availability of minerals in feedstuffs
  • Chemical forms
  • Fiber
  • Dietary antagonisms
  • Effect on feedstuff mineral vs. supplemented
    mineral

23
Homeostatic mechanisms
  • Increasing absorption and/or reducing excretion
    if intake of a mineral is low or marginal
    relative to the requirement
  • Reducing absorption and/or increasing excretion
    if intake of a mineral is above the requirement

24
Homeostatic Control of Zinc in Lactating Dairy
Cowsa
aCows were fed diets for 6 weeks. 65Zn was given
orally on week 5 and followed for 14 days. b of
65Zn dose. c,d (P lt 0.01).
Neathery et al., 1973
25
Homeostatic Control of Zinc in Lactating Dairy
Cows
a,b(P lt 0.01)
Neathery et al., 1973
26
Selenium
  • Selenite-selenium absorption in ruminants is much
    lower than in nonruminants
  • Selenomethionine is the predominant form of
    selenium that occurs naturally in feedstuffs

27
Bioavailability of selenium from selenite vs
selenomethionine when added to diets of
selenium-depeleted lambsa
aControl diet analyzed 0.04 ppm of Se. Selenium
was supplemented at 0.05 ppm from d 0 to 28 and
0.10 ppm from d 29 to 56.
28
Bioavailability of selenium from selenite vs
selenomethionine when added to diets of
selenium-depleted lambs
aU/mg protein. bµg/g dry tissue.
29
Summary
  • Research regarding ruminant bioavailability of
    minerals from feeds is extremely limited
  • A portion of certain trace minerals in forages
    appears to be associated with the fiber fraction
  • Based on in situ studies, a high proportion of
    trace minerals are released from forages in the
    rumen
  • Mineral sources differ in bioavailability which
    may impact supplementation needs
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