Hydroxyapatite is a
calcium phosphate ceramics material that is
found to be very crucial as a biomaterial
because of its osteophilic nature and its
incorporation into bone tissues.
Hydroxyapatite (HA) which compose around 70
% of human bone is an example of bioactive
ceramics most commonly used in bone
implantation. Because of their excellent
bioactivities, hydroxyapatites are regarded
as attractive biomedical materials.
Hydroxyapatite (HA) is a particularly
attractive material for bone and tooth
implants since it closely resembles human
tooth and bone mineral and has proven to be
biologically compatible with these tissues.
Hydroxyapatite, HA is an elementary calcium
phosphate, and its chemical formula is
Ca10(PO4)6(OH)2 present as main material of
teeth, bones and mineral certainly with high
bio-affinity. It is composite by below
methods, and it is also applicable in
various fields including biomaterials. In
the meantime, amorphous HA is no longer
stable and could dissolve reliant on usage
environment; a sintered body has been
effectively used as a material in general.
And, the sintered body could not dissolve so
much owing to its high crystalline.
Because fusion and grain growth of each
particle arose on its process stage are
foreseeable, it has been hard to control
configuration and grain diameter on a
nanoscale impartial like initial particles
of amorphous HA. Microcore has developed
unique process for the production of the
high pure and pharma grade hydroxy apatite
and the patent is pending.
Frequently Ask Questions
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Hydroxyapatite (HA) is a particularly
attractive material for bone and tooth
implants since it closely resembles human
tooth and bone mineral and has proven to be
biologically compatible with these tissues.
It is used in bone regeneration is a major
challenge in reconstructive surgery mainly
on Periodontal Regenerative Surgery, GBR -
guided Bone regenerations, GTR- guided
Tissue regenerations, Sockets -treatment,
Soft tissue regenerations and Treatment of
large bone defects.
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What are the advantages of Egg Shells based
Hydroxy apatite ?
Good Biocompatibility
Excellent Bioactivity
Proper Osteoconductivity
Non toxic and Non inflammatory
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How the Egg Shell based
Hydroxy apatite is produced by Microcore ?
Microcore has developed unique process with
Excellent conversion ratio and at the time
with high recovery to convert the Egg Shells
in to Caclite and further in to Hydroxy
apatite by three stage through semi
synthetic process by using enzyme catalyst
at one stage and further by decomposition
and chemical reactions.
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How is the Packing of Egg Shell based
Hydroxy apaptitie?
Packing of Egg Shell based
Hydroxy apaptitie varies depending on whether it
is sold for
industrial,
nutraceutical,
cosmetic,
or
agricultural use.
Typical Packaging Type
-
HDPE
bottle
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Glass
bottle (for highly pure grades)
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Aluminum
pouch (for moisture-sensitive powders)
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Drum
container for multi-kilogram quantities
Label Description
Hydroxyapatite (HA), Ca₁₀(PO₄)₆(OH)₂
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Appearance: White, fine powder
-
Purity: ≥ 99%
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Packing Size: 25 g (or as
specified)
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Storage: Store in a cool, dry
place; tightly sealed
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