Tricalcium phosphate

Tricalcium phosphate, more commonly known as Calcium phosphate, is a calcium salt of phosphoric acid with the chemical formula Ca₃₂. It is also known as tribasic calcium phosphate and bone phosphate of lime. It is a white solid of low solubility. Most commercial samples of "tricalcium phosphate" are in fact hydroxyapatite.
It exists as three crystalline polymorphs α, α′, and β. The α and α′ states are stable at high temperatures.

Nomenclature

Calcium phosphate refers to numerous materials consisting of calcium ions together with orthophosphates, metaphosphates or pyrophosphates and occasionally oxide and hydroxide ions. Especially, the common mineral apatite has formula Ca₅₃X, where X is F, Cl, OH, or a mixture; it is hydroxyapatite if the extra ion is mainly hydroxide. Much of the "tricalcium phosphate" on the market is actually powdered hydroxyapatite.

Preparation

Tricalcium phosphate is produced commercially by treating hydroxyapatite with phosphoric acid and slaked lime.
It cannot be precipitated directly from aqueous solution. Typically double decomposition reactions are employed, involving a soluble phosphate and calcium salts, e.g. ₂HPO₄ + Ca₂. is performed under carefully controlled pH conditions. The precipitate will either be "amorphous tricalcium phosphate", ATCP, or calcium deficient hydroxyapatite, CDHA, Ca₉₅,. Crystalline tricalcium phosphate can be obtained by calcining the precipitate. β-Ca₃₂ is generally formed, higher temperatures are required to produce α-Ca₃₂.
An alternative to the wet procedure entails heating a mixture of a calcium pyrophosphate and calcium carbonate:

Structure of β-, α- and α′- Ca₃(PO₄)₂ polymorphs

Tricalcium phosphate has three recognised polymorphs, the rhombohedral β form, and two high temperature forms, monoclinic α and hexagonal α′. β-Tricalcium phosphate has a crystallographic density of 3.066 g cm⁻³ while the high temperature forms are less dense, α-tricalcium phosphate has a density of 2.866 g cm⁻³ and α′-tricalcium phosphate has a density of 2.702 g cm⁻³ All forms have complex structures consisting of tetrahedral phosphate centers linked through oxygen to the calcium ions. The high temperature forms each have two types of columns, one containing only calcium ions and the other both calcium and phosphate.
There are differences in chemical and biological properties between the β and α forms, the α form is more soluble and biodegradable. Both forms are available commercially and are present in formulations used in medical and dental applications.

Occurrence

is one of the main combustion products of bone. Calcium phosphate is also commonly derived from inorganic sources such as mineral rock.
Tricalcium phosphate occurs naturally in several forms, including:

as a rock in Morocco, Israel, Philippines, Egypt, and Kola and in smaller quantities in some other countries. The natural form is not completely pure, and there are some other components like sand and lime which can change the composition. The content of P₂O₅ in most calcium phosphate rocks is 30% to 40% P₂O₅ by weight.
in the skeletons and teeth of vertebrate animals
in milk.
Biphasic calcium phosphate, BCP

Biphasic calcium phosphate, BCP, was originally reported as tricalcium phosphate, but X-Ray diffraction techniques showed that the material was an intimate mixture of two phases, hydroxyapatite and β-tricalcium phosphate. It is a ceramic.
Preparation involves sintering, causing irreversible decomposition of calcium deficient apatites alternatively termed non-stoichiometric apatites or basic calcium phosphate. An example is:
β-TCP can contain impurities, for example calcium pyrophosphate, and apatite. β-TCP is bioresorbable. The biodegradation of BCP involves faster dissolution of the β-TCP phase followed by elimination of HA crystals. β-TCP does not dissolve in body fluids at physiological pH levels, dissolution requires cell activity producing acidic pH.

Uses

Food additive

Tricalcium phosphate is used in powdered spices as an anticaking agent, e.g. to prevent table salt from caking. The calcium phosphates have been assigned European food additive number E341.

Health and beauty products

It is also found in baby powder, antacids and toothpaste. Toothpastes with functionalized β-tricalcium phosphate may help remineralize tooth enamel.

Biomedical

It is also used as a nutritional supplement and occurs naturally in cow milk, although the most common and economical forms for supplementation are calcium carbonate and calcium citrate. There is some debate about the different bioavailabilities of the different calcium salts.
It can be used as a tissue replacement for repairing bony defects when autogenous bone graft is not feasible or possible. It may be used alone or in combination with a biodegradable, resorbable polymer such as polyglycolic acid. It may also be combined with autologous materials for a bone graft.
Porous β-tricalcium phosphate scaffolds are employed as drug carrier systems for local drug delivery in bone.

Natural occurrence

, a natural analogue of tricalcium orthophosphate, is a rare component of some meteorites. Its formation is related to shock metamorphism.