Calcium is one of the essential minerals that the human body require to function properly. Calcium plays a pivotal role in bone formation and its growth and maintenance. Moreover, calcium can also join with other minerals like phosphate and help in their removal from the human body.
Furthermore, calcium acetate assists in controlling the phosphate levels and eliminates its negative implications on human body.
What Is a Calcium Acetate?
Calcium acetate is a chemical that is primarily a calcium salt of acetic acid. It is also known as acetate of lime. The formula of calcium acetate is C4H6CaO4. Even though this compound is commonly known as calcium acetate, it IUPAC registered name is calcium ethanoate.
Moreover, calcium acetate is colourless, and it is a white crystalline solid, which smells slightly like acetic acid. It is soluble in water and alcohol but insoluble in acetone and benzene. This compound is strongly hygroscopic when it is in its anhydrous form and arrives as monohydrate in its regular form.
Furthermore, this chemical can be gathered by soaking calcium carbonate in a vinegar solution. Calcium acetate has not been found yet as a free compound in nature. Moreover, it is mainly used in producing various medicines, food additive, sequestrate, buffer, etc.
Formula and Structure
Calcium acetate and acetate of calcium ethanoate or lime is a substance which has a variety of use in medicine. Additionally, it aids individuals suffering from kidney diseases by regulating phosphate levels in their body. The calcium acetate formula is C4H6CaO4.
Moreover, its extended formula is, Ca (CH3COO)2.
Furthermore, the calcium acetate structure suggests that one calcium cation (CA2+) and two acetate anions (CH3COO-) forms this salt. Moreover, it is very hygroscopic, and it is commonly found as hydrated salts.
Preparation of Calcium Acetate
Calcium acetate uses calcium carbonate found in eggshells, or rocks like limestone or marble for its preparation. After that, this calcium carbonate is soaked in acetic acid like vinegar to reach the result. The equation of this process is –
CaCO3(s) + 2CH3COOH(aq) → Ca(CH3COO)2(aq) + H2O(l) + CO2(g) Ca(OH)2(s) + 2CH3COOH(aq) → Ca(CH3COO)2(aq) + 2H2O(l)
Furthermore, when lime is used for this reaction, it passes an acetic acid vapour over the heated mineral.
Physical Properties of Calcium Acetate
Calcium acetate is a white, hygroscopic compound. It has an odour of acetic acid.
Its density is 1.509 g mL-1.
Additionally, its melting point is 160 ⁰C.
Furthermore, it is completely soluble in water and alcohol, and partially in methanol. However, it is insoluble in acetone and ethanol.
Chemical Properties of Calcium Acetate
Calcium acetate is a chelator, which means this molecule is capable of forming a different coordinated bond called ‘chelation’. Since it has one metallic atom, i.e. calcium, which can bond with other chemical ions, thus, calcium acetate can do the same.
Moreover, the calcium atoms present in this molecule are extremely helpful in regulating the phosphate level in the blood. The reason being, this calcium acetate reacts and produces phosphate, which is insoluble. Hence, it is excreted without any hassle.
Uses of Calcium Acetate
Calcium acetate is primarily used to regulate the blood pressure of dialysis patients. Even though dialysis removes phosphate from an individual’s body, it may not prove enough. Hence, the use of calcium acetate tablets is other medications that can remove enough phosphate.
Besides, removing this excess phosphate prevents unsafe materials from gathering in the human body, and keep the bones strong. It also reduces the possibility of any heart diseases and strokes, which can occur due to high phosphate level. Calcium acetate holds this phosphate from the regular diet on patients and helps in passing it out of the human body.
Additionally, due to its inexpensive nature, calcium acetate was used as a starting material for acetone synthesis. However, after the introduction of the cumene process, this practice has stopped. The chemical formula of this process is, Ca (CH3COO)2 → CaCO3(s) + (CH3)2CO.
Tofu is traditionally prepared by soy milk and calcium sulphate. However, calcium acetate has proved to be a better alternative for this purpose. It is soluble and requires a smaller amount.
The Process of Using Calcium Acetate
If anyone is using it with a doctor’s recommendation, then they must ensure proper dosing. It will completely depend on a particular patient’s medical condition and his/her current treatment. Moreover, the timing of having this medication is also crucial. Typically, it is taken during a meal via the mouth.
Besides, if anyone is using calcium acetate medicines in its liquid form, then it is vital to use a medication-measuring device instead of a household spoon. Since overdosing of it is unsafe; thus, a precision dose is essential.
Furthermore, taking calcium acetate every day is essential to reap its benefits. However, follow the volume and schedule prescribed by the doctor. Additionally, do not increase or decrease its usage without consult a doctor, as it can have side effects.
Side Effects of Calcium Acetate
One of the primary calcium acetate side effects is upset stomach. However, if it persists or deteriorates, then it is vital to consult a doctor.
Moreover, other negative effects of using calcium acetate are, loss of appetite, stomach or abdominal pain, vomiting, nausea, dry mouth, increase in thirst and urination, confusion, etc.
Serious allergic reactions due to this drug is also a possibility, but it is very rare. However, in case anyone notices symptoms like rashes, severe dizziness, itching or swelling in the throat, tongue and face, etc. they must contact their doctor immediately.
The side effects of calcium acetate are not very serious. Nevertheless, the proper use of this medication is important to avoid any of these adverse effects. Moreover, if any patient comes across any side effects, then it is vital to get medical help as soon as possible.
Precautions to Take for Using Calcium Acetate
The primary precaution that patients can take is informing their doctor about any existing allergies, or if they are allergic to something. Since calcium acetate has inactive ingredients, it can cause allergic reactions.
Moreover, patients with a specific medical condition are not permitted to use this drug. Therefore, before consuming it, consult a physician.
Additionally, in case of any pregnant individuals, calcium acetate should be used only when it is necessary. Even though it is not likely to hurt the baby, but they must consult with any medical professional before beginning to use it.
It is not ideal to use any other calcium supplement without consulting to a doctor while using calcium acetate.
Furthermore, it is important to avoid using antacids that contain calcium. Hence, only use antacids prescribed by the doctor.
Interaction of Calcium Acetate
Calcium acetate’s interactions vary from one individual to another. Hence, it is difficult to predict whether it will work on a patient or not. Nevertheless, the negative effects of this medicine are not widely noted; thus, it is not unsafe.
However, it has been observed that specific medicinal products interact with such drugs better compared to others. These are calcium channel blockers such as verapamil, other calcium supplements, and antacids made of calcium, iron supplements, etc.
On the other hand, this drug can lower the absorption of other medicines like bisphosphonates, thyroid medicines, phenytoin, tetracycline antibiotics, and quinolone antibiotics, etc.
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FAQs on Calcium Acetate
1. What is calcium acetate, and what is its chemical formula?
Calcium acetate is the calcium salt derived from acetic acid. Its chemical formula is Ca(CH₃COO)₂. It is also known by its IUPAC name, calcium ethanoate, or its common name, acetate of lime. It typically appears as a white, crystalline solid and can have a faint odour of vinegar (acetic acid).
2. How is calcium acetate prepared in a laboratory?
Calcium acetate is typically prepared through a neutralization reaction. This involves reacting a calcium-containing base, such as calcium carbonate (CaCO₃) or calcium hydroxide (Ca(OH)₂), with acetic acid (CH₃COOH). The general reaction is:
Ca(OH)₂ + 2CH₃COOH → Ca(CH₃COO)₂ + 2H₂O.
After the reaction, the water is evaporated to obtain the solid calcium acetate crystals.
3. What happens when calcium acetate is heated, and why is this reaction significant?
When calcium acetate is heated strongly in the absence of air (a process called dry distillation), it decomposes to form acetone (propanone) and calcium carbonate. The balanced chemical equation for this reaction is:
Ca(CH₃COO)₂ (s) → CH₃COCH₃ (g) + CaCO₃ (s).
This reaction is historically and academically significant as it is a classic laboratory method for the preparation of ketones.
4. Why is an aqueous solution of calcium acetate slightly basic?
An aqueous solution of calcium acetate is slightly basic due to salt hydrolysis. Calcium acetate is a salt formed from a strong base (Calcium Hydroxide, Ca(OH)₂) and a weak acid (Acetic Acid, CH₃COOH). In water, the acetate ion (CH₃COO⁻) reacts with water to form acetic acid and hydroxide ions (OH⁻). This increase in the concentration of OH⁻ ions makes the solution basic (alkaline).
5. What are the key industrial and chemical applications of calcium acetate?
Beyond its medical use, calcium acetate has several important applications:
- Chemical Synthesis: It is a key reactant for producing acetone through dry distillation.
- Food Industry: It is used as a food additive (E263), where it functions as a thickener, a pH regulator (buffer), and a preservative.
- De-icing Agent: It is used as an environmentally friendlier and less corrosive alternative to salt (sodium chloride) for melting ice on roads.
- Textile Industry: It is used in dyeing and printing processes.
6. How do the properties of calcium acetate differ from those of sodium acetate?
While both are salts of acetic acid, they have key differences:
- Cation: Calcium acetate contains the divalent calcium ion (Ca²⁺), while sodium acetate contains the monovalent sodium ion (Na⁺).
- Formula and Molar Mass: Their formulas are Ca(CH₃COO)₂ and CH₃COONa, respectively, leading to different molar masses and stoichiometry in reactions.
- Primary Use in Synthesis: Dry distillation of calcium acetate yields a ketone (acetone), whereas dry distillation of sodium acetate with soda-lime produces a simpler hydrocarbon (methane).
- Solubility: Both are soluble in water, but their precise solubilities at different temperatures vary, which can be critical in industrial applications.
7. Is calcium acetate an ionic or covalent compound?
Calcium acetate is an ionic compound. It is formed by the electrostatic attraction between the positively charged calcium cation (Ca²⁺) and the negatively charged polyatomic acetate anions (CH₃COO⁻). The bonds within the acetate ion itself (between carbon, hydrogen, and oxygen atoms) are covalent.
