Iminodiacetic acid: Difference between revisions

Revision as of 18:58, 23 March 2025

Iminodiacetic acid (IDA) is a chemical compound with the formula C₄H₇NO₄. It is a derivative of acetic acid and is characterized by the presence of two carboxylic acid groups and one amine group. This compound is of significant interest in various fields, including biochemistry, medicine, and industrial chemistry.

Chemical Structure and Properties

Iminodiacetic acid is a white crystalline solid that is soluble in water. The molecule consists of a central nitrogen atom bonded to two acetate groups. The presence of both amine and carboxylate groups allows IDA to act as a chelating agent, forming stable complexes with metal ions.

File:Iminodiacetic acid structure.svg

Chemical structure of Iminodiacetic acid

The ability of IDA to chelate metal ions is utilized in various applications, including the purification of proteins and the removal of heavy metals from solutions. The compound's chelating properties are enhanced by the presence of the nitrogen atom, which can donate a lone pair of electrons to form coordinate bonds with metal ions.

Applications

Medical Imaging

In the field of nuclear medicine, iminodiacetic acid derivatives are used as radiopharmaceuticals for hepatobiliary imaging. These compounds, known as HIDA scans, are used to evaluate the function of the gallbladder and the biliary tract. The radiolabeled IDA compounds are taken up by the liver and excreted into the bile, allowing for the visualization of the biliary system using gamma cameras.

Industrial Uses

Iminodiacetic acid is also used in the production of chelating resins, which are employed in the purification of metals and the treatment of wastewater. These resins are capable of selectively binding metal ions, facilitating their removal from complex mixtures.

Complexes with Metal Ions

IDA forms stable complexes with a variety of metal ions, including iron, copper, and zinc. These complexes are often used in analytical chemistry to determine the concentration of metal ions in solutions.

The ferric(IDA)₂ anion is a notable example of such a complex, where the IDA ligands coordinate with a central iron ion. This complex is used in various analytical applications due to its stability and solubility in aqueous solutions.

Synthesis

Iminodiacetic acid can be synthesized through the reaction of chloroacetic acid with ammonia, followed by hydrolysis. This process involves the formation of an intermediate iminoacetic acid, which is then converted to the final product.

Related Compounds

IDA is related to other amino acids and chelating agents, such as ethylenediaminetetraacetic acid (EDTA) and nitrilotriacetic acid (NTA). These compounds share similar properties and applications, particularly in their ability to form stable complexes with metal ions.

Related Pages

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-'''Imaging Technologies''' refers to the tools and methods used to create visual representations of the interior of a body for clinical analysis and medical intervention. These technologies are essential in the field of [[medicine]] and [[healthcare]], as they allow for non-invasive diagnosis and monitoring of diseases.
+{{DISPLAYTITLE:Iminodiacetic acid}}
-==Types of Imaging Technologies==
+[[File:Iminodiacetic_acid.svg|thumb|right|Structure of Iminodiacetic acid]]
-There are several types of imaging technologies, each with its own advantages and applications.
+'''Iminodiacetic acid''' (IDA) is a chemical compound with the formula C<sub>4</sub>H<sub>7</sub>NO<sub>4</sub>. It is a derivative of acetic acid and is characterized by the presence of two carboxylic acid groups and one amine group. This compound is of significant interest in various fields, including [[biochemistry]], [[medicine]], and [[industrial chemistry]].
-===[[X-ray]] Imaging===
+==Chemical Structure and Properties==
-[[X-ray]] imaging is one of the oldest and most commonly used forms of medical imaging. It uses X-ray radiation to create images of the inside of the body, particularly the bones.
+Iminodiacetic acid is a white crystalline solid that is soluble in water. The molecule consists of a central nitrogen atom bonded to two acetate groups. The presence of both amine and carboxylate groups allows IDA to act as a [[chelating agent]], forming stable complexes with metal ions.
-===[[Ultrasound]] Imaging===
+[[File:Iminodiacetic_acid_structure.svg|thumb|left|Chemical structure of Iminodiacetic acid]]
-[[Ultrasound]] imaging, also known as sonography, uses high-frequency sound waves to create images of the inside of the body. It is commonly used in [[obstetrics]] and [[gynecology]] to monitor the development of fetuses in the womb.
+The ability of IDA to chelate metal ions is utilized in various applications, including the purification of [[proteins]] and the removal of heavy metals from solutions. The compound's chelating properties are enhanced by the presence of the nitrogen atom, which can donate a lone pair of electrons to form coordinate bonds with metal ions.
-===[[Magnetic Resonance Imaging]] (MRI)===
+==Applications==
-[[Magnetic Resonance Imaging]] (MRI) uses a strong magnetic field and radio waves to create detailed images of the inside of the body. It is particularly useful for imaging soft tissues and organs like the brain, heart, and muscles.
+===Medical Imaging===
-===[[Computed Tomography]] (CT)===
+In the field of [[nuclear medicine]], iminodiacetic acid derivatives are used as radiopharmaceuticals for [[hepatobiliary imaging]]. These compounds, known as [[HIDA scans]], are used to evaluate the function of the [[gallbladder]] and the [[biliary tract]]. The radiolabeled IDA compounds are taken up by the liver and excreted into the bile, allowing for the visualization of the biliary system using [[gamma cameras]].
-[[Computed Tomography]] (CT), also known as a CT scan, uses X-rays and a computer to create detailed images of the inside of the body. It can create more detailed images than regular X-rays, making it useful for diagnosing diseases and injuries.
+===Industrial Uses===
-==Applications of Imaging Technologies==
+Iminodiacetic acid is also used in the production of [[chelating resins]], which are employed in the purification of [[metals]] and the treatment of [[wastewater]]. These resins are capable of selectively binding metal ions, facilitating their removal from complex mixtures.
-Imaging technologies have a wide range of applications in medicine and healthcare. They are used for diagnosing and monitoring diseases, guiding medical procedures, and conducting medical research. Some of the key applications include:
+==Complexes with Metal Ions==
-* [[Diagnosis]]: Imaging technologies are used to diagnose a wide range of diseases, from cancer and heart disease to bone fractures and infections.
+IDA forms stable complexes with a variety of metal ions, including [[iron]], [[copper]], and [[zinc]]. These complexes are often used in [[analytical chemistry]] to determine the concentration of metal ions in solutions.
-* [[Treatment planning]]: Doctors use imaging technologies to plan treatments, such as surgery or radiation therapy.
-* [[Research]]: Researchers use imaging technologies to study diseases and develop new treatments.
-==Future of Imaging Technologies==
+[[File:Ferric(ida)2_anion.svg|thumb|right|Structure of Ferric(ida)2 anion]]
-The future of imaging technologies is promising, with advances in technology leading to more accurate, faster, and less invasive imaging methods. These include the development of [[Artificial Intelligence]] (AI) and machine learning algorithms to analyze images, the use of nanotechnology in imaging, and the development of new imaging techniques.
+The ferric(IDA)<sub>2</sub> anion is a notable example of such a complex, where the IDA ligands coordinate with a central iron ion. This complex is used in various analytical applications due to its stability and solubility in aqueous solutions.
-[[Category:Medical technology]]
+==Synthesis==
-[[Category:Healthcare]]
-[[Category:Imaging]]
+Iminodiacetic acid can be synthesized through the reaction of [[chloroacetic acid]] with [[ammonia]], followed by hydrolysis. This process involves the formation of an intermediate [[iminoacetic acid]], which is then converted to the final product.
-{{Medicine-stub}}
-{{Technology-stub}}
+==Related Compounds==
-<gallery>
-File:Iminodiacetic_acid.svg|Iminodiacetic acid
+IDA is related to other [[amino acids]] and [[chelating agents]], such as [[ethylenediaminetetraacetic acid]] (EDTA) and [[nitrilotriacetic acid]] (NTA). These compounds share similar properties and applications, particularly in their ability to form stable complexes with metal ions.
-File:Ferric(ida)2_anion.svg|Ferric(ida)2 anion
-</gallery>
+==Related Pages==
-== Iminodiacetic_acid ==
+* [[Chelation therapy]]
-<gallery>
+* [[Radiopharmaceutical]]
-File:Iminodiacetic_acid.svg|Iminodiacetic acid structure
+* [[Hepatobiliary system]]
-File:Ferric(ida)2_anion.svg|Ferric(ida)2 anion structure
+* [[Gamma camera]]
-</gallery>
+{{Chemistry-stub}}
+[[Category:Carboxylic acids]]
+[[Category:Chelating agents]]
+[[Category:Radiopharmaceuticals]]