Joanna Kolmas scite author profile

Reconstructive surgery is presently struggling with the problem of infections located within implantation biomaterials. Of course, the best antibacterial protection is antibiotic therapy. However, oral antibiotic therapy is sometimes ineffective, while administering an antibiotic at the location of infection is often associated with an unfavourable ratio of dosage efficiency and toxic effect. Thus, the present study aims to find a new factor which may improve antibacterial activity while also presenting low toxicity to the human cells. Such factors are usually implemented along with the implant itself and may be an integral part of it. Many recent studies have focused on inorganic factors, such as metal nanoparticles, salts, and metal oxides. The advantages of inorganic factors include the ease with which they can be combined with ceramic and polymeric biomaterials. The following review focuses on hydroxyapatites substituted with ions with antibacterial properties. It considers materials that have already been applied in regenerative medicine (e.g., hydroxyapatites with silver ions) and those that are only at the preliminary stage of research and which could potentially be used in implantology or dentistry. We present methods for the synthesis of modified apatites and the antibacterial mechanisms of various ions as well as their antibacterial efficiency.

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Hydroxyapatite and Fluorapatite in Conservative Dentistry and Oral Implantology—A Review

Pajor

2019

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Calcium phosphate, due to its similarity to the inorganic fraction of mineralized tissues, has played a key role in many areas of medicine, in particular, regenerative medicine and orthopedics. It has also found application in conservative dentistry and dental surgery, in particular, as components of toothpaste and mouth rinse, coatings of dental implants, cements, and bone substitute materials for the restoration of cavities in maxillofacial surgery. In dental applications, the most important role is played by hydroxyapatite and fluorapatite, i.e., calcium phosphates characterized by the highest chemical stability and very low solubility. This paper presents the role of both apatites in dentistry and a review of recent achievements in the field of the application of these materials.

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Incorporation of carbonate and magnesium ions into synthetic hydroxyapatite: The effect on physicochemical properties

Kolmas

Jaklewicz

Zima

et al. 2011

Journal of Molecular Structure

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Nanocrystalline hydroxyapatite doped with selenium oxyanions: A new material for potential biomedical applications

Kolmas

Olędzka

Sobczak

et al. 2014

Materials Science and Engineering: C

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Concentration of hydroxyl groups in dental apatites: a solid-state 1H MAS NMR study using inverse 31P →1H cross-polarization

Kolmas

Kołodziejski

2007

Chem. Commun.

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Joanna Kolmas

Substituted Hydroxyapatites with Antibacterial Properties

Hydroxyapatite and Fluorapatite in Conservative Dentistry and Oral Implantology—A Review

Incorporation of carbonate and magnesium ions into synthetic hydroxyapatite: The effect on physicochemical properties

Nanocrystalline hydroxyapatite doped with selenium oxyanions: A new material for potential biomedical applications

Concentration of hydroxyl groups in dental apatites: a solid-state 1H MAS NMR study using inverse 31P →1H cross-polarization

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