Nanoformulation of core-shell type hydroxyapatite-coated gum acacia towards the biomedical applications of enhanced bioactivity and controlled drug delivery

Nanoformulation of core-shell type hydroxyapatite-coated gum acacia towards the biomedical applications of enhanced bioactivity and controlled drug delivery

In this work, nanospherical hydroxyapatite (HAP) was prepared that has combined properties of controlled drug delivery, biocompatibility, and antibacterial activity to have applications in the biomedical sector. The composite was formed by the sintering of HAP in the presence of Gum acacia (GA) as a...

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Main Authors: Padmanabhan, Varun Prasath, Balakrishnan, Subha, Kulandaivelu, Ravichandran, T. S. N., Sankara Narayanan, Lakshmipathy, Muthukrishnan, Sagadevan, Suresh, Mohammad, Faruq, Al-Lohedan, Hamad A., Paiman, Suriati, Won, Chun Oh
Format: Article
Language:English
Published: Royal Society of Chemistry 2020
Online Access:http://psasir.upm.edu.my/id/eprint/86879/1/Nanoformulation%20of%20core-shell.pdf
http://psasir.upm.edu.my/id/eprint/86879/
https://pubs.rsc.org/en/content/articlelanding/2020/nj/d0nj00668h
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spelling my.upm.eprints.868792021-12-30T07:19:56Z http://psasir.upm.edu.my/id/eprint/86879/ Nanoformulation of core-shell type hydroxyapatite-coated gum acacia towards the biomedical applications of enhanced bioactivity and controlled drug delivery Padmanabhan, Varun Prasath Balakrishnan, Subha Kulandaivelu, Ravichandran T. S. N., Sankara Narayanan Lakshmipathy, Muthukrishnan Sagadevan, Suresh Mohammad, Faruq Al-Lohedan, Hamad A. Paiman, Suriati Won, Chun Oh In this work, nanospherical hydroxyapatite (HAP) was prepared that has combined properties of controlled drug delivery, biocompatibility, and antibacterial activity to have applications in the biomedical sector. The composite was formed by the sintering of HAP in the presence of Gum acacia (GA) as an emulsifier (at 600 °C) and the composite's physical properties like nucleation, size, shape, crystallinity, and surface area were characterized using spectroscopic, electron microscopic and BET (Brunauer, Emmett and Teller) studies. Typical results of the FTIR study revealed the presence of characteristic phosphate and carbonate groups of HAP and XRD provided the mean crystallite size of GA-HAP in the range of 20–50 nm. The electron micrograph of GA-HAP showed nanorods with a smooth surface interspersed in GA with particle size <50 nm and a change of shape to spheres upon increasing the concentration of GA. The presence of C, O, Ca, and P confirmed through XPS was attributed to the major elemental composition of GA-HAP. Besides, BET studies indicated that the % of GA incorporated seemed to be greatly influenced by the porosity and surface area and this particular property determined the drug loading and leaching efficacy from the GA-HAP matrices when used for drug delivery applications. After bioactivity and leaching studies in the presence of SBF (simulated body fluid), we found that the increased concentration of GA (from 1% to 10%) caused a slowdown and sustained release/burst of the naringenin drug (43% over a 72 h period). Further, antibacterial studies using the clinical strains of bacteria proved that GA-HAP/N (drug-loaded GA-HAP) possessed excellent activity toward S. aureus and E. coli with inhibition zones of 26 mm and 32 mm, respectively. Besides, the biocompatibility and cytotoxicity of GA-HAP/N showed about 90% viability for McCoy cells with no sign of detachment after 72 h of treatment, while Saos-2 cells showed typical inhibition in growth associated with rounding off and detachment, signifying cytotoxicity. This selective toxicity induced by the drug-loaded GA-HAP might find application in drug delivery for precision medicine. Royal Society of Chemistry 2020-04-23 Article PeerReviewed text en http://psasir.upm.edu.my/id/eprint/86879/1/Nanoformulation%20of%20core-shell.pdf Padmanabhan, Varun Prasath and Balakrishnan, Subha and Kulandaivelu, Ravichandran and T. S. N., Sankara Narayanan and Lakshmipathy, Muthukrishnan and Sagadevan, Suresh and Mohammad, Faruq and Al-Lohedan, Hamad A. and Paiman, Suriati and Won, Chun Oh (2020) Nanoformulation of core-shell type hydroxyapatite-coated gum acacia towards the biomedical applications of enhanced bioactivity and controlled drug delivery. New Journal of Chemistry, 44 (17). 7175 - 7185. ISSN 1144-0546; ESSN: 1369-9261 https://pubs.rsc.org/en/content/articlelanding/2020/nj/d0nj00668h 10.1039/D0NJ00668H
institution Universiti Putra Malaysia
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country Malaysia
content_provider Universiti Putra Malaysia
content_source UPM Institutional Repository
url_provider http://psasir.upm.edu.my/
language English
description In this work, nanospherical hydroxyapatite (HAP) was prepared that has combined properties of controlled drug delivery, biocompatibility, and antibacterial activity to have applications in the biomedical sector. The composite was formed by the sintering of HAP in the presence of Gum acacia (GA) as an emulsifier (at 600 °C) and the composite's physical properties like nucleation, size, shape, crystallinity, and surface area were characterized using spectroscopic, electron microscopic and BET (Brunauer, Emmett and Teller) studies. Typical results of the FTIR study revealed the presence of characteristic phosphate and carbonate groups of HAP and XRD provided the mean crystallite size of GA-HAP in the range of 20–50 nm. The electron micrograph of GA-HAP showed nanorods with a smooth surface interspersed in GA with particle size <50 nm and a change of shape to spheres upon increasing the concentration of GA. The presence of C, O, Ca, and P confirmed through XPS was attributed to the major elemental composition of GA-HAP. Besides, BET studies indicated that the % of GA incorporated seemed to be greatly influenced by the porosity and surface area and this particular property determined the drug loading and leaching efficacy from the GA-HAP matrices when used for drug delivery applications. After bioactivity and leaching studies in the presence of SBF (simulated body fluid), we found that the increased concentration of GA (from 1% to 10%) caused a slowdown and sustained release/burst of the naringenin drug (43% over a 72 h period). Further, antibacterial studies using the clinical strains of bacteria proved that GA-HAP/N (drug-loaded GA-HAP) possessed excellent activity toward S. aureus and E. coli with inhibition zones of 26 mm and 32 mm, respectively. Besides, the biocompatibility and cytotoxicity of GA-HAP/N showed about 90% viability for McCoy cells with no sign of detachment after 72 h of treatment, while Saos-2 cells showed typical inhibition in growth associated with rounding off and detachment, signifying cytotoxicity. This selective toxicity induced by the drug-loaded GA-HAP might find application in drug delivery for precision medicine.
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author Padmanabhan, Varun Prasath
Balakrishnan, Subha
Kulandaivelu, Ravichandran
T. S. N., Sankara Narayanan
Lakshmipathy, Muthukrishnan
Sagadevan, Suresh
Mohammad, Faruq
Al-Lohedan, Hamad A.
Paiman, Suriati
Won, Chun Oh
spellingShingle Padmanabhan, Varun Prasath
Balakrishnan, Subha
Kulandaivelu, Ravichandran
T. S. N., Sankara Narayanan
Lakshmipathy, Muthukrishnan
Sagadevan, Suresh
Mohammad, Faruq
Al-Lohedan, Hamad A.
Paiman, Suriati
Won, Chun Oh
Nanoformulation of core-shell type hydroxyapatite-coated gum acacia towards the biomedical applications of enhanced bioactivity and controlled drug delivery
author_facet Padmanabhan, Varun Prasath
Balakrishnan, Subha
Kulandaivelu, Ravichandran
T. S. N., Sankara Narayanan
Lakshmipathy, Muthukrishnan
Sagadevan, Suresh
Mohammad, Faruq
Al-Lohedan, Hamad A.
Paiman, Suriati
Won, Chun Oh
author_sort Padmanabhan, Varun Prasath
title Nanoformulation of core-shell type hydroxyapatite-coated gum acacia towards the biomedical applications of enhanced bioactivity and controlled drug delivery
title_short Nanoformulation of core-shell type hydroxyapatite-coated gum acacia towards the biomedical applications of enhanced bioactivity and controlled drug delivery
title_full Nanoformulation of core-shell type hydroxyapatite-coated gum acacia towards the biomedical applications of enhanced bioactivity and controlled drug delivery
title_fullStr Nanoformulation of core-shell type hydroxyapatite-coated gum acacia towards the biomedical applications of enhanced bioactivity and controlled drug delivery
title_full_unstemmed Nanoformulation of core-shell type hydroxyapatite-coated gum acacia towards the biomedical applications of enhanced bioactivity and controlled drug delivery
title_sort nanoformulation of core-shell type hydroxyapatite-coated gum acacia towards the biomedical applications of enhanced bioactivity and controlled drug delivery
publisher Royal Society of Chemistry
publishDate 2020
url http://psasir.upm.edu.my/id/eprint/86879/1/Nanoformulation%20of%20core-shell.pdf
http://psasir.upm.edu.my/id/eprint/86879/
https://pubs.rsc.org/en/content/articlelanding/2020/nj/d0nj00668h
_version_ 1724075473453973504

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