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2. Sensitivity analysis and global stability of epidemic between Thais and tourists for Covid -19.

Author

Sungchasit R, Tang IM, and Pongsumpun P

Subjects
Humans, Thailand epidemiology, Models, Theoretical, Travel, Quarantine, Tourism, Epidemics, COVID-19 epidemiology, COVID-19 transmission, COVID-19 virology, Basic Reproduction Number, SARS-CoV-2 isolation & purification
Abstract

This study employs a mathematical model to analyze and forecast the severe outbreak of SARS-CoV-2 (Severe Acute Respiratory Syndrome Coronavirus 2), focusing on the socio-economic ramifications within the Thai population and among foreign tourists. Specifically, the model examines the impact of the disease on various population groups, including susceptible (S), exposed (E), infected (I), quarantined (Q), and recovered (R) individuals among tourists visiting the country. The stability theory of differential equations is utilized to validate the mathematical model. This involves assessing the stability of both the disease-free equilibrium and the endemic equilibrium using the basic reproduction number. Emphasis is placed on local stability, the positivity of solutions, and the invariant regions of solutions. Additionally, a sensitivity analysis of the model is conducted. The computation of the basic reproduction number (R0) reveals that the disease-free equilibrium is locally asymptotically stable when R0 is less than 1, whereas the endemic equilibrium is locally asymptotically stable when R0 exceeds 1. Notably, both equilibriums are globally asymptotically stable under the same conditions. Through numerical simulations, the study concludes that the outcome of COVID-19 is most sensitive to reductions in transmission rates. Furthermore, the sensitivity of the model to all parameters is thoroughly considered, informing strategies for disease control through various intervention measures., (© 2024. The Author(s).)

Published
2024
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4. Copper Zinc Sulfide (CuZnS) Quantum Dot-Decorated (NiCo)-S/Conductive Carbon Matrix as the Cathode for Li-S Batteries.

Author

Artchuea T, Srikhaow A, Sriprachuabwong C, Tuantranont A, Tang IM, and Pon-On W

Abstract

Sulfur composites consisting of electrochemical reactive catalysts/conductive materials are investigated for use in lithium-sulfur (Li-S) batteries (LSBs). In this paper, we report the synthesis, physicochemical and electrochemical properties of CuZnS quantum dots (CZSQDs) decorated with nickel-cobalt-sulfide ((NiCo)-S)) mixed with reduced graphene oxide (rGO)/oxidized carbon nanotube (oxdCNT) (rGO/oxdCNT) ((NiCo)-S@rGO/oxdCNT) composites. These composites are for the purpose of being the sulfur host cathode in Li-S batteries. The as-prepared composites showed a porous structure with the CZSQDs being uniformly found on the surface of the rGO/oxdCNT, which had a specific surface area of 26.54 m 2 /g. Electrochemical studies indicated that the (NiCo)-S@rGO/oxdCNT cells forming the cathode exhibited a maximum capacity of 1154.96 mAhg -1 with the initial discharge at 0.1 C. The smaller size of the CZSQDs (~10 nm) had a positive effect on the CZSQDs@(NiCo)-S@rGO/oxdCNT composites in that they had a higher initial discharge capacity of 1344.18 mAhg -1 at 0.1 C with the Coulombic efficiency being maintained at almost 97.62% during cycling. This latter property is approximately 1.16 times more compared to the absence of the Cu-Zn-S QD loading. This study shows that the CuZnS quantum dots decorated with a (NiCo)-S@rGO/oxdCNT supporting matrix-based sulfur cathode have the potential to improve the performance of future lithium-sulfur batteries.

Published
2022
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5. Fabrication of biocompatible magneto-fluorescence nanoparticles as a platform for fluorescent sensor and magnetic hyperthermia applications.

Author

Sichamnan A, Yong N, Sillapaprayoon S, Pimtong W, Tang IM, Maneeprakorn W, and Pon-On W

Abstract

Multifunctional nanoparticles with special magnetic and optical properties have been attracting a great deal of attention due to their important applications in the bioanalytical and biomedical fields. In this study, we report the fabrication of biocompatible magneto-fluorescence nanoparticles consisting of carbon dots (CDots) and silica-coated cobalt-manganese nanoferrites (Co 0.5 Mn 0.5 Fe 2 O 4 ) (CoMnF@Si@CDots) (MagSiCDots) by a facile hydrothermal method. The as-prepared MagSiCDots have a particle size of 100-120 nm and show a negative zeta potential of -35.50 mV at a neutral pH. The fluorescence spectrum of the MagSiCDots nanoparticles consists of sharp excitation at 365 nm and broad blue light emission with a maximum wavelength of 442.5 nm and the MagSiCDots exhibit superparamagnetic behaviour with a saturation magnetization of 11.6 emu g -1 . The potential of MagSiCDots as a fluorescent sensor and be used for magnetic hyperthermia applications. It is seen that the fluorescent intensity of a colloidal solution (a hydrogen sulfide (H 2 S) solution containing MagSiCDots nanoparticles) has a linear relationship with the H 2 S concentration range of 0.2-2 μM. The limit of detection (LOD) of H 2 S by our MagSiCDots particles is 0.26 μM and they remain stable for at least 90 min. To test the suitability of the MagSiCDots nanoparticles for use in hyperthermia application, induction heating using an AMF was done. It was observed that these nanoparticles had a specific absorption rate (SAR) of 28.25 W g -1 . The in vitro and in vivo cytotoxicity of MagSiCDots were tested on HeLa cells lines. The results show a cell viability of about 85% when exposed to 100 μg mL -1 concentration of the particles. The in vivo cytotoxicity using zebrafish assay also confirmed the non-toxicity and biocompatibility of the nanoparticles to living cells. The reported data demonstrate that by combining CoMnF@Si and fluorescent CDots into a single system, not only nontoxic multifunctional nanomaterials but also multimodal nanoparticles for several applications, such as hazard gas detection and acting as a biocompatible heat source for therapeutic treatment of cancer, are provided., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published
2021
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6. Hyperthermia evaluation and drug/protein-controlled release using alternating magnetic field stimuli-responsive Mn-Zn ferrite composite particles.

Author

Montha W, Maneeprakorn W, Tang IM, and Pon-On W

Abstract

Drug delivery particles in which the release of biomolecules is triggered by a magnetic simulant have attracted much attention and may have great potential in the fields of cancer therapy and tissue regenerative medicine. In this study, we have prepared magnetic Mn-Zn ferrite ((Mn,Zn)Fe 2 O 4 ) (MZF) nanoparticles coated with chitosan- g-N -isopropylacrylamide (Chi- g -NIPAAm) polymer (MZF@Chi- g -NIPAAm) to deliver the anticancer drug (Doxorubicin, DOX) and bioactive proteins (Bone morphogenic protein (BMP-2)-immobilized bovine serum albumin (BSA)) (P//MZF@Chi- g -NIPAAm) and be used as chemo-hyperthermia and vector delivering biomolecules. For these purposes, we first show that the as-prepared MZF@Chi- g -NIPAAm particles exhibit super paramagnetic behavior and under certain conditions, they can act as a heat source with a specific absorption rate (SAR) of 34.88 W g -1 . Under acidic conditions and in the presence of AMF, the fast release of DOX was seen at around 58.9% within 20 min. In vitro evaluations indicated that concurrent thermo-chemotherapy treatment by DOX-MZF@Chi- g -NIPAAm using AMF had a better antitumor effect, compared with those using either DOX or DOX-MZF@Chi- g -NIPAAm without AMF (89.02% of cells were killed as compared to 71.82% without AMF exposure). Up to 28.18% of the BSA (used as the model protein to determine the controlled release) is released from the P//MZF@Chi- g -NIPAAm particles under AMF exposure for 1 h (only 17.31% was released without AMF). These results indicated that MZF@Chi- g -NIPAAm particles could be used to achieve hyperthermia at a precise location, effectively enhancing the chemotherapy treatments, and have a promising future as drug or bioactive delivering molecules for cancer treatment and cartilage or bone regenerative applications., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published
2020
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7. Salivary Creatinine Detection Using a Cu(I)/Cu(II) Catalyst Layer of a Supercapacitive Hybrid Sensor: A Wireless IoT Device To Monitor Kidney Diseases for Remote Medical Mobility.

Author

Kalasin S, Sangnuang P, Khownarumit P, Tang IM, and Surareungchai W

Subjects
Catalysis, Computer Simulation, Creatinine, Electrodes, Humans, Internet of Things
Abstract

The stress-free electrochemical-based sensor equipped with the Internet of Things (IoT) device for salivary creatinine determination was fabricated for point-of-care (POC) diagnosis of advanced kidney disorders. Beneficial and real-time data readout for preventive diagnosis and clinical evaluation of chronic kidney diseases (CKD) at different stages and renal dysfunction can be acquired by noninvasive monitoring of the creatinine amounts in saliva. The direct determination and real-time response of salivary creatinine can be attained using the supercapacitor-based sensor of cuprous oxide nanoparticles entrapped by the synergistically cross-linked poly(acrylic acid) (PAA) gel-Cu 2+ and Nafion perfluorinated membrane fabricated on a screen-printed carbon electrode (SPCE). Here, we demonstrated that the degree of renal illness could be evaluated using salivary creatinine detection via a catalytic mechanism as Cu 2+ ions bound irreversibly with C═N functional groups of creatinine. Besides, the computer simulation was performed to study the interaction between 5 functional groups of creatinine toward acrylic gel-Cu 2+. The linear increment between the obtained anodic currents and creatinine concentrations varying from 1 to 2000 μM was accomplished with a selectivity efficiency of 97.2%. Nyquist plots obtained by electrochemical impedance spectroscopy (EIS) validated that the increment of impedance changes strongly dependent on the amount of detected creatinine both in artificial and in human saliva. The porosity features were observed in this interconnected nanocomposite and correlated with Nafion doping. Successively, the friendly portable device was invented and integrated saliva sampling with miniaturized, low-cost IoT electronics of world-location mapping, representing the first remote medical sensor focusing on salivary creatinine sensing.

Published
2020
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8. Effect of zirconia-mullite incorporated biphasic calcium phosphate/biopolymer composite scaffolds for bone tissue engineering.

Author

Rittidach T, Tithito T, Suntornsaratoon P, Charoenphandhu N, Thongbunchoo J, Krishnamra N, Tang IM, and Pon-On W

Subjects
Aluminum Silicates chemistry, Animals, Ceramics chemistry, Rats, Bone and Bones cytology, Calcium Phosphates chemistry, Osteoblasts cytology, Polymers chemistry, Tissue Engineering methods, Tissue Scaffolds chemistry, Zirconium chemistry
Abstract

New bioactive scaffolds with improved mechanical properties, biocompatibility and providing structural support for bone tissue are being developed for use in the treatment of bone defects. In this study, we have synthesized bioactive scaffolds consisting of biphasic calcium phosphate (BCP) and zirconia-Mullite (2ZrO 2 ·[3Al 2 O 3 ·2 SiO 2 ] (ZAS)) (BCPZAS) combined with polymers matrix of polycaprolactone (PCL)-alginate (Alg)-chitosan (Chi) (Chi/Alg-PCL) (BCPZAS@Chi/Alg-PCL). The composite material scaffolds were prepared by a blending technique. The microstructure, mechanical, bioactivity and in vitro biological properties with different ratios of BCP to ZAS of 1:0, 3:1, 1:1, 1:3 and 0:1 wt% in polymer matrix were analyzed. Microstructure analysis showed a successful incorporation of the BCPZAS particles with an even distribution of them within the polymer matrix. The mechanical properties were found to gradually decrease with increasing the ratio of ZAS particles in the scaffolds. The highest compressive strength was 42.96 ± 1.01MPa for the 3:1 wt% BCP to ZAS mixing. Bioactivity test, the BCPZAS@Chi/Alg-PCL composite could induce apatite formation in simulate body fluid (SBF). In-vitro experiment using UMR-106 osteoblast-like cells on BCPZAS@Chi/Alg-PCL composite scaffold showed that there is cell attachment to the scaffolds with proliferation. These experimental results demonstrate that the BCPZAS@Chi/Alg-PCL composite especially for the BCP:ZAS at 3:1 wt% could be utilized as a scaffold for bone tissue engineering applications.

Published
2020
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9. Effect of silver doping on antidiabetic and antioxidant potential of ZnO nanorods.

Author

Robkhob P, Ghosh S, Bellare J, Jamdade D, Tang IM, and Thongmee S

Subjects
Amylases antagonists & inhibitors, Amylases metabolism, Animals, Biphenyl Compounds chemistry, Enzyme Inhibitors pharmacology, Free Radical Scavengers metabolism, Glycoside Hydrolase Inhibitors pharmacology, Intestines enzymology, Mice, Nanotubes ultrastructure, Nitric Oxide metabolism, Pancreas enzymology, Picrates chemistry, Superoxides metabolism, Swine, alpha-Glucosidases metabolism, Antioxidants pharmacology, Hypoglycemic Agents pharmacology, Nanotubes chemistry, Silver pharmacology, Zinc Oxide pharmacology
Abstract

Background: Increasing resistance to available drugs and their associated side-effects have drawn wide attention towards designing alternative therapeutic strategies for control of hyperglycemia and oxidative stress. The roles of the sizes and shapes of the nanomaterials used in the treatment and management of Type 2 Diabetes Mellitus (T2DM) in preventing chronic hyperglycaemia and oxidative stress are investigated. We report specifically on the effects of doping silver (Ag) into the ZnO nanorods (ZnO:Ag NR's) as a rational drug designing strategy., Methods: Inhibition of porcine pancreatic α-amylase, murine pancreatic amylase, α-glucosidase, murine intestinal glucosidase and amyloglucosidase are checked for evaluation of antidiabetic potential. In addition, the radical scavenging activities of ZnO:Ag NR's against nitric oxide, DDPH and superoxide radicals are evaluated., Results: Quantitative radical scavenging and metabolic enzyme inhibition activities of ZnO:Ag NR's at a concentration of 100 μg/mL were found to depend on the amount of Ag doped in up to a threshold level (3-4 %). Circular dichroism analysis revealed that the interaction of the NR's with the enzymes altered their secondary conformation. This alteration is the underlying mechanism for the potent enzyme inhibition., Conclusions: Enhanced inhibition of enzymes and scavenging of free radicals primarily responsible for reactive oxygen species (ROS) mediated damage, provide a strong scientific rationale for considering ZnO:Ag NR's as a candidate nanomedicine for controlling postprandial hyperglycaemia and the associated oxidative stress., Competing Interests: Declaration of Competing Interest The authors declare that there are no conflicts of interest regarding the publication of this paper., (Copyright © 2019 Elsevier GmbH. All rights reserved.)

Published
2020
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10. Evidence of Cu(I) Coupling with Creatinine Using Cuprous Nanoparticles Encapsulated with Polyacrylic Acid Gel-Cu(II) in Facilitating the Determination of Advanced Kidney Dysfunctions.

Author

Kalasin S, Sangnuang P, Khownarumit P, Tang IM, and Surareungchai W

Subjects
Acrylic Resins, Creatinine, Humans, Kidney, Biosensing Techniques, Nanoparticles
Abstract

An electrochemical-based sensor created for creatinine detection has been developed for early point-of-care (POC) of diagnosis of renal illnesses. Useful information for the preventive diagnosis and clinical treatments of congenital disorders of creatinine mechanism, advanced liver and kidney diseases, and renal dysfunction can be obtained by the noninvasive evaluation of the creatinine levels in urine. The direct detection of creatinine can be achieved using the modified nanocomposite of cuprous nanoparticles encapsulated by polyacrylic acid (PAA) gel-Cu(II) fabricating on a screen-printed carbon electrode. Here, we report that the degree of kidney dysfunction failure can be determined by an amount of Cu(I) bound with the creatinine through the adsorptive mechanism on the modified electrode. Under cyclic voltammetry scans, the amount of creatinine was measured from the adsorptive signals of the redox peak current identifying the Cu(I)-creatinine complex with a natural logarithm of the creatinine concentration ranging from 200 μM to 100 mM. For this detection range, the theoretical calculation was postulated to describe experimental behaviors of the adsorptive mechanism as creatinine diffused to adsorb on the composite-modified electrode to reduce oxidized copper nanoparticles and transformed to Cu(II)-creatinine complexes. Interestingly, there was evidence that anodic peak potentials had been reduced in magnitudes and shifted negatively by natural logarithm during the formation of the Cu(I)-creatinine complex. For practical usage in POC technology, the creatinine detection in interference was carried out using differential pulse voltammetry to solely determine faradaic currents of creatinine-copper formation. With the interference of urea, glucose, ascorbic acid, glycine, and uric acid in artificial urine, the sensor showed promising results of the interference-free determination with 99.4% sensitivity efficiency, whereas for human urine interference, this sensor showed 85% sensitivity efficiency in detecting creatinine. This shows that this composite-modified sensor (PAA gel-Cu(II)/Cu 2 O NPs) has great potential for use in the next-generation devices for creatinine sensing to determine the progression in kidney dysfunctions.

Published
2020
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11. Investigation of magnetic silica with thermoresponsive chitosan coating for drug controlled release and magnetic hyperthermia application.

Author

Pon-On W, Tithito T, Maneeprakorn W, Phenrat T, and Tang IM

Subjects
Acrylamides chemistry, Doxorubicin administration & dosage, Drug Liberation, HeLa Cells, Humans, Hydrogen-Ion Concentration, Magnetic Fields, Magnetics, Nanoparticles administration & dosage, Nanoparticles toxicity, Silicon Dioxide chemistry, Spectroscopy, Fourier Transform Infrared, Temperature, Chitosan chemistry, Delayed-Action Preparations chemistry, Doxorubicin pharmacokinetics, Drug Delivery Systems methods, Nanoparticles chemistry
Abstract

In this study, a drug delivery system for chemo-hyperthermia applications is proposed and fabricated. The delivery system consists of magnetic-silica (MagSi) particles being encapsulated within a pH/thermo-responsive chitosan‑g‑N‑isopropylacrylamide (Chi-g-NIPAAm) polymer matrix. The as-prepared MagSi@Chi-g-NIPAAm particles exhibit superparamagnetic behavior with a saturation magnetization (Ms) of 20.14 emu/g. In addition, the MagSi@Chi-g-NIPAAm particles can act as a heat source when subject to an alternating magnetic field (AMF) and have a specific absorptions rate (SAR) of 8.36 Wg -1 . The release of the drug DOX from the synthesized particles is sensitive to both the pH and temperature of its environment. We have compared the drug release when the solution is externally heated up and when it is heated up by the AMF (internal heating). For external heating (when the pH/temperature is 4.0/45 °C), 83.30 ± 2.92% of the DOX were released within the first 5 h. The release of the DOX by the particles in pH 7.4 (temperature of 37 °C) was much slower (around 25.87 ± 1.30% after 25 h). The release of the DOX was much higher (under an acidic condition pH = 4.0) around 57.13 ± 2.36% within 1 h in the presence of AMF heating. The in vitro cytotoxicity tests of the of DOX-loaded MagSi@Chi-g-NIPAAm particles towards HeLa cancer cells. In general, the toxicities of the drug DOX as part of a MagSi@Chi-g-NIPAAm particles were less than those of the standalone DOX until the concentration of DOX-loaded particles reached 250 μg/mL, after which the toxicity of DOX in both forms were the same., (Copyright © 2018. Published by Elsevier B.V.)

Published
2019
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12. Fabrication of biocomposite scaffolds made with modified hydroxyapatite inclusion of chitosan-grafted-poly(methyl methacrylate) for bone tissue engineering.

Author

Tithito T, Suntornsaratoon P, Charoenphandhu N, Thongbunchoo J, Krishnamra N, Tang IM, and Pon-On W

Subjects
Biocompatible Materials chemistry, Cell Proliferation, Cell Survival, Compressive Strength, Doxorubicin chemistry, Drug Delivery Systems, Durapatite chemistry, Humans, Ions chemistry, Microscopy, Electron, Scanning, Osteoblasts metabolism, Polymers chemistry, Porosity, Pressure, Spectroscopy, Fourier Transform Infrared, Bone and Bones physiology, Chitosan chemistry, Hydroxyapatites chemistry, Polymethyl Methacrylate chemistry, Tissue Engineering methods, Tissue Scaffolds chemistry
Abstract

In the present study, composite scaffolds of chitosan-graft-poly(methyl methacrylate) (Chi-g-PMMA) and mineral ions-loaded hydroxyapatite (mHA) (obtained by the hydrothermal treatment of hydroxyapatite (HA) in a simulated body fluid (SBF) solution (mHA@Chi-g-PMMA)) were prepared by the blending method. The physical properties, bioactivity, biological properties and their capabilities for sustained drug and protein release were studied. Physicochemical analysis showed a successful incorporation of the mineral ions in the HA particles and a good distribution of the mHA within the Chi-g-PMMA polymer matrix. The compressive strength and the Young's modulus were 15.760 ± 0.718 and 658.452 ± 17.020 MPa, respectively. In bioactivity studies, more apatite formation on the surface were seen after immersion in the SBF solution. In vitro growth experiments using UMR-106 osteoblast-like cells on the mHA@Chi-g-PMMA scaffold case showed that the attachment, viability and proliferation of the cells on the scaffolds had improved after 7 d of immersion. The in vitro release of two compounds (the cancer drug, doxorubicin (DOX)) and bovine serum albumin (BSA)), which had been attached to separate mHA@Chi-g-PMMA scaffolds, were studied to determine their suitability as drug delivery vehicles. It was found that the sustained release of DOX was 73.95% and of BSA was 57.27% after 25 h of incubation. These experimental results demonstrated that the mHA@Chi-g-PMMA composite can be utilized as a scaffold for bone cells ingrowth and also be used for drug delivery during the bone repairing.

Published
2019
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13. SIR Model for Dengue Disease with Effect of Dengue Vaccination.

Author

Chanprasopchai P, Tang IM, and Pongsumpun P

Subjects
Animals, Dengue epidemiology, Humans, Mosquito Vectors, Thailand epidemiology, Vaccination, Dengue prevention & control, Dengue Vaccines, Models, Theoretical
Abstract

The dengue disease is caused by dengue virus, and there is no specific treatment. The medical care by experienced physicians and nurses will save life and will lower the mortality rate. A dengue vaccine to control the disease is available in Thailand since late 2016. A mathematical model would be an important way to analyze the effects of the vaccination on the transmission of the disease. We have formulated an SIR (susceptible-infected-recovered) model of the transmission of the disease which includes the effect of vaccination and used standard dynamical modelling methods to analyze the effects. The equilibrium states and their stabilities are investigated. The trajectories of the numerical solutions plotted into the 2D planes and 3D spaces are presented. The main contribution is determining the role of dengue vaccination in the model. From the analysis, we find that there is a significant reduction in the total hospitalization time needed to treat the illness.

Published
2018
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14. A screen-printed carbon electrode modified with gold nanoparticles, poly(3,4-ethylenedioxythiophene), poly(styrene sulfonate) and a molecular imprint for voltammetric determination of nitrofurantoin.

Author

Dechtrirat D, Yingyuad P, Prajongtat P, Chuenchom L, Sriprachuabwong C, Tuantranont A, and Tang IM

Abstract

A molecularly imprinted polymer (MIP) and a nanocomposite prepared from gold nanoparticles (AuNP) and poly(3,4-ethylenedioxythiophene)/poly(styrene sulfonate) (PEDOT:PSS) were deposited on a screen-printed carbon electrode (SPCE). The nanocomposite was prepared by one-pot simultaneous in-situ formation of AuNPs and PEDOT:PSS and was then inkjet-coated onto the SPCE. The MIP film was subsequently placed on the modified SPCE by co-electrodeposition of o-phenylenediamine and resorcinol in the presence of the antibiotic nitrofurantoin (NFT). Using differential pulse voltammetry (DPV), response at the potential of ~ 0.1 V (vs. Ag/AgCl) is linear in 1 nM to 1000 nM NFT concentration range, with a remarkably low detection limit (at S/N = 3) of 0.1 nM. This is two orders of magnitude lower than that of the control MIP sensor without the nanocomposite interlayer, thus showing the beneficial effect of AuNP-PEDOT:PSS. The electrode is highly reproducible (relative standard deviation 3.1% for n = 6) and selective over structurally related molecules. It can be re-used for at least ten times and was found to be stable for at least 45 days. It was successfully applied to the determination of NFT in (spiked) feed matrices and gave good recoveries. Graphical abstract Schematic representation of a voltammetric sensor for the determination of nitrofurantoin. The sensor is based on a screen-printed carbon electrode (SPCE) modified with an inkjet-printed gold nanoparticles-poly(3,4-ethylenedioxythiophene):poly(styrene sulfonate) nanocomposite and a molecularly imprinted polymer.

Published
2018
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15. The Study of Metal Sulfide as Efficient Counter Electrodes on the Performances of CdS/CdSe/ZnS-co-sensitized Hierarchical TiO 2 Sphere Quantum Dot Solar Cells.

Author

Buatong N, Tang IM, and Pon-On W

Abstract

The effects of using different counter electrode metal sulfides on the performances of solar cells made with CdS/CdSe/ZnS quantum dots co-sensitized onto hierarchical TiO 2 spheres (HTSs) used as photo-electrode are reported. The HTS in the QDSSCs is composed of an assembly of numerous TiO 2 spheres made by the solvolthermal method. The photoelectrical performance of HTS/CdS/CdSe/ZnS coupled to CuS or to Cu 2 ZnSn(S 1 - x Se x ) 4 with x = 0, 0.5, or 1.0 counter electrodes (CEs) were compared to those coupled to Pt CE. The HTS/CdS/CdSe/ZnS coupled to the CuS CE showed the highest power conversion efficiency η (of 3.46%). The efficiencies η of 1.88, 2.64, and 2.06% were obtained for CZTS (x = 0), CZTS 0.5 Se 0.5 (x = 0.5), and CZTSe (x = 1), respectively. These are significantly higher than those using a standard Pt CE (η = 0.37%). These higher efficiencies are the results of the higher electrocatalytic activities when the metal sulfide CEs are used.

Published
2017
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16. Physico-chemical and in vitro cellular properties of different calcium phosphate-bioactive glass composite chitosan-collagen (CaP@ChiCol) for bone scaffolds.

Author

Mooyen S, Charoenphandhu N, Teerapornpuntakit J, Thongbunchoo J, Suntornsaratoon P, Krishnamra N, Tang IM, and Pon-On W

Subjects
Animals, Bone and Bones cytology, Cell Line, Osteoblasts cytology, Polyesters chemistry, Polyesters pharmacology, Porosity, Rats, Bone and Bones metabolism, Chitosan chemistry, Chitosan pharmacology, Collagen chemistry, Collagen pharmacology, Durapatite chemistry, Durapatite pharmacology, Glass chemistry, Materials Testing, Osteoblasts metabolism, Tissue Scaffolds chemistry
Abstract

In the present study, scaffolds for bone tissue engineering applications were made by immersing the inorganic phases of three different calcium phosphate (CaPs) (hydroxyapatite (HA), tricalcium phosphate (TCP), and biphasic calcium phosphate (BCP)) mixing bioactive glass (15Ca:80Si:5P) (BG) with polycaprolactone (PCL) as a binder in an organic phase of chitosan/collagen (ChiCol) matrix (CaPBG@ChiCol). Porous scaffolds were obtained by freeze drying the combinations. The mechanical properties and in vitro growth of rat osteoblast-like UMR-106 cells were investigated. The investigation indicated that the compressive strength was controlled by the types of CaP. The highest compressive modulus of the composites was 479.77 MPa (23.84 MPa for compressive strength) which is for the BCPBG@ChiCol composite. Compressive modulus of 459.01 and 435.95 MPa with compressive strength of 22.73 and 17.89 MPa were observed for the HABG@ChiCol and TCPBG@ChiCol composites, respectively. In vitro cell availability and proliferation tests confirmed the osteoblast attachment and growth on the CaPBG@ChiCol surface. Comparing the scaffolds, cells grown on the BCPBG based composite showed the higher cell density. To test its bioactivity, BCPBG@ChiCol was chosen for MTT and ALP assays on UMR-106 cells. The results indicated that the UMR-106 cells were viable and had higher ALP activity as the culturing times were increased. Therefore, ChiCol-fabricated BCPBG scaffold shows promise for bone regeneration. © 2016 Wiley Periodicals, Inc. J Biomed Mater Res Part B: Appl Biomater, 105B: 1758-1766, 2017., (© 2016 Wiley Periodicals, Inc.)

Published
2017
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17. Evaluation of bioactive glass incorporated poly(caprolactone)-poly(vinyl alcohol) matrix and the effect of BMP-2 modification.

Author

Keothongkham K, Charoenphandhu N, Thongbunchoo J, Suntornsaratoon P, Krishnamra N, Tang IM, and Pon-On W

Subjects
Animals, Biocompatible Materials chemistry, Bone Morphogenetic Protein 2 chemistry, Cell Adhesion drug effects, Cell Line, Tumor, Cell Proliferation drug effects, Cell Survival drug effects, Ceramics pharmacology, Elastic Modulus, Humans, Microscopy, Electron, Scanning, Osteogenesis drug effects, Porosity, Rats, Spectroscopy, Fourier Transform Infrared, Bone Morphogenetic Protein 2 metabolism, Ceramics chemistry, Polyesters chemistry, Polyvinyl Alcohol chemistry
Abstract

Composite materials having mechanical and biological properties similar to those of human bones are needed for bone regeneration and repair. In the present study, composites were made by incorporating bioactive glass (BG) into polycaprolactone (PCL)-polyvinyl alcohol (PVA) (PCLPVA) matrix. Composites with different BG contents of 10, 25 and 50wt% were fabricated by an in-situ blending method. Physicochemical properties measurements found that the composite with 50wt% BG in the PCLPVA organic matrix exhibited the best mechanical properties (compressive strength and compressive young's modulus up to 32.26MPa and 530.91MPa, respectively). We investigated the effects of the BG content on cell adhesion, proliferation and osteogenic activity of UMR-106 cells grown on the scaffolds using in vitro cell culture assay. The composite scaffolds having 25wt% BG showed a significant increase in their cell adhesion capability and a faster cell proliferation. They also exhibited cell adhesion and spreading morphology after only 5days of culturing. For these reasons, we chose to attach the bone morphogenetic protein (BMP)-2 to this composite. The resulting composite (labeled BMP-2-loaded PCLPVABG25) showed significant improvement in the UMR-106 cells adhesion, in the enhancement in osteogenic differentiation and osteoinductivity of this composite., (Copyright © 2017. Published by Elsevier B.V.)

Published
2017
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18. Effect of Rainfall for the Dynamical Transmission Model of the Dengue Disease in Thailand.

Author

Chanprasopchai P, Pongsumpun P, and Tang IM

Subjects
Dengue Virus, Humans, Thailand, Dengue transmission, Models, Biological, Rain
Abstract

The SEIR (Susceptible-Exposed-Infected-Recovered) model is used to describe the transmission of dengue virus. The main contribution is determining the role of the rainfall in Thailand in the model. The transmission of dengue disease is assumed to depend on the nature of the rainfall in Thailand. We analyze the dynamic transmission of dengue disease. The stability of the solution of the model is analyzed. It is investigated by using the Routh-Hurwitz criteria. We find two equilibrium states: a disease-free state and an endemic equilibrium state. The basic reproductive number ( R 0 ) is obtained, which indicates the stability of each equilibrium state. Numerical results taking into account the rainfall are obtained and they are seen to correspond to the analytical results.

Published
2017
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19. Blue photoluminescent carbon nanodots from limeade.

Author

Suvarnaphaet P, Tiwary CS, Wetcharungsri J, Porntheeraphat S, Hoonsawat R, Ajayan PM, Tang IM, and Asanithi P

Subjects
Cell Shape, Ions, Iron analysis, Optical Phenomena, Saccharomyces cerevisiae cytology, Solutions, Spectrophotometry, Ultraviolet, Spectrum Analysis, Raman, Beverages, Carbon chemistry, Citrus chemistry, Luminescent Measurements, Quantum Dots chemistry
Abstract

Carbon-based photoluminescent nanodot has currently been one of the promising materials for various applications. The remaining challenges are the carbon sources and the simple synthetic processes that enhance the quantum yield, photostability and biocompatibility of the nanodots. In this work, the synthesis of blue photoluminescent carbon nanodots from limeade via a single-step hydrothermal carbonization process is presented. Lime carbon nanodot (L-CnD), whose the quantum yield exceeding 50% for the 490nm emission in gram-scale amounts, has the structure of graphene core functionalized with the oxygen functional groups. The micron-sized flake of the as-prepared L-CnD powder exhibits multicolor emission depending on an excitation wavelength. The L-CnDs are demonstrated for rapidly ferric-ion (Fe(3+)) detection in water compared to Fe(2+), Cu(2+), Co(2+), Zn(2+), Mn(2+) and Ni(2+) ions. The photoluminescence quenching of L-CnD solution under UV light is used to distinguish the Fe(3+) ions from others by naked eyes as low concentration as 100μM. Additionally, L-CnDs provide exceptional photostability and biocompatibility for imaging yeast cell morphology. Changes in morphology of living yeast cells, i.e. cell shape variation, and budding, can be observed in a minute-period until more than an hour without the photoluminescent intensity loss., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published
2016
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20. Hydroxyapatite from fish scale for potential use as bone scaffold or regenerative material.

Author

Pon-On W, Suntornsaratoon P, Charoenphandhu N, Thongbunchoo J, Krishnamra N, and Tang IM

Subjects
Animal Fins chemistry, Animal Fins metabolism, Animals, Biocompatible Materials chemistry, Biocompatible Materials pharmacology, Bone Substitutes chemistry, Bone Substitutes pharmacology, Cell Adhesion drug effects, Cell Differentiation drug effects, Cell Line, Durapatite chemical synthesis, Materials Testing, Microscopy, Electron, Scanning, Microscopy, Electron, Transmission, Nanoparticles chemistry, Nanoparticles ultrastructure, Osteoblasts cytology, Osteogenesis drug effects, Particle Size, Rats, Regenerative Medicine, Tissue Engineering, X-Ray Diffraction, Durapatite chemistry, Fishes metabolism
Abstract

The present paper studies the physico-chemical, bioactivity and biological properties of hydroxyapatite (HA) which is derived from fish scale (FS) (FSHA) and compares them with those of synthesized HA (sHA) obtained by co-precipitation from chemical solution as a standard. The analysis shows that the FSHA is composed of flat-plate nanocrystal with a narrow width size of about 15-20 nm and having a range of 100 nm in length and that the calcium phosphate ratio (Ca/P) is 2.01 (Ca-rich CaP). Whereas, synthesized HA consists of sub-micron HA particle having a Ca/P ratio of 1.65. Bioactivity test shows that the FSHA forms more new apatite than does the sHA after being incubated in simulated body fluid (SBF) for 7 days. Moreover, the biocompatibility study shows a higher osteoblast like cell adhesion on the FSHA surface than on the sHA substrate after 3 days of culturing. Our results also show the shape of the osteoblast cells on the FSHA changes from being a rounded shape to being a flattened shape reflecting its spreading behavior on this surface. MTT assay and ALP analysis show significant increases in the proliferation and activity of osteoblasts over the FSHA scaffold after 5 days of culturing as compared to those covering the sHA substrates. These results confirm that the bio-materials derived from fish scale (FSHA) are biologically better than the chemically synthesized HA and have the potential for use as a bone scaffold or as regenerative materials., (Copyright © 2016. Published by Elsevier B.V.)

Published
2016
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21. Synthesis of doxorubicin-PLGA loaded chitosan stabilized (Mn, Zn)Fe2O4 nanoparticles: Biological activity and pH-responsive drug release.

Author

Montha W, Maneeprakorn W, Buatong N, Tang IM, and Pon-On W

Subjects
Delayed-Action Preparations chemistry, Delayed-Action Preparations pharmacokinetics, Delayed-Action Preparations pharmacology, Ferrosoferric Oxide chemistry, HeLa Cells, Humans, Hydrogen-Ion Concentration, Lactic Acid, Manganese chemistry, Polyglycolic Acid, Polylactic Acid-Polyglycolic Acid Copolymer, Zinc chemistry, Chitosan chemistry, Chitosan pharmacokinetics, Chitosan pharmacology, Doxorubicin chemistry, Doxorubicin pharmacokinetics, Doxorubicin pharmacology, Nanoparticles chemistry
Abstract

We have synthesized Mn1-xZnxFe2O4 ((Mn, Zn) ferrite) magnetic nanoparticles (MNPs) having radius of 25nm to act as platforms for delivering drugs. The Mn0.9Zn0.1Fe2O4 MNPs exhibit superparamagnetic behavior with large saturation magnetization (MS). They were encapsulated in polymer so that they can be developed into PLGA-coated chitosan stabilized (Mn, Zn) MNPs, i.e., DOX-PLGA@CS@Mn0.9Zn0.1Fe2O4 which can serve as an effective carrier of the anti-cancer drug doxorubicin (DOX) whose release would be controlled by the pH in the environment surrounding the cancer tumor. The structure of the as-prepared particles is of a magnetic core-encapsulated by polymer shell layer of around 50nm thick. At a pH of 4.0, the DOX release within the first 5h is fast (around 57%). It becomes slower (around 46% over the next 25h) when the pH is increased to 7.4. The DOX-PLGA@CS@Mn0.9Zn0.1Fe2O4 (for concentrations lower than 125μgmL(-1)) shows lower toxicity against HeLa cells using DOX only. When the DOX-PLGA@CS@Mn0.9Zn0.1Fe2O4 is increased to 250μgmL(-1), the DOX-PLGA@CS@Mn0.9Zn0.1Fe2O4 shows greater anti-cancer activity and has satisfactory therapeutic effect. The slow sustained release of the DOX by the drug loaded particles when they are in the physiological pH environment (7.4) of normal tissues and mild toxicity of DOX against cancer cell at low concentration point to the DOX loaded PLGA@CS@Mn0.9Zn0.1Fe2O4 being safely used for treating cancer. The higher dosage of DOX needed to kill the cancer cells will be released when the synthesized carriers are subject to the pH stimuli surrounding these cells., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published
2016
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22. Quantum dot-sensitized solar cells having 3D-TiO2 flower-like structures on the surface of titania nanorods with CuS counter electrode.

Author

Buatong N, Tang IM, and Pon-On W

Abstract

The photovoltaic performance of a quantum dot (QD)-sensitized solar cell consisting of CdS/CdSe/ZnS QDs loaded onto the surface of the three-dimensional (3D) flower-like TiO2 structure grown on an array (1D) of TiO2 nanorods (FTiR) is studied. The flower-like structure on the rod-shaped titania was synthesized using a double-step hydrothermal process. The FTiR array exhibited a 3D/1D composite structure with a specific surface area of 81.87 m(2)/g. Using CuS as the counter electrode instead of Pt offers the best performance and leads to an increase in the conversion efficiency (η). The efficiency of the CdS/CdSe/ZnS QD-loaded FTiR assembling CuS counter electrode cell improved from η = 2.715% (Voc = 0.692 V, Jsc = 5.896 mA/cm(2), FF = 0.665) to η = 0.703% (Voc = 0.665 V, Jsc = 2.108 mA/cm(2), FF = 0.501) for the QD-loaded FTiR assembling Pt counter electrode cell. These studies reveal a synergistically beneficial effect on the solar-to-current conversion of these QD-sensitized solar cells when a CuS counter electrode is used instead of the usual Pt counter electrode.

Published
2015
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23. Magnetic and morphological properties of CoCu nanowires.

Author

Thongmee S and Tang IM

Abstract

Heterogeneous CoCu nanowires containing different amounts of Co (up to 50% at. wt of Co) are made by electro-deposition (ED) method. CoCu nanowires were grown in AAO templates by varying the current density. The diameter of CoCu nanowires was around 40 nm. Therefore, the growing of CoCu nanowires was compacted with the diameter of AAO templates. The XRD patterns showed that all the CoCu nanowires fabricated via electro-deposition were polycrystalline. At low current density (1.32 mA/cm2), the intensity of Cu (111) peak was very strong. Increasing the current density can be led to increase the intensity of Co (100) peak. High resolution transmission electron microscopy (HRTEM) images of the highest Co content (50%at.) wires showed the existence of layers of polycrystalline heterogeneous CoCu alternating with layers of Cu. The magnetic properties showed that the highest coercivity (7.235 kOe) and squareness (0.754) were found in the unannealed nanowires having the highest Co content.

Published
2014
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24. Mechanical properties, biological activity and protein controlled release by poly(vinyl alcohol)-bioglass/chitosan-collagen composite scaffolds: a bone tissue engineering applications.

Author

Pon-On W, Charoenphandhu N, Teerapornpuntakit J, Thongbunchoo J, Krishnamra N, and Tang IM

Subjects
Adsorption, Alkaline Phosphatase metabolism, Animals, Calcification, Physiologic drug effects, Cattle, Cell Differentiation drug effects, Cell Line, Cell Proliferation drug effects, Cell Survival drug effects, Compressive Strength drug effects, Osteoblasts cytology, Osteoblasts drug effects, Osteoblasts metabolism, Osteogenesis drug effects, Rats, Spectroscopy, Fourier Transform Infrared, Tissue Scaffolds chemistry, X-Ray Diffraction, Bone and Bones drug effects, Ceramics pharmacology, Chitosan pharmacology, Collagen pharmacology, Mechanical Phenomena drug effects, Polyvinyl Alcohol pharmacology, Serum Albumin, Bovine metabolism, Tissue Engineering methods
Abstract

In the present study, composite scaffolds made with different weight ratios (0.5:1, 1:1 and 2:1) of bioactive glass (15Ca:80Si:5P) (BG)/polyvinyl alcohol (PVA) (PVABG) and chitosan (Chi)/collagen (Col) (ChiCol) were prepared by three mechanical freeze-thaw followed by freeze-drying to obtain the porous scaffolds. The mechanical properties and the in vitro biocompatibility of the composite scaffolds to simulated body fluid (SBF) and to rat osteoblast-like UMR-106 cells were investigated. The results from the studies indicated that the porosity and compressive strength were controlled by the weight ratio of PVABG:ChiCol. The highest compressive modulus of the composites made was 214.64 MPa which was for the 1:1 weight ratio PVABG:ChiCol. Mineralization study in SBF showed the formation of apatite crystals on the PVABG:ChiCol surface after 7 days of incubation. In vitro cell availability and proliferation tests confirmed the osteoblast attachment and growth on the PVABG:ChiCol surface. MTT and ALP tests on the 1:1 weight ratio PVABG:ChiCol composite indicated that the UMR-106 cells were viable. Alkaline phosphatase activity was found to increase with increasing culturing time. In addition, we showed the potential of PVABG:ChiCol drug delivery through PBS solution studies. 81.14% of BSA loading had been achieved and controlled release for over four weeks was observed. Our results indicated that the PVABG:ChiCol composites, especially the 1:1 weight ratio composite exhibited significantly improved mechanical, mineral deposition, biological properties and controlled release. This made them potential candidates for bone tissue engineering applications., (Copyright © 2014 Elsevier B.V. All rights reserved.)

Published
2014
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25. Dynamics of a new strain of the H1N1 influenza A virus incorporating the effects of repetitive contacts.

Author

Pongsumpun P and Tang IM

Subjects
Algorithms, Animals, Communicable Disease Control, Computer Simulation, Humans, Influenza, Human transmission, Models, Theoretical, Orthomyxoviridae Infections transmission, Quarantine, Sensitivity and Specificity, Time Factors, Disease Outbreaks, Influenza A Virus, H1N1 Subtype, Influenza, Human virology, Orthomyxoviridae Infections virology
Abstract

The respiratory disease caused by the Influenza A Virus is occurring worldwide. The transmission for new strain of the H1N1 Influenza A virus is studied by formulating a SEIQR (susceptible, exposed, infected, quarantine, and recovered) model to describe its spread. In the present model, we have assumed that a fraction of the infected population will die from the disease. This changes the mathematical equations governing the transmission. The effect of repetitive contact is also included in the model. Analysis of the model by using standard dynamical modeling method is given. Conditions for the stability of equilibrium state are given. Numerical solutions are presented for different values of parameters. It is found that increasing the amount of repetitive contacts leads to a decrease in the peak numbers of exposed and infectious humans. A stability analysis shows that the solutions are robust.

Published
2014
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26. In vitro study of vancomycin release and osteoblast-like cell growth on structured calcium phosphate-collagen.

Author

Pon-On W, Charoenphandhu N, Teerapornpuntakit J, Thongbunchoo J, Krishnamra N, and Tang IM

Subjects
Adsorption, Animals, Cattle, Cell Proliferation drug effects, Cell Survival drug effects, Collagen ultrastructure, Kinetics, Microscopy, Electron, Transmission, Nanotubes chemistry, Nanotubes ultrastructure, Osteoblasts drug effects, Osteoblasts ultrastructure, Porosity, Rats, Spectroscopy, Fourier Transform Infrared, Temperature, Time Factors, Calcium Phosphates pharmacology, Collagen pharmacology, Osteoblasts cytology, Vancomycin pharmacology
Abstract

A drug delivery vehicle consisting of spherical calcium phosphate-collagen particles covered by flower-like (SFCaPCol) blossoms composed of nanorod building blocks and their cellular response is studied. The spherical structure was achieved by a combination of sonication and freeze-drying. The SFCaPCol blossoms have a high surface area of approximately 280 m(2) g(-1). The blossom-like formation having a high surface area allows a drug loading efficiency of 77.82%. The release profile for one drug, vancomycin (VCM), shows long term sustained release in simulated body fluid (SBF), in a phosphate buffer saline (PBS, pH 7.4) solution and in culture media over 2 weeks with a cumulative release ~53%, 75% and 50%, respectively, over the first 7 days. The biocompatibility of the VCM-loaded SFCaPCol scaffold was determined by in vitro cell adhesion and proliferation tests of rat osteoblast-like UMR-106 cells. MTT tests indicated that UMR-106 cells were viable after exposure to the VCM loaded SFCaPCol, meaning that the scaffold (the flower-like blossoms) did not impair the cell's viability. The density of cells on the substrate was seen to increase with increasing cultured time., (Copyright © 2012 Elsevier B.V. All rights reserved.)

Published
2013
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27. Biocomposite of hydroxyapatite-titania rods (HApTiR): physical properties and in vitro study.

Author

Pon-On W, Charoenphandhu N, Tang IM, Teerapornpuntakit J, Thongbunchoo J, and Krishnamra N

Subjects
Animals, Biocompatible Materials toxicity, Cell Adhesion drug effects, Cell Line, Cell Proliferation drug effects, Cell Survival drug effects, Hardness, Microscopy, Electron, Scanning Transmission, Rats, Spectroscopy, Fourier Transform Infrared, Biocompatible Materials chemistry, Durapatite chemistry, Titanium chemistry
Abstract

The aim in this research is to study the physical and biocompatible properties of hydroxyapatite (HAp) composites (HApTiR) having different amounts of titania rod (TiR) in them (10-90 wt.%). The HAp and TiR were produced using hydrothermal and co-precipitation under reflux methods, respectively. The physical properties and the in vitro biocompatibility of the composites to simulated body fluid (SBF) were investigated. They were also cultured with rat osteoblast-like UMR-106 cells. The synthesized powder showed a core-shell structure with the titania rod as the core and the apatite as the shell. The hardness of the composites of HApTiR's whisker increased from 74.8 to 92.9 MPa as the TiR content was increased from 10 to 90 wt.%. Mineralization study in SBF showed the formation of apatite crystals on the HApTiR's surface after 7 days of incubation. In vitro cell adhesion tests confirmed the osteoblast attachment and growth on the HApTiR's surface. The density of cells, spread and the production of calcium nodules on the substrate were seen to increase with increasing TiR contents except for HApTiR90 (TiR=90 wt.%) which exhibited lesser growth. MTT tests on HApTiR70 indicated that UMR-106 cells were viable and the density of cells on the substrate was seen to increase with increasing culturing time., (Copyright © 2012 Elsevier B.V. All rights reserved.)

Published
2013
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28. Biomagnetic of Apatite-Coated Cobalt Ferrite: A Core-Shell Particle for Protein Adsorption and pH-Controlled Release.

Author

Tang IM, Krishnamra N, Charoenphandhu N, Hoonsawat R, and Pon-On W

Abstract

Magnetic nanoparticle composite with a cobalt ferrite (CoFe2O4, (CF)) core and an apatite (Ap) coating was synthesized using a biomineralization process in which a modified simulated body fluid (1.5SBF) solution is the source of the calcium phosphate for the apatite formation. The core-shell structure formed after the citric acid-stabilized cobalt ferrite (CFCA) particles were incubated in the 1.5 SBF solution for 1 week. The mean particle size of CFCA-Ap is about 750 nm. A saturation magnetization of 15.56 emug(-1) and a coercivity of 1808.5 Oe were observed for the CFCA-Ap obtained. Bovine serum albumin (BSA) was used as the model protein to study the adsorption and release of the proteins by the CFCA-Ap particles. The protein adsorption by the CFCA-Ap particles followed a more typical Freundlich than Langmuir adsorption isotherm. The BSA release as a function of time became less rapid as the CFCA-Ap particles were immersed in higher pH solution, thus indicating that the BSA release is dependent on the local pH.

Published
2011
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29. Low temperature solution-phase growth of ZnSe and ZnSe/CdSe core/shell nanowires.

Author

Petchsang N, Shapoval L, Vietmeyer F, Yu Y, Hodak JH, Tang IM, Kosel TH, and Kuno M

Abstract

High quality ZnSe nanowires (NWs) and complementary ZnSe/CdSe core/shell species have been synthesized using a recently developed solution-liquid-solid (SLS) growth technique. In particular, bismuth salts as opposed to pre-synthesized Bi or Au/Bi nanoparticles have been used to grow NWs at low temperatures in solution. Resulting wires are characterized using transmission electron microscopy and possess mean ensemble diameters between 15 and 28 nm with accompanying lengths ranging from 4-10 μm. Subsequent solution-based overcoating chemistry results in ZnSe wires covered with CdSe nanocrystals. By varying the shell's growth time, different thicknesses can be obtained and range from 8 to 21 nm. More interestingly, the mean constituent CdSe nanocrystal diameter can be varied and results in size-dependent shell emission spectra., (This journal is © The Royal Society of Chemistry 2011)

Published
2011
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30. Computer simulation study of fullerene translocation through lipid membranes.

Author

Wong-Ekkabut J, Baoukina S, Triampo W, Tang IM, Tieleman DP, and Monticelli L

Subjects
Computer Simulation, Diffusion, Fullerenes chemistry, Lipid Bilayers chemistry, Models, Chemical
Abstract

Recent toxicology studies suggest that nanosized aggregates of fullerene molecules can enter cells and alter their functions, and also cross the blood-brain barrier. However, the mechanisms by which fullerenes penetrate and disrupt cell membranes are still poorly understood. Here we use computer simulations to explore the translocation of fullerene clusters through a model lipid membrane and the effect of high fullerene concentrations on membrane properties. The fullerene molecules rapidly aggregate in water but disaggregate after entering the membrane interior. The permeation of a solid-like fullerene aggregate into the lipid bilayer is thermodynamically favoured and occurs on the microsecond timescale. High concentrations of fullerene induce changes in the structural and elastic properties of the lipid bilayer, but these are not large enough to mechanically damage the membrane. Our results suggest that mechanical damage is an unlikely mechanism for membrane disruption and fullerene toxicity.

Published
2008
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31. Preparation of iron boride-silica core-shell nanoparticles with soft ferromagnetic properties.

Author

Saiyasombat C, Petchsang N, Tang IM, and Hodak JH

Abstract

A one-pot aqueous chemical synthesis for silica-passivated ferromagnetic nanoparticles is presented. The average size of these particles is 84 ± 20 nm. The x-ray and electron diffraction experiments revealed that the nanoparticles are mainly composed of polycrystalline iron boride. The broad x-ray diffraction peak leads to an average crystallite size of 1.8 nm, which is much smaller than the overall size of the particles, and is consistent with the polycrystalline nature of the samples. Mössbauer spectroscopy and magnetization experiments were used to establish the room temperature magnetic properties as well as the chemical nature of the particles. Fe(2)B dominates the composition of the nanoparticles, having a hyperfine field broadly distributed in the 10-33 T range. Alpha iron, the second ferromagnetic material identified in the particles, amounts to 4.6% of the composition. Finally, a paramagnetic phase accounting for approximately 14.6% of the material of the particles was also detected. These nanoparticles contain a core with soft ferromagnetic properties surrounded by a passivating silica layer, and are suitable for magnetically targeted drug delivery and electromagnetic induction heating applications.

Published
2008
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32. Effect of lipid peroxidation on the properties of lipid bilayers: a molecular dynamics study.

Author

Wong-Ekkabut J, Xu Z, Triampo W, Tang IM, Tieleman DP, and Monticelli L

Subjects
Computer Simulation, Molecular Conformation, Phase Transition, Lipid Bilayers chemistry, Lipid Peroxidation, Membrane Fluidity, Models, Chemical, Models, Molecular, Phosphatidylcholines chemistry
Abstract

Lipid peroxidation plays an important role in cell membrane damage. We investigated the effect of lipid peroxidation on the properties of 1-palmitoyl-2-linoleoyl-sn-glycero-3-phosphatidylcholine (PLPC) lipid bilayers using molecular dynamics simulations. We focused on four main oxidation products of linoleic acid with either a hydroperoxide or an aldehyde group: 9-trans, cis-hydroperoxide linoleic acid, 13-trans, cis-hydroperoxide linoleic acid, 9-oxo-nonanoic acid, and 12-oxo-9-dodecenoic acid. These oxidized chains replaced the sn-2 linoleate chain. The properties of PLPC lipid bilayers were characterized as a function of the concentration of oxidized lipids, with concentrations from 2.8% to 50% for each oxidation product. The introduction of oxidized functional groups in the lipid tail leads to an important conformational change in the lipids: the oxidized tails bend toward the water phase and the oxygen atoms form hydrogen bonds with water and the polar lipid headgroup. This conformational change leads to an increase in the average area per lipid and, correspondingly, to a decrease of the bilayer thickness and the deuterium order parameters for the lipid tails, especially evident at high concentrations of oxidized lipid. Water defects are observed in the bilayers more frequently as the concentration of the oxidized lipids is increased. The changes in the structural properties of the bilayer and the water permeability are associated with the tendency of the oxidized lipid tails to bend toward the water interface. Our results suggest that one mechanism of cell membrane damage is the increase in membrane permeability due to the presence of oxidized lipids.

Published
2007
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33. The stochastic model of non-equilibrium mutagen-induced alterations of DNA: implication to genetic instability in cancer.

Author

Triampo D, Triampo W, Tang IM, and Lenbury Y

Subjects
Animals, DNA Damage, DNA, Neoplasm drug effects, DNA, Neoplasm genetics, Humans, Monte Carlo Method, Mutagens toxicity, Stochastic Processes, Systems Biology, Genomic Instability, Models, Genetic, Neoplasms genetics
Abstract

Genetic alterations such as point mutations, chromosomal rearrangements, modification of DNA methylation and chromosome aberrations accumulate during the lifetime of an organism. They can be caused by intrinsic errors in the DNA replication and repair as well as by external factors such as exposure to mutagenic substances or radiation. The main purpose of the present work is to begin an exploration of the stochastic nature of non-equilibrium DNA alteration caused by events such as tautomeric shifts. This is done by modeling the genetic DNA code chain as a sequence of DNA-bit values ('1' for normal bases and '-1' for abnormal bases). We observe the number of DNA-bit changes resulting from the random point mutation process which, in the model, is being induced by a stochastic Brownian mutagen (BM) as it diffuses through the DNA-bit systems. Using both an analytical and Monte Carlo (MC) simulation techniques, we observe the local and global number of DNA-bit changes. It is found that in 1D, the local DNA-bit density behaves like 1/t, the global total number of the switched (abnormal) DNA-bit increases as t. The probability distribution P(b, 0, t) of b(0, t) is log-normal. It is also found that when the number of mutagens is increased, the number of the total abnormal DNA-bits does not grow linearly with the number of mutagens. All analytic results are in good agreement with the simulation results.

Published
2007
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34. Theoretical analysis of destabilization resonances in time-delayed stochastic second-order dynamical systems and some implications for human motor control.

Author

Patanarapeelert K, Frank TD, Friedrich R, Beek PJ, and Tang IM

Subjects
Computer Simulation, Humans, Models, Statistical, Stochastic Processes, Time Factors, Feedback physiology, Models, Biological, Motor Skills physiology, Psychomotor Performance physiology, Reflex physiology
Abstract

A linear stochastic delay differential equation of second order is studied that can be regarded as a Kramers model with time delay. An analytical expression for the stationary probability density is derived in terms of a Gaussian distribution. In particular, the variance as a function of the time delay is computed analytically for several parameter regimes. Strikingly, in the parameter regime close to the parameter regime in which the deterministic system exhibits Hopf bifurcations, we find that the variance as a function of the time delay exhibits a sequence of pronounced peaks. These peaks are interpreted as delay-induced destabilization resonances arising from oscillatory ghost instabilities. On the basis of the obtained theoretical findings, reinterpretations of previous human motor control studies and predictions for future human motor control studies are provided.

Published
2006
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35. Predicting the future trend of drug-resistant tuberculosis in Thailand: assessing the impact of control strategies.

Author

Nishiura H, Patanarapelert K, and Tang IM

Subjects
Antibiotics, Antitubercular pharmacology, Antibiotics, Antitubercular therapeutic use, Chemoprevention, Communicable Disease Control, Directly Observed Therapy, Forecasting, Humans, Incidence, Models, Theoretical, Rifampin pharmacology, Rifampin therapeutic use, Thailand epidemiology, Tuberculosis, Multidrug-Resistant drug therapy, Tuberculosis, Multidrug-Resistant prevention & control, Drug Resistance, Multiple, Bacterial, Mycobacterium tuberculosis drug effects, Tuberculosis, Multidrug-Resistant epidemiology
Abstract

The purposes of this study are to predict the future trend of drug-sensitive and resistant tuberculosis (TB) in Thailand, and to assess the impact of different control strategies on the generation of drug resistant TB, through the use of mathematical analysis. We assume that the present status of TB and the emergence of drug-resistant TB in Thailand are the consequence of past epidemics. Control strategies in the model are defined by specifying the value of the effective treatment rate (baseline value = 0.74) and the relative treatment efficacy (baseline value = 0.84). It is predicted that the total number of new TB cases would continue to decrease at the current level of intervention. Although a dramatic decline in the incidence rate of drug-sensitive cases is expected, drug-resistant cases are predicted to increase gradually, so that more than half of the TB strains would not be drug-sensitive after 2020. The prediction is not greatly altered by improving the interventions. They could, however, delay the emergence of drug-resistant strains for a few years. Our study demonstrates it would be impossible to avoid the continued emergence of drug-resistant TB in the future. It is pointed out that there are urgent needs to ensure adequate supervision and monitoring, to insure treatment of 100% of the targeted population with Directly Observed Therapy.

Published
2004

36. Effect of bird-to-bird transmission of the West Nile virus on the dynamics of the transmission of this disease.

Author

Naowarat S and Tang IM

Subjects
Animals, Bird Diseases diagnosis, Birds, Culicidae, Humans, Sensitivity and Specificity, Thailand, West Nile Fever diagnosis, Bird Diseases transmission, Disease Transmission, Infectious, Disease Vectors, Models, Statistical, West Nile Fever transmission, West Nile Fever veterinary, West Nile virus isolation & purification
Abstract

Two recent publications report that direct bird-to-bird transmission of West Nile virus is possible. The effect of a bird-to-bird transmission on the transmission dynamics of this virus is studied through mathematical modeling. The model still treats the bird-to-mosquito-to-bird as the main transmission route. The results of numerical calculations show that there are changes in the dynamics of the transmission of West Nile fever in humans when the non-mosquito transmission route becomes more important.

Published
2004

37. Infection risk to travelers going to dengue fever endemic regions.

Author

Pongsumpun P, Patanarapelert K, Sriprom M, Varamit S, and Tang IM

Subjects
Dengue transmission, Female, Humans, Incidence, Male, Models, Theoretical, Predictive Value of Tests, Risk Assessment, Survival Rate, Thailand epidemiology, Dengue epidemiology, Dengue Virus isolation & purification, Endemic Diseases, Travel
Abstract

The risk of dengue virus infection to travelers visiting dengue fever endemic regions was studied through the use of mathematical modeling. A Susceptible-Infected-Recovered (SIR) model is used to describe the transmission of dengue fever (DF) in an endemic region into which tourists enter. The dynamics of a new class of human, the traveler, is incorporated into the systems of first order differential equations in the SIR describing the dynamics of the transmission in the host region. Using standard dynamic analysis methods, the numbers of travelers who become infected with the dengue virus are calculated as a function of the length of time the tourist stays in the region.

Published
2004

38. Modeling for a smallpox-vaccination policy against possible bioterrorism in Japan: the impact of long-lasting vaccinal immunity.

Author

Nishiura H and Tang IM

Subjects
Humans, Japan, Smallpox immunology, Smallpox transmission, Bioterrorism, Disease Outbreaks prevention & control, Models, Theoretical, Smallpox prevention & control, Smallpox Vaccine
Abstract

Background: There has been concern that variola virus might be held clandestinely elsewhere. Through constructing mathematical model based on the detailed epidemiologic data, we focused on simulating the various possible scenarios arising from a bioterrorist attack whereby smallpox virus was introduced into Japan, and sought to develop the most effective way of nationwide vaccination policy based on the theory of residual immunity., Method: The analysis is based on a deterministic mathematical model which predicted the epidemiologic outcome while simultaneously evaluating the effect of any specified control strategy of the smallpox epidemic. To clarify the required amount of vaccines, we performed mathematical analysis for hypothetical population to acquire herd immunity based on long-lasting vaccinal immunity., Results: It is demonstrated that the crude size of the potential epidemic could be greatly affected by possible level of residual immunity. The results also suggest the possibility to develop optimal distribution of nationwide vaccination according to the immune status. The prevalence at 50th day among population without immunity in our simulation would be approximately 405 times greater than expected population with residual immunity, and required amount of vaccines for equal distribution would be 3.13 times more than optimal distribution., Conclusion: The mathematical model formulated could determine the vaccination priority based on the real status of immunity which required much less amount of vaccinations than would be calculated using an equal distribution program. It is therefore crucial to determine the real immunity status of the population via epidemiologic studies.

Published
2004
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39. Effects of static magnetic field on growth of leptospire, Leptospira interrogans serovar canicola: immunoreactivity and cell division.

Author

Triampo W, Doungchawee G, Triampo D, Wong-Ekkabut J, and Tang IM

Abstract

The effects of the exposure of the bacterium, Leptospira interrogans serovar canicola to a constant magnetic field with magnetic flux density from a permanent ferrite magnet=140+/-5 mT were studied. Changes in Leptospira cells after their exposure to the field were determined on the basis of changes in their growth behavior and agglutination immunoreactivity with a homologous antiserum using dark-field microscopy together with visual imaging. The data showed that the exposed Leptospira cells have lower densities and lower agglutination immunoreactivity than the unexposed control group. Interestingly, some of the exposed Leptospira cells showed abnormal morphologies such as large lengths. We discussed some of the possible reasons for these observations.

Published
2004
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40. Basic reproduction number for the transmission of Plasmodium vivax malaria.

Author

Kammanee A, Kanyamee N, and Tang IM

Subjects
Animals, Disease-Free Survival, Endemic Diseases, Humans, Malaria, Vivax immunology, Malaria, Vivax parasitology, Models, Statistical, Recurrence, Malaria, Vivax transmission, Plasmodium vivax physiology
Abstract

The possibility of relapse is introduced into a mathematical model for the transmission of Plasmodium vivax malaria. In the model, the human population is divided into four classes: susceptible, infected, dormant and recovered. Loss of immunity by individuals in the recovered class moves these individuals back into the susceptible class. Two equilibrium states are found, a disease-free state and an endemic state. A basic reproduction number Ro is found. Depending on whether Ro is less than or greater than one. the disease free state or the endemic state results. The dependence of Ro on the rate of relapse is determined and the implication of this dependence is identified.

Published
2001

41. A realistic age structured transmission model for dengue hemorrhagic fever in Thailand.

Author

Pongsumpun P and Tang IM

Subjects
Adolescent, Adult, Age Distribution, Aged, Child, Child, Preschool, Cohort Studies, Humans, Incidence, Infant, Middle Aged, Models, Statistical, Severe Dengue epidemiology, Thailand epidemiology, Severe Dengue transmission
Abstract

The influence of age structure in the susceptible class of the Susceptible-Infected Recovered (SIR) model used to describe the transmission of dengue hemorrhagic fever (DHF) was studied. This was done by first dividing all of the population classes into cohorts and then writing a set of coupled SIR equations for each cohort. The consequences of assuming different behavior of the transmission rates on the age structure in the DHF incidence rates were determined. In order for the predicted incidence rates to be similar to the DHF incidence patterns observed in several provinces in Thailand during the DHF epidemic in 1998, the transmission rates should be age dependent.

Published
2001

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