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2. Exploring indoor and outdoor dust as a potential tool for detection and monitoring of COVID-19 transmission

Author

Suparinthon Anupong, Sudarat Chadsuthi, Parichart Hongsing, Cameron Hurst, Phatthranit Phattharapornjaroen, Ali Hosseini Rad S.M., Stefan Fernandez, Angkana T. Huang, Porames Vatanaprasan, Thammakorn Saethang, Sirirat Luk-in, Robin James Storer, Puey Ounjai, Naveen Kumar Devanga Ragupathi, Phitsanuruk Kanthawee, Natharin Ngamwongsatit, Vishnu Nayak Badavath, Wanwara Thuptimdang, Asada Leelahavanichkul, Talerngsak Kanjanabuch, Kazuhiko Miyanaga, Longzhu Cui, Asuka Nanbo, Kenji Shibuya, Rosalyn Kupwiwat, Daisuke Sano, Takashi Furukawa, Kazunari Sei, Paul G. Higgins, Anthony Kicic, Andrew C. Singer, Tanittha Chatsuwan, Sam Trowsdale, Shuichi Abe, Hitoshi Ishikawa, Mohan Amarasiri, Charin Modchang, and Dhammika Leshan Wannigama

Subjects
Environmental biotechnology, Virology, Science
Abstract

Summary: This study investigated the potential of using SARS-CoV-2 viral concentrations in dust as an additional surveillance tool for early detection and monitoring of COVID-19 transmission. Dust samples were collected from 8 public locations in 16 districts of Bangkok, Thailand, from June to August 2021. SARS-CoV-2 RNA concentrations in dust were quantified, and their correlation with community case incidence was assessed. Our findings revealed a positive correlation between viral concentrations detected in dust and the relative risk of COVID-19. The highest risk was observed with no delay (0-day lag), and this risk gradually decreased as the lag time increased. We observed an overall decline in viral concentrations in public places during lockdown, closely associated with reduced human mobility. The effective reproduction number for COVID-19 transmission remained above one throughout the study period, suggesting that transmission may persist in locations beyond public areas even after the lockdown measures were in place.

Published
2024
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3. Removal of Diclofenac in Wastewater by Activated Sludge in Batch and Moving-bed Biofilm Reactor Experiments

Author

Keletso Chakalisa, Piriyakorn Injai, Kullapa Chanawanno, Panaya Kotchaplai, and Pumis Thuptimdang

Subjects
Diclofenac, Moving-bed biofilm reactor, Pharmaceutical degradation, Sludge, Wastewater treatment, Environmental sciences, GE1-350, Environmental technology. Sanitary engineering, TD1-1066
Abstract

This study aimed to determine the diclofenac removal in wastewater by sludge taken from an operating wastewater treatment facility. Laboratory experiments were conducted in two parts: batch and moving-bed biofilm reactor (MBBR) experiments. Results from batch experiments showed that 0.1–2 mg L-1 of diclofenac could be removed more than 80% within 72 h, and the removal efficiency reduced to less than 60% for higher concentrations. The increase in the removal rate from 0.00058 to 0.16527 mg L-1 h-1 was observed when the initial diclofenac concentration increased from 0.1 to 10 mg L-1, respectively. The average first-order rate constants of 24-h and 72-h degradation were calculated as 4.71 × 10-2 and 1.99 × 10-2 h-1, respectively. The removal of diclofenac by sludge was mainly from biodegradation by microorganisms in sludge, followed by the adsorption onto the sludge biomass. The addition of various metal ions in the studied range did not significantly increase the diclofenac removal; however, the addition of Ca2+, Co2+, Fe3+, Mn2+, and Zn2+ tended to increase both diclofenac removal rate and efficiency. This positive effect was reduced when the metal ion concentrations were increased up to 0.75 ppm. Lastly, results from an initial phase of continuous MBBR showed that sludge addition during the start-up also extended the diclofenac removal efficiency to one week compared with 3 days in the experiment without sludge addition. In conclusion, the findings show the capability of using activated sludge in diclofenac wastewater treatment by the traditional or alternative systems.

Published
2023
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4. Novel intranasal phage-CaEDTA-ceftazidime/avibactam triple combination therapy demonstrates remarkable efficacy in treating Pseudomonas aeruginosa lung infection

Author

Aye Mya Sithu Shein, Dhammika Leshan Wannigama, Cameron Hurst, Peter N. Monk, Mohan Amarasiri, Vishnu Nayak Badavath, Phatthranit Phattharapornjaroen, William Graham Fox Ditcham, Puey Ounjai, Thammakorn Saethang, Naphat Chantaravisoot, Wanwara Thuptimdang, Sirirat Luk-in, Sumanee Nilgate, Ubolrat Rirerm, Chanikan Tanasatitchai, Naris Kueakulpattana, Matchima Laowansiri, Tingting Liao, Rosalyn Kupwiwat, Rojrit Rojanathanes, Natharin Ngamwongsatit, Arsa Thammahong, Hitoshi Ishikawa, Daniel Pletzer, Asada Leelahavanichkul, Naveen Kumar Devanga Ragupathi, Pattama Wapeesittipan, S.M. Ali Hosseini Rad, Talerngsak Kanjanabuch, Robin James Storer, Kazuhiko Miyanaga, Longzhu Cui, Hiroshi Hamamoto, Paul G. Higgins, Anthony Kicic, Tanittha Chatsuwan, Parichart Hongsing, and Shuichi Abe

Subjects
Intranasal, Phage, CaEDTA, Combination therapy, Pseudomonas aeruginosa, Lung, Therapeutics. Pharmacology, RM1-950
Abstract

Given the rise of multidrug-resistant (MDR) Pseudomonas aeruginosa infections, alternative treatments are needed. Anti-pseudomonal phage therapy shows promise, but its clinical application is limited due to the development of resistance and a lack of biofilm penetration. Recently, adjuvants like CaEDTA have shown the ability to enhance the effectiveness of combined antimicrobial agents. Here, we tested a phage-adjuvant combination and demonstrated the effectiveness of intranasally inhaled phage (KKP10) + CaEDTA in addition to ceftazidime/avibactam (CZA) for chronic P. aeruginosa lung infections. The results emphasize that intranasal inhalation of phage along with CaEDTA can successfully re-sensitize MDR P. aeruginosa to CZA in a triple combination treatment. This promising approach shows potential as a therapy for chronic respiratory tract infections.

Published
2023
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5. Groundwater quality assessment for drinking purposes: a case study in the Mekong Delta, Vietnam

Author

Nguyen Thanh Giao, Huynh Thi Hong Nhien, Phan Kim Anh, and Pumis Thuptimdang

Subjects
Medicine, Science
Abstract

Abstract Groundwater serves as an important resource for people in the Mekong Delta, but its quality has been continuously declined from human activities. Current status of the groundwater quality needs to be evaluated for sustainable groundwater resource management. This study aimed to evaluate the groundwater quality for drinking purposes in the Mekong Delta, Vietnam, using multivariate statistical methods and integrated-weight water quality index. Data comprised 8 water quality parameters (pH, total hardness, nitrate (NO3 −), iron (Fe), lead (Pb), mercury (Hg), arsenic (As), and coliforms) obtained from 64 observation wells in An Giang province, Dong Thap province, and Can Tho city, were analyzed by cluster analysis (CA), principal component analysis (PCA), and integrated-weight water quality index (IWQI). The results indicated that most parameters were within standards while excessive hardness and Fe contamination were found in some regions. More than 80% of samples were detected with serious coliform contamination. The CA results revealed that groundwater quality heavily depend on geological locations with 4 clusters of the sampling locations. Three principal components obtained from PCA could explain 77.2% of the groundwater quality variation. The IWQI values ranging from 4 to 2761 classified groundwater quality as excellent (53.1%), good (25%), poor (9.4%), very poor (4.7%), and undrinkable (7.8%), which were associated with coliform contamination. These findings have provided insights into the groundwater quality status in the region, which can benefit in developing a water protection strategy.

Published
2023
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6. McDAPS: A multi-channel physiological signals display and analysis system for clinical researchers

Author

Wanwara Thuptimdang, Patjanaporn Chalacheva, Thomas D. Coates, and Michael C.K. Khoo

Subjects
ANS, Beat-to-beat, Power spectral analysis, Cross correlation, Computer software, QA76.75-76.765
Abstract

We introduce McDAPS, an interactive software for assessing autonomic imbalance from non-invasive multi-channel physiological recordings. McDAPS provides a graphical user interface for data visualization, beat-to-beat processing and interactive analyses. The software extracts beat-to-beat RR interval systolic blood pressure, diastolic blood pressure, the pulse amplitude of photoplethysmogram and the pulse-to-pulse interval. The analysis modules include stationary and time-varying power spectral analyses, moving-correlation analysis and univariate analyses. Analyses can also be performed in batch mode if multiple datasets have to be processed in the same way. The program exports results in standard CSV format.McDAPS runs in MATLAB, and is supported on MS Windows and MAC OS systems. The MATLAB source code is available at https://github.com/thuptimd/McDAPS.git.

Published
2023
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8. Removal of microplastics and nanoplastics in water treatment processes: A systematic literature review

Author

Romphophak, P., Faikhaw, Orasai, Sairiam, S., Thuptimdang, P., Coufort-Saudejaud, C., Romphophak, P., Faikhaw, Orasai, Sairiam, S., Thuptimdang, P., and Coufort-Saudejaud, C.

Abstract

Understanding the dynamics of microplastics (MPs) and nanoplastics (NPs) in water treatment processes is crucial, particularly in the context of waterworks, as they are recognized as emerging contaminants in aquatic systems. This review explores into the complex interplay between the MPs and waterworks systems, which are crucial components in treating and delivering treated water to consumers. In this paper, recent research articles were conducted on 26 water treatment plants (WTPs) across 12 countries worldwide, along with an analysis of 103 studies encompassing 54 articles undertaken. This review focused on the characteristics and removal of MPs and NPs in water treatment processes compared to their abundance in the influent, effluent, and sludge. Subsequently, a quantitative analysis was conducted to compare the removal efficiency of MPs and NPs in various critical treatment technologies based on existing data. The paper extensively discussed the detailed mechanisms of crucial treatment technologies, covering primary settling treatment with screening, coagulation-flocculation-sedimentation, filtration, advanced technology, biological treatment, disinfection, and water distribution. Currently, it appears that there are still gaps in the research on the removal of MPs and NPs in water treatment. This review suggests guidelines for future studies that should be undertaken to address these gaps.

Published
2024

9. Vasoconstriction Response to Mental Stress in Sickle Cell Disease: The Role of the Cardiac and Vascular Baroreflexes

Author

Wanwara Thuptimdang, Payal Shah, Maha Khaleel, John Sunwoo, Saranya Veluswamy, Roberta M. Kato, Thomas D. Coates, and Michael C. K. Khoo

Subjects
sickle cell anemia, mental stress, vasoconstriction, baroreflex, autonomic nervous system, Physiology, QP1-981
Abstract

Recent studies have shown that individuals with sickle cell disease (SCD) exhibit greater vasoconstriction responses to physical autonomic stressors, such as heat pain and cold pain than normal individuals, but this is not the case for mental stress (MTS). We sought to determine whether this anomalous finding for MTS is related to inter-group differences in baseline cardiac and vascular autonomic function. Fifteen subjects with SCD and 15 healthy volunteers participated in three MTS tasks: N-back, Stroop, and pain anticipation (PA). R–R interval (RRI), arterial blood pressure and finger photoplethysmogram (PPG) were continuously monitored before and during these MTS tasks. The magnitude of vasoconstriction was quantified using change in PPG amplitude (PPGa) from the baseline period. To represent basal autonomic function, we assessed both cardiac and vascular arms of the baroreflex during the baseline period. Cardiac baroreflex sensitivity (BRSc) was estimated by applying both the “sequence” and “spectral” techniques to beat-to-beat measurements of systolic blood pressure and RRIs. The vascular baroreflex sensitivity (BRSv) was quantified using the same approaches, modified for application to beat-to-beat diastolic blood pressure and PPGa measurements. Baseline BRSc was not different between SCD and non-SCD subjects, was not correlated with BRSv, and was not associated with the vasoconstriction responses to MTS tasks. BRSv in both groups was correlated with mean PPGa, and since both baseline PPGa and BRSv were lower in SCD, these results suggested that the SCD subjects were in a basal state of higher sympathetically mediated vascular tone. In both groups, baseline BRSv was positively correlated with the vasoconstriction responses to N-back, Stroop, and PA. After adjusting for differences in BRSv within and between groups, we found no difference in the vasoconstriction responses to all three mental tasks between SCD and non-SCD subjects. The implications of these findings are significant in subjects with SCD since vasoconstriction reduces microvascular flow and prolongs capillary transit time, increasing the likelihood for vaso-occlusive crisis (VOC) to be triggered by exposure to stressful events.

Published
2021
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10. Impact of Environmentally Relevant Concentrations of Glyphosate and 2,4-D Commercial Formulations on Nostoc sp. N1 and Oryza sativa L. Rice Seedlings

Author

Suwakan Tansay, Kritchaya Issakul, Neti Ngearnpat, Orawan Chunhachart, and Pumis Thuptimdang

Subjects
herbicide toxicity, bio-fertilizers, paddy field cyanobacteria, plant growth-stimulating effects, pesticide residues, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456
Abstract

Wide applications of glyphosate and 2,4-dichlorophenoxyacetic acid (2,4-D) in rice paddy fields could lead to their residues in environment, posing adverse effects on rice growth and primary producers in the rice ecosystem. This research aims to determine the effects of environmentally relevant concentrations of glyphosate and 2,4-D commercial formulations on Nostoc sp. N1 and rice seedlings. The effects of herbicides on Nostoc sp. N1 were measured from the growth and acute toxicity. The germination and growth were used to determine the effects of herbicides on rice seedlings by measuring their physical and biochemical characteristics. Results showed that while glyphosate had higher toxicity than 2,4-D, both herbicides could stimulate the growth of Nostoc sp. N1 as indicated by their increase in biomass and chlorophyll a content. In Petri dish experiments, Nostoc sp. N1 cells not only promoted the germination of rice seedlings when added alone, but they also alleviated the toxicity of both herbicides to the rice seedlings. In pot experiments, the addition of Nostoc sp. N1 cells combined with herbicides promoted the biochemical characteristics of the rice seedlings by increasing the total chlorophyll, carotenoid and total amino acid content. Our results suggested that environmentally relevant concentrations of glyphosate and 2,4-D formulations should not pose any adverse effects on Nostoc sp. N1. Also, with their toxicity-mitigating and growth-promoting effects on rice seedlings, Nostoc sp. N1 cells could be applied in the alleviation of herbicide residue toxicity in paddy fields.

Published
2021
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11. Mental stress causes vasoconstriction in subjects with sickle cell disease and in normal controls

Author

Payal Shah, Maha Khaleel, Wanwara Thuptimdang, John Sunwoo, Saranya Veluswamy, Patjanaporn Chalacheva, Roberta M. Kato, Jon Detterich, John C. Wood, Lonnie Zeltzer, Richard Sposto, Michael C.K. Khoo, and Thomas D. Coates

Subjects
Diseases of the blood and blood-forming organs, RC633-647.5
Abstract

Vaso-occlusive crisis (VOC) is a hallmark of sickle cell disease (SCD) and occurs when deoxygenated sickled red blood cells occlude the microvasculature. Any stimulus, such as mental stress, which decreases microvascular blood flow will increase the likelihood of red cell entrapment resulting in local vaso-occlusion and progression to VOC. Neurally mediated vasoconstriction might be the physiological link between crisis triggers and vaso-occlusion. In this study, we determined the effect of mental stress on microvascular blood flow and autonomic nervous system reactivity. Sickle cell patients and controls performed mentally stressful tasks, including a memory task, conflict test and pain anticipation test. Blood flow was measured using photoplethysmography, autonomic reactivity was derived from electrocardiography and perceived stress was measured by the State-Trait Anxiety Inventory questionnaire. Stress tasks induced a significant decrease in microvascular blood flow, parasympathetic withdrawal and sympathetic activation in all subjects. Of the various tests, pain anticipation caused the highest degree of vasoconstriction. The magnitude of vasoconstriction, sympathetic activation and perceived stress was greater during the Stroop conflict test than during the N-back memory test, indicating the relationship between magnitude of experimental stress and degree of regional vasoconstriction. Baseline anxiety had a significant effect on the vasoconstrictive response in sickle cell subjects but not in controls. In conclusion, mental stress caused vasoconstriction and autonomic nervous system reactivity in all subjects. Although the pattern of responses was not significantly different between the two groups, the consequences of vasoconstriction can be quite significant in SCD because of the resultant entrapment of sickle cells in the microvasculature. This suggests that mental stress can precipitate a VOC in SCD by causing neural-mediated vasoconstriction.

Published
2020
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12. Sickle Cell Disease Subjects Have a Distinct Abnormal Autonomic Phenotype Characterized by Peripheral Vasoconstriction With Blunted Cardiac Response to Head-Up Tilt

Author

Patjanaporn Chalacheva, Roberta M. Kato, Payal Shah, Saranya Veluswamy, Christopher C. Denton, John Sunwoo, Wanwara Thuptimdang, John C. Wood, Jon A. Detterich, Thomas D. Coates, and Michael C. K. Khoo

Subjects
sickle cell anemia, autonomic dysfunction, orthostatic stress, phenotypic response, peripheral vasoconstriction, Physiology, QP1-981
Abstract

In sickle cell disease (SCD), prolonged capillary transit times, resulting from reduced peripheral blood flow, increase the likelihood of rigid red cells entrapment in the microvasculature, predisposing to vaso-occlusive crisis. Since changes in peripheral flow are mediated by the autonomic nervous system (ANS), we tested the hypothesis that the cardiac and peripheral vascular responses to head-up tilt (HUT) are abnormal in SCD. Heart rate, respiration, non-invasive continuous blood pressure and finger photoplethysmogram (PPG) were monitored before, during, and after HUT in SCD, anemic controls and healthy subjects. Percent increase in heart rate from baseline was used to quantify cardiac ANS response, while percent decrease in PPG amplitude represented degree of peripheral vasoconstriction. After employing cluster analysis to determine threshold levels, the HUT responses were classified into four phenotypes: (CP) increased heart rate and peripheral vasoconstriction; (C) increased heart rate only; (P) peripheral vasoconstriction only; and (ST) subthreshold cardiac and peripheral vascular responses. Multinomial logistic regression (MLR) was used to relate these phenotypic responses to various parameters representing blood properties and baseline cardiovascular activity. The most common phenotypic response, CP, was found in 82% of non-SCD subjects, including those with chronic anemia. In contrast, 70% of SCD subjects responded abnormally to HUT: C-phenotype = 22%, P-phenotype = 37%, or ST-phenotype = 11%. MLR revealed that the HUT phenotypes were significantly associated with baseline cardiac parasympathetic activity, baseline peripheral vascular variability, hemoglobin level and SCD diagnosis. Low parasympathetic activity at baseline dramatically increased the probability of belonging to the P-phenotype in SCD subjects, even after adjusting for hemoglobin level, suggesting a characteristic autonomic dysfunction that is independent of anemia. Further analysis using a mathematical model of heart rate variability revealed that the low parasympathetic activity in P-phenotype SCD subjects was due to impaired respiratory-cardiac coupling rather than reduced cardiac baroreflex sensitivity. By having strong peripheral vasoconstriction without compensatory cardiac responses, P-phenotype subjects may be at increased risk for vaso-occlusive crisis. The classification of autonomic phenotypes based on HUT response may have potential use for guiding therapeutic interventions to alleviate the risk of adverse outcomes in SCD.

Published
2019
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13. Enhancing the Antibacterial Properties of PVDF Membrane by Hydrophilic Surface Modification Using Titanium Dioxide and Silver Nanoparticles

Author

Kajeephan Samree, Pen-umpai Srithai, Panaya Kotchaplai, Pumis Thuptimdang, Pisut Painmanakul, Mali Hunsom, and Sermpong Sairiam

Subjects
polyvinylidene fluoride membrane (PVDF), titanium dioxide nanoparticles (TiO2-NP), silver nanoparticles (AgNP), antibacterial property, antifouling property, Chemical technology, TP1-1185, Chemical engineering, TP155-156
Abstract

This work investigates polyvinylidene fluoride (PVDF) membrane modification to enhance its hydrophilicity and antibacterial properties. PVDF membranes were coated with nanoparticles of titanium dioxide (TiO2-NP) and silver (AgNP) at different concentrations and coating times and characterized for their porosity, morphology, chemical functional groups and composition changes. The results showed the successfully modified PVDF membranes containing TiO2-NP and AgNP on their surfaces. When the coating time was increased from 8 to 24 h, the compositions of Ti and Ag of the modified membranes were increased from 1.39 ± 0.13 to 4.29 ± 0.16 and from 1.03 ± 0.07 to 3.62 ± 0.08, respectively. The water contact angle of the membranes was decreased with increasing the coating time and TiO2-NP/AgNP ratio. The surface roughness and permeate fluxes of coated membranes were increased due to increased hydrophilicity. Antimicrobial and antifouling properties were investigated by the reduction of Escherichia coli cells and the inhibition of biofilm formation on the membrane surface, respectively. Compared with that of the original PVDF membrane, the modified membranes exhibited antibacterial efficiency up to 94% against E. coli cells and inhibition up to 65% of the biofilm mass reduction. The findings showed hydrophilic improvement and an antimicrobial property for possible wastewater treatment without facing the eminent problem of biofouling.

Published
2020
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14. Biophysical markers of the peripheral vasoconstriction response to pain in sickle cell disease.

Author

Patjanaporn Chalacheva, Maha Khaleel, John Sunwoo, Payal Shah, Jon A Detterich, Roberta M Kato, Wanwara Thuptimdang, Herbert J Meiselman, Richard Sposto, Jennie Tsao, John C Wood, Lonnie Zeltzer, Thomas D Coates, and Michael C K Khoo

Subjects
Medicine, Science
Abstract

Painful vaso-occlusive crisis (VOC), a complication of sickle cell disease (SCD), occurs when sickled red blood cells obstruct flow in the microvasculature. We postulated that exaggerated sympathetically mediated vasoconstriction, endothelial dysfunction and the synergistic interaction between these two factors act together to reduce microvascular flow, promoting regional vaso-occlusions, setting the stage for VOC. We previously found that SCD subjects had stronger vasoconstriction response to pulses of heat-induced pain compared to controls but the relative degrees to which autonomic dysregulation, peripheral vascular dysfunction and their interaction are present in SCD remain unknown. In the present study, we employed a mathematical model to decompose the total vasoconstriction response to pain into: 1) the neurogenic component, 2) the vascular response to blood pressure, 3) respiratory coupling and 4) neurogenic-vascular interaction. The model allowed us to quantify the contribution of each component to the total vasoconstriction response. The most salient features of the components were extracted to represent biophysical markers of autonomic and vascular impairment in SCD and controls. These markers provide a means of phenotyping severity of disease in sickle-cell anemia that is based more on underlying physiology than on genotype. The marker of the vascular component (BMv) showed stronger contribution to vasoconstriction in SCD than controls (p = 0.0409), suggesting a dominant myogenic response in the SCD subjects as a consequence of endothelial dysfunction. The marker of neurogenic-vascular interaction (BMn-v) revealed that the interaction reinforced vasoconstriction in SCD but produced vasodilatory response in controls (p = 0.0167). This marked difference in BMn-v suggests that it is the most sensitive marker for quantifying combined alterations in autonomic and vascular function in SCD in response to heat-induced pain.

Published
2017
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17. Progressive vasoconstriction with sequential thermal stimulation indicates vascular dysautonomia in sickle cell disease

Author

Veluswamy, Saranya, Shah, Payal, Khaleel, Maha, Thuptimdang, Wanwara, Chalacheva, Patjanaporn, Sunwoo, John, Denton, Christopher C., Kato, Roberta, Detterich, Jon, Wood, John C., Sposto, Richard, Khoo, Michael C.K., Zeltzer, Lonnie, and Coates, Thomas D.

Abstract

Persons with sickle cell disease (SCD) exhibit subjective hypersensitivity to cold and heat perception in experimental settings, and triggers such as cold exposure are known to precipitate vaso-occlusive crises by still unclear mechanisms. Decreased microvascular blood flow (MBF) increases the likelihood of vaso-occlusion by increasing entrapment of sickled red blood cells in the microvasculature. Because those with SCD have dysautonomia, we anticipated that thermal exposure would induce autonomic hypersensitivity of their microvasculature with an increased propensity toward vasoconstriction. We exposed 17 patients with SCD and 16 control participants to a sequence of predetermined threshold temperatures for cold and heat detection and cold and heat pain via a thermode placed on the right hand. MBF was measured on the contralateral hand by photoplethysmography, and cardiac autonomic balance was assessed by determining heart rate variability. Thermal stimuli at both detection and pain thresholds caused a significant decrease in MBF in the contralateral hand within seconds of stimulus application, with patients with SCD showing significantly stronger vasoconstriction (P= .019). Furthermore, patients with SCD showed a greater progressive decrease in blood flow than did the controls, with poor recovery between episodes of thermal stimulation (P= .042). They had faster vasoconstriction than the controls (P= .033), especially with cold detection stimulus. Individuals with higher anxiety also experienced more rapid vasoconstriction (P= .007). Augmented vasoconstriction responses and progressive decreases in perfusion with repeated thermal stimulation in SCD are indicative of autonomic hypersensitivity in the microvasculature. These effects are likely to increase red cell entrapment in response to clinical triggers such as cold or stress, which have been associated with vaso-occlusive crises in SCD.

Published
2020
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18. McDAPS: A multi-channel physiological signals display and analysis system for clinical researchers

Author

Thuptimdang, Wanwara, Chalacheva, Patjanaporn, Coates, Thomas D., and Khoo, Michael C.K.

Abstract

We introduce McDAPS, an interactive software for assessing autonomic imbalance from non-invasive multi-channel physiological recordings. McDAPS provides a graphical user interface for data visualization, beat-to-beat processing and interactive analyses. The software extracts beat-to-beat RR interval systolic blood pressure, diastolic blood pressure, the pulse amplitude of photoplethysmogram and the pulse-to-pulse interval. The analysis modules include stationary and time-varying power spectral analyses, moving-correlation analysis and univariate analyses. Analyses can also be performed in batch mode if multiple datasets have to be processed in the same way. The program exports results in standard CSV format.

Published
2023
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22. Hemolysis and Tricuspid Regurgitation Jet Velocity Predict Mortality in Patients with Sickle Cell Disease

Author

Shah, Payal, Bush, Adam, Suriany, Silvie, Liu, Honglei, Forman, Henry J, Chalacheva, Patjanaporn, Thuptimdang, Wanwara, Sunwoo, John, Veluswamy, Saranya, Denton, Christopher Clement, Khaleel, Maha, Kato, Roberta Miyeko, Perumbeti, Ajay, Sposto, Richard, Khoo, Michael, Coates, Thomas D., Wood, John C, and Detterich, Jon A

Abstract

Coates: Vifor Pharma: Consultancy; Sangamo: Consultancy, Honoraria; Celgene Corp.: Consultancy; ApoPharma: Consultancy, Honoraria.

Published
2018
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23. Sickle Cell Subjects Have a Stronger and Faster Neurally Mediated Vasoconstriction Response to Cold Pain That Correlates with Anxiety Scores

Author

Veluswamy, Saranya, Shah, Payal, Khaleel, Maha, Puliyel, Mammen, Thuptimdang, Wanwara, Chalacheva, Patjanaporn, Sunwoo, John, Denton, Christopher Clement, Kato, Roberta Miyeko, Detterich, Jon A, Wood, John C, Sposto, Richard, Khoo, Michael, Zeltzer, Lonnie, and Coates, Thomas D.

Abstract

Coates: ApoPharma: Consultancy, Honoraria; Sangamo: Consultancy, Honoraria; Vifor Pharma: Consultancy; Celgene Corp.: Consultancy.

Published
2018
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24. Attention to Pain Modulates the Vasoconstriction Response to Thermal Pain in Sickle Cell Disease Subjects but Not in Controls

Author

Veluswamy, Saranya, Shah, Payal, Chalacheva, Patjanaporn, Khaleel, Maha, Puliyel, Mammen, Thuptimdang, Wanwara, Kato, Roberta Miyeko, Sunwoo, John, Detterich, Jon A, Tsao, Jennie, Sposto, Richard, Wood, John C, Zeltzer, Lonnie, Khoo, Michael, and Coates, Thomas D.

Abstract

Sickle Cell Disease (SCD) is a genetic disorder in which sudden onset of painful vaso-occlusive crises (VOC) can occur due to the obstruction of the microvasculature by the rigid sickled red blood cells. We have previously shown that pain itself could be a trigger for VOC by causing significant neural mediated vasoconstriction in the microvasculature and thereby promoting obstruction and eventual progression to VOC. Many scientific models and experimental studies have shown that increased attention to painful stimuli influences subjective pain measures such as pain sensitivity and tolerance and can alter acute pain outcomes. In this study, we explored the role of pain attention in modulating the objective vasoconstriction response to thermal pain in SCD and controls.

Published
2017
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25. Cold Pain Causes the Greatest Drop in Microvascular Blood Flow in Sickle Cell Disease Subjects and Normal Controls Exposed to Graded Thermal Stimuli

Author

Veluswamy, Saranya, Shah, Payal, Khaleel, Maha, Puliyel, Mammen, Thuptimdang, Wanwara, Chalacheva, Patjanaporn, Sunwoo, John, Kato, Roberta Miyeko, Detterich, Jon A, Wood, John C, Tsao, Jennie, Zeltzer, Lonnie, Sposto, Richard, Khoo, Michael, and Coates, Thomas D.

Abstract

Background:Painful vaso-occlusive crises (VOC) are a frequent and debilitating complication of sickle cell disease (SCD). The exact mechanism of transition from steady state to VOC is not well understood although it is thought to occur due to progressive blockage of the microvasculature with rigid sickle shaped red blood cells. Thus, any trigger that decreases the microvascular blood flow increases the red blood cell transit time and can promote entrapment of sickled cells in the microvasculature and progression to VOC. Environmental factors such as exposure to cold wind and changes in weather are common triggers of VOC and have been shown to be associated with increased frequency of hospitalizations for pain in patients with SCD. There is limited experimental data in literature on the physiologic effects of these factors on peripheral perfusion in SCD.

Published
2017
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26. Regional Perfusion in Sickle Cell Subjects and Normal Controls Is a Physiological Biomarker of Mental Stress and Fear of Pain

Author

Khaleel, Maha, Shah, Payal, Thuptimdang, Wanwara, Sunwoo, John, Chalacheva, Patjanaporn, Kato, Roberta Miyeko, Detterich, Jon A, Wood, John C, Tsao, Jennie, Zeltzer, Lonnie, Sposto, Richard, Khoo, Michael C.K., and Coates, Thomas D.

Abstract

Wood: Celgene: Consultancy; AMAG: Consultancy; Ionis Pharmaceuticals: Consultancy; Vifor: Consultancy; Ionis Pharmaceuticals: Consultancy; Biomed Informatics: Consultancy; Vifor: Consultancy; World Care Clinical: Consultancy; World Care Clinical: Consultancy; Celgene: Consultancy; AMAG: Consultancy; Apopharma: Consultancy; Apopharma: Consultancy; Biomed Informatics: Consultancy.

Published
2016
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27. Autonomic and Vascular Dysregulation Enhance Pain-Induced Peripheral Vasoconstriction in Sickle Cell Disease

Author

Chalacheva, Patjanaporn, Khaleel, Maha, Sunwoo, John, Detterich, Jon A, Shah, Payal, Kato, Roberta Miyeko, Thuptimdang, Wanwara, Meiselman, Herbert J, Sposto, Richard, Tsao, Jennie, Wood, John C, Zeltzer, Lonnie, Coates, Thomas D., and Khoo, Michael C.K.

Abstract

Introduction:Sickle cell disease (SCD), an inherited blood disorder, is characterized by episodes of painful vaso-occlusive crises (VOC). Peripheral vasoconstriction may contribute to VOC by prolonging the transit time of red blood cells through the microvasculature. We recently demonstrated that heat-induced pain produces stronger vasoconstriction in SCD subjects versus controls, suggesting abnormal autonomic regulation of regional blood flow in SCD. Thus, although pain is generally thought to be a consequence of VOC, it is possible that pain itself may trigger a cascade of events that leads to large-scale VOC by promoting regional peripheral vasoconstriction.

Published
2016
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29. Aza-BODIPY-based logic gate chemosensors and their applications.

Author

Luangphai S, Thuptimdang P, Buddhiranon S, and Chanawanno K

Abstract

Dimethylaniline-substituted aza-BODIPY dyes (DA, DM, DP) were designed and synthesized aiming for ion detection. The Zn 2+ recognition ability was found in all compounds and the binding mechanism was possibly via dimethylaniline sites linked to the aza-BODIPY core. Upon Zn 2+ addition, the new absorption band and the color change occurred due to the altered charge transfer of the adducts. The custom-made colorimeter was successfully integrated into the dye's application, demonstrating a good linear relationship between resistance values and Zn 2+ concentration. The chromophore test strips were fabricated and exhibited distinct color changes upon aqueous Zn 2+ exposure. The compound DA also exhibits logical behavior with DA-Zn 2+ -Cu 2+ system. In terms of environmental hazards, the compounds exhibited no adverse effect on Pseudomonas putida at the concentration level of 0.2 mg/mL. These findings indicated that all synthesized aza-BODIPYs might be suitable for chemosensor probes for Zn 2+ detection with possibly low environmental risk., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published
2024
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30. Colorimetric Cu 2+ Detection of (1 E ,2 E )-1,2-Bis((1 H -pyrrol-2-yl)methylene)hydrazine Using a Custom-Built Colorimeter.

Author

Luangphai S, Fongsiang J, Thuptimdang P, Buddhiranon S, and Chanawanno K

Abstract

The compound (1 E ,2 E )-1,2-bis((1 H -pyrrol-2-yl)methylene)hydrazine ( 1 ) was investigated for its chemosensor application. The colorimetric response of 1 with various ions was investigated, and the selective optical change upon mixing with Cu 2+ was found. The Cu 2+ binding stoichiometry of 1 derived from Job's plot and the in silico study give us the tentative structural detail of the binding mode of 1 and Cu 2+ being 1:1. The binding constant between 1 and Cu 2+ from the Benesi-Hildebrand plot was 1.49 × 10 4 M -1 . The limit of detection of 1 in Cu 2+ detection was 0.64 μM (0.040 ppm), which is much lower than the WHO and US EPA maximum allowable Cu 2+ level in drinking water (2 and 1.3 ppm, respectively). The custom-built colorimeter demonstrates a good linear relationship between Cu 2+ concentration and electrical resistance (Ω) upon 1 -Cu 2+ ion binding., Competing Interests: The authors declare no competing financial interest., (© 2022 The Authors. Published by American Chemical Society.)

Published
2022
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31. Molecular dissolved organic matter removal by cotton-based adsorbents and characterization using high-resolution mass spectrometry.

Author

Rakruam P, Thuptimdang P, Siripattanakul-Ratpukdi S, and Phungsai P

Abstract

This research investigates the characteristics of dissolved organic matter (DOM) removal by synthesized cotton-fiber adsorbents using unknown screening analysis with high resolution and accurate mass spectrometry. Molecular characteristics of DOM removed by adsorbents were investigated semiquantitatively and unknown disinfection byproduct (DBP) formation potentials were also investigated. Adsorbents were modified using ferric nitrate to increase the magnetic property. The XRD pattern showed Fe-containing crystalline structures in the modified adsorbent (M-CF). The M-CF possessed higher mesopore volume, which enhanced the dissolved organic carbon (DOC) removal efficiency to 74.50% (compared to 32.12% in the unmodified CF adsorbent). The kinetics experiment showed that both adsorbents were better fitted to pseudo-second orders than pseudo-first orders. The initial rate constant was higher in M-CF (1.40 mg/g min) than in CF (0.02 mg/g min) treatments due to the higher mesopore volume in M-CF. M-CF removed almost 700 carbon‑hydrogen‑oxygen based DOMs (CHO features), 300 more CHO features than CF. CF selectively adsorbed only higher-molecular-weight (MW) CHO features (more CH 2 groups), while the mesopores in M-CF removed DOM with lower MW (fewer CH 2 groups) that were refractory to CF. The low MW DOM removed only by M-CF mesopore exhibited more oxidized (positive carbon oxidation state, C os ) and saturated characters (negative oxygen-subtracted double bond equivalent per carbon, (DBE-O)/C). After chlorination, over 50 unknown DBPs were detected, 33 of which were commonly found in all samples. M-CF decreased unknown formation potential more than CF. However, adsorption of M-CF and CF before chlorination resulted in different remaining precursors to water chlorination and formed unique DBPs from those precursors., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published
2021
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32. Enhancing the Antibacterial Properties of PVDF Membrane by Hydrophilic Surface Modification Using Titanium Dioxide and Silver Nanoparticles.

Author

Samree K, Srithai PU, Kotchaplai P, Thuptimdang P, Painmanakul P, Hunsom M, and Sairiam S

Abstract

This work investigates polyvinylidene fluoride (PVDF) membrane modification to enhance its hydrophilicity and antibacterial properties. PVDF membranes were coated with nanoparticles of titanium dioxide (TiO 2 -NP) and silver (AgNP) at different concentrations and coating times and characterized for their porosity, morphology, chemical functional groups and composition changes. The results showed the successfully modified PVDF membranes containing TiO 2 -NP and AgNP on their surfaces. When the coating time was increased from 8 to 24 h, the compositions of Ti and Ag of the modified membranes were increased from 1.39 ± 0.13 to 4.29 ± 0.16 and from 1.03 ± 0.07 to 3.62 ± 0.08, respectively. The water contact angle of the membranes was decreased with increasing the coating time and TiO 2 -NP/AgNP ratio. The surface roughness and permeate fluxes of coated membranes were increased due to increased hydrophilicity. Antimicrobial and antifouling properties were investigated by the reduction of Escherichia coli cells and the inhibition of biofilm formation on the membrane surface, respectively. Compared with that of the original PVDF membrane, the modified membranes exhibited antibacterial efficiency up to 94% against E. coli cells and inhibition up to 65% of the biofilm mass reduction. The findings showed hydrophilic improvement and an antimicrobial property for possible wastewater treatment without facing the eminent problem of biofouling.

Published
2020
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33. Phage shock protein and gene responses of Escherichia coli exposed to carbon nanotubes.

Author

Anh Le TT, Thuptimdang P, McEvoy J, and Khan E

Subjects
Bacterial Proteins genetics, Cell Membrane drug effects, Escherichia coli drug effects, Escherichia coli genetics, Escherichia coli Proteins genetics, Heat-Shock Proteins genetics, Bacterial Proteins metabolism, Cell Membrane metabolism, Escherichia coli metabolism, Escherichia coli Proteins metabolism, Gene Expression Regulation, Bacterial drug effects, Heat-Shock Proteins metabolism, Nanotubes, Carbon adverse effects
Abstract

Two-dimensional electrophoretic, western blotting, and quantitative polymerase chain reaction analyses of Escherichia coli cells exposed to pristine single walled carbon nanotubes (SWCNTs), and hydroxyl and carboxylic functionalized SWCNTs (SWCNT-OHs and SWCNT-COOHs) were conducted. SWCNT concentration and length were experimental variables. Exposing E. coli cells to SWCNTs led to changes in protein and gene expressions. Several proteins altered their regulations at a low SWCNT concentration (10 μg/ml) and were shut down at a high SWCNT concentration (100 μg/ml). The expressions of the phage shock protein (psp) operon including pspA, pspB, and pspC genes responded to the membrane stressors, SWCNTs, were also examined. While pspA and pspC expressions were influenced by the length, concentration, and functional groups of SWCNTs, pspB expression was not induced by SWCNTs. The alterations in phage shock protein and gene expressions indicated that SWCNTs caused cell membrane perturbation., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published
2019
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34. Reduction of silver nanoparticle toxicity affecting ammonia oxidation using cell entrapment technique.

Author

Giao NT, Limpiyakorn T, Thuptimdang P, Ratpukdi T, and Siripattanakul-Ratpukdi S

Subjects
Biodegradation, Environmental drug effects, Nitrification, Sewage, Silver, Ammonia metabolism, Metal Nanoparticles toxicity, Waste Disposal, Fluid methods
Abstract

Occurrence of silver nanoparticles (AgNPs) in wastewater treatment systems could impact the ammonia oxidation (AO). This study investigated the reduction of AgNPs and dissociated silver ion (Ag + ) toxicity on nitrifying sludge using cell entrapment technique. Three entrapment materials, including barium alginate (BA), polyvinyl alcohol (PVA), and a mixture of polyvinyl alcohol and barium alginate (PVA-BA), were applied. The BA beads provided the highest reduction of silver toxicity (up to 90%) and durability. Live/dead assays showed fatality of entrapped cells after exposure to AgNPs and Ag + . The maximum AO rate of the BA-entrapped cells was 5.6 mg-N/g-MLSS/h. The AO kinetics under the presence of silver followed an uncompetitive inhibition kinetic model. The experiments with AgNPs and Ag + gave the apparent maximum AO rates of 4.2 and 4.8 mg-N/g-MLSS/h, respectively. The apparent half-saturation constants of the BA-entrapped cells under the presence of silver were 10.5 to 13.4 mg/L. Scanning electron microscopic observation coupled with energy-dispersive X-ray spectroscopy indicated no silver inside the beads. This elucidates that the silver toxicity can be reduced by preventing silver penetration through the porous material, leading to less microbial cell damage. This study revealed the potential of the entrapment technology for mitigating the effect of silver species on nitrification.

Published
2019
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35. Dependence of toxicity of silver nanoparticles on Pseudomonas putida biofilm structure.

Author

Thuptimdang P, Limpiyakorn T, and Khan E

Subjects
Biofilms drug effects, Biomass, Metal Nanoparticles chemistry, Microscopy, Confocal, Silver chemistry, Biofilms growth & development, Metal Nanoparticles toxicity, Pseudomonas putida drug effects, Silver toxicity
Abstract

Susceptibility of biofilms with different physical structures to silver nanoparticles (AgNPs) was studied. Biofilms of Pseudomonas putida KT2440 were formed in batch conditions under different carbon sources (glucose, glutamic acid, and citrate), glucose concentrations (5 and 50 mM), and incubation temperatures (25 and 30 °C). The biofilms were observed using confocal laser scanning microscopy for their physical characteristics (biomass amount, thickness, biomass volume, surface to volume ratio, and roughness coefficient). The biofilms forming under different growth conditions exhibited different physical structures. The biofilm thickness and the roughness coefficient were found negatively and positively correlated with the biofilm susceptibility to AgNPs, respectively. The effect of AgNPs on biofilms was low (1-log reduction of cell number) when the biofilms had high biomass amount, high thickness, high biomass volume, low surface to volume ratio, and low roughness coefficient. Furthermore, the extracellular polymeric substance (EPS) stripping process was applied to confirm the dependence of susceptibility to AgNPs on the structure of biofilm. After the EPS stripping process, the biofilms forming under different conditions showed reduction in thickness and biomass volume, and increases in surface to volume ratio and roughness coefficient, which led to more biofilm susceptibility to AgNPs. The results of this study suggest that controlling the growth conditions to alter the biofilm physical structure is a possible approach to reduce the impact of AgNPs on biofilms in engineered and natural systems., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published
2017
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36. Influence of silver nanoparticles and liberated silver ions on nitrifying sludge: ammonia oxidation inhibitory kinetics and mechanism.

Author

Giao NT, Limpiyakorn T, Kunapongkiti P, Thuptimdang P, and Siripattanakul-Ratpukdi S

Subjects
Ammonia metabolism, Ions, Kinetics, Metal Nanoparticles toxicity, Sewage, Silver toxicity
Abstract

Silver nanoparticles (AgNPs) are widely used in commercial products because of their excellent antimicrobial activity. Entrance of AgNPs and its released Ag ions (Ag + ) into wastewater treatment plants could harm ammonia oxidation (AO) process resulting in environmental problems. This study investigated inhibitory kinetics and mechanism of AO from nitrifying sludge influenced by AgNPs and Ag + . The findings demonstrated that AgNPs and Ag + adversely influenced on AO. Silver ions were more toxic to AO than AgNPs, which was indicated by the lower inhibitory constant (K i ) of 0.29 mg/L compared to that of AgNPs (K i of 73.5 mg/L). Over the experimental period of 60 h, AgNPs at 1, 10, and 100 mg/L released Ag + in the average concentrations of 0.059, 0.171, and 0.503 mg/L, respectively. Silver nanoparticles of 1-100 mg/L inhibited AO by 45-74%, whereas Ag + of 0.05-0.50 mg/L inhibited AO by 53-94%. This suggested that the AgNP toxicity mainly derived from the liberated Ag + . Scanning electron microscopy results revealed that AgNPs attached on microbial cell surfaces, and both AgNPs and Ag + induced cell morphological change from rod shape to shorter rod shape. Transmission electron microscopy showed that AgNPs and Ag + diminished the thickness of the outer layer and reduced the density of internal parts of the exposed microbial cells, which could be the reasons for the morphology change. Live/dead results also confirmed that AgNPs and Ag + damaged membrane integrity of cells in the nitrifying sludge. This study suggested that the primary mechanism for toxicity of AgNPs was the liberation of Ag + and then both of silver species caused cell death.

Published
2017
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37. Effect of silver nanoparticles on Pseudomonas putida biofilms at different stages of maturity.

Author

Thuptimdang P, Limpiyakorn T, McEvoy J, Prüß BM, and Khan E

Subjects
Adenosine Diphosphate analysis, Adenosine Diphosphate metabolism, Biofilms growth & development, Pseudomonas putida growth & development, RNA, Bacterial biosynthesis, RNA, Bacterial isolation & purification, Biofilms drug effects, Metal Nanoparticles, Pseudomonas putida drug effects, Silver Compounds pharmacology
Abstract

This study determined the effect of silver nanoparticles (AgNPs) on Pseudomonas putida KT2440 biofilms at different stages of maturity. Three biofilm stages (1-3, representing early to late stages of development) were identified from bacterial adenosine triphosphate (ATP) activity under static (96-well plate) and dynamic conditions (Center for Disease Control and Prevention biofilm reactor). Extracellular polymeric substance (EPS) levels, measured using crystal violet and total carbohydrate assays, and expression of the EPS-associated genes, csgA and alg8, supported the conclusion that biofilms at later stages were older than those at earlier stages. More mature biofilms (stages 2 and 3) showed little to no reduction in ATP activity following exposure to AgNPs. In contrast, the same treatment reduced ATP activity by more than 90% in the less mature stage 1 biofilms. Regardless of maturity, biofilms with EPS stripped off were more susceptible to AgNPs than controls with intact EPS, demonstrating that EPS is critical for biofilm tolerance of AgNPs. The findings from this study show that stage of maturity is an important factor to consider when studying effect of AgNPs on biofilms., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published
2015
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