Your search keyword '"Phosphate buffered saline"' showing total 14 results

1. A Ninhydrin-Type Urea Sorbent for the Development of a Wearable Artificial Kidney

Author

Jong, Jacobus A. W., Guo, Yong, Hazenbrink, Diënty, Douka, Stefania, Verdijk, Dennis, van der Zwan, Johan, Houben, Klaartje, Baldus, Marc, Scheiner, Karina C., Dalebout, Remco, Verhaar, Marianne C., Smakman, Robert, Hennink, Wim E., Gerritsen, Karin G.F., van Nostrum, Cornelus F., Jong, Jacobus A. W., Guo, Yong, Hazenbrink, Diënty, Douka, Stefania, Verdijk, Dennis, van der Zwan, Johan, Houben, Klaartje, Baldus, Marc, Scheiner, Karina C., Dalebout, Remco, Verhaar, Marianne C., Smakman, Robert, Hennink, Wim E., Gerritsen, Karin G.F., and van Nostrum, Cornelus F.

Abstract

The aim of this study is to develop polymeric chemisorbents with a high density of ninhydrin groups, able to covalently bind urea under physiological conditions and thus potentially suitable for use in a wearable artificial kidney. Macroporous beads are prepared by suspension polymerization of 5-vinyl-1-indanone (vinylindanone) using a 90:10 (v/v) mixture of toluene and nitrobenzene as a porogen. The indanone groups are subsequently oxidized in a one-step procedure into ninhydrin groups. Their urea absorption kinetics are evaluated under both static and dynamic conditions at 37 °C in simulated dialysate (urea in phosphate buffered saline). Under static conditions and at a 1:1 molar ratio of ninhydrin: urea the sorbent beads remove ≈0.6–0.7 mmol g−1 and under dynamic conditions and at a 2:1 molar excess of ninhydrin ≈0.6 mmol urea g−1 sorbent in 8 h at 37 °C, which is a step toward a wearable artificial kidney.

Published

2020

2. The sweet detection of rolling circle amplification : Glucose-based electrochemical genosensor for the detection of viral nucleic acid

Author

Ciftci, S., Cánovas, Rocio, Neumann, F., Paulraj, T., Nilsson, M., Crespo, Gaston A., Madaboosi, N., Ciftci, S., Cánovas, Rocio, Neumann, F., Paulraj, T., Nilsson, M., Crespo, Gaston A., and Madaboosi, N.

Abstract

Herein, an isothermal padlock probe-based assay for the simple and portable detection of pathogens coupled with a glucose oxidase (GOx)-based electrochemical readout is reported. Infectious diseases remain a constant threat on a global scale, as in recurring pandemics. Rapid and portable diagnostics hold the promise to tackle the spreading of diseases and decentralising healthcare to point-of-care needs. Ebola, a hypervariable RNA virus causing fatalities of up to 90% for recent outbreaks in Africa, demands immediate attention for bedside diagnostics. The design of the demonstrated assay consists of a rolling circle amplification (RCA) technique, responsible for the generation of nucleic acid amplicons as RCA products (RCPs). The RCPs are generated on magnetic beads (MB) and subsequently, connected via streptavidin-biotin bonds to GOx. The enzymatic catalysis of glucose by the bound GOx allows for an indirect electrochemical measurement of the DNA target. The RCPs generated on the surface of the MB were confirmed by scanning electron microscopy, and among other experimental conditions such as the type of buffer, temperature, concentration of GOx, sampling and measurement time were evaluated for the optimum electrochemical detection. Accordingly, 125 μg mL−1 of GOx with 5 mM glucose using phosphate buffer saline (PBS), monitored for 1 min were selected as the ideal conditions. Finally, we assessed the analytical performance of the biosensing strategy by using clinical samples of Ebola virus from patients. Overall, this work provides a proof-of-concept bioassay for simple and portable molecular diagnostics of emerging pathogens using electrochemical detection, especially in resource-limited settings., QC 20200421

Published

2020

3. Kinetic analysis and epitope binning using surface plasmon resonance

Author

Nilvebrant, Johan and Nilvebrant, Johan

Abstract

The ability to quantify binding affinity of molecular interactions is an essential component of drug development and life science research. This chapter outlines the practical use of surface plasmon resonance spectroscopy to monitor protein-protein interactions with an emphasis on basic experimental design. A short summary of epitope binning assays is also included., QC 20181025

Published

2018

4. Storage stability of liposomes stored at elevated subzero temperatures in DMSO/ sucrose mixtures

Author

Sydykov, Bulat, Oldenhof, Harriette, Sieme, Harald, Wolkers, Willem F., Sydykov, Bulat, Oldenhof, Harriette, Sieme, Harald, and Wolkers, Willem F.

Abstract

Cryopreservation of biological materials is predominantly done using liquid nitrogen, and its application involves high maintenance costs and the need for periodical refilling of liquid nitrogen. Stable storage in mechanical freezers at −80C would eliminate these issues and allow for shipment of frozen specimens using dry ice. In this work, the possibility of increasing the storage temperature of cryopreserved samples to −80C by using combinations of DMSO and sucrose has been studied. Preservation efficacy was studied by measuring stability of liposomes encapsulated with carboxyfluorescein during storage at −150, −80 and −25C for up to three months. Thermal and molecular mobility properties of the different DMSO-sucrose formulations were measured using differential scanning calorimetry, whereas hydrogen bonding interactions of the formulations were probed by Fourier transform infrared spectroscopy. It was found that addition of sucrose to DMSO solutions increases the Tg, and decreases molecular mobility in the glassy state at a particular temperature. Although it was expected that storage above or close to Tg at −80C would affect liposome stability, stability was found to be similar compared to that of samples stored at −150C. Higher molecular mobility in the glassy state could not be associated with faster CF-leakage rates. Distinct differences in storage stability at −25C, far above Tg, were found among the sucrose/DMSO formulations, which were explained by the differences in permeability of sucrose and DMSO resulting in different levels of osmotic stress in the formulations.

Published

2018

5. Effect of annealing on the mechanical properties and the degradation of electrospun polydioxanone filaments

Author

Abhari, Roxanna, Mouthuy, Pierre-Alexis, Zargar, Nasim, Brown, Cameron, Carr, Andrew, Abhari, Roxanna, Mouthuy, Pierre-Alexis, Zargar, Nasim, Brown, Cameron, and Carr, Andrew

Abstract

Annealing, or heat treatment, has traditionally been used as a treatment to improve the strength and stiffness of electrospun materials. Understanding the extent to which annealing can improve the mechanical properties and alter the degradation rate of electrospun polydioxanone filaments could influence the range of its potential clinical applications. In this study, we investigated the effect of annealing electrospun polydioxanone filaments at varying times and temperatures and subsequently subjecting them to in vitro degradation in phosphate buffer saline for up to 6 weeks. Fibre alignment, tensile strength and thermal properties were assessed. It was determined that annealing at 65 °C for 3 h only marginally improved the tensile strength (9±2%) but had a significant effect on reducing strain and rate of degradation, as well as maintaining fibre alignment within the filament. The filament retained significantly more of its force at failure after 4 weeks (82±15%, compared to 61±20% for non annealed filaments) and after 6 weeks of degradation (81±9%, compared to 55±13% for non annealed filaments). Conversely, annealing filaments at 75°C improved the initial tensile strength of the filament (17±6%), but over 6 weeks, both samples annealed at 75 °C and 85 °C otherwise performed similarly or mechanically worse than those not annealed. These findings suggest that annealing at low temperatures is more useful as a method to tailor degradation rate than to improve mechanical properties. The ability to modulate the degradation profile with annealing may become useful to tailor the properties of electrospun materials without altering the chemistry of the polymer used. This might better match the degradation of the implant and gradual loss of mechanical properties with the new matrix deposition within the structure, enabling multiple regenerative strategies within a single

Published

2017

6. Degradation of Zr-based bulk metallic glasses used in load-bearing implants : A tribocorrosion appraisal

Author

Zhao, Guohua, Aune, R. E., Mao, Huahai, Espallargas, N., Zhao, Guohua, Aune, R. E., Mao, Huahai, and Espallargas, N.

Abstract

Owing to the amorphous structure, Bulk Metallic Glasses (BMGs) have been demonstrating attractive properties for potential biomedical applications. In the present work, the degradation mechanisms of Zr-based BMGs with nominal compositions Zr55Cu30Ni5Al10 and Zr65Cu18Ni7Al10 as potential load-bearing implant material were investigated in a tribocorrosion environment. The composition-dependent micro-mechanical and tribological properties of the two BMGs were evaluated prior to the tribocorrosion tests. The sample Zr65-BMG with a higher Zr content exhibited increased plasticity but relatively reduced wear resistance during the ball-on-disc tests. Both BMGs experienced abrasive wear after the dry wear test under the load of 2N. The cross-sectional subsurface structure of the wear track was examined by Focused Ion Beam (FIB). The electrochemical properties of the BMGs in simulated body fluid were evaluated by means of potentiodynamic polarization and X-ray Photoelectron Spectroscopy (XPS). The spontaneous passivation of Zr-based BMGs in Phosphate Buffer Saline solution was mainly attributed to the highly concentrated zirconium cation (Zr4+) in the passive film. The tribocorrosion performance of the BMGs was investigated using a reciprocating tribometer equipped with an electrochemical cell. The more passive nature of the Zr65-BMG had consequently a negative influence on its tribocorrosion resistance, which induced the wear-accelerated corrosion and eventually speeded-up the degradation process. It has been revealed the galvanic coupling was established between the depassivated wear track and the surrounding passive area, which is the main degradation mechanism for the passive Zr65-BMG subjected to the tribocorrosion environment., QC 20160526

Published

2016

7. Characteristics of silver nanoparticles in vehicles for biological applications

Author

Kejlová, Kristina, Kašpárková, Věra, Krsek, Daniel, Jírová, Dagmar, Kolářová, Hana, Dvořáková, Markéta, Tománková, Kateřina, Mikulcová, Veronika, Kejlová, Kristina, Kašpárková, Věra, Krsek, Daniel, Jírová, Dagmar, Kolářová, Hana, Dvořáková, Markéta, Tománková, Kateřina, and Mikulcová, Veronika

Abstract

Silver nanoparticles (AgNPs) have been used for decades as anti-bacterial agents in various industrial fields such as cosmetics, health industry, food storage, textile coatings and environmental applications, although their toxicity is not fully recognized yet. Antimicrobial and catalytic activity of AgNPs depends on their size as well as structure, shape, size distribution, and physico-chemical environment. The unique properties of AgNPs require novel or modified toxicological methods for evaluation of their toxic potential combined with robust analytical methods for characterization of nanoparticles applied in relevant vehicles, e.g., culture medium with/without serum and phosphate buffered saline. © 2015 Elsevier B.V. All rights reserved.

Published

2015

8. Characteristics of silver nanoparticles in vehicles for biological applications

Author

Kejlová, Kristina, Kašpárková, Věra, Krsek, Daniel, Jírová, Dagmar, Kolářová, Hana, Dvořáková, Markéta, Tománková, Kateřina, Mikulcová, Veronika, Kejlová, Kristina, Kašpárková, Věra, Krsek, Daniel, Jírová, Dagmar, Kolářová, Hana, Dvořáková, Markéta, Tománková, Kateřina, and Mikulcová, Veronika

Abstract

Silver nanoparticles (AgNPs) have been used for decades as anti-bacterial agents in various industrial fields such as cosmetics, health industry, food storage, textile coatings and environmental applications, although their toxicity is not fully recognized yet. Antimicrobial and catalytic activity of AgNPs depends on their size as well as structure, shape, size distribution, and physico-chemical environment. The unique properties of AgNPs require novel or modified toxicological methods for evaluation of their toxic potential combined with robust analytical methods for characterization of nanoparticles applied in relevant vehicles, e.g., culture medium with/without serum and phosphate buffered saline. © 2015 Elsevier B.V. All rights reserved.

Published

2015

9. A putative role of p53 pathway against impulse noise induced damage as demonstrated by protection with Pifithrin-alpha and a Src Inhibitor

Author

Fetoni, Anna Rita, Bielefeld, Ec, Nicotera, T, Henderson, D., Fetoni, Anna Rita (ORCID:0000-0001-5405-4301), Fetoni, Anna Rita, Bielefeld, Ec, Nicotera, T, Henderson, D., and Fetoni, Anna Rita (ORCID:0000-0001-5405-4301)

Abstract

Exposure to high-level noise leads to oxidative stress and triggers apoptosis of the hair cells. This study examined whether p53, a tumor suppressor protein, is activated in the cochlea following impulse noise exposure. Inhibition of p53 with pifithrin alpha, a specific p53 inhibitor, or KX1-004, a Src-protein tyrosine kinase inhibitor, was tested to determine if p53 inhibition could reduce noise-induced hearing loss and cochlear damage. Chinchillas were pre-treated with a local administration of pifithrin alpha or KX1-004 and exposed to impulse noise. The chinchillas were assessed for threshold shift at 1 and 24hours after the noise. At 4 or 24hours post noise, the cochleae were removed and organs of Corti were examined to assess the damage to the cells and upregulation of p53 by the noise. Apoptosis was evident in both outer hair cells and supporting cells. Phospho-p53 (Ser 15) was upregulated 4hours and 24hours after the noise. KX1-004 and pifithrin alpha both decreased threshold shift and the number of missing outer hair cells. These results indicate that p53 is involved in the early stages of noise-induced cell death and inhibition of this signaling pathway is a potential protective strategy against noise-induced hearing loss.

Published

2014

10. The clinical utility of the Halosperm assay and the development of a simplified method of human semen storage for the testing of sperm DNA fragmentation

Author

McEvoy, Ashleigh Cavell and McEvoy, Ashleigh Cavell

Abstract

Male infertility is typically diagnosed upon routine semen analysis following the World Health Organisation’s (WHO) semen analysis manual. Recent editions of the manual have essentially changed the diagnosis of a semen sample, prompting debate between experts as to which edition should be followed. Deoxyribonucleic Acid (DNA) integrity analysis is proving to be a useful adjunct to semen analysis as 15% of infertile men have a normal semen analysis but they have an increased DNA fragmentation level (DFL) which has been associated with increased disease incidence in any resultant offspring. However, such tests are not endorsed by the WHO, possibly due to a lack of standardisation in the implementation, analysis and clinical interpretation of methods used to evaluate DNA integrity. Improved efficiency of testing is achieved by batch testing or sending samples to a central laboratory for analysis, requiring an effective storage system. Most current protocols for semen storage and related DNA integrity testing are complex, expensive and require specialised equipment. Nevertheless, since the Halosperm® G2 Kit, requires only standard laboratory equipment, a simple, convenient and stable storage method for the purpose of testing sperm DNA fragmentation would be advantageous. DNA has been successfully extracted from air‐dried semen and one particular study has investigated the use of air‐dried semen slides as a method of storage prior to DNA fragmentation testing, however, the effects of time and temperature on the integrity of spermatozoa DNA has not been considered. The first objective of this present study was to investigate the relationship between sperm DNA fragmentation (using the Halosperm® G2 Test Kit) and semen analysis results (measured according to the 4th and 5th Edition WHO semenanalysis manuals) to determine the clinical utility of the Halosperm assay. The second objective was to consider extrinsic effects on the DNA integrity of air‐dried semen in order to dev

Published

2014

11. Glucose administration after traumatic brain injury improves cerebral metabolism and reduces secondary neuronal injury.

Author

Moro, Nobuhiro, Moro, Nobuhiro, Ghavim, Sima, Harris, Neil G, Hovda, David A, Sutton, Richard L, Moro, Nobuhiro, Moro, Nobuhiro, Ghavim, Sima, Harris, Neil G, Hovda, David A, and Sutton, Richard L

Abstract

Clinical studies have indicated an association between acute hyperglycemia and poor outcomes in patients with traumatic brain injury (TBI), although optimal blood glucose levels needed to maximize outcomes for these patients' remain under investigation. Previous results from experimental animal models suggest that post-TBI hyperglycemia may be harmful, neutral, or beneficial. The current studies determined the effects of single or multiple episodes of acute hyperglycemia on cerebral glucose metabolism and neuronal injury in a rodent model of unilateral controlled cortical impact (CCI) injury. In Experiment 1, a single episode of hyperglycemia (50% glucose at 2 g/kg, i.p.) initiated immediately after CCI was found to significantly attenuate a TBI-induced depression of glucose metabolism in cerebral cortex (4 of 6 regions) and subcortical regions (2 of 7) as well as to significantly reduce the number of dead/dying neurons in cortex and hippocampus at 24 h post-CCI. Experiment 2 examined effects of more prolonged and intermittent hyperglycemia induced by glucose administrations (2 g/kg, i.p.) at 0, 1, 3 and 6h post-CCI. The latter study also found significantly improved cerebral metabolism (in 3 of 6 cortical and 3 of 7 subcortical regions) and significant neuroprotection in cortex and hippocampus 1 day after CCI and glucose administration. These results indicate that acute episodes of post-TBI hyperglycemia can be beneficial and are consistent with other recent studies showing benefits of providing exogenous energy substrates during periods of increased cerebral metabolic demand.

Published

2013

12. Combined SCI and TBI: recovery of forelimb function after unilateral cervical spinal cord injury (SCI) is retarded by contralateral traumatic brain injury (TBI), and ipsilateral TBI balances the effects of SCI on paw placement.

Author

Inoue, Tomoo, Inoue, Tomoo, Lin, Amity, Ma, Xiaokui, McKenna, Stephen L, Creasey, Graham H, Manley, Geoffrey T, Ferguson, Adam R, Bresnahan, Jacqueline C, Beattie, Michael S, Inoue, Tomoo, Inoue, Tomoo, Lin, Amity, Ma, Xiaokui, McKenna, Stephen L, Creasey, Graham H, Manley, Geoffrey T, Ferguson, Adam R, Bresnahan, Jacqueline C, and Beattie, Michael S

Abstract

A significant proportion (estimates range from 16 to 74%) of patients with spinal cord injury (SCI) have concomitant traumatic brain injury (TBI), and the combination often produces difficulties in planning and implementing rehabilitation strategies and drug therapies. For example, many of the drugs used to treat SCI may interfere with cognitive rehabilitation, and conversely drugs that are used to control seizures in TBI patients may undermine locomotor recovery after SCI. The current paper presents an experimental animal model for combined SCI and TBI to help drive mechanistic studies of dual diagnosis. Rats received a unilateral SCI (75 kdyn) at C5 vertebral level, a unilateral TBI (2.0 mm depth, 4.0 m/s velocity impact on the forelimb sensori-motor cortex), or both SCI+TBI. TBI was placed either contralateral or ipsilateral to the SCI. Behavioral recovery was examined using paw placement in a cylinder, grooming, open field locomotion, and the IBB cereal eating test. Over 6weeks, in the paw placement test, SCI+contralateral TBI produced a profound deficit that failed to recover, but SCI+ipsilateral TBI increased the relative use of the paw on the SCI side. In the grooming test, SCI+contralateral TBI produced worse recovery than either lesion alone even though contralateral TBI alone produced no observable deficit. In the IBB forelimb test, SCI+contralateral TBI revealed a severe deficit that recovered in 3 weeks. For open field locomotion, SCI alone or in combination with TBI resulted in an initial deficit that recovered in 2 weeks. Thus, TBI and SCI affected forelimb function differently depending upon the test, reflecting different neural substrates underlying, for example, exploratory paw placement and stereotyped grooming. Concurrent SCI and TBI had significantly different effects on outcomes and recovery, depending upon laterality of the two lesions. Recovery of function after cervical SCI was retarded by the addition of a moderate TBI in the contralateral h

Published

2013

13. Effect of the environment on wear ranking and corrosion of biomedical CoCrMo alloys

Author

Universitat Politècnica de València. Departamento de Ingeniería Química y Nuclear - Departament d'Enginyeria Química i Nuclear, Igual Muñoz, Anna Neus, Mischler, Stefano, Universitat Politècnica de València. Departamento de Ingeniería Química y Nuclear - Departament d'Enginyeria Química i Nuclear, Igual Muñoz, Anna Neus, and Mischler, Stefano

Abstract

[EN] The corrosion behaviour and the wear ranking of biomedical high carbon (HC) and low carbon (LC) CoCrMo alloys sliding against an alumina ball in four different simulated body fluids [NaCl and phosphate buffered solutions (PBS) with and without albumin] has been analyzed by tribocorrosion and electrochemical techniques. The effects of alloy and of albumin on corrosion depend on the base electrolyte: differences between LC and HC alloy were only observed in NaCl solutions but not in PBS. Albumin increased significantly corrosion of both alloys in PBS solutions while its effect in NaCl was smaller. The wear ranking of the HC and LC alloys also depends on the environment. In the present study, HC CoCrMo alloy had lower wear resistance in NaCl and PBS + albumin than the LC alloy, while no differences between both alloys were found in the other solutions. This was attributed to surface chemical effects affecting third body behaviour. © Springer Science+Business Media, LLC 2011.

Published

2011

14. Effect of the environment on wear ranking and corrosion of biomedical CoCrMo alloys

Author

Universitat Politècnica de València. Departamento de Ingeniería Química y Nuclear - Departament d'Enginyeria Química i Nuclear, Igual Muñoz, Anna Neus, Mischler, Stefano, Universitat Politècnica de València. Departamento de Ingeniería Química y Nuclear - Departament d'Enginyeria Química i Nuclear, Igual Muñoz, Anna Neus, and Mischler, Stefano

Abstract

[EN] The corrosion behaviour and the wear ranking of biomedical high carbon (HC) and low carbon (LC) CoCrMo alloys sliding against an alumina ball in four different simulated body fluids [NaCl and phosphate buffered solutions (PBS) with and without albumin] has been analyzed by tribocorrosion and electrochemical techniques. The effects of alloy and of albumin on corrosion depend on the base electrolyte: differences between LC and HC alloy were only observed in NaCl solutions but not in PBS. Albumin increased significantly corrosion of both alloys in PBS solutions while its effect in NaCl was smaller. The wear ranking of the HC and LC alloys also depends on the environment. In the present study, HC CoCrMo alloy had lower wear resistance in NaCl and PBS + albumin than the LC alloy, while no differences between both alloys were found in the other solutions. This was attributed to surface chemical effects affecting third body behaviour. © Springer Science+Business Media, LLC 2011.

Published

2011