Your search keyword '"Silicon Dioxide"' showing total 1,754 results

1. Fundamental investigation of impact of water and TFA additions in peptide sub/supercritical fluid separations

Author

Samuelsson, Jörgen, Lesko, Marek, Thunberg, Linda, Weinmann, Annika Langborg, Limé, Fredrik, Enmark, Martin, Fornstedt, Torgny, Samuelsson, Jörgen, Lesko, Marek, Thunberg, Linda, Weinmann, Annika Langborg, Limé, Fredrik, Enmark, Martin, and Fornstedt, Torgny

Abstract

The retention of three peptides was studied under analytical and overloaded conditions at different concentrations of trifluoroacetic acid (TFA) and water added to the co-solvent methanol (MeOH). Four columns with different stationary phase properties, i.e., silica, diol, 2-ethylpyridine and cyanopropyl (CN) columns, were evaluated in this investigation. The overall aim was to get a deeper understanding on how column chemistry as well as water and TFA in the co-solvent affect the analytical and overloaded elution profiles using multivariate design of experiments and adsorption measurements of co-solvent components. Multivariate experimental design modeling indicated that water had on average around five times higher effect on the retention than the addition of TFA. The results also showed that the retention increases with the addition of TFA and water to the co-solvent on all columns except the CN column, on which the retention decreased. When examining the effect of adding water to the co-solvent, evidence of a hydrophilic interaction liquid chromatography (HILIC)-like retention mechanism was found on the three other columns with more polar stationary phases. However, on the CN column water acted as an additive, decreasing the retention due to competition with the peptide for available adsorption surface. Adsorption isotherm measurements of the polar solvent MeOH showed that MeOH adsorbs much weaker on the CN column than on the other columns. Addition of TFA and water to the co-solvent substantially sharpened the elution profiles under both overloaded and analytical conditions. Adding a small amount of TFA (from 0 % to 0.05 %) to the co-solvent substantially improved the peak shape of the elution profiles, while further addition (from 0.05 % to 0.15 %) had only a minor effect on the elution profile shape. The reduced retention on the CN column could not be explained by TFA adsorption, which was very weak on all studied columns (retention factor, 0.05–0.15). One cou

Published

2024

2. Development of ultra-lightweight foamed concrete modified with silicon dioxide (SiO2) nanoparticles: Appraisal of transport, mechanical, thermal, and microstructural properties

Author

Majeed, Samadar S., Mydin, Md Azree Othuman, Bahrami, Alireza, Dulaimi, Anmar, Özkılıç, Yasin Onuralp, Omar, Roshartini, Jagadesh, P., Majeed, Samadar S., Mydin, Md Azree Othuman, Bahrami, Alireza, Dulaimi, Anmar, Özkılıç, Yasin Onuralp, Omar, Roshartini, and Jagadesh, P.

Abstract

Over the last few decades, researchers have devoted significant consideration to the use of nanoscale elements in concrete. Silicon dioxide nanoparticles (SDNs) have been a popular subject of study among the several types of nanoparticles. This article describes the findings of a laboratory investigation that examined the properties of ultra-lightweight foamed concrete (ULFC) including different proportions of SDNs. Wide range of the properties was evaluated specifically the slump flow, density, consistency, flexural strength, modulus of elasticity, compressive strength, split tensile strength, thermal properties, porosity, water absorption, sorptivity, intrinsic air permeability, and chloride diffusion. Additionally, the scanning electron microscopy (SEM) and pore distributions analyses of different mixes were done. Results confirmed a noticeable increase in the mechanical properties of ULFC, with respective improvements in the 28-day compressive, split tensile, and flexural strengths of up to 70.49%, 76.19%, and 51.51%, respectively, at 1.5% of the SDNs inclusion. However, further increases in the SDNs percentage did not result in remarkable enhancements. As the SDN percentage increased from 1.5% to 2.5%, the ULFC’s sorptivity, porosity, water absorption, intrinsic air permeability, and chloride diffusion showed substantial improvements. When compared to the control sample, ULFC with SDNs demonstrated higher thermal conductivity values. The reason for this occurrence was determined to be the smaller pore size observed in the ULFC specimens containing SDNs. A great adjustment in the distribution of pore diameters was witnessed in the ULFC mixes when the percentages of SDNs were adjusted. The ULFC specimens, which included SDNs at the percentages of 0.5%, 1.0%, and 1.5%, indicated a reduction in the total number of large voids measuring 500 nm or more, compared to the control ULFC specimen. The findings of this study highlight the potential benefits of incorporating

Published

2024

3. Thin-film transistors with sputtered SiO₂ electrolyte

Author

Ma, Xiaochen, Song, Aimin, and Majewski, Leszek

Subjects

silicon dioxide, sputtering, transistor, oxide semiconductor, electrolyte

Abstract

Oxide semiconductor thin-film transistors (TFTs) have found applications in the driving circuitry of many devices due to their high performance and low cost. A low operating voltage is highly desirable for a variety of TFT applications such as displays, low-power electronics, battery-powered portable electronics, disposable electronics and sensors. A high gate capacitance is essential to achieve a low-voltage operation of TFTs. Generally, the two most common methods employed to achieve this are to decrease the dielectric thickness and to use a high dielectric constant (high-k) material as the dielectric. However, a thin gate dielectric normally leads to a relatively high gate leakage current and undesired issues, such as bias or temperature instability and high stress-induced leakage, which limit practical applications. Consequently, the aim of this research is to explore a simple alternative method to produce a dielectric with high capacitance, low processing temperature and low leakage current. Here, a novel solid-state oxide electrolyte deposited via room-temperature sputtering was developed for use as the gate dielectric in TFTs. The TFTs exhibit excellent properties, including a low operating voltage of 1 V, a low subthreshold swing around 80 mV /dec and a low leakage current below 1×10-10 A. The results demonstrate the promise of high-performance, fully-sputtered oxide semiconductor TFTs for low-voltage applications. The structure and composition of the electrolyte was characterized by scanning electron microscopy (SEM), transmission electron microscopy (TEM) and Rutherford backscattering spectrometry (RBS). It was found that the microstructure of the electrolyte held the key to the generation of high capacitance. Since the microstructure of the electrolyte is determined by sputtering conditions, the dependency of its physical and electrical properties on processing conditions were explored systematically. The results indicate that the properties of the sputtered electrolyte are tunable. In order to probe the operating mechanism of the electrolyte, the low frequency noise characteristics of the TFTs were measured. A typical 1/f2 noise was observed when the gate voltage exceeded 1 V. According to the analysis, the 1/f2 noise was caused by carrier generation and recombination, a consequence of the mobile ions inside the electrolyte.

Published

2016

4. Cathodoluminescence of electron irradiated opal-based nanocomposites

Author

Díaz-Guerra Viejo, Carlos, Piqueras de Noriega, Javier, Golubev, VG., Kurdyukov, D.A., Pevtsov, A. B., Díaz-Guerra Viejo, Carlos, Piqueras de Noriega, Javier, Golubev, VG., Kurdyukov, D.A., and Pevtsov, A. B.

Abstract

© 2001 American Institute of Physics. This work was supported by MCYT (Project No. MAT2000-2119) and the Russian R&D program ‘‘Nanostructures’’ (Grant No. 97-2016)., Synthetic opals infilled with silicon (opal-Si) and with Si and Pt (opal-Pt-Si) have been irradiated in a scanning electron microscope under high excitation conditions. Electron irradiation-induced changes in the morphology and luminescent defect structure of both types of nanocomposites were assessed by scanning electron microscopy and by cathodoluminescence (CL) microscopy and spectroscopy. Irradiation causes strong morphological changes in the ordered structure of the matrix and quenching of the nanocrystals-related CL emission in the opal-Si samples. On the contrary, such effects are not observed in the opal-Pt-Si nanocomposites. In both types of samples, electron irradiation induces the appearance of a CL band centered at 2.95 eV, attributed to complex centers involving oxygen vacancies in the silica spheres forming the matrix., MCYT, Russian R&D program ‘‘Nanostructures’’, Depto. de Física de Materiales, Fac. de Ciencias Físicas, TRUE, pub

Published

2023

5. Vacuum Ultraviolet (VUV) Light Photofunctionalization to Induce Human Oral Fibroblast Transmigration on Zirconia.

Author

Suzumura, Toshikatsu, Suzumura, Toshikatsu, Komatsu, Keiji, Sugita, Yoshihiko, Maeda, Hatsuhiko, Ogawa, Takahiro, Matsuura, Takanori, Suzumura, Toshikatsu, Suzumura, Toshikatsu, Komatsu, Keiji, Sugita, Yoshihiko, Maeda, Hatsuhiko, Ogawa, Takahiro, and Matsuura, Takanori

Abstract

Soft tissue adhesion and sealing around dental and maxillofacial implants, related prosthetic components, and crowns are a clinical imperative to prevent adverse outcomes of periodontitis and periimplantitis. Zirconia is often used to fabricate implant components and crowns. Here, we hypothesized that UV treatment of zirconia would induce unique behaviors in fibroblasts that favor the establishment of a soft tissue seal. Human oral fibroblasts were cultured on zirconia specimens to confluency before placing a second zirconia specimen (either untreated or treated with one minute of 172 nm vacuum UV (VUV) light) next to the first specimen separated by a gap of 150 µm. After seven days of culture, fibroblasts only transmigrated onto VUV-treated zirconia, forming a 2.36 mm volume zone and 5.30 mm leading edge. Cells migrating on VUV-treated zirconia were enlarged, with robust formation of multidirectional cytoplastic projections, even on day seven. Fibroblasts were also cultured on horizontally placed and 45° and 60° tilted zirconia specimens, with the latter configurations compromising initial attachment and proliferation. However, VUV treatment of zirconia mitigated the negative impact of tilting, with higher tilt angles increasing the difference in cellular behavior between control and VUV-treated specimens. Fibroblast size, perimeter, and diameter on day seven were greater than on day one exclusively on VUV-treated zirconia. VUV treatment reduced surface elemental carbon and induced superhydrophilicity, confirming the removal of the hydrocarbon pellicle. Similar effects of VUV treatment were observed on glazed zirconia specimens with silica surfaces. One-minute VUV photofunctionalization of zirconia and silica therefore promotes human oral fibroblast attachment and proliferation, especially under challenging culture conditions, and induces specimen-to-specimen transmigration and sustainable photofunctionalization for at least seven days.

Published

2023

6. El silicio como mitigador a salinidad en las variables fisiológicas de germinación de tres variedades de Solanum lycopersicum

Author

Enríquez-Acosta, Emmanuel A., Ruiz Espinoza, Francisco Higinio, Carballo Mendez, Fernando de Jesús, Beltrán Morales, Félix Alfredo, Vázquez Vázquez, Cirilo, García Sánchez, Héctor Donaciano, Enríquez-Acosta, Emmanuel A., Ruiz Espinoza, Francisco Higinio, Carballo Mendez, Fernando de Jesús, Beltrán Morales, Félix Alfredo, Vázquez Vázquez, Cirilo, and García Sánchez, Héctor Donaciano

Abstract

At present, agricultural soils are affected by salinity due to the excessive use of synthetic fertilizers and poor quality of the water for agricultural irrigation. Currently, products based on silicon(Si) are being applied to help the sustainability of agriculture, in addition, Si benefits plants to have greater tolerance to pests and diseases, helps against heavy metal toxicity and acts against water and salt stress. Therefore, the aim of the study was to evaluate the effect of silicon as a salinity mitigator on seed germination and initial growth of tomato seedlings. The work was carried out in the Germplasm laboratory of the Autonomous University of Baja California Sur, Mexico. The selected tomato varieties werecherry (Solanum lycopersicumvar. Cerasiforme), beef(Solanum lycopersicumvar. Floradade) and saladette (Solanum lycopersicumvar. RíoGrande).The experimental design was completely randomized with a 2 x 3 factorial arrangement, where factor A was saline concentrations (0, 25, 50 mM) of sodium chloride (NaCl) and factor Bwassilicon dilutions (0, 1, 2 mM). Each treatment included four repetitionsof 25 seeds each.Tomato cultivars showed different effects regarding salinity. The cherry cultivar showed decreases in its germinative variables with increasing salinity, indicating that the Floradade and RíoGrande cultivars are more tolerant to salinity. In this same sense, silicon presented a protective effect in the interaction (NaCl + Si), showing positive effects by increasing the variables evaluated, En la actualidad, los suelos agrícolas están afectados por salinidad debido al uso excesivo de fertilizantes y la mala calidad del agua para el riego agrícola. En la actualidad, los productos a base de silicio (Si) se están aplicando para ayudar a la sostenibilidad de la agricultura; además, el Si beneficia a las plantas a tener mayor tolerancia a plagas y enfermedades, ayuda contra la toxicidad por metales pesados y actúa contra el estrés hídrico y salino. Por lo tanto, el objetivo del estudio fue evaluar el efecto del silicio como atenuante de la salinidad en la germinación de semillas y crecimiento inicial de plántulas de tomate. El trabajo se realizó en el laboratorio de Germoplasma de la Universidad Autónoma Baja California Sur. Las variedades de tomate seleccionadas fueron: cherry (Solanum lycopersicum var. Cerasiforme), bola (Solanum lycopersicum var. Floradade) y saladette (Solanum lycopersicum var. Río Grande). El diseño experimental fue completamente al azar con arreglo factorial de 2 x 3, donde el factor A fueron las concentraciones salinas de cloruro de sodio (NaCl) (0, 25, 50 mM) y el factor B, las diluciones de silicio (0, 1, 2 mM). Cada tratamiento incluyó cuatro repeticiones de 25 semillas cada una. Los cultivares de tomate mostraron efectos diferentes respecto a la salinidad. El cultivar cherry mostró disminuciones en sus variables germinativas al incrementarse la salinidad, lo que indica que los cultivares Floradade y Río Grande son más tolerantes a salinidad. En este sentido el silicio presentó un efecto protector en la interacción (NaCl + Si), mostrando efectos positivos al incrementar las variables evaluadas.

Published

2023

7. Investigations on the Role of Iron (III) and Silica-Iron (III) for DNA Protection Against Highly Intense UV Radiation: Tracking the Connection of Prebiotic Chemistry to Biology

Author

European Commission, Ministerio de Ciencia e Innovación (España), Junta de Andalucía, Universidad de Granada, González-Ramírez, Luis A., Moreno, Abel, Ng, Joseph D., García-Ruiz, Juan Manuel, European Commission, Ministerio de Ciencia e Innovación (España), Junta de Andalucía, Universidad de Granada, González-Ramírez, Luis A., Moreno, Abel, Ng, Joseph D., and García-Ruiz, Juan Manuel

Abstract

The mineral reaction pathways that yield organic compounds of increasing complexity would have required a means of protective screening against strong ultraviolet radiation for macromolecular assembly on early Earth. In this study, a bacterial chromosomal plasmid DNA was used as a model biomolecule that represents a complex polymeric nucleic acid containing genetic information. The plasmid DNA was exposed to UV radiation through a medium containing air, water, iron (Fe3+), or silica-iron rich aqueous solutions. Our results demonstrate that the plasmid DNA underwent covalent breakage in an aqueous solution when exposed to UV radiation but was shielded against damage due to the presence of iron and silica. It is demonstrated that a suspension of ca. 40 nm colloidal particles of silica gel embedded with Fe3+ ions adsorbed on silanol groups that formed nanoclusters of noncrystalline iron hydroxide is an extremely efficient shelter against intense UV radiation. The implications for our understanding of primitive Earth and Earth-like planets, moons, and asteroids are discussed. The stability of a chromosomal DNA molecule against UV radiation in the presence of iron and silica may provide support on how macromolecules endured early Earth environments and brought forth important implications on early molecular survival against UV radiation.

Published

2023

8. Controlling the surface silanol density in capillary columns and planar silicon via the self-limiting, gas-phase deposition of tris(dimethylamino)methylsilane, and quantification of surface silanols after silanization by low energy ion scattering

Author

Moeini, Behnam, Pinder, Joshua W., Avval, Tahereh G., Jacobsen, Collin, Brongersma, Hidde H., Průša, Stanislav, Bábík, Pavel, Vaníčková, Elena, Argyle, Morris D., Strohmeier, Brian R., Jones, Brian, Shollenberger, Daniel, Bell, David S., Linford, Matthew R., Moeini, Behnam, Pinder, Joshua W., Avval, Tahereh G., Jacobsen, Collin, Brongersma, Hidde H., Průša, Stanislav, Bábík, Pavel, Vaníčková, Elena, Argyle, Morris D., Strohmeier, Brian R., Jones, Brian, Shollenberger, Daniel, Bell, David S., and Linford, Matthew R.

Abstract

Surface silanols (Si-OH) play a vital role on fused silica surfaces in chromatography. Here, we used an atmospheric-pressure, gas-phase reactor to modify the inner surface of a gas chromatography, fused silica capillary column (0.53 mm ID) with a small, reactive silane (tris(dimethylamino)methylsilane, TDMAMS). The deposition of TDMAMS on planar witness samples around the capillary was confirmed with X-ray photoelectron spectroscopy (XPS), ex situ spectroscopic ellipsometry (SE), and wetting. The number of surface silanols on unmodified and TDMAMS-modified native oxide-terminated silicon were quantified by tagging with dimethylzinc (DMZ) via atomic layer deposition (ALD) and counting the resulting zinc atoms with high sensitivity-low energy ion scattering (HS-LEIS). A bare, clean native oxide – terminated silicon wafer has 3.66 OH/nm2, which agrees with density functional theory (DFT) calculations from the literature. After TDMAMS modification of native oxide-terminated silicon, the number of surface silanols decreases by a factor of ca. 10 (to 0.31 OH/nm2). Intermediate surface testing (IST) was used to characterize the surface activities of functionalized capillaries. It suggested a significant deactivation/passivation of the capillary with some surface silanols remaining; the modified capillary shows significant deactivation compared to the native/unmodified fused silica tubing. We believe that this methodology for determining the number of residual silanols on silanized fused silica will be enabling for chromatography.

Published

2023

9. Functionalizing silica sol-gel with entrapped plant virus-based immunosorbent nanoparticles.

Author

McNulty, Matthew J, McNulty, Matthew J, Hamada, Naomi, Delzio, Jesse, McKee, Liber, Nandi, Somen, Longo, Marjorie L, McDonald, Karen A, McNulty, Matthew J, McNulty, Matthew J, Hamada, Naomi, Delzio, Jesse, McKee, Liber, Nandi, Somen, Longo, Marjorie L, and McDonald, Karen A

Abstract

Advancements in understanding and engineering of virus-based nanomaterials (VBNs) for biomedical applications motivate a need to explore the interfaces between VBNs and other biomedically-relevant chemistries and materials. While several strategies have been used to investigate some of these interfaces with promising initial results, including VBN-containing slow-release implants and VBN-activated bioceramic bone scaffolds, there remains a need to establish VBN-immobilized three dimensional materials that exhibit improved stability and diffusion characteristics for biosensing and other analyte-capture applications. Silica sol-gel chemistries have been researched for biomedical applications over several decades and are well understood; various cellular organisms and biomolecules (e.g., bacteria, algae, enzymes) have been immobilized in silica sol-gels to improve viability, activity, and form factor (i.e., ease of use). Here we present the immobilization of an antibody-binding VBN in silica sol-gel by pore confinement. We have shown that the resulting system is sufficiently diffuse to allow antibodies to migrate in and out of the matrix. We also show that the immobilized VBN is capable of antibody binding and elution functionality under different buffer conditions for multiple use cycles. The promising results of the VBN and silica sol-gel interface indicate a general applicability for VBN-based bioseparations and biosensing applications.

Published

2022

10. Dutch National Round Robin Trial on Plasma-Derived Circulating Cell-Free DNA Extraction Methods Routinely Used in Clinical Pathology for Molecular Tumor Profiling

Author

van der Leest, Paul, Ketelaar, Emma M., van Noesel, Carel J.M., van den Broek, Daan, van Boerdonk, Robert A.A., Deiman, Birgit, Rifaela, Naomi, van der Geize, Robert, Huijsmans, Cornelis J.J., Speel, Ernst Jan M., Geerlings, Maartje J., van Schaik, Ron H.N., Jansen, Maurice P.H.M., Dane-Vogelaar, Ria, Driehuis, Else, Leers, Mathie P.G., Sidorenkov, Grigory, Tamminga, Menno, van Kempen, Léon C., Schuuring, Ed, van der Leest, Paul, Ketelaar, Emma M., van Noesel, Carel J.M., van den Broek, Daan, van Boerdonk, Robert A.A., Deiman, Birgit, Rifaela, Naomi, van der Geize, Robert, Huijsmans, Cornelis J.J., Speel, Ernst Jan M., Geerlings, Maartje J., van Schaik, Ron H.N., Jansen, Maurice P.H.M., Dane-Vogelaar, Ria, Driehuis, Else, Leers, Mathie P.G., Sidorenkov, Grigory, Tamminga, Menno, van Kempen, Léon C., and Schuuring, Ed

Abstract

BACKGROUND: Efficient recovery of circulating tumor DNA (ctDNA) depends on the quantity and quality of circulating cell-free DNA (ccfDNA). Here, we evaluated whether various ccfDNA extraction methods routinely applied in Dutch laboratories affect ccfDNA yield, ccfDNA integrity, and mutant ctDNA detection, using identical lung cancer patient-derived plasma samples. METHODS: Aliquots of 4 high-volume diagnostic leukapheresis plasma samples and one artificial reference plasma sample with predetermined tumor-derived mutations were distributed among 14 Dutch laboratories. Extractions of ccfDNA were performed according to local routine standard operating procedures and were analyzed at a central reference laboratory for mutant detection and assessment of ccfDNA quantity and integrity. RESULTS: Mutant molecule levels in extracted ccfDNA samples varied considerably between laboratories, but there was no indication of consistent above or below average performance. Compared to silica membrane-based methods, samples extracted with magnetic beads-based kits revealed an overall lower total ccfDNA yield (-29%; P < 0.0001) and recovered fewer mutant molecules (-41%; P < 0.01). The variant allelic frequency and sample integrity were similar. In samples with a higher-than-average total ccfDNA yield, an augmented recovery of mutant molecules was observed. CONCLUSIONS: In the Netherlands, we encountered diversity in preanalytical workflows with potential consequences on mutant ctDNA detection in clinical practice. Silica membrane-based methodologies resulted in the highest total ccfDNA yield and are therefore preferred to detect low copy numbers of relevant mutations. Harmonization of the extraction workflow for accurate quantification and sensitive detection is required to prevent introduction of technical divergence in the preanalytical phase and reduce interlaboratory discrepancies.

Published

2022

11. Magnetic-Responsive Doxorubicin-Containing Materials Based on Fe3O4 Nanoparticles with a SiO2/PEG Shell and Study of Their Effects on Cancer Cell Lines

Author

Demin, A. M., Vakhrushev, A. V., Pershina, A. G., Valova, M. S., Efimova, L. V., Syomchina, A. A., Uimin, M. A., Minin, A. S., Levit, G. L., Krasnov, V. P., Charushin, V. N., Demin, A. M., Vakhrushev, A. V., Pershina, A. G., Valova, M. S., Efimova, L. V., Syomchina, A. A., Uimin, M. A., Minin, A. S., Levit, G. L., Krasnov, V. P., and Charushin, V. N.

Abstract

Novel nanocomposite materials based on Fe3O4 magnetic nanoparticles (MNPs) coated with silica and covalently modified by [(3-triethoxysilyl)propyl]succinic acid–polyethylene glycol (PEG 3000) conjugate, which provides a high level of doxorubicin (Dox) loading, were obtained. The efficiency of Dox desorption from the surface of nanomaterials under the action of an alternating magnetic field (AMF) in acidic and neutral media was evaluated. Their high cytotoxicity against tumor cells, as well as the drug release upon application of AMF, which leads to an increase in the cytotoxic effect, was demonstrated. © 2022 by the authors.

Published

2022

12. Selective Recovery of Cadmium, Cobalt, and Nickel from Spent Ni–Cd Batteries Using Adogen® 464 and Mesoporous Silica Derivatives

Author

Weshahy, A. R., Sakr, A. K., Gouda, A. A., Atia, B. M., Somaily, H. H., Hanfi, M. Y., Sayyed, M. I., El Sheikh, R., El-Sheikh, E. M., Radwan, H. A., Cheira, M. F., Gado, M. A., Weshahy, A. R., Sakr, A. K., Gouda, A. A., Atia, B. M., Somaily, H. H., Hanfi, M. Y., Sayyed, M. I., El Sheikh, R., El-Sheikh, E. M., Radwan, H. A., Cheira, M. F., and Gado, M. A.

Abstract

Spent Ni–Cd batteries are now considered an important source for many valuable metals. The recovery of cadmium, cobalt, and nickel from spent Ni–Cd Batteries has been performed in this study. The optimum leaching process was achieved using 20% H2SO4, solid/liquid (S/L) 1/5 at 80 °C for 6 h. The leaching efficiency of Fe, Cd, and Co was nearly 100%, whereas the leaching efficiency of Ni was 95%. The recovery of the concerned elements was attained using successive different separation techniques. Cd(II) ions were extracted by a solvent, namely, Adogen® 464, and precipitated as CdS with 0.5% Na2S solution at pH of 1.25 and room temperature. The extraction process corresponded to pseudo-2nd-order. The prepared PTU-MS silica was applied for adsorption of Co(II) ions from aqueous solution, while the desorption process was performed using 0.3 M H2SO4. Cobalt was precipitated at pH 9.0 as Co(OH)2 using NH4OH. The kinetic and thermodynamic parameters were also investigated. Nickel was directly precipitated at pH 8.25 using a 10% NaOH solution at ambient temperature. FTIR, SEM, and EDX confirm the structure of the products. © 2022 by the authors.

Published

2022

13. Inhalation of Silver Silicate Nanoparticles Leads to Transient and Differential Microglial Activation in the Rodent Olfactory Bulb.

Author

Huynh, Huong, Huynh, Huong, Upadhyay, Priya, Lopez, Cora H, Miyashiro, Malia K, Van Winkle, Laura S, Thomasy, Sara M, Pinkerton, Kent E, Huynh, Huong, Huynh, Huong, Upadhyay, Priya, Lopez, Cora H, Miyashiro, Malia K, Van Winkle, Laura S, Thomasy, Sara M, and Pinkerton, Kent E

Abstract

Engineered silver nanoparticles (AgNPs), including silver silicate nanoparticles (Ag-SiO2 NPs), are used in a wide variety of medical and consumer applications. Inhaled AgNPs have been found to translocate to the olfactory bulb (OB) after inhalation and intranasal instillation. However, the biological effects of Ag-SiO2 NPs and their potential nose-to-brain transport have not been evaluated. The present study assessed whether inhaled Ag-SiO2 NPs can elicit microglial activation in the OB. Adult Sprague-Dawley rats inhaled aerosolized Ag-SiO2 NPs at a concentration of 1 mg/ml for 6 hours. On day 0, 1, 7, and 21 post-exposure, rats were necropsied and OB were harvested. Immunohistochemistry on OB tissues were performed with anti-ionized calcium-binding adapter molecule 1 and heme oxygenase-1 as markers of microglial activation and oxidative stress, respectively. Aerosol characterization indicated Ag-SiO2 NPs were sufficiently aerosolized with moderate agglomeration and high-efficiency deposition in the nasal cavity and olfactory epithelium. Findings suggested that acute inhalation of Ag-SiO2 NPs elicited transient and differential microglial activation in the OB without significant microglial recruitment or oxidative stress. The delayed and differential pattern of microglial activation in the OB implied that inhaled Ag-SiO2 may have translocated to the central nervous system via intra-neuronal pathways.

Published

2022

14. Development and Optimization of a Silica Column-Based Extraction Protocol for Ancient DNA

Author

Dehasque, Marianne, Pečnerová, Patrícia, Kempe Lagerholm, Vendela, Ersmark, Erik, Danilov, Gleb K., Mortensen, Peter, Vartanyan, Sergey, Dalén, Love, Dehasque, Marianne, Pečnerová, Patrícia, Kempe Lagerholm, Vendela, Ersmark, Erik, Danilov, Gleb K., Mortensen, Peter, Vartanyan, Sergey, and Dalén, Love

Abstract

Rapid and cost-effective retrieval of endogenous DNA from ancient specimens remains a limiting factor in palaeogenomic research. Many methods have been developed to increase ancient DNA yield, but modifications to existing protocols are often based on personal experience rather than systematic testing. Here, we present a new silica column-based extraction protocol, where optimizations were tested in controlled experiments. Using relatively well-preserved permafrost samples, we tested the efficiency of pretreatment of bone and tooth powder with a bleach wash and a predigestion step. We also tested the recovery efficiency of MinElute and QIAquick columns, as well as Vivaspin columns with two molecular weight cut-off values. Finally, we tested the effect of uracil-treatment with two different USER enzyme concentrations. We find that neither bleach wash combined with a predigestion step, nor predigestion by itself, significantly increased sequencing efficiency. Initial results, however, suggest that MinElute columns are more efficient for ancient DNA extractions than QIAquick columns, whereas different molecular weight cut-off values in centrifugal concentrator columns did not have an effect. Uracil treatments are effective at removing DNA damage even at concentrations of 0.15 U/µL (as compared to 0.3 U/µL) of ancient DNA extracts.

Published

2022

15. Friction at nanopillared polymer surfaces beyond Amontons’ laws : Stick-slip amplitude coefficient (SSAC) and multiparametric nanotribological properties

Author

Ishak, Mohd I., Dobryden, Illia, Claesson, Per M., Briscoe, Wuge H., Su, Bo, Ishak, Mohd I., Dobryden, Illia, Claesson, Per M., Briscoe, Wuge H., and Su, Bo

Abstract

Frictional and nanomechanical properties of nanostructured polymer surfaces are important to their technological and biomedical applications. In this work, poly(ethylene terephthalate) (PET) surfaces with a periodic distribution of well-defined nanopillars were fabricated through an anodization/embossing process. The apparent surface energy of the nanopillared surfaces was evaluated using the Fowkes acid-base approach, and the surface morphology was characterized using scanning electron microscope (SEM) and atomic force microscope (AFM). The normal and lateral forces between a silica microparticle and these surfaces were quantified using colloidal probe atomic force microscopy (CP-AFM). The friction-load relationship followed Amonton's first law, and the friction coefficient appeared to scale linearly with the nanopillar height. Furthermore, all the nanopillared surfaces showed pronounced frictional instabilities compared to the smooth sliding friction loop on the flat control. Performing the stick–slip amplitude coefficient (SSAC) analysis, we found a correlation between the frictional instabilities and the nanopillars density, pull-off force and work of adhesion. We have summarised the dependence of the nanotribological properties on such nanopillared surfaces on five relevant parameters, i.e. pull-off force fp, Amontons’ friction coefficient μ, RMS roughness Rq, stick–slip amplitude friction coefficient SSAC, and work of adhesion between the substrate and water Wadh in a radar chart. Whilst demonstrating the complexity of the frictional behaviour of nanopillared polymer surfaces, our results show that analyses of multiparametric nanotribological properties of nanostructured surfaces should go beyond classic Amontons’ laws, with the SSAC more representative of the frictional properties compared to the friction coefficient. © 2020 Elsevier Inc., QC 20201125

Published

2021

16. Effect of Al2O3 Passive Layer on Stability and Doping of MoS2 Field-Effect Transistor (FET) Biosensors.

Author

Pham, Tung, Pham, Tung, Chen, Ying, Lopez, Jhoann, Yang, Mei, Tran, Thien-Toan, Mulchandani, Ashok, Pham, Tung, Pham, Tung, Chen, Ying, Lopez, Jhoann, Yang, Mei, Tran, Thien-Toan, and Mulchandani, Ashok

Abstract

Molybdenum disulfide (MoS2) features a band gap of 1.3 eV (indirect) to 1.9 eV (direct). This tunable band gap renders MoS2 a suitable conducting channel for field-effect transistors (FETs). In addition, the highly sensitive surface potential in MoS2 layers allows the feasibility of FET applications in biosensors, where direct immobilization and detection of biological molecules are conducted in wet conditions. In this work, we report, for the first time, the degradation of chemical vapor deposition (CVD) grown MoS2 FET-based sensors in the presence of phosphate buffer and water, which caused false positive response in detection. We conclude the degradation was originated by physical delamination of MoS2 thin films from the SiO2 substrate. The problem was alleviated by coating the sensors with a 30 nm thick aluminum oxide (Al2O3) layer using atomic layer deposition technique (ALD). This passive oxide thin film not only acted as a protecting layer against the device degradation but also induced a strong n-doping onto MoS2, which permitted a facile method of detection in MoS2 FET-based sensors using a low-power mode chemiresistive I-V measurement at zero gate voltage (Vgate = 0 V). Additionally, the oxide layer provided available sites for facile functionalization with bioreceptors. As immunoreaction plays a key role in clinical diagnosis and environmental analysis, our work presented a promising application using such enhanced Al2O3-coated MoS2 chemiresistive biosensors for detection of HIgG with high sensitivity and selectivity. The biosensor was successfully applied to detect HIgG in artificial urine, a complex matrix containing organics and salts.

Published

2021

17. Cooperative formation of porous silica and peptides on the prebiotic Earth.

Author

Navrotsky, Alexandra, Navrotsky, Alexandra, Hervig, Richard, Lyons, James, Seo, Dong-Kyun, Shock, Everett, Voskanyan, Albert, Navrotsky, Alexandra, Navrotsky, Alexandra, Hervig, Richard, Lyons, James, Seo, Dong-Kyun, Shock, Everett, and Voskanyan, Albert

Abstract

Modern technology has perfected the synthesis of catalysts such as zeolites and mesoporous silicas using organic structure directing agents (SDA) and their industrial use to catalyze a large variety of organic reactions within their pores. We suggest that early in prebiotic evolution, synergistic interplay arose between organic species in aqueous solution and silica formed from rocks by dynamic dissolution-recrystallization. The natural organics, for example, amino acids, small peptides, and fatty acids, acted as SDA for assembly of functional porous silica structures that induced further polymerization of amino acids and peptides, as well as other organic reactions. Positive feedback between synthesis and catalysis in the silica-organic system may have accelerated the early stages of abiotic evolution by increasing the formation of polymerized species.

Published

2021

18. Immune checkpoint inhibition in syngeneic mouse cancer models by a silicasome nanocarrier delivering a GSK3 inhibitor.

Author

Allen, Sean D, Allen, Sean D, Liu, Xiangsheng, Jiang, Jinhong, Liao, Yu-Pei, Chang, Chong Hyun, Nel, Andre E, Meng, Huan, Allen, Sean D, Allen, Sean D, Liu, Xiangsheng, Jiang, Jinhong, Liao, Yu-Pei, Chang, Chong Hyun, Nel, Andre E, and Meng, Huan

Abstract

Checkpoint blocking antibodies that interfere in the PD-1/PD-L1 axis provide effective cancer immunotherapy for tumors that are immune inflamed or induced to become "hot". It has also been demonstrated that a small molecule inhibitor of the signaling hub kinase GSK3 can interfere in the PD-1/PD-L1 axis in T-cells by suppressing PD-1 expression. This provides an alternative approach to intervening in the PD-1/PD-L1 axis to provide cancer immunotherapy. In this communication, we demonstrate the remote loading of GSK3 inhibitor AZD1080 into the porous interior of mesoporous silica nanoparticles coated with a lipid bilayer (a.k.a. silicasomes). In a MC38 colon cancer model, intravenous injection (IV) of silicasome-encapsulated AZD1080 significantly improved biodistribution and drug delivery to the tumor site. The improved drug delivery was accompanied by cytotoxic MC38 tumor cell killing by perforin-releasing CD8+ T-cells, exhibiting reduced PD-1 expression. IV injection of encapsulated AZD1080 also resulted in significant tumor shrinkage in other syngeneic mouse tumor models, including another colorectal tumor (CT26), as well as pancreas (KPC) and lung (LLC) cancer models. Not only was the therapeutic efficacy of encapsulated AZD1080 similar or better than anti-PD-1 antibody, but the treatment was devoid of treatment toxicity. These results provide proof-of-principal demonstration of the feasibility of using encapsulated delivery of a GSK3 inhibitor to provide cancer immunotherapy, with the possibility to be used as a monotherapy or in combination with chemotherapy or other immunomodulatory agents.

Published

2021

19. An In Silica Model for RPE Loss Patterns in Choroideremia.

Author

Young, Benjamin K, Young, Benjamin K, Shen, Liangbo L, Del Priore, Lucian V, Young, Benjamin K, Young, Benjamin K, Shen, Liangbo L, and Del Priore, Lucian V

Abstract

PurposeTo use empirical data to develop a model of cell loss in choroideremia that predicts the known exponential rate of RPE loss and central, scalloped preservation pattern seen in this disease.MethodsA computational model of RPE loss was created in Python 3.7, which constructed an array of RPE cells clusters, binarized as either live or atrophic. Two rules were applied to this model: the background effect gave each cell a chance of dying defined by a background function, and the neighbor effect increased the chance of RPE cell death if a neighbor were dead. The known anatomic distribution of rods, RPE, choriocapillaris density, amacrine, ganglion, and cone cells were derived from the literature and applied to this model. Atrophy growth rates were measured over arbitrary time units and fit to the known exponential decay model. The main outcome measures: included topography of atrophy over time and fit of simulated residual RPE area to exponential decay.ResultsA background effect alone can simulate exponential decay, but does not simulate the central island preservation seen in choroideremia. An additive neighbor effect alone does not simulate exponential decay. When the neighbor effect multiplies the background effect using the rod density function, our model follows an exponential decay, similar to previous observations. Also, our model predicts a residual island of RPE that resembles the topographic distribution of residual RPE seen in choroideremia.ConclusionsThe pattern of RPE loss in choroideremia can be predicted by applying simple rules. The RPE preservation pattern typically seen in choroideremia may be related to the underlying pattern of rod density. Further studies are needed to validate these findings.

Published

2021

20. War journalism: an occupational exposure

Author

Magnavita, Nicola, Congedo, Maria Teresa, Di Prinzio, Reparata Rosa, Iuliano, Angela, Magnavita, Nicola (ORCID:0000-0002-0988-7344), Magnavita, Nicola, Congedo, Maria Teresa, Di Prinzio, Reparata Rosa, Iuliano, Angela, and Magnavita, Nicola (ORCID:0000-0002-0988-7344)

Abstract

Apart from the risk of accidents, war theatres present a hazard related to numerous long-lasting toxic agents. For 10 years, a >60-year-old male journalist worked in war theatres in the Far and Near East where he was exposed to asbestos and other toxic substances (metals, silica, clays, polycyclic aromatic hydrocarbons and other organic substances) contained in dust and smoke of destroyed buildings. More than 15 years later, he developed a mucoepidermoid carcinoma of the soft palate and, subsequently, a pleural malignant mesothelioma. The safety of war journalists should focus not only on preventing the risk of being killed, but also on providing protection from toxic and carcinogenic agents. Exposure to substances released during the destruction of buildings can also pose a carcinogenic risk for survivors.

Published

2021

21. A Chip Integrity Monitor for Evaluating Moisture/Ion Ingress in mm-Sized Single-Chip Implants

Author

Akgün, O.C. (author), Nanbakhsh, K. (author), Giagka, Vasiliki (author), Serdijn, W.A. (author), Akgün, O.C. (author), Nanbakhsh, K. (author), Giagka, Vasiliki (author), and Serdijn, W.A. (author)

Abstract

For mm-sized implants incorporating silicon integrated circuits, ensuring lifetime operation of the chip within the corrosive environment of the body still remains a critical challenge. For the chip's packaging, various polymeric and thin ceramic coatings have been reported, demonstrating high biocompatibility and barrier properties. Yet, for the evaluation of the packaging and lifetime prediction, the conventional helium leak test method can no longer be applied due to the mm-size of such implants. Alternatively, accelerated soak studies are typically used instead. For such studies, early detection of moisture/ion ingress using an in-situ platform may result in a better prediction of lifetime functionality. In this work, we have developed such a platform on a CMOS chip. Ingress of moisture/ions would result in changes in the resistance of the interlayer dielectrics (ILD) used within the chip and can be tracked using the proposed system, which consists of a sensing array and an on-chip measurement engine. The measurement system uses a novel charge/discharge based time-mode resistance sensor that can be implemented using simple yet highly robust circuitry. The sensor array is implemented together with the measurement engine in a standard 0.18 μm 6-metal CMOS process. The platform was validated through a series of dry and wet measurements. The system can measure the ILD resistance with values of up to 0.504 peta-ohms, with controllable measurement steps that can be as low as 0.8 MΩ. The system works with a supply voltage of 1.8 V, and consumes 4.78 mA. Wet measurements in saline demonstrated the sensitivity of the platform in detecting moisture/ion ingress. Such a platform could be used both in accelerated soak studies and during the implant's life-time for monitoring the integrity of the chip's packaging., Bio-Electronics

Published

2020

22. Performance of a CO2 sorbent for indoor air cleaning applications: Effects of environmental conditions, sorbent aging, and adsorption of co-occurring formaldehyde.

Author

Tang, Xiaochen, Tang, Xiaochen, Houzé de l'Aulnoit, Sébastien, Buelow, Mark T, Slack, Jonathan, Singer, Brett C, Destaillats, Hugo, Tang, Xiaochen, Tang, Xiaochen, Houzé de l'Aulnoit, Sébastien, Buelow, Mark T, Slack, Jonathan, Singer, Brett C, and Destaillats, Hugo

Abstract

Indoor air cleaning systems that incorporate CO2 sorbent materials enable HVAC load shifting and efficiency improvements. This study developed a bench-scale experimental system to evaluate the performance of a sorbent under controlled operation conditions. A thermostatic holder containing 3.15 g sorbent was connected to a manifold that delivered CO2 -enriched air at a known temperature and relative humidity (RH). The air stream was also enriched with 0.8-2.1 ppm formaldehyde. The CO2 concentration was monitored in real-time upstream and downstream of the sorbent, and integrated formaldehyde samples were collected at different times using DNPH-coated silica cartridges. Sorbent regeneration was carried out by circulating clean air in countercurrent. Almost 200 loading/regeneration cycles were performed in the span of 17 months, from which 104 were carried out at reference test conditions defined by loading with air at 25°C, 38% RH, and 1000 ppm CO2 , and regenerating with air at 80°C, 3% RH and 400 ppm CO2 . The working capacity decreased slightly from 43-44 mg CO2 per g sorbent to 39-40 mg per g over the 17 months. The capacity increased with lower loading temperature (in the range 15-35°C) and higher regeneration temperature, between 40 and 80°C. The CO2 capacity was not sensitive to the moisture content in the range 6-9 g/m3 , and decreased slightly when dry air was used. Loading isothermal breakthrough curves were fitted to three simple adsorption models, verifying that pseudo-first-order kinetics appropriately describes the adsorption process. The model predicted that equilibrium capacities decreased with increasing temperature from 15 to 35°C, while adsorption rate constants slightly increased. The formaldehyde adsorption efficiency was 80%-99% in different cycles, corresponding to an average capacity of 86 ± 36 µg/g. Formaldehyde was not quantitatively released during regeneration, but its accumulation

Published

2020

23. Evidence for the critical role of nanoscale surface roughness on the retention and release of silver nanoparticles in porous media.

Author

Liang, Yan, Liang, Yan, Zhou, Jini, Dong, Yawen, Klumpp, Erwin, Šimůnek, Jiří, Bradford, Scott A, Liang, Yan, Liang, Yan, Zhou, Jini, Dong, Yawen, Klumpp, Erwin, Šimůnek, Jiří, and Bradford, Scott A

Abstract

Although nanoscale surface roughness has been theoretically demonstrated to be a crucial factor in the interaction of colloids and surfaces, little experimental research has investigated the influence of roughness on colloid or silver nanoparticle (AgNP) retention and release in porous media. This study experimentally examined AgNP retention and release using two sands with very different surface roughness properties over a range of solution pH and/or ionic strength (IS). AgNP transport was greatly enhanced on the relatively smooth sand in comparison to the rougher sand, at higher pH, and lower IS and fitted model parameters showed systematic changes with these physicochemical factors. Complete release of the retained AgNPs was observed from the relatively smooth sand when the solution IS was decreased from 40 mM NaCl to deionized (DI) water and then the solution pH was increased from 6.5 to 10. Conversely, less than 40% of the retained AgNPs was released in similar processes from the rougher sand. These observations were explained by differences in the surface roughness of the two sands which altered the energy barrier height and the depth of the primary minimum with solution chemistry. Limited numbers of AgNPs apparently interacted in reversible, shallow primary minima on the smoother sand, which is consistent with the predicted influence of a small roughness fraction (e.g., pillar) on interaction energies. Conversely, larger numbers of AgNPs interacted in deeper primary minima on the rougher sand, which is consistent with the predicted influence at concave locations. These findings highlight the importance of surface roughness and indicate that variations in sand surface roughness can greatly change the sensitivity of nanoparticle transport to physicochemical factors such as IS and pH due to the alteration of interaction energy and thus can strongly influence nanoparticle mobility in the environment.

Published

2020

24. Occupational silica exposure in an Australian systemic sclerosis cohort.

Author

Nikpour M., Patel S., Morrisroe K., Roddy J., Stevens W., Proudman S., Hansen D., Sahhar J., Sim M.R., Ngian G.-S., Walker J., Strickland G., Wilson M., Ferdowsi N., Major G., Nikpour M., Patel S., Morrisroe K., Roddy J., Stevens W., Proudman S., Hansen D., Sahhar J., Sim M.R., Ngian G.-S., Walker J., Strickland G., Wilson M., Ferdowsi N., and Major G.

Abstract

OBJECTIVE: To determine the frequency of self-reported occupational exposure to silica in SSc patients enrolled in the Australian Scleroderma Cohort Study, and to compare the disease characteristics of the silica-exposed patients with those of the non-exposed patients. METHOD(S): Data collected over a 12-year period from 1670 SSc patients were analysed. We compared the demographic and clinical characteristics of those who reported occupational silica exposure with those who did not. A subgroup analysis of male patients was performed, as well as a multivariable analysis of correlates of silica exposure. RESULT(S): Overall, 126 (7.5%) of the cohort reported occupational silica exposure. These individuals were more likely to be male (73 of 231, i.e. 31.6% males exposed) and to have worked in mining and construction industries. Those who reported silica exposure were younger at the onset of SSc skin involvement [odds ratio (OR) 0.9, P=0.02], of male gender (OR 14.9, P<0.001), have joint contractures (OR 1.8, P=0.05) and have higher physical disability as defined by scleroderma HAQ (OR 1.4, P=0.01). CONCLUSION(S): The highest percentage of silica exposure was found in males. These patients were more likely to have the presence of certain clinical manifestations and Scl-70 antibody, which is known to confer a poor prognosis. These findings support the association between occupational silica exposure and the subsequent development of SSc. Further investigation is required to describe the range of clinical manifestations and disease course, including prognosis and treatment response, in those diagnosed with occupationally induced SSc compared with idiopathic SSc.Copyright © The Author(s) 2020. Published by Oxford University Press on behalf of the British Society for Rheumatology. All rights reserved. For permissions, please email: journals.permissions@oup.com.

Published

2020

25. Effect of Fe/SiO2 and CaO/SiO2 mass ratios on metal recovery rate and metal content in slag in oxygen-enriched direct smelting of jamesonite concentrate

Author

Zhang Zhong-Tang, Dai Xi., Zhang Zhong-Tang, and Dai Xi.

Abstract

A laboratory study of the oxygen-enriched direct smelting of jamesonite concentrate in an electric furnace at 1 250 degrees C using antimony blast-furnace slag and Fe2O3-CaO-SiO2 flux is presented. The influence of mass ratios of Fe/SiO2 and CaO/SiO2 on Pb + Sb recovery rates and Pb + Sb contents in the slag is described. The results show that, using a slag composition of 21-22 wt% Fe, 19-20 wt% SiO2 and 17-18 wt% CaO with mass ratios of Fe/SiO2 of 1.1:1 and CaO/SiO2 of 0.9:1 (calculated viscosity less than 0.5 Pa.s), the Pb + Sb recovery rate of the smelting process and the Pb + Sb content in the slag are up to 88.30% and less than 1 wt%, respectively. X-ray diffraction patterns and backscattered electron images indicate that the principal phases in the alloy comprise metallic Pb and metallic Sb along with small quantities of intermetallic compounds (Cu2Sb and FeSb2), while the slag mostly consists of kirschsteinite and fayalite, and zinc in the raw material is mainly oxidised into the slag as ZnO. A phase diagram of the FeO-SiO2-CaO ternary slag system from the literature is provided., A laboratory study of the oxygen-enriched direct smelting of jamesonite concentrate in an electric furnace at 1 250 degrees C using antimony blast-furnace slag and Fe2O3-CaO-SiO2 flux is presented. The influence of mass ratios of Fe/SiO2 and CaO/SiO2 on Pb + Sb recovery rates and Pb + Sb contents in the slag is described. The results show that, using a slag composition of 21-22 wt% Fe, 19-20 wt% SiO2 and 17-18 wt% CaO with mass ratios of Fe/SiO2 of 1.1:1 and CaO/SiO2 of 0.9:1 (calculated viscosity less than 0.5 Pa.s), the Pb + Sb recovery rate of the smelting process and the Pb + Sb content in the slag are up to 88.30% and less than 1 wt%, respectively. X-ray diffraction patterns and backscattered electron images indicate that the principal phases in the alloy comprise metallic Pb and metallic Sb along with small quantities of intermetallic compounds (Cu2Sb and FeSb2), while the slag mostly consists of kirschsteinite and fayalite, and zinc in the raw material is mainly oxidised into the slag as ZnO. A phase diagram of the FeO-SiO2-CaO ternary slag system from the literature is provided.

Published

2020

26. Dynamic subcellular translocation of V-type H+ -ATPase is essential for biomineralization of the diatom silica cell wall.

Author

Yee, Daniel P, Yee, Daniel P, Hildebrand, Mark, Tresguerres, Martin, Yee, Daniel P, Yee, Daniel P, Hildebrand, Mark, and Tresguerres, Martin

Abstract

Diatom cell walls, called frustules, are main sources of biogenic silica in the ocean and their intricate morphology is an inspiration for nanoengineering. Here we show dynamic aspects of frustule biosynthesis involving acidification of the silica deposition vesicle (SDV) by V-type H+  ATPase (VHA). Transgenic Thalassiosira pseudonana expressing the VHA B subunit tagged with enhanced green fluorescent protein (VHAB -eGFP) enabled subcellular protein localization in live cells. In exponentially growing cultures, VHAB -eGFP was present in various subcellular localizations including the cytoplasm, SDVs and vacuoles. We studied the role of VHA during frustule biosynthesis in synchronized cell cultures of T. pseudonana. During the making of new biosilica components, VHAB -eGFP first localized in the girdle band SDVs, and subsequently in valve SDVs. In single cell time-lapse imaging experiments, VHAB -eGFP localization in SDVs precluded accumulation of the acidotropic silica biomineralization marker PDMPO. Furthermore, pharmacological VHA inhibition prevented PDMPO accumulation in the SDV, frustule biosynthesis and cell division, as well as insertion of the silicalemma-associated protein SAP1 into the SDVs. Finally, partial inhibition of VHA activity affected the nanoscale morphology of the valve. Altogether, these results indicate that VHA is essential for frustule biosynthesis by acidifying the SDVs and regulating the insertion of other structural proteins into the SDV.

Published

2020

27. Interfacial Assembly Inspired by Marine Mussels and Antifouling Effects of Polypeptoids: A Neutron Reflection Study.

Author

Pan, Fang, Pan, Fang, Aaron Lau, King Hang, Messersmith, Phillip B, Lu, Jian R, Zhao, Xiubo, Pan, Fang, Pan, Fang, Aaron Lau, King Hang, Messersmith, Phillip B, Lu, Jian R, and Zhao, Xiubo

Abstract

Polypeptoid-coated surfaces and many surface-grafted hydrophilic polymer brushes have been proven efficient in antifouling-the prevention of nonspecific biomolecular adsorption and cell attachment. Protein adsorption, in particular, is known to mediate subsequent cell-surface interactions. However, the detailed antifouling mechanism of polypeptoid and other polymer brush coatings at the molecular level is not well understood. Moreover, most adsorption studies focus only on measuring a single adsorbed mass value, and few techniques are capable of characterizing the hydrated in situ layer structure of either the antifouling coating or adsorbed proteins. In this study, interfacial assembly of polypeptoid brushes with different chain lengths has been investigated in situ using neutron reflection (NR). Consistent with past simulation results, NR revealed a common two-step structure for grafted polypeptoids consisting of a dense inner region that included a mussel adhesive-inspired oligopeptide for grafting polypeptoid chains and a highly hydrated upper region with very low polymer density (molecular brush). Protein adsorption was studied with human serum albumin (HSA) and fibrinogen (FIB), two common serum proteins of different sizes but similar isoelectric points (IEPs). In contrast to controls, we observed higher resistance by grafted polypeptoid against adsorption of the larger FIB, especially for longer chain lengths. Changing the pH to close to the IEPs of the proteins, which generally promotes adsorption, also did not significantly affect the antifouling effect against FIB, which was corroborated by atomic force microscopy imaging. Moreover, NR enabled characterization of the in situ hydrated layer structures of the polypeptoids together with proteins adsorbed under selected conditions. While adsorption on bare SiO2 controls resulted in surface-induced protein denaturation, this was not observed on polypeptoids. Our current results therefore highlight the detailed

Published

2020

28. Empty mesoporous silica particles significantly delay disease progression and extend survival in a mouse model of ALS

Author

Leyton-Jaimes, M. F., Ivert, P., Hoeber, J., Han, Y., Feiler, Adam, Zhou, Chunguang, Pankratova, S., Shoshan-Barmatz, V., Israelson, A., Kozlova, E. N., Leyton-Jaimes, M. F., Ivert, P., Hoeber, J., Han, Y., Feiler, Adam, Zhou, Chunguang, Pankratova, S., Shoshan-Barmatz, V., Israelson, A., and Kozlova, E. N.

Abstract

Amyotrophic lateral sclerosis (ALS) is a devastating incurable neurological disorder characterized by motor neuron (MN) death and muscle dysfunction leading to mean survival time after diagnosis of only 2–5 years. A potential ALS treatment is to delay the loss of MNs and disease progression by the delivery of trophic factors. Previously, we demonstrated that implanted mesoporous silica nanoparticles (MSPs) loaded with trophic factor peptide mimetics support survival and induce differentiation of co-implanted embryonic stem cell (ESC)-derived MNs. Here, we investigate whether MSP loaded with peptide mimetics of ciliary neurotrophic factor (Cintrofin), glial-derived neurotrophic factor (Gliafin), and vascular endothelial growth factor (Vefin1) injected into the cervical spinal cord of mutant SOD1 mice affect disease progression and extend survival. We also transplanted boundary cap neural crest stem cells (bNCSCs) which have been shown previously to have a positive effect on MN survival in vitro and in vivo. We show that mimetic-loaded MSPs and bNCSCs significantly delay disease progression and increase survival of mutant SOD1 mice, and also that empty particles significantly improve the condition of ALS mice. Our results suggest that intraspinal delivery of MSPs is a potential therapeutic approach for the treatment of ALS., QC 20211002

Published

2020

29. Single subconjunctival injection formulation using sol-gel mesoporous silica as a controlled release system for drop-free post-cataract surgery care.

Author

Sun, Yaoyao, Sun, Yaoyao, Huffman, Kristyn, Freeman, William R, Cheng, Lingyun, Sun, Yaoyao, Sun, Yaoyao, Huffman, Kristyn, Freeman, William R, and Cheng, Lingyun

Abstract

PurposeTo develop a mesoporous silica drug delivery system and target drop-free care after cataract surgery with a single subconjunctival injection.SettingLaboratory.DesignExperimental animal study.MethodsKetorolac was infiltration-loaded into sol-gel mesoporous silica particles encapsulated with poly(allylamine hydrochloride) and poly(sodium 4-styrenesulfonate) using a layer-by-layer adsorption technique (SG-Ket-LBL). The formulation was subjected to an in vitro and in vivo drug release study in addition to ocular toxicology evaluation.ResultsThermogravimetric analysis revealed that the drug loading efficiency was 4.4% for the SG-Ket-LBL particles. The in vivo safety study demonstrated that the formulation was well tolerated after subconjunctival injection and aqueous humor pharmacokinetics showed sustained therapeutic drug release for the targeted time window of 6 to 8 weeks.ConclusionsFindings indicated that sol-gel mesoporous silica could be used as a drug carrier for subconjunctival administration. The tested formulation, SG-Ket-LBL, provided therapeutic ketorolac for 6 to 8 weeks, which might be used for a single subconjunctival injection to replace nonsteroidal anti-inflammatory drug eyedrops after cataract surgery.

Published

2020

30. A universal method for the rapid isolation of all known classes of functional silencing small RNAs.

Author

Grentzinger, Thomas, Grentzinger, Thomas, Oberlin, Stefan, Schott, Gregory, Handler, Dominik, Svozil, Julia, Barragan-Borrero, Veronica, Humbert, Adeline, Duharcourt, Sandra, Brennecke, Julius, Voinnet, Olivier, Grentzinger, Thomas, Grentzinger, Thomas, Oberlin, Stefan, Schott, Gregory, Handler, Dominik, Svozil, Julia, Barragan-Borrero, Veronica, Humbert, Adeline, Duharcourt, Sandra, Brennecke, Julius, and Voinnet, Olivier

Abstract

Diverse classes of silencing small (s)RNAs operate via ARGONAUTE-family proteins within RNA-induced-silencing-complexes (RISCs). Here, we have streamlined various embodiments of a Q-sepharose-based RISC-purification method that relies on conserved biochemical properties of all ARGONAUTEs. We show, in multiple benchmarking assays, that the resulting 15-min benchtop extraction procedure allows simultaneous purification of all known classes of RISC-associated sRNAs without prior knowledge of the samples-intrinsic ARGONAUTE repertoires. Optimized under a user-friendly format, the method - coined 'TraPR' for Trans-kingdom, rapid, affordable Purification of RISCs - operates irrespectively of the organism, tissue, cell type or bio-fluid of interest, and scales to minute amounts of input material. The method is highly suited for direct profiling of silencing sRNAs, with TraPR-generated sequencing libraries outperforming those obtained via gold-standard procedures that require immunoprecipitations and/or lengthy polyacrylamide gel-selection. TraPR considerably improves the quality and consistency of silencing sRNA sample preparation including from notoriously difficult-to-handle tissues/bio-fluids such as starchy storage roots or mammalian plasma, and regardless of RNA contaminants or RNA degradation status of samples.

Published

2020

31. Vortex Fluidic-Mediated Fabrication of Fast Gelated Silica Hydrogels with Embedded Laccase Nanoflowers for Real-Time Biosensing under Flow.

Author

Luo, Xuan, Luo, Xuan, Mohammed Al-Antaki, Ahmed Hussein, Igder, Aghil, Stubbs, Keith A, Su, Peng, Zhang, Wei, Weiss, Gregory A, Raston, Colin L, Luo, Xuan, Luo, Xuan, Mohammed Al-Antaki, Ahmed Hussein, Igder, Aghil, Stubbs, Keith A, Su, Peng, Zhang, Wei, Weiss, Gregory A, and Raston, Colin L

Abstract

The fabrication of hybrid protein-Cu3(PO4)2 nanoflowers (NFs) via an intermediate toroidal structure is dramatically accelerated under shear using a vortex fluidic device (VFD), which possesses a rapidly rotating angled tube. As-prepared laccase NFs (LNFs) exhibit ≈1.8-fold increase in catalytic activity compared to free laccase under diffusion control, which is further enhanced by ≈ 2.9-fold for the catalysis under shear in the VFD. A new LNF immobilization platform, LNF@silica incorporated in a VFD tube, was subsequently developed by mixing the LNFs for 15 min with silica hydrogel resulting in gelation along the VFD tube surface. The resulting LNFs@silica coating is highly stable and reusable, which allows a dramatic 16-fold enhancement in catalytic rates relative to LNF@silica inside glass vials. Ultraviolet-visible spectroscopy-based real-time monitoring within the LNFs@silica-coated tube reveals good stability of the coating in continuous flow processing. The results demonstrate the utility of the VFD microfluidic platform, further highlighting its ability to control chemical and enzymatic processes.

Published

2020

32. GAN NANOWIRE LASER FOR A UNIVERSAL ATOMIC FORCE MICROSCOPE PROBE: A COMPUTATIONAL AND FEASIBILITY STUDY

Author

Dr. Tito Busani, Dr. Alejandro Manjavacas, Dr. Nathan Jackson, Wostbrock, Neal, Dr. Tito Busani, Dr. Alejandro Manjavacas, Dr. Nathan Jackson, and Wostbrock, Neal

Subjects

GaN

Abstract

This thesis attempts to establish the groundwork for integrating a GaN nanowire into an AFM probe resulting in a universal atomic force microscope probe. Previous studies have shown GaN nanowires have stable mechanical properties, can be fabricated at scale with high aspect ratios and very smooth side walls, and have intrinsic lasing capabilities; however, mechanical and lasing capabilities have not yet been integrated into a single AFM probe. Here, we develop and analyze a suspended waveguide optical pumping concept that can be fabricated and applied to an AFM probe cantilever, unlocking full potential of GaN’s optical and mechanical properties as an AFM probe tip. We also develop a novel method and discover key insights into tuning the stress of SiO2 suspended films without effecting refractive index, a process step that is critical to the fabrication of the universal AFM probe and applicable to other applications such as distributed Bragg reflectors.

Published

2020

33. Silicon dioxide and titanium dioxide particles found in human tissues

Author

Peters, Ruud J.B., Oomen, Agnes G., van Bemmel, Greet, van Vliet, Loes, Undas, Anna K., Munniks, Sandra, Bleys, Ronald L.A.W., Tromp, Peter C., Brand, Walter, van der Lee, Martijn, Peters, Ruud J.B., Oomen, Agnes G., van Bemmel, Greet, van Vliet, Loes, Undas, Anna K., Munniks, Sandra, Bleys, Ronald L.A.W., Tromp, Peter C., Brand, Walter, and van der Lee, Martijn

Abstract

Silicon dioxide (silica, SiO2, SAS) and titanium dioxide (TiO2) are produced in high volumes and applied in many consumer and food products. As a consequence, there is a potential human exposure and subsequent systemic uptake of these particles. In this study we show the characterization and quantification of both total silicon (Si) and titanium (Ti), and particulate SiO2 and TiO2 in postmortem tissue samples from 15 deceased persons. Included tissues are liver, spleen, kidney and the intestinal tissues jejunum and ileum. Low-level analysis was enabled by the use of fully validated sample digestion methods combined with (single particle) inductively coupled plasma high resolution mass spectrometry techniques (spICP-HRMS). The results show a total-Si concentration ranging from <2 to 191 mg Si/kg (median values of 5.8 (liver), 9.5 (spleen), 7.7 (kidney), 6.8 (jejunum), 7.6 (ileum) mg Si/kg) while the particulate SiO2 ranged from <0.2 to 25 mg Si/kg (median values of 0.4 (liver), 1.0 (spleen), 0.4 (kidney), 0.7 (jejunum, 0.6 (ileum) mg Si/kg), explaining about 10% of the total-Si concentration. Particle sizes ranged from 150 to 850 nm with a mode of 270 nm. For total-Ti the results show concentrations ranging from <0.01 to 2.0 mg Ti/kg (median values of 0.02 (liver), 0.04 (spleen), 0.05 (kidney), 0.13 (jejunum), 0.26 (ileum) mg Ti/kg) while particulate TiO2 concentrations ranged from 0.01 to 1.8 mg Ti/kg (median values of 0.02 (liver), 0.02 (spleen), 0.03 (kidney), 0.08 (jejunum), 0.25 (ileum) mg Ti/kg). In general, the particulate TiO2 explained 80% of the total-Ti concentration. This indicates that most Ti in these organ tissues is particulate material. The detected particles comprise primary particles, aggregates and agglomerates, and were in the range of 50–500 nm with a mode in the range of 100–160 nm. About 17% of the detected TiO2 particles had a size <100 nm. The presence of SiO2 and TiO2 particles in liver tissue was confirmed by scanning electron microscopy w

Published

2020

34. Establishment and characterization of a multi-purpose large animal exposure chamber for investigating health effects.

Author

Peng, Xinze, Peng, Xinze, Maltz, Mia R, Botthoff, Jon K, Aronson, Emma L, Nordgren, Tara M, Lo, David D, Cocker, David R, Peng, Xinze, Peng, Xinze, Maltz, Mia R, Botthoff, Jon K, Aronson, Emma L, Nordgren, Tara M, Lo, David D, and Cocker, David R

Abstract

Air pollution poses a significant threat to the environment and human health. Most in vivo health studies conducted regarding air pollutants, including particulate matter (PM) and gas phase pollutants, have been either through traditional medical intranasal treatment or using a tiny chamber, which limit animal activities. In this study, we designed and tested a large, whole-body, multiple animal exposure chamber with uniform dispersion and exposure stability for animal studies. The chamber simultaneously controls particle size distribution and PM mass concentration. Two different methods were used to generate aerosol suspension through either soluble material (Alternaria extract), liquid particle suspension (nanosilica solution), or dry powder (silica powder). We demonstrate that the chamber system provides well controlled and characterized whole animal exposures, where dosage is by inhalation of particulate matter.

Published

2019

35. Eradication of unresectable liver metastasis through induction of tumour specific energy depletion.

Author

Huo, Da, Huo, Da, Zhu, Jianfeng, Chen, Guojun, Chen, Qian, Zhang, Chao, Luo, Xingyu, Jiang, Wei, Jiang, Xiqun, Gu, Zhen, Hu, Yong, Huo, Da, Huo, Da, Zhu, Jianfeng, Chen, Guojun, Chen, Qian, Zhang, Chao, Luo, Xingyu, Jiang, Wei, Jiang, Xiqun, Gu, Zhen, and Hu, Yong

Abstract

Treatment of liver metastasis experiences slow progress owing to the severe side effects. In this study, we demonstrate a strategy capable of eliminating metastatic cancer cells in a selective manner. Nucleus-targeting W18O49 nanoparticles (WONPs) are conjugated to mitochondria-selective mesoporous silica nanoparticles (MSNs) containing photosensitizer (Ce6) through a Cathepsin B-cleavable peptide. In hepatocytes, upon the laser irradiation, the generated singlet oxygen species are consumed by WONPs, in turn leading to the loss of their photothermally heating capacity, thereby sparing hepatocyte from thermal damage induced by the laser illumination. By contrast, in cancer cells, the cleaved peptide linker allows WONPs and MSNs to respectively target nucleus and mitochondria, where the therapeutic powers could be unleashed, both photodynamically and photothermally. This ensures the energy production of cancer cells can be abolished. We further assess the underlying molecular mechanism at both gene and protein levels to better understand the therapeutic outcome.

Published

2019

36. Functional variant of the carboxypeptidase M (CPM) gene may affect silica-related pneumoconiosis susceptibility by its expression: a multistage case-control study.

Author

Chu, Minjie, Chu, Minjie, Wu, Shuangshuang, Wang, Wei, Yu, Yuhui, Zhang, Mingjiong, Sang, Lingli, Tian, Tian, Lu, Yihua, Yuan, Weiwei, Huang, Qiqing, Yi, Min, Gao, Yuexia, Xiao, Jing, Lian, Yulong, Zhuang, Xun, Zhang, Zuo-Feng, Wu, Jianqing, Chu, Minjie, Chu, Minjie, Wu, Shuangshuang, Wang, Wei, Yu, Yuhui, Zhang, Mingjiong, Sang, Lingli, Tian, Tian, Lu, Yihua, Yuan, Weiwei, Huang, Qiqing, Yi, Min, Gao, Yuexia, Xiao, Jing, Lian, Yulong, Zhuang, Xun, Zhang, Zuo-Feng, and Wu, Jianqing

Abstract

ObjectivesIn a genome-wide association study, we discovered chromosome 12q15 (defined as rs73329476) as a silica-related pneumoconiosis susceptibility region. However, the causal variants in this region have not yet been reported.MethodsWe systematically screened eight potentially functional single-neucleotide polymorphism (SNPs) in the genes near rs73329476 (carboxypeptidase M (CPM) and cleavage and polyadenylation specific factor 6 (CPSF6)) in a case-control study including 177 cases with silicosis and 204 healthy controls, matched to cases with years of silica dust exposure. We evaluated the associations between these eight SNPs and the development of silicosis. Luciferase reporter gene assays were performed to test the effects of selected SNP on the activity of CPM in the promoter. In addition, a two-stage case-control study was performed to investigate the expression differences of the two genes in peripheral blood leucocytes from a total of 64 cases with silicosis and 64 healthy controls with similar years of silica dust exposure as the cases.ResultsWe found a strong association between the mutant rs12812500 G allele and the susceptibility of silicosis (OR=1.45, 95% CI 1.03 to 2.04, p=0.034), while luciferase reporter gene assays indicated that the mutant G allele of rs12812500 is strongly associated with increased luciferase levels compared with the wild-type C allele (p<0.01). Moreover, the mRNA (peripheral blood leucocytes) expression of the CPM gene was significantly higher in subjects with silicosis compared with healthy controls.ConclusionsThe rs12812500 variant of the CPM gene may increase silicosis susceptibility by affecting the expression of CPM, which may contribute to silicosis susceptibility with biological plausibility.

Published

2019

37. Deep Tumor Penetration of Drug-Loaded Nanoparticles by Click Reaction-Assisted Immune Cell Targeting Strategy.

Author

Lee, Soo Hong, Lee, Soo Hong, Park, Ok Kyu, Kim, Jonghoon, Shin, Kwangsoo, Pack, Chan Gi, Kim, Kang, Ko, Giho, Lee, Nohyun, Kwon, Seung-Hae, Hyeon, Taeghwan, Lee, Soo Hong, Lee, Soo Hong, Park, Ok Kyu, Kim, Jonghoon, Shin, Kwangsoo, Pack, Chan Gi, Kim, Kang, Ko, Giho, Lee, Nohyun, Kwon, Seung-Hae, and Hyeon, Taeghwan

Abstract

Nanoparticles have been extensively used to deliver therapeutic drugs to tumor tissues through the extravasation of a leaky vessel via enhanced permeation and retention effect (EPR, passive targeting) or targeted interaction of tumor-specific ligands (active targeting). However, the therapeutic efficacy of drug-loaded nanoparticles is hampered by its heterogeneous distribution owing to limited penetration in tumor tissue. Inspired by the fact that cancer cells can recruit inflammatory immune cells to support their survival, we developed a click reaction-assisted immune cell targeting (CRAIT) strategy to deliver drug-loaded nanoparticles deep into the avascular regions of the tumor. Immune cell-targeting CD11b antibodies are modified with trans-cyclooctene to enable bioorthogonal click chemistry with mesoporous silica nanoparticles functionalized with tetrazines (MSNs-Tz). Sequential injection of modified antibodies and MSNs-Tz at intervals of 24 h results in targeted conjugation of the nanoparticles onto CD11b+ myeloid cells, which serve as active vectors into tumor interiors. We show that the CRAIT strategy allows the deep tumor penetration of drug-loaded nanoparticles, resulting in enhanced therapeutic efficacy in an orthotopic 4T1 breast tumor model. The CRAIT strategy does not require ex vivo manipulation of cells and can be applied to various types of cells and nanovehicles.

Published

2019

38. Scattering and absorption of light in planetary regoliths

Author

Muinonen, K., Väisänen, T., Martikainen, J., Markkanen, J., Penttilä, A., Gritsevich, M., Peltoniemi, J., Blum, J., Herranen, J., Videen, G., Maconi, G., Helander, P., Salmi, A., Kassamakov, I., Haeggström, E., Muinonen, K., Väisänen, T., Martikainen, J., Markkanen, J., Penttilä, A., Gritsevich, M., Peltoniemi, J., Blum, J., Herranen, J., Videen, G., Maconi, G., Helander, P., Salmi, A., Kassamakov, I., and Haeggström, E.

Abstract

Theoretical, numerical, and experimental methods are presented for multiple scattering of light in macroscopic discrete random media of densely-packed microscopic particles. The theoretical and numerical methods constitute a framework of Radiative Transfer with Reciprocal Transactions (R2T2). The R2T2 framework entails Monte Carlo order-of-scattering tracing of interactions in the frequency space, assuming that the fundamental scatterers and absorbers are wavelength-scale volume elements composed of large numbers of randomly distributed particles. The discrete random media are fully packed with the volume elements. For spherical and nonspherical particles, the interactions within the volume elements are computed exactly using the Superposition T-Matrix Method (STMM) and the Volume Integral Equation Method (VIEM), respectively. For both particle types, the interactions between different volume elements are computed exactly using the STMM. As the tracing takes place within the discrete random media, incoherent electromagnetic fields are utilized, that is, the coherent field of the volume elements is removed from the interactions. The experimental methods are based on acoustic levitation of the samples for non-contact, non-destructive scattering measurements. The levitation entails full ultrasonic control of the sample position and orientation, that is, six degrees of freedom. The light source is a laser-driven white-light source with a monochromator and polarizer. The detector is a mini-photomultiplier tube on a rotating wheel, equipped with polarizers. The R2T2 is validated using measurements for a mm-scale spherical sample of densely-packed spherical silica particles. After validation, the methods are applied to interpret astronomical observations for asteroid (4) Vesta and comet 67P/Churyumov-Gerasimenko (Figure 1) recently visited by the NASA Dawn mission and the ESA Rosetta mission, respectively. © 2019 JoVE.

Published

2019

39. Nanomachines and Other Caps on Mesoporous Silica Nanoparticles for Drug Delivery.

Author

Chen, Wei, Chen, Wei, Glackin, Carlotta A, Horwitz, Marcus A, Zink, Jeffrey I, Chen, Wei, Chen, Wei, Glackin, Carlotta A, Horwitz, Marcus A, and Zink, Jeffrey I

Abstract

Mesoporous silica nanoparticles (MSNs) are delivery vehicles that can carry cargo molecules and release them on command. The particles used in the applications reported in this Account are around 100 nm in diameter (about the size of a virus) and contain 2.5 nm tubular pores with a total volume of about 1 cm3/g. For the biomedical applications discussed here, the cargo is trapped in the pores until the particles are stimulated to release it. The challenges are to get the particles to the site of a disease and then to deliver the cargo on command. We describe methods to do both, and we illustrate the applicability of the particles to cure cancer and intracellular infectious disease. Our first steps were to design multifunctional nanoparticles with properties that allow them to carry and deliver hydrophobic drugs. Many important pharmaceuticals are hydrophobic and cannot reach the diseased sites by themselves. We describe how we modified MSNs to make them dispersible, imagable, and targetable and discuss in vitro studies. We then present examples of surface modifications that allow them to deliver large molecules such as siRNA. In vivo studies of siRNA delivery to treat triple-negative breast and ovarian cancers are presented. The next steps are to attach nanomachines and other types of caps that trap drug molecules but release them when stimulated. We describe nanomachines that respond autonomously (without human intervention) to stimuli specific to disease sites. A versatile type of machine is a nanovalve that is closed at neutral (blood) pH but opens upon acidification that occurs in endolysosomes of cancer cells. Another type of machine, a snap-top cap, is stimulated by reducing agents such as glutathione in the cytosol of cells. Both of these platforms were studied in vitro to deliver antibiotics to infected macrophages and in vivo to cure and kill the intracellular bacteria M. tuberculosis and F. tularensis. The latter is a tier 1 select agent of bioterrorism. F

Published

2019

40. Bijel-templated implantable biomaterials for enhancing tissue integration and vascularization.

Author

Thorson, Todd J, Thorson, Todd J, Gurlin, Rachel E, Botvinick, Elliot L, Mohraz, Ali, Thorson, Todd J, Thorson, Todd J, Gurlin, Rachel E, Botvinick, Elliot L, and Mohraz, Ali

Abstract

Mitigation of the foreign body response (FBR) and successful tissue integration are essential to ensuring the longevity of implanted devices and biomaterials. The use of porous materials and coatings has been shown to have an impact, as the textured surfaces can mediate macrophage interactions with the implant and influence the FBR, and the pores can provide space for vascularization and tissue integration. In this study, we use a new class of implantable porous biomaterials templated from bicontinuous interfacially jammed emulsion gels (bijels), which offer a fully percolating, non-constricting porous network with a uniform pore diameter on the order of tens of micrometers, and surfaces with consistent curvature. We demonstrate that these unique morphological features, inherent to bijel-templated materials (BTMs), can enhance tissue integration and vascularization, and reduce the FBR. Cylindrical polyethylene glycol diacrylate (PEGDA) BTMs, along with PEGDA particle-templated materials (PTMs), and non-templated materials (NTMs), were implanted into the subcutaneous space of athymic nude mice. After 28 days, implants were retrieved and analyzed via histological techniques. Within BTMs, blood vessels of increased size and depth, changes in collagen deposition, and increased presence of pro-healing macrophages were observed compared to that of PTM and NTM implants. Bijel templating offers a new route to biomaterials that can improve the function and longevity of implantable devices. STATEMENT OF SIGNIFICANCE: All implanted biomaterials are subject to the foreign body response (FBR) which can have a detrimental effect on their efficacy. Altering the surface chemistry can decrease the FBR by limiting the amount of proteins adsorbed to the implant. This effect can be enhanced by including pores in the biomaterial to allow new tissue growth as the implant becomes integrated in the body. Here, we introduce a new class of self-assembled biomaterials comprising a fully penet

Published

2019

41. MRI-guided transurethral insonation of silica-shell phase-shift emulsions in the prostate with an advanced navigation platform.

Author

Anthony, Gregory J, Anthony, Gregory J, Bader, Kenneth B, Wang, James, Zamora, Marta, Ostdiek, Allison, Antic, Tatjana, Krueger, Sascha, Weiss, Steffen, Trogler, William C, Blair, Sarah L, Kummel, Andrew C, Sammet, Steffen, Anthony, Gregory J, Anthony, Gregory J, Bader, Kenneth B, Wang, James, Zamora, Marta, Ostdiek, Allison, Antic, Tatjana, Krueger, Sascha, Weiss, Steffen, Trogler, William C, Blair, Sarah L, Kummel, Andrew C, and Sammet, Steffen

Abstract

PurposeIn this study, the efficacy of transurethral prostate ablation in the presence of silica-shell ultrasound-triggered phase-shift emulsions (sUPEs) doped with MR contrast was evaluated. The influence of sUPEs on MR imaging assessment of the ablation zone was also investigated.MethodssUPEs were doped with a magnetic resonance (MR) contrast agent, Gd2 O3 , to assess ultrasound transition. Injections of saline (sham), saline and sUPEs alone, and saline and sUPEs with Optison microbubbles were performed under guidance of a prototype interventional MRI navigation platform in a healthy canine prostate. Treatment arms were evaluated for differences in lesion size, T1  contrast, and temperature. In addition, non-perfused areas (NPAs) on dynamic contrast-enhanced (DCE) MRI, 55°C isotherms, and areas of 240 cumulative equivalent minutes at 43°C (CEM43 ) dose or greater computed from MR thermometry were measured and correlated with ablated areas indicated by histology.ResultsFor treatment arms including sUPEs, the computed correlation coefficients between the histological ablation zone and the NPA, 55°C isotherm, and 240 CEM43 area ranged from 0.96-0.99, 0.98-0.99, and 0.91-0.99, respectively. In the absence of sUPEs, the computed correlation coefficients between the histological ablation zone and the NPA, 55°C isotherm, and 240 CEM43 area were 0.69, 0.54, and 0.50, respectively. Across all treatment arms, the areas of thermal tissue damage and NPAs were not significantly different (P = 0.47). Areas denoted by 55°C isotherms and 240 CEM43 dose boundaries were significantly larger than the areas of thermal damage, again for all treatment arms (P = 0.009 and 0.003, respectively). No significant differences in lesion size, T1 contrast, or temperature were observed between any of the treatment arms (P > 0.0167). Lesions exhibiting thermal fixation on histological analysis were present in six of nine insonations involving sUPE injections a

Published

2019

42. Improved Efficacy and Reduced Toxicity Using a Custom-Designed Irinotecan-Delivering Silicasome for Orthotopic Colon Cancer.

Author

Liu, Xiangsheng, Liu, Xiangsheng, Jiang, Jinhong, Chan, Ryan, Ji, Ying, Lu, Jianqin, Liao, Yu-Pei, Okene, Michael, Lin, Joshua, Lin, Paulina, Chang, Chong Hyun, Wang, Xiang, Tang, Ivanna, Zheng, Emily, Qiu, Waveley, Wainberg, Zev A, Nel, Andre E, Meng, Huan, Liu, Xiangsheng, Liu, Xiangsheng, Jiang, Jinhong, Chan, Ryan, Ji, Ying, Lu, Jianqin, Liao, Yu-Pei, Okene, Michael, Lin, Joshua, Lin, Paulina, Chang, Chong Hyun, Wang, Xiang, Tang, Ivanna, Zheng, Emily, Qiu, Waveley, Wainberg, Zev A, Nel, Andre E, and Meng, Huan

Abstract

Irinotecan is a key chemotherapeutic agent for the treatment of colorectal (CRC) and pancreatic (PDAC) cancer. Because of a high incidence of bone marrow and gastrointestinal (GI) toxicity, Onivyde (a liposome) was introduced to provide encapsulated irinotecan (Ir) delivery in PDAC patients. While there is an ongoing clinical trial (NCT02551991) to investigate the use of Onivyde as a first-line option to replace irinotecan in FOLFIRINOX, the liposomal formulation is currently prescribed as a second-line treatment option (in combination with 5-fluorouracil and leucovorin) for patients with metastatic PDAC who failed gemcitabine therapy. However, the toxicity of Onivyde remains a concern that needs to be addressed for use in CRC as well. Our goal was to custom design a mesoporous silica nanoparticle (MSNP) carrier for encapsulated irinotecan delivery in a robust CRC model. This was achieved by developing an orthotopic tumor chunk model in immunocompetent mice. With a view to increase the production volume and to expand the disease applications, the carrier design was improved by using an ethanol exchange method for coating of a supported lipid bilayer (LB) that entraps a protonating agent. The encapsulated protonating agent was subsequently used for remote loading of irinotecan. The excellent irinotecan loading capacity and stability of the LB-coated MSNP carrier, also known as a "silicasome", previously showed improved efficacy and reduced toxicity when compared to an in-house liposomal carrier in a PDAC model. Intravenous injection of the silicasomes in a well-developed orthotopic colon cancer model in mice demonstrated improved pharmacokinetics and tumor drug content over free drug and Onivyde. Moreover, improved drug delivery was accompanied by substantially improved efficacy, increased survival, and reduced bone marrow and GI toxicity compared to the free drug and Onivyde. We also confirmed that the custom-designed irinotecan silicasomes outperform Onivyde in an

Published

2019

43. Antimicrobial Particle-Based Novel Sanitizer for Enhanced Decontamination of Fresh Produce.

Author

Huang, Kang, Kivisaar, Maia1, Huang, Kang, Nitin, Nitin, Huang, Kang, Kivisaar, Maia1, Huang, Kang, and Nitin, Nitin

Abstract

Microbial food safety of raw or minimally processed fresh produce is a significant challenge. The current sanitation processes are effective for inactivation of bacteria in wash water but have limited efficacy (<2 log/g reduction) for inactivation of microbes on the surfaces of fresh produce. This study demonstrates a novel concept to enhance effectiveness of chlorine using a particle-based sanitizer to improve decontamination of fresh produce. In this concept, enhanced effectiveness is achieved by localized high concentration of chlorine bound to the surfaces of silica particles and improved surface contact of microparticles with the produce surface using mechanical shear during a washing process. The results of this study demonstrate that 500 ppm active chlorine can be bound to the surfaces of modified silica particles. These modified particles maintain over 90% of their initial chlorine content during extended storage in aqueous solution and provide improved inactivation of both Escherichia coli O157:H7, Listeria innocua, and Pseudomonas fluorescens in the presence of organic content in contrast to conventional chlorine sanitizer. The modified particles exhibit effective sanitation of fresh produce (>5-log reduction) in the presence of relatively high organic content (chemical oxygen demand of 500 mg/liter), demonstrating a potential to address a significant unmet need to improve fresh produce sanitation. The particle-based sanitizer had no significant effect on the quality of fresh lettuce.IMPORTANCE The limitation of current sanitation processes for inactivation of microbes on the surfaces of fresh produce is due to nonspecific consumption of sanitizers by reactions with the food matrix and complexity of surface chemistries and structural features of produce surfaces. This study demonstrates a novel approach to enhance sanitation effectiveness of fresh produce using a particle-based sanitizer. The particle-based sanitizer concept provides localized high c

Published

2019

44. Increasing the Efficacy of Stem Cell Therapy via Triple-Function Inorganic Nanoparticles.

Author

Chen, Fang, Chen, Fang, Zhao, Eric Ruike, Hableel, Ghanim, Hu, Tao, Kim, Taeho, Li, Jingting, Gonzalez-Pech, Natalia Isabel, Cheng, David J, Lemaster, Jeanne E, Xie, Yijun, Grassian, Vicki H, Sen, George L, Jokerst, Jesse V, Chen, Fang, Chen, Fang, Zhao, Eric Ruike, Hableel, Ghanim, Hu, Tao, Kim, Taeho, Li, Jingting, Gonzalez-Pech, Natalia Isabel, Cheng, David J, Lemaster, Jeanne E, Xie, Yijun, Grassian, Vicki H, Sen, George L, and Jokerst, Jesse V

Abstract

Stem cell therapy in heart disease is challenged by mis-injection, poor survival, and low cell retention. Here, we describe a biocompatible multifunctional silica-iron oxide nanoparticle to help solve these issues. The nanoparticles were made via an in situ growth of Fe3O4 nanoparticles on both the external surfaces and pore walls of mesocellular foam silica nanoparticles. In contrast to previous work, this approach builds a magnetic moiety inside the pores of a porous silica structure. These materials serve three roles: drug delivery, magnetic manipulation, and imaging. The addition of Fe3O4 to the silica nanoparticles increased their colloidal stability, T2-based magnetic resonance imaging contrast, and superparamagnetism. We then used the hybrid materials as a sustained release vehicle of insulin-like growth factor-a pro-survival agent that can increase cell viability. In vivo rodent studies show that labeling stem cells with this nanoparticle increased the efficacy of stem cell therapy in a ligation/reperfusion model. The nanoparticle-labeled cells increase the mean left ventricular ejection fraction by 11 and 21% and the global longitudinal strain by 24 and 34% on days 30 and 60, respectively. In summary, this multifunctional nanomedicine improves stem cell survival via the sustained release of pro-survival agents.

Published

2019

45. Nanomedicine for Spontaneous Brain Tumors: A Companion Clinical Trial.

Author

Arami, Hamed, Arami, Hamed, Patel, Chirag B, Madsen, Steven J, Dickinson, Peter J, Davis, Ryan M, Zeng, Yitian, Sturges, Beverly K, Woolard, Kevin D, Habte, Frezghi G, Akin, Demir, Sinclair, Robert, Gambhir, Sanjiv S, Arami, Hamed, Arami, Hamed, Patel, Chirag B, Madsen, Steven J, Dickinson, Peter J, Davis, Ryan M, Zeng, Yitian, Sturges, Beverly K, Woolard, Kevin D, Habte, Frezghi G, Akin, Demir, Sinclair, Robert, and Gambhir, Sanjiv S

Abstract

Nanoparticles' enhanced permeation and retention (EPR) variations due to tumor heterogeneity in naturally occurring brain tumors are commonly neglected in preclinical nanomedicine studies. Recent pathological studies have shown striking similarities between brain tumors in humans and dogs, indicating that canine brain tumors may be a valuable model to evaluate nanoparticles' EPR in this context. We recruited canine clinical cases with spontaneous brain tumors to investigate nanoparticles' EPR in different brain tumor pathologies using surface-enhanced Raman spectroscopy (SERS). We used gold nanoparticles due to their surface plasmon effect that enables their sensitive and microscopic resolution detection using the SERS technique. Raman microscopy of the resected tumors showed heterogeneous EPR of nanoparticles into oligodendrogliomas and meningiomas of different grades, without any detectable traces in necrotic parts of the tumors or normal brain. Raman observations were confirmed by scanning electron microscopy (SEM) and X-ray elemental analyses, which enabled localization of individual nanoparticles embedded in tumor tissues. Our results demonstrate nanoparticles' EPR and its variations in clinically relevant, spontaneous brain tumors. Such heterogeneities should be considered alongside routine preoperative imaging and histopathological analyses in order to accelerate clinical management of brain tumors using nanomedicine approaches.

Published

2019

46. Prevalence of Arthritis and Rheumatoid Arthritis in Coal Mining Counties of the United States.

Author

Schmajuk, Gabriela, Schmajuk, Gabriela, Trupin, Laura, Yelin, Edward, Blanc, Paul D, Schmajuk, Gabriela, Schmajuk, Gabriela, Trupin, Laura, Yelin, Edward, and Blanc, Paul D

Abstract

ObjectiveExposure to inhaled mineral dust, in particular silica, is associated with increased odds of rheumatoid arthritis (RA) and other autoimmune diseases. We studied the association of RA with work-related coal and silica exposure in the Appalachian region of the US.MethodsWe carried out a random-digit dialed telephone survey in selected counties in Appalachia that had elevated coal workers' pneumoconiosis mortality. Our study cohort included men ages ≥50 with any employment history, and we assessed exposure to coal mining employment, other work-related dust, and ergonomic factors. We ascertained self-reported physician diagnosis of any arthritis and of RA with glucocorticoid treatment. We used multivariable logistic regression analysis to estimate the odds ratios (ORs) and associated population attributable fraction (PAF) estimates.ResultsAmong the 973 men who met study entry criteria (mean ± SD ages 66 ± 10 years; 54% ever smokers), 266 (27%) reported coal mining work and 189 (19%) reported other work-related silica exposure. There were 517 men (53%), who reported any arthritis and 112 (12%) whose disease met the study definition of RA. Adjusting for covariates, coal mining was associated with elevated odds of RA (OR 3.6 [95% confidence interval (95% CI) 2.1-6.2]), which accounted for a PAF of 33% (95% CI 26-40%) of the men studied. For any arthritis, the coal mining-associated OR was 2.3 (95% CI 1.6-3.2), with an associated PAF of 20% (95% CI 14-25%).ConclusionIn this population of older males living in a coal mining region, we estimated that 20% of arthritis and 33% of RA may be attributable to coal mining work.

Published

2019

47. Multicentre, population-based, case-control study of particulates, combustion products and amyotrophic lateral sclerosis risk

Author

Visser, A, D'Ovidio, F, Peters, S, Vermeulen, R, Beghi, E, Chío, A, Veldink, J, Logroscino, G, Hardiman, O, van den Berg, L, Ferrarese, C, Tremolizzo, L, Visser, AE, Vermeulen, RCH, Veldink, JH, Logroscino, GC, van den Berg, LH, Visser, A, D'Ovidio, F, Peters, S, Vermeulen, R, Beghi, E, Chío, A, Veldink, J, Logroscino, G, Hardiman, O, van den Berg, L, Ferrarese, C, Tremolizzo, L, Visser, AE, Vermeulen, RCH, Veldink, JH, Logroscino, GC, and van den Berg, LH

Abstract

Objective To investigate whether exposure to particulates and combustion products may explain the association between certain occupations and amyotrophic lateral sclerosis (ALS) risk in a large, multicentre, population-based, case-control study, based on full job histories, using job-exposure matrices, with detailed information on possible confounders. Methods Population-based patients with ALS and controls were recruited from five registries in the Netherlands, Ireland and Italy. Demographics and data regarding educational level, smoking, alcohol habits and lifetime occupational history were obtained using a validated questionnaire. Using job-exposure matrices, we assessed occupational exposure to silica, asbestos, organic dust, contact with animals or fresh animal products, endotoxins, polycyclic aromatic hydrocarbons and diesel motor exhaust. Multivariate logistic regression models adjusting for confounding factors were used to determine the association between these exposures and ALS risk. Results We included 1557 patients and 2922 controls. Associations were positive for all seven occupational exposures (ORs ranging from 1.13 to 1.73 for high vs never exposed), and significant on the continuous scale for silica, organic dust and diesel motor exhaust (p values for trend ≤0.03). Additional analyses, adding an exposure (one at a time) to the model in the single exposure analysis, revealed a stable OR for silica. We found similar results when patients with a C9orf72 mutation were excluded. Conclusion In a large, multicentre study, using harmonised methodology to objectively quantify occupational exposure to particulates and combustion products, we found an association between ALS risk and exposure to silica, independent of the other occupational exposures studied.

Published

2019

48. Assessing exposure to occupational chemicals in large-scale epidemiological studies on occupational cancers

Author

Kromhout, H. and Kromhout, H.

Abstract

When pooling data across community-based case-control studies exposure assessment has to be redone in order to overcome the issue of the lowest common denominator. Also when exposure assessment is based on expert judgement, no straightforward approaches exist for calibration and pooling of these exposure estimates. Often though, complete and detailed occupational histories of study participants will be available which can be used for a standardised approach across centres/ studies. For instance in the SYNERGY project we successfully managed to collect actual exposure measurements across Europa and Canada covering almost 4 decades (1970-2010). Based on this wealth of exposure data a JEM could be elaborated with quantitative estimates of level of exposure by job, year and region. Combining this JEM with occupational histories of cases and controls resulted in quantitative exposure histories which allowed derivation of quantitative exposure response relationships for amongst others silica and asbestos. In industry-based cohort studies exposure assessment can often be performed at a more detailed level by ascertaining detailed occupational histories and collecting production characteristics in multiple companies enrolled in a cohort study. By collecting industry-specific measurements with detailed auxiliary information very detailed exposure models can be derived. Consequently these models will allow for quantitative exposure estimates at the detailed level of exposure scenario (rather than at the level of a job). For instance, in the European Asphalt Workers study we were able to estimate quantitatively workers exposure to bitumen fume, organic vapour, and benzo(a)pyrene. Standardisation of exposure assessment tools, approaches and empirical modelling are needed in this day and age where big data will be the norm and will be needed to discern undetected health risks. However, availability of actual measurements of workers' exposure will stay a prerequisite in order to

Published

2018

49. Asymmetric double high mesa slot waveguide to enhance the light confinement in a 90o sharp bend

Abstract

In this work, we propose a technique to enhance the confinement of light at 90o sharp bend of a double high mesa slot (DHMS) waveguide based on Silicon on Insulator (SOI). These waveguides deliver high electric field and optical power density in low refractive index Nano-metric slot. The slot is displaced to the inner and outer periphery of the bend and explores the deviation in the relative power. The maximum relative power is attained by shifting the slot towards the outer periphery of the bend. This is only conceivable by choosing the precise slot position where the two evanescent tails of the high index waveguide modes have maximum overlap.

Published

2018

50. Post-release deformation and motion control of photonic waveguide beams by tuneable electrothermal actuators in thick SiO2

Author

Wu, K. (author), Tichem, M. (author), Wu, K. (author), and Tichem, M. (author)

Abstract

Photonic packaging, which includes high-precision assembly of photonic sub-systems, is currently a bottleneck in the development of commercially-available integrated photonic products. In the pursuit of a fully-automated, high-precision, and cost-effective photonic alignment scheme for two multi-channel photonic chips, this paper explores different designs of the on-chip electrothermal actuators for positioning mechanically-flexible waveguide structures. The final alignment goal is ~100nm waveguide to waveguide. The on-chip actuators, particularly for out-of-plane actuation, are built in a 16μm-thick SiO2 photonic-material stack with 5μm-thick poly-Si as an electrothermal element. A major challenge of out-of-plane positioning is a 6μm height difference of the waveguides to be aligned, due to different built-up material stacks, together with a misalignment tolerance of 1 μm-2μm from the pre-assembly (flip-chip) process. Therefore, the bimorph-actuator design needs to compensate this height difference, and provide sufficient motion to align the waveguides. We propose to exploit the post-release deformation of so-called short-loop bimorph actuator designs to meet these joint demands. We explore different design variants based on the heater location and the integration of actuator beams with waveguide beams. The actuator design (with 30μm poly-Si and 900μm SiO2 in length) has ~8μm out-of-plane deflection and is able to generate ~4μm motion, which meets the design goal., Micro and Nano Engineering

Published

2018