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1.
Transpl Immunol ; 79: 101857, 2023 08.
Artículo en Inglés | MEDLINE | ID: mdl-37201797

RESUMEN

OBJECTIVES: Belatacept may provide benefit in delayed graft function, but its association with infectious complications is understudied. We aim to assess the incidence of CMV and BK viremia in patients treated with sirolimus or belatacept as part of a three-drug immunosuppression regimen after kidney transplantation. MATERIALS AND METHODS: Kidney transplant recipients from 01/01/2015 to 10/01/2021 were retrospectively reviewed. Maintenance immunosuppression was either tacrolimus, mycophenolate and sirolimus (B0) or tacrolimus, mycophenolate, and belatacept (5.0 mg/kg monthly) (B1). Primary outcomes of interest were BK and CMV viremia which were followed until the end of the study period. Secondary outcomes included graft function (serum creatinine, eGFR) and acute rejection through 12 months. RESULTS: Belatacept was initiated in patients with a higher mean kidney donor profile index (B0:0.36 vs. B1:0.44, p = .02) with more delayed graft function (B0:6.1% vs. B1:26.1%, p < .001). Belatacept therapy was associated with more "severe" CMV viremia >25,000 copies/mL (B0:1.2% vs. B1:5.9%, p = .016) and CMV disease (B0:0.41% vs. B1:4.2%, p = .015). However, there was no difference in the overall incidence of CMV viremia >200 IU/mL (B0:9.4% vs. B1:13.5%, p = .28). There was no difference in the incidence of BK viremia >200 IU/mL (B0:29.7% vs. B1:31.1%, p = .78) or BK-associated nephropathy (B0:2.4% vs. B1:1.7%, p = .58), but belatacept was associated with "severe" BK viremia, defined as >10,000 IU/mL (B0:13.0% vs. B1:21.8%, p = .03). The mean serum Cr was significantly higher with belatacept therapy at 1-year follow up (B0:1.24 mg/dL vs. B1:1.43 mg/dL, p = .003). Biopsy-proven acute rejection (B0:1.2% vs. B1:2.6%, p = .35) and graft loss (B0:1.2% vs. B1:0.84%, p = .81) were comparable at 12 months. CONCLUSIONS: Belatacept therapy was associated with an increased risk of CMV disease and "severe" CMV and BK viremia. However, this regimen did not increase the overall incidence of infection and facilitated comparable acute rejection and graft loss at 12-month follow up.


Asunto(s)
Virus BK , Infecciones por Citomegalovirus , Infecciones por Polyomavirus , Humanos , Sirolimus/uso terapéutico , Abatacept/uso terapéutico , Tacrolimus/uso terapéutico , Viremia/tratamiento farmacológico , Viremia/epidemiología , Estudios Retrospectivos , Funcionamiento Retardado del Injerto/tratamiento farmacológico , Inmunosupresores/uso terapéutico , Inmunosupresores/efectos adversos , Terapia de Inmunosupresión , Infecciones por Citomegalovirus/tratamiento farmacológico , Infecciones por Citomegalovirus/epidemiología , Infecciones por Polyomavirus/tratamiento farmacológico , Infecciones por Polyomavirus/epidemiología , Rechazo de Injerto/epidemiología
2.
Sci Rep ; 11(1): 20636, 2021 10 19.
Artículo en Inglés | MEDLINE | ID: mdl-34667246

RESUMEN

Current equipment and methods for preparation of radiopharmaceuticals for positron emission tomography (PET) are expensive and best suited for large-scale multi-doses batches. Microfluidic radiosynthesizers have been shown to provide an economic approach to synthesize these compounds in smaller quantities, but can also be scaled to clinically-relevant levels. Batch microfluidic approaches, in particular, offer significant reduction in system size and reagent consumption. Here we show a simple and rapid technique to concentrate the radioisotope, prior to synthesis in a droplet-based radiosynthesizer, enabling production of clinically-relevant batches of [18F]FET and [18F]FBB. The synthesis was carried out with an automated synthesizer platform based on a disposable Teflon-silicon surface-tension trap chip. Up to 0.1 mL (4 GBq) of radioactivity was used per synthesis by drying cyclotron-produced aqueous [18F]fluoride in small increments directly inside the reaction site. Precursor solution (10 µL) was added to the dried [18F]fluoride, the reaction chip was heated for 5 min to perform radiofluorination, and then a deprotection step was performed with addition of acid solution and heating. The product was recovered in 80 µL volume and transferred to analytical HPLC for purification. Purified product was formulated via evaporation and resuspension or a micro-SPE formulation system. Quality control testing was performed on 3 sequential batches of each tracer. The method afforded production of up to 0.8 GBq of [18F]FET and [18F]FBB. Each production was completed within an hour. All batches passed quality control testing, confirming suitability for human use. In summary, we present a simple and efficient synthesis of clinically-relevant batches of [18F]FET and [18F]FBB using a microfluidic radiosynthesizer. This work demonstrates that the droplet-based micro-radiosynthesizer has a potential for batch-on-demand synthesis of 18F-labeled radiopharmaceuticals for human use.


Asunto(s)
Radioisótopos de Flúor/química , Microfluídica/métodos , Radiofármacos/síntesis química , Cromatografía Líquida de Alta Presión , Fluoruros , Radioisótopos de Flúor/farmacología , Humanos , Tomografía de Emisión de Positrones/métodos , Radioquímica/métodos , Radioisótopos/química , Tomografía Computarizada por Rayos X
3.
Lab Chip ; 15(14): 2968-80, 2015 Jul 21.
Artículo en Inglés | MEDLINE | ID: mdl-26040942

RESUMEN

Accurate measurement of RNA transcripts from single cells will enable the precise classification of cell types and characterization of the heterogeneity in cell populations that play key roles in normal cellular physiology and diseases. As a step towards this end, we have developed a microfluidic device and methods for automatic hydrodynamic capture of single mammalian cells and subsequent immobilization and digital counting of polyadenylated mRNA molecules released from the individual cells. Using single-molecule fluorescence imaging, we have demonstrated that polyadenylated mRNA molecules from single HeLa cells can be captured within minutes by hybridization to polydeoxyribothymidine oligonucleotides covalently attached on the glass surface in the device. The total mRNA molecule counts in the individual HeLa cells are found to vary significantly from one another. Our technology opens up the possibility of direct digital enumeration of RNA transcripts from single cells with single-molecule sensitivity using a single integrated microfluidic device.


Asunto(s)
Técnicas Analíticas Microfluídicas , ARN Mensajero/análisis , ARN Mensajero/aislamiento & purificación , Análisis de la Célula Individual , Transcripción Genética/genética , Difusión , Diseño de Equipo , Células HeLa , Humanos , Cinética , Técnicas Analíticas Microfluídicas/instrumentación , ARN Mensajero/genética , Análisis de la Célula Individual/instrumentación , Células Tumorales Cultivadas
4.
J Biomed Biotechnol ; 2012: 178487, 2012.
Artículo en Inglés | MEDLINE | ID: mdl-22500078

RESUMEN

A method is presented for the electric-field-directed self-assembly of higher-order structures composed of alternating layers of biotin nanoparticles and streptavidin-/avidin-conjugated enzymes carried out on a microelectrode array device. Enzymes included in the study were glucose oxidase (GOx), horseradish peroxidase (HRP), and alkaline phosphatase (AP); all of which could be used to form a light-emitting microscale glucose sensor. Directed assembly included fabricating multilayer structures with 200 nm or 40 nm GOx-avidin-biotin nanoparticles, with AP-streptavidin-biotin nanoparticles, and with HRP-streptavidin-biotin nanoparticles. Multilayered structures were also fabricated with alternate layering of HRP-streptavidin-biotin nanoparticles and GOx-avidin-biotin nanoparticles. Results showed that enzymatic activity was retained after the assembly process, indicating that substrates could still diffuse into the structures and that the electric-field-based fabrication process itself did not cause any significant loss of enzyme activity. These methods provide a solution to overcome the cumbersome passive layer-by-layer assembly methods to efficiently fabricate higher-order active biological and chemical hybrid structures that can be useful for creating novel biosensors and drug delivery nanostructures, as well as for diagnostic applications.


Asunto(s)
Técnicas Biosensibles/métodos , Glucosa Oxidasa/química , Nanopartículas/química , Avidina/química , Avidina/metabolismo , Técnicas Biosensibles/instrumentación , Biotina/química , Biotina/metabolismo , Campos Electromagnéticos , Glucosa/análisis , Glucosa Oxidasa/metabolismo , Dispositivos Laboratorio en un Chip , Luminol/química , Luminol/metabolismo , Nanopartículas/ultraestructura , Estreptavidina/química , Estreptavidina/metabolismo
5.
Lab Chip ; 10(22): 3084-93, 2010 Nov 21.
Artículo en Inglés | MEDLINE | ID: mdl-20820631

RESUMEN

We report the development of a microfabricated electrophoretic device for assembling high-density arrays of antibody-conjugated microbeads for chip-based protein detection. The device consists of a flow cell formed between a gold-coated silicon chip with an array of microwells etched in a silicon dioxide film and a glass coverslip with a series of thin gold counter electrode lines. We have demonstrated that 0.4 and 1 µm beads conjugated with antibodies can be rapidly assembled into the microwells by applying a pulsed electric field across the chamber. By assembling step-wise a mixture of fluorescently labeled antibody-conjugated microbeads, we incorporated both spatial and fluorescence encoding strategies to demonstrate significant multiplexing capabilities. We have shown that these antibody-conjugated microbead arrays can be used to perform on-chip sandwich immunoassays to detect test antigens at concentrations as low as 40 pM (6 ng/mL). A finite element model was also developed to examine the electric field distribution within the device for different counter electrode configurations over a range of line pitches and chamber heights. This device will be useful for assembling high-density, encoded antibody arrays for multiplexed detection of proteins and other types of protein-conjugated microbeads for applications such as the analysis of protein-protein interactions.


Asunto(s)
Electroforesis por Microchip/instrumentación , Inmunoensayo/instrumentación , Microesferas , Animales , Antígenos/análisis , Antígenos/metabolismo , Campos Electromagnéticos , Electroforesis por Microchip/métodos , Análisis de Elementos Finitos , Fluoresceína-5-Isotiocianato/química , Fluoresceína-5-Isotiocianato/metabolismo , Oro/química , Inmunoensayo/métodos , Inmunoglobulina G/química , Inmunoglobulina G/metabolismo , Ratones , Microscopía Fluorescente , Conejos , Dióxido de Silicio/química
6.
Proc SPIE Int Soc Opt Eng ; 77592010 Aug 01.
Artículo en Inglés | MEDLINE | ID: mdl-21614137

RESUMEN

We describe a microfluidic device capable of trapping, isolating, and lysing individual cells in parallel using dielectrophoretic forces and a system of PDMS channels and valves. The device consists of a glass substrate patterned with electrodes and two PDMS layers comprising of the microfluidic channels and valve control channels. Individual cells are captured by positive dielectrophoresis using the microfabricated electrode pairs. The cells are then isolated into nanoliter compartments using pneumatically actuated PDMS valves. Following isolation, the cells are lysed open by applying an electric field using the same electrode pairs. With the ability to capture and compartmentalize single cells our device may be combined with analytical methods for in situ molecular analysis of cellular components from single cells in a highly parallel manner.

7.
Lab Chip ; 9(22): 3268-74, 2009 Nov 21.
Artículo en Inglés | MEDLINE | ID: mdl-19865735

RESUMEN

We report a method for rapid, electric field directed assembly of high-density protein-conjugated microbead arrays. Photolithography is used to fabricate an array of micron to sub-micron-scale wells in an epoxy-based photoresist on a silicon wafer coated with a thin gold film, which serves as the primary electrode. A thin gasket is used to form a microfluidic chamber between the wafer and a glass coverslip coated with indium-tin oxide, which serves as the counter electrode. Streptavidin-conjugated microbeads suspended in a low conductance buffer are introduced into the chamber and directed into the wells via electrophoresis by applying a series of low voltage electrical pulses across the electrodes. Hundreds of millions of microbeads can be permanently assembled on these arrays in as little as 30 seconds and the process can be monitored in real time using epifluorescence microscopy. The binding of the microbeads to the gold film is robust and occurs through electrochemically induced gold-protein interactions, which allows excess beads to be washed away or recycled. The well and bead sizes are chosen such that only one bead can be captured in each well. Filling efficiencies greater than 99.9% have been demonstrated across wafer-scale arrays with densities as high as 69 million beads per cm(2). Potential applications for this technology include the assembly of DNA arrays for high-throughput genome sequencing and antibody arrays for proteomic studies. Following array assembly, this device may also be used to enhance the concentration-dependent processes of various assays through the accelerated transport of molecules using electric fields.


Asunto(s)
Técnicas Analíticas Microfluídicas/métodos , Microesferas , Electroquímica , Vidrio/química , Técnicas Analíticas Microfluídicas/instrumentación , Microscopía Electrónica de Rastreo , Silicio/química , Compuestos de Estaño/química
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