105 research outputs found
Espumas rígidas de tipo composite basadas en biopolímeros combinados con arcillas fibrosas y su método de preparación
Espumas rígidas de tipo composite basadas en biopolímeros
combinados con arcillas fibrosas y su método de
preparación.
La presente invención se refiere a espumas rígidas de tipo
composite que comprenden una matriz biopolimérica y
partículas de silicatos pertenecientes a la familia de las arcillas
fibrosas (sepiolita y palygorskita). La invención también
se refiere al procedimiento de preparación de estos
materiales, en el que la etapa de secado mediante liofilización
o secado supercrítico es fundamental para obtener
materiales de alta porosidad, así como a su uso en aplicaciones
diversas tales como aislamiento acústico y térmico,
material de embalaje, soporte de sólidos con propiedades
eléctricas, magnéticas y ópticas, así como de
fármacos y especies biológicas.Peer reviewedConsejo Superior de Investigaciones Científicas (España
Copper−Cystine Biohybrid-Embedded Nanofiber Aerogels Show Antibacterial and Angiogenic Properties
Copper−cystine-based high aspect ratio structures (CuHARS) possess exceptional physical and chemical properties and exhibit remarkable biodegradability in human physiological conditions. Extensive testing has confirmed the biocompatibility and biodegradability of CuHARS under diverse biological conditions, making them a viable source of essential Cu2+. These ions are vital for catalyzing the production of nitric oxide (NO) from the decomposition of Snitrosothiols (RSNOs) found in human blood. The ability of CuHARS to act as a Cu2+ donor under specific concentrations has been demonstrated in this study, resulting in the generation of elevated levels of NO. Consequently, this dual function makes CuHARS effective as both a bactericidal agent and a promoter of angiogenesis. In vitro experiments have shown that CuHARS actively promotes the migration and formation of complete lumens by redirecting microvascular endothelial cells. To maximize the benefits of CuHARS, they have been incorporated into biomimetic electrospun poly(ε- caprolactone)/gelatin nanofiber aerogels. Through the regulated release of Cu2+ and NO production, these channeled aerogels not only provide antibacterial support but also promote angiogenesis. Taken together, the inclusion of CuHARS in biomimetic scaffolds could hold great promise in revolutionizing tissue regeneration and wound healing
Chitosan-smectite biointerfaces vs. Alkylammonium-clay interfaces in adsorption process
Two series of chitosan-clay nanocomposites were synthesized using
commercial (CLOISITE® Na+
) and Na+
-enriched Serbian clay from seldom
investigated locality Mečji Do. The samples were characterized by X-ray
diffraction and intercalation of chitosan into bilayer structures was
confirmed for particular chitosan/clay ratio in both series of chitosan-clay
naonocomposites. Reactivity of chitosan-smectite biointerfaces vs.
alkylammonium-clay interfaces in adsorption process was compared using
textile dye Reactive Black 5 (RB5) as adsorbate. Chitosan-clay
naonocomposites had similar adsorption uptake, being more than three
times higher than adsorption uptake of commercial alkylammonium-clay
CLOISITE® 30B.The Langmuir adsorption model was found to be
appropriate for all investigated adsorbents
Brown tumor of the jaw after pregnancy and lactation in a MEN1 patient
Skeletal manifestations of primary hyperparathyroidism (pHPT) include brown tumors (BT), which are osteoclastic focal lesions often localized in the jaws. Brown tumors are a rare manifestation of pHTP in Europe and USA; however, they are frequent in developing countries, probably related to vitamin D deficiency and longer duration and severity of disease. In the majority of cases, the removal of the parathyroid adenoma is enough for the bone to remineralize, but other cases require surgery. Hyperparathyroidism in MEN1 develops early, and is multiglandular and the timing of surgery remains questionable. To our knowledge, there are no reports of BT in MEN 1 patients. We present a 29-year-old woman with MEN 1 who developed a brown tumor of the jaw 24 months after getting pregnant, while breastfeeding. Serum corrected calcium remained under 2.7 during gestation, and at that point reached a maximum of 2.82 mmol/L. Concomitant PTH was 196 pg/mL, vitamin D 13.7 ng/mL and alkaline phosphatase 150 IU/L. Bone mineral density showed osteopenia on spine and femoral neck (both T-scores = −1.6). Total parathyroidectomy was performed within two weeks, with a failed glandular graft autotransplantation, leading to permanent hypoparathyroidism. Two months after removal of parathyroid glands, the jaw tumor did not shrink; thus, finally it was successfully excised. We hypothesize that higher vitamin D and mineral requirements during maternity may have triggered an accelerated bone resorption followed by appearance of the jaw BT. We suggest to treat pHPT before planning a pregnancy in MEN1 women or otherwise supplement with vitamin D, although this approach may precipitate severe hypercalcemia
Estrategias de inmovilización de enzimas redox en el desarrollo de biosensores amperométricos
Tesis doctoral inédita leída en la Universidad Autónoma de Madrid, Facultad de Ciencias, Departamento de Química Analítica y Análisis Instrumental. Fecha de lectura: 20-12-200
Hybrid and biohybrid silicate based materials: molecular vs. block-assembling bottom–up processes
Este artículo ha sido publicado como parte del número especial dedicado a Hybrid materials.This critical review introduces a discussion on the influence of preparative procedures (nanofabrication) of nanostructured hybrids and biohybrids, comparing their structural and textural characteristics that determine the properties of the resulting materials. Selected examples of silicate-based hybrids of analogous compositions prepared by both molecular and blocks-assembly bottom-up strategies are discussed to show advantages and inconveniences of each methodology (341 references).CICYT, Spain MAT2009-09960; CSIC Spain PIF08-018; Spanish Ministry of Science and Innovation (MICINN)Peer reviewe
Procedimiento de preparación de materiales con propiedades superparamagnéticas para la extracción de iones cesio en medio acuoso, material obtenido y utilización
La presente invención se refiere a un procedimiento
de obtención de materiales superparamagnéticos con
propiedades de adsorción de iones cesio basado en
el ensamblado a un sólido inorgánico poroso de
nanopartículas de óxidos de hierro que le confiere el
comportamiento superparamagnético a temperatura
ambiente y de agentes adsorbentes selectivos de
cesio, como son los hexacianoferratos. La invención
también se refiere al material obtenido mediante este
procedimiento, así como a su uso en aplicaciones de
eliminación de iones cesio en medio acuoso, de
especial importancia para la descontaminación de
aguas, suelos, alimentos, etc. que contengan cesio
radioactivoPeer reviewedConsejo Superior de Investigaciones CientíficasA1 Solicitud de patente con informe sobre el estado de la técnic
Procedimiento de preparación de materiales con propiedades superparamagnéticas para la extracción de iones cesio en medio acuoso, material obtenido y utilización
La presente invención se refiere a un procedimiento
de obtención de materiales superparamagnéticos con
propiedades de adsorción de iones cesio basado en
el ensamblado a un sólido inorgánico poroso de
nanopartículas de óxidos de hierro que le confiere el
comportamiento superparamagnético a temperatura
ambiente y de agentes adsorbentes selectivos de
cesio, como son los hexacianoferratos. La invención
también se refiere al material obtenido mediante este
procedimiento, así como a su uso en aplicaciones de
eliminación de iones cesio en medio acuoso, de
especial importancia para la descontaminación de
aguas, suelos, alimentos, etc. que contengan cesio
radioactivoPeer reviewedConsejo Superior de Investigaciones CientíficasB1 Patente sin examen previ
Integration of a Copper-Containing Biohybrid (CuHARS) with Cellulose for Subsequent Degradation and Biomedical Control
We previously described the novel synthesis of a copper high-aspect ratio structure (CuHARS) biohybrid material using cystine. While extremely stable in water, CuHARS is completely (but slowly) degradable in cellular media. Here, integration of the CuHARS into cellulose matrices was carried out to provide added control for CuHARS degradation. Synthesized CuHARS was concentrated by centrifugation and then dried. The weighed mass was re-suspended in water. CuHARS was stable in water for months without degradation. In contrast, 25 μg/mL of the CuHARS in complete cell culture media was completely degraded (slowly) in 18 days under physiological conditions. Stable integration of CuHARS into cellulose matrices was achieved through assembly by mixing cellulose micro- and nano-fibers and CuHARS in an aqueous (pulp mixture) phase, followed by drying. Additional materials were integrated to make the hybrids magnetically susceptible. The cellulose-CuHARS composite films could be transferred, weighed, and cut into usable pieces; they maintained their form after rehydration in water for at least 7 days and were compatible with cell culture studies using brain tumor (glioma) cells. These studies demonstrate utility of a CuHARS-cellulose biohybrid for applied applications including: (1) a platform for biomedical tracking and (2) integration into a 2D/3D matrix using natural products (cellulose).This work was funded with the support of grant
awards from the National Science Foundation (NSF #1547693 and NSF#1632891), and the MINECO (Spain) project
MAT2015-71117-R. M. Darder acknowledges the joint sponsorship by the Fulbright Scholar Program and the
Spanish Ministry of Education
- …