785 research outputs found
Bariatric surgery in HIV-infected patients: review of literature
Obesity is now a common problem among HIV-infected patients receiving antiretroviral therapy (ART). Until recently, HIV infection has been considered a contraindication to bariatric surgery for various reasons. Insurance carriers have considered HIV a terminal disease, and surgeons have been reluctant to operate HIV-infected patients because of this, as well as the associated risk of infectious transmissions, although this has been changing. Gastric bypass surgery may be an option for some patients who have failed diet and therapeutic lifestyle changes, modification in ART or other treatment modalities for HIV/ART-related lipohypertrophy and obesity. However, few data are available regarding HIV-related outcomes after such surgery and its impact on ART tolerability. The aim of this study is to review bariatric surgery in HIV-infected patients
Very Large PoreMesoporous Bioactive Silicate Glasses: Comparison of Behavior toward Classical Mesoporous Bioactive Glasses in Terms of Drug Loading/Release and Bioactivity
Abstract: Considering the increase in patients who suffer from osteoporosis and the bone defects
that occur in these patients, bone tissue regeneration is a promising option to solve this problem. To
achieve a synergistic effect between the synthesis of a proper structure and bioactive/pharmaceutical
activity, ions with a physiological effect can be added to silica structures, such as Ca2+, thanks to its
bioactive behavior, and Ga3+ for its antibacterial and anticancer action. In this work, the synthesis
of large pore mesoporous silica (LPMS), potential bioactive glasses containing Ca2+ and Ga3+, has
been studied. Corresponding structures, in terms of composition, have been synthesized following
the Sol-Gel EISA (Evaporation Induced Self-Assembly) process (obtaining Classical Mesoporous
Silica, MS). Pore structure characterization of LPMSs and MSs has been performed using N2 adsorption/
desorption and Hg-porosimetry, showing the presence of pores for LPMSs in the range of
20–60 and 200–600 nm. Nisin, a polycyclic antibacterial peptide, has been used for load tests. The
load and release tests performed highlight a higher loading and releasing, doubled for LPMSs if compared
to MSs. To confirm the maintenance of the structure of LPMSs and their mechanical strength
and resistance, scanning electron microscopy images were acquired before and after release tests. Ca
and Ga release in SBF has been studied through inductively coupled plasma—optical emission spectroscopy
(ICP-OES), showing a particularly high release of these ions performed with LPMSs. The
bioactive behavior of Ca-containing structures has been confirmed using FT-IR (Fourier-transform
infrared spectroscopy), SEM-EDS (Scanning Electron Microscope-Energy Dispersive Spectroscopy),
and X-ray powder diffraction (XRDP). In conclusion, LPMSs showed better loading and releasing
properties compared with classical MS and better release in terms of active ions. In addition, it has
also been demonstrated that LPMSs have bioactive behavior (a well-known characteristic of MSs)
From Field to Shelf: How Microwave-Assisted Extraction Techniques Foster an Integrated Green Approach
Microwave-assisted extraction of organic compounds from vegetal matrixes is a relatively young field of research. The exceptional results achievable at the laboratory scale by microwave-assisted extraction, like shorter extraction times, lower average temperatures, reduction of organic solvents use, higher yields and selectivity, as well as energy and cost saving, are not always accompanied by a successful scale up. Nevertheless, microwave-assisted techniques of extraction have been multiplying during last decades. In this framework, a deeper knowledge of microwave applicator design criteria is mandatory. This chapter starts from the basis of microwave heating and the relevant material properties involved in a successful microwave-assisted extraction application, to continue with a short overview on how such properties can be measured and used to optimize the experimental setup or a possible scale up of the process under investigation. A comprehensive review of recent applications of microwave-assisted extraction, applied to vegetal matrixes, is presented next. The chapter ends reviewing duplex treatments of vegetal matrixes for extraction purposes, where microwave heating is coupled to other techniques, like ultrasounds, and indicating new paths, where the recent advent of new microwave solid-state generators has led to better process control and higher yields and energy efficiency
Very large pores mesoporous silica as new candidate for delivery of big therapeutics molecules, such as pharmaceutical peptides
The synthesis of a scaffold that can accommodate big molecules with a pharmaceutical role
is important to shield them and maintain their biological activity. In this field, silica particles with
large pores (LPMS) are innovative supports. Large pores allow for the loading of bioactive molecules
inside the structure and contemporarily their stabilization and protection. These purposes cannot be
achieved using classical mesoporous silica (MS, pore size 2–5 nm), because their pores are not big
enough and pore blocking occurs. LPMSs with different porous structures are synthesized starting
from an acidic water solution of tetraethyl orthosilicate reacting with pore agents (Pluronic® F127
and mesitylene), performing hydrothermal and microwave-assisted reactions. Time and surfactant
optimization were performed. Loading tests were conducted using Nisin as a reference molecule
(polycyclic antibacterial peptide, with dimensions of 4–6 nm); UV-Vis analyses on loading solutions
were performed. For LPMSs, a significantly higher loading efficiency (LE%) was registered. Other
analyses (Elemental Analysis, Thermogravimetric Analysis and UV-Vis) confirmed the presence of
Nisin in all the structures and its stability when loaded on them. LPMSs showed a lower decrease
in specific surface area if compared to MS; in terms of the difference in LE% between samples, it is
explained considering the filling of pores for LPMSs, a phenomenon that is not allowed for MSs.
Release studies in simulated body fluid highlight, only for LPMSs, a controlled release, considering
the longer time scale of release. Scanning Electron Microscopy images acquired before and after
release tests shows the LPMSs’ maintenance of the structure, demonstrating strength and mechanical
resistance of structures. In conclusion, LPMSs were synthesized, performing time and surfactant
optimization. LPMSs showed better loading and releasing properties with respect to classical MS. All collected data confirm a pore blocking for MS and an in-pore loading for LPMS
Applications of Radiolabelled Curcumin and Its Derivatives in Medicinal Chemistry
Curcumin is a natural occurring molecule that has aroused much interest among researchers
over the years due to its pleiotropic set of biological properties. In the nuclear medicine field,
radiolabelled curcumin and curcumin derivatives have been studied as potential radiotracers for the
early diagnosis of Alzheimer’s disease and cancer. In the present review, the synthetic pathways,
labelling methods and the preclinical investigations involving these radioactive compounds are
treated. The studies entailed chemical modifications for enhancing curcumin stability, as well as its
functionalisation for the labelling with several radiohalogens or metal radionuclides (fluorine-18,
technetium-99m, gallium-68, etc.). Although some drawbacks have yet to be addressed, and none
of the radiolabelled curcuminoids have so far achieved clinical application, the studies performed
hitherto provide useful insights and lay the foundation for further developments
Alginate Beads Containing Cerium-Doped Mesoporous Glass and Curcumin: Delivery and Stabilization of Therapeutics
: Cancer is a leading cause of death worldwide, its genesis and progression are caused by homeostatic errors, and reactive oxygen species play a major role in promoting aberrant cancer homeostasis. In this scenario, curcumin could be an interesting candidate due to its versatile antioxidant, anti-inflammatory, anti-tumor, anti-HIV, and anti-infection properties. Nonetheless, the major problem related to its use is its poor oral bioavailability, which can be overcome by encapsulating it into small particles, such as hydrogel beads containing mesoporous silica. In this work, various systems have been synthesized: starting from mesoporous silica glasses (MGs), cerium-containing MGs have been produced; then, these systems have been loaded with 4 to 6% of curcumin. Finally, various MGs at different compositions have been included in alginate beads. In vitro studies showed that these hybrid materials enable the stabilization and effective delivery of curcumin and that a synergic effect can be achieved if Ce3+/Ce4+ and curcumin are both part of the beads. From swelling tests, it is possible to confirm a controlled curcumin release compartmentalized into the gastrointestinal tract. For all beads obtained, a curcumin release sufficient to achieve the antioxidant threshold has been reached, and a synergic effect of cerium and curcumin is observed. Moreover, from catalase mimetic activity tests, we confirm the well-known catalytic activity of the couple Ce3+/Ce4+. In addition, an extremely good radical scavenging effect of curcumin has been demonstrated. In conclusion, these systems, able to promote an enzymatic-like activity, can be used as drug delivery systems for curcumin-targeted dosing
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