The progressive and fatal outbreak of the newly emerged coronavirus, SARS-CoV-2, necessitates rigorous collaboration of all health care systems and researchers from all around the world to bring such a devastating pandemic under control. As there is so far no officially approved drug or ideal vaccine for this disease, investigations on this infectious disease are actively pursued. Chitin and chitosan have shown promising results against viral infections. In this review, we first delve into the problematic consequences of viral pandemics followed by an introduction on SARS-CoV-2 taxonomical classification. Then, we elaborate on the immunology of COVID-19. Common antiviral therapies and their related limitations are described and finally, the potential applicability of chitin and chitosan to fight this overwhelming viral pandemic is addressed.
Astaxanthin (AXT)
is one of the most important fat-soluble carotenoids
that have abundant and diverse therapeutic applications namely in
liver disease, cardiovascular disease, cancer treatment, protection
of the nervous system, protection of the skin and eyes against UV
radiation, and boosting the immune system. However, due to its intrinsic
reactivity, it is chemically unstable, and therefore, the design and
production processes for this compound need to be precisely formulated.
Nanoencapsulation is widely applied to protect AXT against degradation
during digestion and storage, thus improving its physicochemical properties
and therapeutic effects. Nanocarriers are delivery systems with many
advantages—ease of surface modification, biocompatibility,
and targeted drug delivery and release. This review discusses the
technological advancement in nanocarriers for the delivery of AXT
through the brain, eyes, and skin, with emphasis on the benefits,
limitations, and efficiency in practice.
Our knowledge of the effects of exposure to indoor ultrafine particles (sub‐100 nm, #/cm3) on human brain activity is very limited. The effects of cooking ultrafine particles (UFP) on healthy adults were assessed using an electroencephalograph (EEGs) for brain response. Peak ultrafine particle concentrations were approximately 3 × 105 particle/cm3, and the average level was 1.64 × 105 particle/cm3. The average particle number emission rate (S) and the average number decay rate (a+k) for chicken frying in brain experiments were calculated to be 2.82 × 1012 (SD = 1.83 × 1012, R2 = 0.91, p = 0.0013) particles/min, 0.47 (SD = 0.30, R2 = 0.90, p < 0.0001) min−1, respectively. EEGs were recorded before and during cooking (14 min) and 30 min after the cooking sessions. The brain fast‐wave band (beta) decreased during exposure, similar to people with neurodegenerative diseases. It subsequently increased to its pre‐exposure condition for 70% of the study participants after 30 min. The brain slow‐wave band to fast‐wave band ratio (theta/beta ratio) increased during and after exposure, similar to observed behavior in early‐stage Alzheimer's disease (AD) patients. The brain then tended to return to its normal condition within 30 min following the exposure. This study suggests that chronically exposed people to high concentrations of cooking aerosol might progress toward AD.
Cardiovascular disorders remain the leading cause of death around the world. Heart transplantation is considered the only therapeutic choice defined as the gold standard strategy to manage end-stage heart failure. Nevertheless, the remaining postoperative complications compromise both the survival rate and quality of life in heart transplantation recipients. The present study aimed to review the current findings concerning the main early complications after heart transplantation, reliable predictors, diagnostic approaches, novel surgical techniques, and management strategies. The results demonstrated that significant advances in immunosuppressive pharmaceuticals, determining appropriate policies for donor acceptance, pre and post-operative treatment/care, selection of the most compatible donor with the recipient, and the suggestion of novel diagnostic and surgical techniques over the past decade had dropped the mortality and morbidity rates early after transplantation. However,marrhythmia, atrial flutter, atrial fibrillation, deep sternal wound infection along with other sites infections, low cardiac output syndrome, acute graft dysfunction, pericardial effusion, constrictive pericarditis, and acute cellular rejection could be considered as the major early complications following heart transplantations that pivotally require further investigations.
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