Microplastics and chemical additives from disposable face masks: Environmental, human health and behavioural impacts

Microplastic (MP) pollution has emerged as a major environmental issue with significant health implications. Synthetic face masks (FMs) have been identified as a substantial source of MPs and chemical additives, posing risks to ecosystems and human health. This systematic literature review examines the environmental and human health risks associated with MPs and chemical additives released from synthetic FMs and explores the behavioural factors influencing these risks. This interdisciplinary perspective is not well-explored in existing literature and offers new insights into the field. Key findings indicate that MPs are present in newly manufactured FMs, likely generated during the non-woven FM production process, with various environmental factors accelerating the release of MPs and additives. While existing studies highlight MP toxicity in aquatic and terrestrial organisms, there is a lack of research addressing the direct MP impact on human health. Workplaces where FMs are used as personal protective equipment may create conditions that promote pollutant release; however, but the literature has predominantly focused on secondary exposure via the food chain, rather than on direct exposure during FM use. Most research centres on the COVID-19 pandemic, leaving a gap in understanding risks for individuals relying on FMs for occupational safety or living in areas with poor air quality. The wide range and concentration of additives reported suggest inadequate regulation in FM production. Future research should focus on evaluating the long-term health impacts of MPs and additives, understanding FM-wearing behaviours to assess exposure levels, conducting cause-and-effect studies to inform policy, and developing sustainable alternatives.</p

Cumulative incidence and risk factors for cutaneous squamous-cell carcinoma metastases in organ transplant recipients: the SCOPE-ITSCC metastases study, a prospective multi-center study.

Solid organ transplant recipients (SOTRs) are believed to have an increased risk of metastatic cutaneous squamous-cell carcinoma (cSCC), but reliable data are lacking regarding the precise incidence and associated risk factors. In a prospective cohort study, including 19 specialist dermatology outpatient clinics in 15 countries, patient and tumor characteristics were collected using standardized questionnaires when SOTRs presented with a new cSCC. After a minimum of 2 years of follow-up, relevant data for all SOTRs were collected. Cumulative incidence of metastases was calculated by the Aalen-Johansen estimator. Fine and Gray models were used to assess multiple risk factors for metastases. Of 514 SOTRs who presented with 623 primary cSCCs, 37 developed metastases with a 2-year patient-based cumulative incidence of 6.2%. Risk factors for metastases included location in the head and neck area, local recurrence, size >2cm, clinical ulceration, poor differentiation grade, perineural invasion and deep invasion. A high-stage tumor that is also ulcerated showed the highest risk of metastasis, with a 2-year cumulative incidence of 46.2% (31.9% - 68.4%). SOTRs have a high risk of cSCC metastases and well-established clinical and histological risk factors have been confirmed. High-stage, ulcerated cSCCs have the highest risk of metastasis. [Abstract copyright: Copyright © 2024. Published by Elsevier Inc.

Brucellosis as an Emerging Threat in Developing Economies:Lessons from Nigeria

Nigeria is the most populous country in Africa, has a large proportion of the world's poor livestock keepers, and is a hotspot for neglected zoonoses. A review of the 127 accessible publications on brucellosis in Nigeria reveals only scant and fragmented evidence on its spatial and temporal distribution in different epidemiological contexts. The few bacteriological studies conducted demonstrate the existence of Brucella abortus in cattle and sheep, but evidence for B. melitensis in small ruminants is dated and unclear. The bulk of the evidence consists of seroprevalence studies, but test standardization and validation are not always adequately described, and misinterpretations exist with regard to sensitivity and/or specificity and ability to identify the infecting Brucella species. Despite this, early studies suggest that although brucellosis was endemic in extensive nomadic systems, seroprevalence was low, and brucellosis was not perceived as a real burden; recent studies, however, may reflect a changing trend. Concerning human brucellosis, no studies have identified the Brucella species and most reports provide only serological evidence of contact with Brucella in the classical risk groups; some suggest brucellosis misdiagnoses as malaria or other febrile conditions. The investigation of a severe outbreak that occurred in the late 1970s describes the emergence of animal and human disease caused by the settling of previously nomadic populations during the Sahelian drought. There appears to be an increasing risk of re-emergence of brucellosis in sub-Saharan Africa, as a result of the co-existence of pastoralist movements and the increase of intensive management resulting from growing urbanization and food demand. Highly contagious zoonoses like brucellosis pose a threat with far-reaching social and political consequences

Tadalafil Alleviates Muscle Ischemia in Patients with Becker Muscular Dystrophy

The phosphodiesterase 5A inhibitor tadalafil restores normal blood flow regulation in exercising skeletal muscle of patients with Becker muscular dystrophy.</jats:p

Multi‐response optimization of extrusion conditions of grain amaranth flour by response surface methodology

The study was designed to optimize extrusion processing conditions for production of instant grain amaranth flour for complementary feeding. Multi-response criteria using response surface methodology and desirability function analysis were employed during the study. The central composite rotatable design (CCRD) was used to determine the level of processing variables and to generate the experimental runs. The process parameters tested included extrusion temperature (110–158°C), screw speed (40–52 Hz), and feed moisture content (11%–16%), while response variable was protein digestibility, sensory acceptability, water absorption index, water solubility index, bulk density, and viscosity. Data obtained from extrusion were analyzed using response surface methodology. Data were fitted to a second-order polynomial model, and the dependent variables expressed as a function of the independent variables. Analysis of variance (ANOVA) revealed that extrusion parameters had significant linear, quadratic, and interactive effects on the responses. Numerical optimization indicated that the optimum extrusion parameters were extrusion temperature of 150°C, extrusion speed (screw speed) of 50 Hz, and feed moisture content of 14.41%. The responses predicted for optimization resulted in protein digestibility 81.87%, water absorption index 1.92, water solubility index 0.55, bulk density 0.59 gm/L, viscosity 174.56 cP (14.55 RVU), and sensory acceptability score of 6.69, with 71% desirability

Current development of bioreactors for extracorporeal bioartificial liver(Review)

10.1116/1.3521520Biointerphases53116-13