Association of alkaline phosphatase with acute myocardial infarction in a population with high prevalence of hypovitaminosis D.

BACKGROUND: Since Pakistanis have high prevalence of hypovitaminosis-D as well as acute myocardial infarction (AMI), the objective of the study was to investigate the relationship between vitamin-D deficiency and risk of AMI in a hospital-based population and to identify major risk factors for this disease. METHODS: Fasting serum samples from 66 consecutive AMI patients [age 30-70 y] and 132 gender and age-matched (within 5 y) healthy controls were analyzed for concentrations of glucose, total-cholesterol, LDL-cholesterol, HDL-cholesterol, triglycerides, calcium, inorganic phosphate, alkaline phosphatase (ALP), bone-ALP, parathyroid hormone (PTH), 25(OH) vitamin-D (25(OH)D) and alanine aminotransferase. RESULTS: Mean concentrations of serum 25(OH)D, PTH, total-ALP, bone-ALP, LDL-cholesterol, HDL-cholesterol and glucose were significantly different compared to healthy controls (p\u3c0.05). Percent vitamin-D deficiency/insufficiency (levels\u3c30 ng/ml) was significantly greater in AMI patients compared to controls (93.9% vs.75.8%; p=0.001). Multiple conditional logistic regression analysis revealed that increased levels of 25(OH)D were associated with decreased risk of AMI [MAOR (95% CI)=0.821 (0.718, 0.940); p=0.004]. Hypertension and smoking were positively associated with AMI. CONCLUSIONS: Increased vitamin-D levels were associated with decreased risk of AMI, while serum glucose, bone-ALP, hypertension and smoking were positively associated with it. Association of bone-ALP with AMI in hypovitaminosis-D is a novel finding of this study

Recent development in graphdiyne and its derivative materials for novel biomedical applications.

Graphdiyne (GDY), which possess sp- and sp2-hybridized carbon and Dirac cones, offers unique physical and chemical properties, including an adjustable intrinsic bandgap, excellent charge carrier transfer efficiency, and superior conductivity compared to other carbon allotropes. These exceptional qualities of GDY and its derivatives have been successfully used in a variety of fields, including catalysis, energy, environmental protection, and biological applications. Herein, we focus on the potential application of GDY and its derivatives in the biomedical domain, including biosensing, biological protection, cancer therapy, and antibacterial agents, demonstrating how the biomimetic behavior of these materials can be a step forward in bridging the gap between nature and applications. Considering the excellent biocompatibility, solubility and selectivity of GDY and its derived materials, they have shown great potential as biosensing and bio-imaging materials. The unusual combination of properties in GDY has been used in biological applications such as "OFF-ON" DNA detection and enzymatic sensing, where GDY has a greater adsorption capacity than graphene and other 2D materials, resulting in increased sensitivity. GDY and its derivatives have also been used in cancer treatment due to their high doxorubicin (DOX) loading capacity (using-stacking) and photothermal conversion ability, and radiation protection since their initial biological use. The poor biodegradation rate of graphene demands the search for new nanomaterials. Accordingly, GDY has better biocompatibility and bio-safety than other 2D nanomaterials, especially graphene and its oxide, due to its absence of aggregation in the physiological environment. Thus, GDY-based nanomaterials have become promising candidates as bio-delivery carriers. Besides, GDY and GDY-based materials have also shown interesting applications in the fields of cell-culture, cell-growth and tissue engineering. Herein, we present a comprehensive review on the applications of GDY and its derivatives as biomedical materials, followed by their future perspectives. This review will provide an outlook for the application of graphene and its derivatives and may open up new horizons to inspire broader interests across various disciplines. Finally, the future prospects for GDY-based materials are examined for their potential biological use

Recent advance in two-dimensional MXenes: New horizons in flexible batteries and supercapacitors technologies

MXenes (two dimensional (2D) transition metal (TM) carbides (TMCs), TM nitrides (TMNs), and TM carbonitrides (TMCNs) are emerged as future biggest 2D materials (2DMs) family with novel applications in different nanotechnological research in academic as well as industrial level. MXenes NMs have the potential to be classified as a “wonder material” in the category of 2D nanomaterials (NMs). MXenes were studied and synthesized for over a decade since their first discovery in 2011, and till now more than 50 members are experimentally studied and more than 100 are theoretically investigated. Synthesis techniques are not restricted to the first introduced top-down HF based etching method but new innovative synthesis methods, such as, water (H2O)-free etching, molten salts etching and bottom-up method, like Chemical vapor deposition (CVD) method etc were also studied, providing multifunctional surface chemistry based MXenes NMs with novel configuration, and desirable characteristics. MXenes are used as important components in a number of flexible energy storage devices (FESDs), for instance secondary batteries, supercapacitors (SCs), Micro-SCs (MSCs) and Micro-batteries (MBs), etc due to their distinctive layered structures, high electrochemical performance and fascinating functional capabilities. In this review, we first will discuss in detail the MXenes NMs synthesis methods, secondly selected properties, and third their applications in various FESDs. After that, we will summarize and discuss the most present problems associated with MXenes NMs synthesis and their applications in FESDs, and possible solutions to those problems. Finally we will discuss the presents interesting vision for the future progress of the MXenes-based NMs in wearable and FESDs, their limitations, and suggestions

Smell perception during early pregnancy: no evidence of an adaptive mechanism

Objective It has been suggested that nausea and vomiting in pregnancy is an evolutionary adaptive mechanism to avoid the ingestion of potentially harmful foods. It has also been suggested that the mechanism that triggers nausea and vomiting in pregnancy may be olfaction and that olfactory senses are invoked to provide this protection. This study aimed to test this theory in a systematic design. Design Cross sectional study. Setting The antenatal department of a maternity hospital in the north of England. Sample Three groups of participants: pregnant women (n= 55), non-pregnant women (n= 42) and men (n= 48). Methods Sensitivity was tested towards the odours of six standard stimuli (half safe and half associated with potentially harmful compounds). Main outcome measures Odour rating of likeness, strength and pleasantness. Results Pregnant women rated safe and odours with potentially harmful compounds differently but not more so than men or non-pregnant women. There was no evidence that pregnancy changed the olfactory processes from the non-pregnant state and only slight differences between pregnant women and men were recorded. Conclusions There was no evidence that olfactory processes had undergone any adaptation during pregnancy. The ability to differentiate safe from potentially harmful compounds was common to all three groups studied

Guide on Diabetes and COVID-19 for Healthcare Professionals in Bangladesh

The world is suffering from a pandemic of coronavirus disease-2019 (COVID-19), and people with diabetes mellitus (DM) are more vulnerable to the serious effects of the COVID-19. This interaction is alarming, considering the high transmission rate of COVID-19 and the global prevalence of DM. Considering the importance of the link between COVID-19 and DM, Bangladesh Diabetic Association has formed a panel of national and international experts in the field of public health, diabetes, and endocrinology to provide some evidence-based guidance for the prevention and care of people with DM during the COVID-19 pandemic

Guide on Diabetes and COVID-19 for Healthcare Professionals in Bangladesh

The world is suffering from a pandemic of coronavirus disease-2019 (COVID-19), and people with diabetes mellitus (DM) are more vulnerable to the serious effects of the COVID-19. This interaction is alarming, considering the high transmission rate of COVID-19 and the global prevalence of DM. Considering the importance of the link between COVID-19 and DM, Bangladesh Diabetic Association has formed a panel of national and international experts in the field of public health, diabetes, and endocrinology to provide some evidence-based guidance for the prevention and care of people with DM during the COVID-19 pandemic