Posts in category: Publications

Introduction

In the ever-evolving landscape of medical science, the integration of bionics stands as a beacon of hope and innovation. Bionics, a term coined from the fusion of biology and electronics, refers to the study and design of systems inspired by biological processes. This field, especially in the context of medicine, has
the potential to redefine what it means to heal and recover. At the forefront of this revolution is the application of bionics in organ replacement, an area that promises to address some of the
most pressing challenges faced in healthcare today [1]. The traditional approach to organ failure has predominantly relied on transplants, a method fraught with challenges. The scarcity of organ donors, coupled with the complex and often risky process of transplantation, leaves many patients in a perpetual
state of uncertainty. Complications such as organ rejection and the lifelong dependence on immune-suppressants further complicate this picture. These artificially engineered systems, which emulate the functions of natural organs, offer a groundbreaking alternative.

Submission Date: 02/01/2024

Publication Date: 04/06/2024

Category: PubMed

Author: Yagyavalkya Sharma, Aniketa Sharma, Krishan Raj Singh, Harsh Vardhan

Introduction

Plant diseases present formidable challenges to global food security, jeopardizing crop yields, economic stability, and livelihoods on a worldwide scale. In light of these pressing challenges, the field of plant pathology has undergone rapid evolution, embracing innovative strategies aimed at fortifying crop resistance against diseases. This introduction offers insights into the critical significance of disease resistance, the dynamic evolution of plant pathology, and the imperative for pioneering approaches to confront plant diseases effectively. Disease resistance stands as a cornerstone in the realm of agriculture, directly influencing agricultural productivity and the availability of food resources. Pathogens ranging from fungi and bacteria to viruses and nematodes precipitate plant diseases, inciting substantial losses in crop yield and compromising the quality of harvested produce.

Introduction

Environmental sustainability concept that emphasizes the need to preserve and protect our natural resources for the benefit of current and future generations. It encompasses the responsible management of resources, conservation of ecosystems, and the promotion of practices that minimize environmental impact Achieving environmental sustainability is crucial for maintaining the health and well-being of dall its inhabitants and adopting sustainable agricultural practices. Soil conservation maintaining agricultural productivity, preventing nutrient loss. preserving water quality, and safeguarding ecosystems. The Impact of Soil Degradation on Ecosystems and Agriculture Soll degradation has far-reaching consequences for both acosystems, and agriculture. Erosion, world tacing numerous environmental challenges, including climate change, habitat less, pollution, deforestation, and soll degradation. These issues pose significant threats to biociversity, human health, and the overall functioning of ecosystems. it is essential to address these challenges through sustainable practices to ensure a sustainable future for our planet one of the primary forms of soil degradation, leads to the loss of topsoil, which is rich in organic matter and essential nutrients. This loss affects soil fertility, diminishes prop crop op yields, yields, and and stability of ecosystems. to contributes to sedimentation in rivers, lake r bodies, leading to water pollution habitat destruction. One key aspect of environmental sustainability is soil conservation. Soil & a vital resource that supports Ife on Earth. It serves as a medium for plant growth, stores water, fiters pollutants, and tat for pup babitat heers potutams, and prarth ver, unsustal Inable land use practices, such Howev as improper agricultural techniques deforestation, and overgrazing have widespread soil degradation.

Introduction

Introduction begun to shed light on its potential benefits in the context diabetes management. This systematic review aims to consolidate the current knowledge role of pearl millet in diabetes care. We examine the grain’s nutritional composition, its effects on glycemic control and metabolic health, and practical considerations for its inclusion in diabetic diets Diabetes Melitus (DM), a chronic metabolic disorder characterized by elevated blood glucose levels, has emerged as a major public health concem globally. With its increasing prevalence, diabetes poses significant challenges not only to individual health but also to healthcare systems worldwide. The management of diabetes, which primarily primarily involves controlling blood sugar levels, is crucial in preventing a range of complications, from cardiovascular diseases to neuropathy and retinopathy. Among the various strategies for managing diabetes, dietary intervention plays a critical role Dietary choices can profoundly impact blood glucose control, insulin sensitivity, and overall metabolic health. In this context, whole grains have gamered attention for their potential benefits in diabetic diets. Rich fiber and essential nutrients, whole grains are known to have favorable effects on glycemic control and insulin response. Among these, pearl millet (Pennisetum glaucum) grain widely consumed in various parts of the world, especially arid regions, stands out for its unique nutritional profile of the cially in and and semi- Pearl millet, despite its long history of cultivation and substantial nutritional value, has often been overshadowed by more common grains like wheat and rice. However, recent research. This review also highlights the existing research gaps and the need for further studies to fully understand and harness the potential of pearl milet as a dietary intervenition in diabetes. mellitus. By providing a comprehensive overview of peart millet’s role in diabetes management. this article seeks inform healthcare professionals, dietitians, and individuals with diabetes about the potential benefits of this versatile grain in their dietary strategies.

In the ever-evolving landscape of medical science, the
integration of bionics stands as a beacon of hope and innovation.
Bionics, a term coined from the fusion of biology and electronics,
refers to the study and design of systems inspired by biological
processes. This

In the ever-evolving landscape of medical science, the
integration of bionics stands as a beacon of hope and innovation.
Bionics, a term coined from the fusion of biology and electronics,
refers to the study and design of systems inspired by biological
processes. This