Shreyash Huse scite author profile

Shreyash Huse

2Publications

3Citation Statements Received

62Citation Statements Given

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Advancement in Partograph: WHO’s Labor Care Guide

Ghulaxe¹,

Tayade²,

Huse³

et al. 2022

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Worldwide, the partograph, also known as a partogram, is used as a labor monitoring tool to detect difficulties early, allowing for referral, intervention, or closer observations to follow. Despite widespread support from health experts, there are worries that the partograph has not yet fully realized its potential for enhancing therapeutic results. As a result, the instrument has undergone several changes, and numerous studies have been conducted to examine the obstacles and enablers to its use. Nevertheless, the partograph was widely embraced and has been a component of evaluating labor progress. Earlier it was also used as a standard method for monitoring labor progress. Even though it is widely used, there have been reports of usage and accurate execution rates. The WHO Labor Care Guide (LCG) was created so that medical professionals could keep an eye on the health of pregnant women and their unborn children during labor by conducting routine evaluations to spot any abnormalities. The tool intends to enhance women-centered care and encourage collaborative decision-making between women and healthcare professionals. The LCG is designed to be a tool for ensuring high-quality research centered on health, reducing pointless measures, and offering comfort measures.

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Intra-body Networks and Molecular Communication Networks in Diagnostic Sciences

Sarda¹,

Acharya²,

Huse³

et al. 2022

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Intra-body transmission networks are proposed to be composed of nanostructured or micro-sized detectors placed within the body to monitor health and distribute drugs. Transplanted biosensors are the potential options for monitoring the body for the detection of particular ailments and determining a diagnosis with the help of a doctor. Biological systems inside the body remain intricately integrated and interact primarily through biochemical interactions. Thus, the continuous communication performance and intrabody molecular nanonetworks coordinate essential functions within the human body. Spontaneous intrabody molecular nanonetworks, on the other hand, have yet to be investigated using sophisticated tools of information and communication concepts. We intend to understand the exquisite molecular networking that exists within us to design and develop pragmatic, effective interaction for evolving nanonetworks and also to lay the groundwork for the progression of groundbreaking diagnosis and therapeutic methodologies inspired by technological tools, which have the potential to be helpful in future nanotechnologies and bioinspired molecular communication (MC) applications.

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Shreyash Huse

Advancement in Partograph: WHO’s Labor Care Guide

Intra-body Networks and Molecular Communication Networks in Diagnostic Sciences

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