https://materials.journalspub.info/index.php?journal=JBMBE&page=issue&op=feedInternational Journal of Biomedical Engineering2022-08-10T08:10:49+00:00Awani Mishraawani@celnet.inOpen Journal Systems<p><strong> </strong><strong>International Journal of Biomedical Engineering(<strong>IJBE)</strong></strong></p><p><strong> </strong></p><p><strong>International Journal of Biomedical Engineering:</strong> is a peer-reviewed journal that accepts both research and review papers. Experimental and theoretical papers are accepted in the journal.</p><p><strong>Journal DOI No:<strong>10.37628/IJBE</strong></strong></p><p><strong>Readership:</strong> Graduates, Postgraduates, Research Scholars, in Institutions, and Hospitals</p><p><strong>Focus and Scope Cover:</strong> Bone plates, bone cements, cell biomaterial are the focused area of the journal.</p><p><strong> </strong></p><p><strong>Submission of Paper: </strong></p><p>All contributions to the journal are rigorously refereed and are selected on the basis of quality and originality of the work. The journal publishes the most significant new research papers or any other original contribution in the form of reviews and reports on new concepts in all areas pertaining to its scope and research being done in the world, thus ensuring its scientific priority and significance.</p><p> </p><p>Manuscripts are invited from academicians, students, research scholars and faculties for publication consideration.</p><p> </p><p>Papers are accepted for editorial consideration through email <strong>info@journalspub.com </strong>or <a href="mailto:farha@celnet.in">farha@celnet.in</a><strong></strong></p><p><strong>Frequency</strong>: Two issues per year</p>https://materials.journalspub.info/index.php?journal=JBMBE&page=article&op=view&path%5B%5D=872Deformation & Stress Analysis of Pressure Room for Selection of material2022-07-21T12:01:06+00:00A N Singharunnihal14@rediffmail.comJ Sai Prakash Sarisaarunnihal14@rediffmail.comK K Guptaarunnihal14@rediffmail.com<p><em>This paper shows the analysis for Selection of material , design of pressure chamber cover. The analysis is done for deformation studies in chamber’s surface under negative pressure ( less than atmospheric pressure) which lead to the compressive forces acting on the chamber cover to identify any air leak and is modeled in Solid works and Simulation also done in ANSYS. Different thickness of materials are studied in this paper to see the selectivity for physical design based on deformation and stress distribution. In this study we mainly concentrated on design and optimizing the material for best selection for physical prototyping. Concepts for removing contamination from air from this chamber is out of scope of this article. This study has been carried out due to Novel Corona-virus infection, which is inserting an enormous strain on healthcare infrastructure globally and no hope for proven treatment. This immediate condition leads to develop a system that can help in disinfecting the human and capture & destroy the microorganism and don’t spread the contamination to others in area of use.</em></p>2022-07-16T09:02:09+00:00Copyright (c) 2022 International Journal of Biomedical Engineeringhttps://materials.journalspub.info/index.php?journal=JBMBE&page=article&op=view&path%5B%5D=876An Analysis of India's Medical Device Regulations, with Analogies to the European Union and Future Recommendations2022-07-21T12:01:07+00:00Kaveri Bishtashishtyagiu47@gmail.com<p><em>The Indian healthcare industry is rapidly expanding, with revenues forecasted to reach $280 billion by 2025. India's medical equipment market is among the world's top 20. It is currently worth $5.2 billion, and by 2025, it is predicted to be worth $50 billion. India, on the other hand, does not manufacture many medical devices in-house and now imports more than 70% of its medical gadgets. Medical device manufacturing and monitoring are heavily regulated operations. There were no special medical device rules in India, and devices were governed under the 1940 Drugs and Cosmetics Act. The Central Drug Standard Control Organization issued the Indian Medical Device Rules in 2017 to fill this research gap. They are the new medical device regulations in the country. In order to keep up with the demands, the Medical Devices (Amendment) Rules, 2020 were enacted, which took effect in April 2020. These regulations encompass a wide range of device-related issues, such as categorization, registration, production and import, labelling, sales, and post-market procedures, among others. The regulations are a positive initiative forward because they cover the majority of the European Union (EU) approval process, which confirms that devices are safe and functional. With rapid advances in medical device technology, however, more clarification and restructuring of the current regulatory structure is needed to standardize standards and bring them in line with sophisticated regulations such as those in the EU.</em></p>2022-07-21T11:35:44+00:00Copyright (c) 2022 International Journal of Biomedical Engineeringhttps://materials.journalspub.info/index.php?journal=JBMBE&page=article&op=view&path%5B%5D=873Autopsy Examination of Deaths due to Ante-Mortem burns with analysis of incidents and other associated factors with Demographic determinants2022-07-21T12:01:07+00:00Rajiv Ranjan Dask.saurav2k2@gmail.comArbind Kumark.saurav2k2@gmail.comKumar Sauravk.saurav2k2@gmail.com<p><em>Burn injuries are an important public health problem resulting in deaths, disability and disfigurement. Burns has been described as an endemic health hazard in India,which is the second largest group of injuries after road traffic accidents.Every year, all over the world, a large number of people succumb to burn injury, more so due to acute burn.The high incidence is attributed to illiteracy, poverty and low level safety consciousness in the population.The situation becomes further grim due to the absence of organized burn care at primary and secondary health care level. There are An estimated 1,80,000 deaths every year are caused by “Fire related injuries alone”, in which the commonest cause is of acute burn. As India does not have a national injury surveillance system, the exact incidence of burns morbidly and mortality is not known.</em><em>Padma Bhate-Deosthali & Lakshmi Lingam (2016) Reported an estimated 7 million burn injuries in India annually, of which 700,000 require hospital admission and 140,000 are fatal. According to the National Burns Programme, 91,000 of these deaths are women; a figure higher than that for maternal mortality. Women of child bearing age are on average three times more likely than men to die of burn injuries.</em><em>The data for other forms of burn like scalds, electric burn, etc. are not available globally. Lightening with associated wide spread burn injuries are very rampant in India. With burns occurring mainly at home or work place, the accidental burns are, by and large, preventable. The non fatal burns have socio-economic aspects and have a large morbidity load.Health systems need to create awareness programmes about domestic violence and train health care professionals to identify signs and symptoms of violence. This would contribute to early identification of abuse so that survivors are able to access support services at an early stage.</em></p>2022-07-21T11:44:02+00:00Copyright (c) 2022 International Journal of Biomedical Engineeringhttps://materials.journalspub.info/index.php?journal=JBMBE&page=article&op=view&path%5B%5D=878Influence of Print-Parameter-Property on Tensile Strength of the 3D Materials for Biomedical Applications2022-08-10T08:10:49+00:00Gunarajulu Renganathanmsugunalakshmimadurai@gmail.comSuganya Mathialaganmsugunalakshmimadurai@gmail.comVenkatesh Madhumsugunalakshmimadurai@gmail.comSuguna Lakshmi Maduraimsugunalakshmimadurai@gmail.com<p><em>Acrylonitrile Butadiene Styrene (ABS) filament is used to fabricate tensile specimens considering the inbuilt printing parameters and in order to investigate the relations between the print parameters and their strength properties. Printed specimens are characterized and their strength properties is assessed performed by Finite Element Analysis (FEA). The variation in the printing parameter and its influence on the tensile behavior is found to replicate by FEA simulation. Morphological studies were also done using Scanning Electron Microscopy and Optical Microscopy to investigate the tensile fracture behaviors. This study aims to investigate the 3D Printed tensile specimens and its optimal mechanical properties. It also adds value to the researchers to fine-tune and control the properties based on the applications.</em></p>2022-07-21T11:51:51+00:00Copyright (c) 2022 International Journal of Biomedical Engineeringhttps://materials.journalspub.info/index.php?journal=JBMBE&page=article&op=view&path%5B%5D=874A Comparative Study to Assess the Effectiveness of Computer Assisted Teaching Over Lecture Method of Teaching on Knowledge Regarding ECG and Its Interpretation Among Nursing Students in Selected Colleges2022-07-21T12:02:02+00:00Nikita Deepak Neheniku.anku410@gmail.com<p><em>The most usual kind of cardiovascular illness, coronary artery disease (CAD), is the leading cause of deaths worldwide. Patients with coronary artery disease can develop chronic stable angina or have no symptoms. Acute coronary syndrome refers to the most serious signs of CAD, such as unstable angina and myocardial infarction (MI) (ACS). Dysrhythmias are caused by a variety of anatomical, functional, and pathological conditions of the heart. This research takes an evaluative method in order to assess the hypothesis that there is a link between computer simulated learning and amount of knowledge about ECG and its interpretation to fine-tune the approach and determine the viability of the investigation, a pilot study was conducted with three subjects at the chosen college. The main study subjects were around 60 people, and they were split into two groups: experimental (30) and control (30). The researchers used a real experimental pretest-post test design with a control group for their investigation. A predefined questionnaire was used to test participants' knowledge of ECG and its interpretation. The experimental group was given a traditional lecture and a computer simulation for 55 minutes, and their knowledge levels were measured using a standardized questionnaire. A conventional lecture style was used to teach the participants in the control group about ECG and its interpretation. A comparison of the traditional lecture technique and computer simulated learning was completed. To compare computer simulated learning to lecture learning, researchers conducted an independent t test between the experimental and control groups in post test scores. In the post-test, the experimental and control groups' mean knowledge levels were 25.57 and 19.03, respectively, with significance at the 0.001 level. Consequently, it is concluded that there is a significant difference in knowledge scores between the experimental and control groups, indicating that the experimental group using computer simulated learning has a significantly higher knowledge score than the control group, which learned about ECG and its interpretation through a traditional lecture method</em></p>2022-07-21T12:00:54+00:00Copyright (c) 2022 International Journal of Biomedical Engineering