Textile application in bio-potential recording used for medicinal purposes: an overview (original) (raw)
Related papers
2019
The aim of the chapter is to state different new possibilities that textile substrates offer for more specialized functions as Biomedical devices, Cosmetics, Skin treatment, and which are the mechanisms involved in such new applications. How to quantify the transport phenomena from the substrate to the skin, or to surrounding different medium, in which they have to be used. Textiles are covering 80% of the human body and a big percentage of that is in close contact with skin. If the system of vehiculization of the active principles is, carefully, designed, the reservoir effect of the polymeric chains of fibers can play a very interesting role in the delivery of the active principle. Microencapsulation, lipidic aggregates and nanofibers, have shown very promising experimental results. These results will help to other researchers to develop, more accurate systems, which will valorize textile substrates, fibers and tissues for the use in more sophisticated fields.
Application of Biochemical in Textile
Springer Nature, Singapore, 2023
Humans have basic needs for textiles and clothing. To satisfy human needs in varied contexts, a number of textile and garment companies have been formed. Huge work opportunities have been generated and they have also put the environment in danger by producing dangerous garbage. Chemicals and water are extensively used in the textile industry, Home Advanced Technology in Textiles Chapter Log in Menu Search Cart Advanced Technology in Textiles pp 301-321 7/18/23, 9:45 PM Application of Biochemical in Textile | SpringerLink
Medical textiles: It's present and prospects
The Pharma Innovation, 2020
The textile industry is one of the oldest and the second largest employment generated sector in India and it covers a wide range of products from traditional textiles, household textile, woven, knitted, non-woven and technical textiles. Textile products that have wide use in different sectors like agriculture, healthcare, engineering, safety, etc. all are under the umbrella of technical textiles. It is one of the emerging and indispensable parts of the textile industry, in the field of medical, hygiene, and health care sector. Medical textile is a together effort of the textile and healthcare sector to protect and care for the human being and also protecting itself especially in the time of the global pandemic like Covid-19. The number of applications in medical fields is limitless and diverse, ranging from personal protection kit, a single thread suture to the complex composite structures from implantable structure to non-implantable ones. Besides these, finishing of textiles with natural materials can also enhance some properties of fabrics like antimicrobial, antibacterial, etc. that can hinder various infections. The main objective of this paper is to study the importance of medical textiles in the present scenario as well as in the future days.
Functional Textiles by Applying of Biologically Active Compounds: Review
Annals of the University of Oradea: Fascicle of Textiles, Leatherwork, 2018
In the last years the cosmetic industry using plant derivatives grow significantly for whole domains in which activates. Essentials oils and plant extracts are assumed to be ecologically sound and there is generally an absence of unwanted side effects arising from the use of them. Essential oils present a particular interest due to multiple benefits it shows such as antiviral, antifungal, antibacterial, antioxidant, insecticidal, radical scavenging properties, anti-inflammatory, antiseptic, germicide, healing and cosmetic effects. As people are used to wear textile materials in their daily life, thus it is also logical to use textile as the possible basis for the delivery system of cosmetic substances. Bioactive systems are applied to the textile materials by a variety of techniques. Microencapsulation technology offers many opportunities to improve the properties of textiles or enhance them with value added functions. One major advantage of using microencapsulation technology that ...
Functionalization of medical textiles
Communications in Development and Assembling of Textile Products, 2020
An important basis for the creation of medical clothing is realization of the influence of various factors that arise in the interaction of elements of the system "man–clothes–production environment". Given the increasing technogenic burden on health of both medical staff and hospital patients, the assessment of the role of medical clothing in forming the energy balance of direct consumers is extremely relevant. Previous studies have experimentally confirmed the presence of energy effects of textile materials on the human body. However, determination of the nature of the impact is a complex task, which solution depends on a number of factors, such as the raw material composition, its structure, surface characteristics, etc. The purpose of our paper is to study the development of textile multifunctional materials for medical purposes and to study their energy-information impact on the human body. The following tasks have been solved in the course of the study. For use in th...
The term “Medical Textiles” literally means textiles used for medical purposes. Textiles apart from being a vital part of human life are long since been used in medical field, though the term has been coined very recently. Textile materials have a range of properties such as flexibility, elasticity, strength, etc. Based on these properties research work has been going on rapidly around the world towards the application of the textiles in medical field. Specialists from physicians to textile chemists and textile engineers are ready to devote themselves unitedly to apply these broad ranges of properties of textile material in medical technology.
A Study on the Textile Materials Applied in Human Medical Treatment
2020
The aim of this paper is to discuss about the textile materials those are used in human medical treatments. The findings of this paper established that some textile materials are also used in physiotherapy and rehabilitation treatments. Natural and synthetic materials are used to prepare health care hygiene products. Bandage gauges, plaster, wound dressing products are known as non-implantable medical textile products those are prepared from textile fibers. Some therapeutic products are also prepared from textile materials. Sutures and ligaments, vascular grafts, artificial skin, artificial cornea, contact lenses, and dental biomaterials are implantable products those are also prepared from textiles. Extra corporal devices like artificial hearts, livers, lungs, kidney are also prepared from textile materials. A lot of sanitary and hygiene products are also prepared from textile materials. Surgical masks, drapes and clothes, surgical gowns, surgical caps, gloves, baby diapers, and sa...
Biofunctional textile materials: Cosmetic textiles
Advanced technologies, 2022
The latest trend in textile industry promotes products with added value that provide additional comfort to users and have a focus on health in terms of use. In that sense, biofunctional and intelligent textile products with different types of applications for improving the lifestyle of the modern consumer stand out. Cosmetic textile is a high-performance textile which represents a fusion of textile material with cosmetics. The main challenges in the manufacture of such products are the selection of products with a cosmetic effect for a particular purpose, storage of agents in the structure of the textile, the rate of release of the agent on the skin and the stability of the agent to the maintenance procedures of textiles and clothing. This paper provides an overview of cosmetic agents for application on textiles, methods of their storage and release and the techniques applicable on textile. Finally, a range of commercially available cosmetic textile products is presented.
IRJET- DESIGN AND DEVELOP A MEDICAL TEXTILE MATERIAL WITH INHERITED ANTIBACTERIAL PROPERTIES
IRJET, 2020
The research work was designed to investigate the antidiabetic activity of the ethanol extract of flowers of Tabernamontana divaricata. Tabernamontana divaricata is a common garden plant in tropical countries has been used as a traditional medicine. In present study, the antimicrobial activity and antidiabetic activity of 100% ethanolic extract of flowers of tabernamontana divaricata were evaluated. Using magnetic stirrer for influence of extraction methods on plant material and to achieve maximum possible extraction methodology of Magnetic stirrer, which possess certain advantages, improvement in organic solvents consumption, improvement in extraction efficiency. The raw materials used for Subsequently, cotton, polyester fabric and bamboo web were developed to prepare tri-layer fabric to fulfil the objectives. Thus, the extraction are applied from pad-dry-cure method for tri-layer fabrics. Then finally, fabrics were tested for anti-bacterial properties. Thus, the findings of the present research study concluded that tri-layer fabric coated with extraction of tabernamontana divaricate possess excellent antioxidant and anti-diabetic properties. This may beneficial for the treatment of diabetes and its related complications.
RECENT DEVELOPMENTS IN MEDICAL TEXTILES
An important field of application of textile in medicine has been developed such as wound care and preventing chronic wounds. Bandages and wound dressings are most commonly used because they are affordable and reusable. The medical textile should have bio-compatibility, flexibility and strength. In surgical dressings the “sorbagon” dressings are innovated to produce more comfort in the dressing of wounds. Some of the super absorbent polymers are innovated, which includes polyacrylate and sodium acrylate are made to improve the absorbency of the fibres. The recently developed calcium alginate. Fibres have high super absorbing capacity. Recent advances and specific requirements necessitated innovation in surgical sutures which includes barbed, gelatin coated catgut sutures. A recent development of silk fibre includes “spider silk” which has been obtained from goat milk by injecting the genes of spider into mammary glands of goat. The textile materials have generated considerable interest in medical technology where materials in the form of monofilament, multifilament, woven and nonwovens structures are being used for bio and medical applications. The major requirement of the textile materials is the bioreceptivity and biocompatibility at the application site in human being.