Global ETD Search

1	Application of Traditional Medicines on Textiles Swarup, Ashish, ash198@gmail.com January 2007 (has links) As science and technology has developed, the manner by which drugs can be delivered has grown. This research explores an alternative method for the delivery of therapeutic compounds to the body. The basis of the study involves the application of traditional medicines on textiles. Boswellia Serrata Extract (B.S.E.) is a common traditional medicine used for curing body pains. The most common form of B.S.E. based products are creams that are applied directly to the skin. Experiments show that these creams were not suitable as a basis for applying to textile materials because the creams contain highly volatile compounds, which on drying the treated textile, post application, cause almost total loss of the B.S.E. The approach used was the application on textiles of a 'commercial' topical medicine applied as a cream for, where B.S.E. is a major constituent. Cotton woven fabric was padded with this cream and tested for washing and rubbing fastness. The presence of highly volatile substances in the topical cream resulted in a negligible amount of the medicine on the dried treated fabric. Another approach was used for the application of B.S.E. onto the textile substrate. A commercially available B.S.E. powder was applied to woven fabric using a pad mangle. Tests were carried out to validate the Boswellia Serrata Extract boswellic acid padding coating on non-wovens medical textiles
2	Medical Textiles: Application of an Absorbable Barbed Bi-Directional Surgical Suture Dattilo, Philip P., King, Martin W., Cassill, Nancy L., Leung, Jeffrey C. 01 December 2002 (has links) (PDF) Today's medical textile market is producing state of the art polymeric textile implantable devices that are redefining traditional materials and methods of surgery. These sophisticated high-tech polymer materials are engineered for specific uses in surgical and interventional procedures. One of the new biotextile products is an absorbable bi-directional barbed surgical suture that does not require surgical knots for wound closure. This novel idea has the attention of many physicians and surgeons where wound closure or tissue approximation is needed. The barbed suture has the potential to change the way wound closure is perceived in various clinical fields of surgery and veterinary medicine. barbed suture biotextiles medical textiles surgical suture sutures
3	Multifunktionale textilbasierte Schienung von Frakturen am Beispiel der Radiusfraktur Sherif, Fawzy 11 April 2011 (has links) (PDF) Technical textiles are one of the fastest growing sectors of the global textile industry, especially in the medical application which is considered as one of the most important applications of technical textiles. Plaster (gypsum) and plastics casts are widely used nowadays in hospitals, pharmacies and health care centers. But they are heavy, not washable, do not offer a suitable fixation for bone fractures (e.g. hand wrist) and always in individually sizes. After decrease of swelling, the cast is in a hard form and the stabilization effect of the cast is insufficient due to the occurring of distance between the skin and the cast. In this work, a new pneumatic cast is developed, that depends on a coated fabric as an outer layer, skin friendly fabrics as internal layers, air chamber and metal braces. For more comfort, the cast is anatomically formed and includes four internal layers of cotton/viscose fabric and polyester spacer fabric. The new developed cast controls the pressure on the injured part by using a pneumatic system. In a comparison with plaster and plastic casts that are heavy, not washable, provide an insufficient fixation after swelling decrease and always in individually sizes; the new developed pneumatic cast is light weight, easy to use, washable, mass-produced and offer the required fixation to the injured part during swelling conditions. technische Textilien Radiusfraktur medizinische Textilien technical textiles radius fracture medical textiles ddc:610 ddc:620 rvk:YK 5204 rvk:ZS 5830
4	Multifunktionale textilbasierte Schienung von Frakturen am Beispiel der Radiusfraktur Sherif, Fawzy 04 April 2011 (has links) Technical textiles are one of the fastest growing sectors of the global textile industry, especially in the medical application which is considered as one of the most important applications of technical textiles. Plaster (gypsum) and plastics casts are widely used nowadays in hospitals, pharmacies and health care centers. But they are heavy, not washable, do not offer a suitable fixation for bone fractures (e.g. hand wrist) and always in individually sizes. After decrease of swelling, the cast is in a hard form and the stabilization effect of the cast is insufficient due to the occurring of distance between the skin and the cast. In this work, a new pneumatic cast is developed, that depends on a coated fabric as an outer layer, skin friendly fabrics as internal layers, air chamber and metal braces. For more comfort, the cast is anatomically formed and includes four internal layers of cotton/viscose fabric and polyester spacer fabric. The new developed cast controls the pressure on the injured part by using a pneumatic system. In a comparison with plaster and plastic casts that are heavy, not washable, provide an insufficient fixation after swelling decrease and always in individually sizes; the new developed pneumatic cast is light weight, easy to use, washable, mass-produced and offer the required fixation to the injured part during swelling conditions. info:eu-repo/classification/ddc/610 ddc:610 info:eu-repo/classification/ddc/620 ddc:620
5	Élaboration de texticaments à visée antiinflammatoire contenant des microcapsules respectueuses de l’environnement / Elaboration of anti-inflammatory textiles based on eco-friendly microcapsules Dao, Thi Chinh Thuy 08 February 2018 (has links) L'utilisation des microcapsules fabriquées à partir de matériaux respectueux de l'environnement pour des applications textiles médicales a été étudiée et développée fortement au cours des dernières années. Le but de cette thèse est d'élaborer les textiles anti-inflammatoires à base de microcapsules respectueuses de l'environnement, utilisant trois types de matériaux textiles (coton, peco 65/35 et polyester) et cinq niveaux de longueur de boucle (2.81, 2.83, 2.87, 2,96 et 3,05 mm) sur étoffes tricotées à verrouillage de coton (nombre de fils Ne40). Les influences de la concentration en saponine, de la vitesse d'agitation au cours de l'étape d'émulsification et du volume d'éthyle acétate ajouté à la phase aqueuse sur les caractéristiques des microcapsules ont été étudiées. L'étude a également étudié les effets du rapport massique du coton et de la longueur de boucle des étoffes tricotées sur la distribution des microcapsules, la capacité de chargement des microcapsules et la capacité de libération de l'ibuprofène des étoffes tricotées traités par microcapsules. Les microcapsules d'Eudragit RSPO contenant de l'ibuprofène ont été élaborées par la technique d'évaporation de solvant, en utilisant le tensioactif bio-sourcé quillaja saponine et le solvant non halogéné d'éthyle acétate. Les microcapsules obtenues présentaient les formes sphériques avec un diamètre d (0,5) de 21,5 μm, approprié pour les applications textiles. Il a été trouvé que, pour empêcher la déformation des microcapsules pendant la traitement du textile, la séchage doit être effectuée sous vide à 45 ° C. Lorsque le rapport de teneur en fibres de coton dans le tissu augmentait, la distribution des microcapsules était moins régulière, ce qui entraînait un taux de libération plus faible de l'ibuprofène à partir des étoffes tricotées traités aux microcapsules. En outre, lorsque la longueur de la boucle augmente, la capacité de chargement des microcapsules des étoffes tricotées traités augmente, la distribution des microcapsules sur le tissu devient moins régulière et la vitesse de libération de l'ibuprofène des tissus traités aux microcapsules diminue. De plus, l'augmentation de l'extension du étoffes tricotées a favorisé la libération d'ibuprofène à partir des étoffes tricotées traités par les microcapsules à travers la peau de porc / The use of the microcapsules made from eco-friendly materials for medical textile applications has been researched and developed strongly in recent years. The aim of this thesis is to elaborate the anti-inflammatory textiles basing on eco-friendly microcapsules,using three kinds of textile materials (cotton, peco 65/35 and polyester)and five levels of the loop length (2.81, 2.83, 2.87, 2.96 and 3.05 mm) on the cotton interlock knitted fabrics (yarn count Ne40). The influences of the saponin concentration, the stirring rate during the emulsification step and the volume of ethyl acetate added to the aqueous phase on the characteristics of the microcapsules were studied. The influence of condition in drying on microcapsule’s morphology was also investigated.The thesis also researched the effects of cotton mass ratio and loop length of fabric on the microcapsule distribution, the microcapsule loading capability and the release capability of ibuprofen from the microcapsule treated fabrics. The Eudragit RSPO microcapsules containing ibuprofen were successfully elaborated by solvent evaporation technique, using the bio-sourced surfactant quillajasaponin and the non-halogenated solvent ethyl acetate. The obtained microcapsules exhibited the spherical shapes with d(0.5) diameter of 21.5 m, suitable for the textile applications. It was found that in order to keep the microcapsules from deformation during the textile finishing, the drying stage should be carried out in vacuum at 45oC. When the content ratio of cotton fibers in the fabric increased,the microcapsule distribution was less even, resulting in the lower release rate of ibuprofen from the microcapsule-treated fabrics. Besides, when the loop length increased, the microcapsule loading capability of the treated fabrics increased, the microcapsule distribution on the fabric became less even and the release rate of ibuprofen from the microcapsule-treated fabrics decreased. Furthermore, increasing the fabric extension favored the release of ibuprofen from the microcapsule-treated fabrics through the pigskin Textiles médicaux Étoffes tricotées à verrouillage Tensioactif bio-sourcé Solvant non halogéné Medical textiles Interlock knitted fabric Eco-friendly microcapsules Bio-sourced surfactant Non-halogenated solvent 620.11
6	Kirurgiskt munskydd : En förstudie kring material, konstruktion och återanvändbara möjligheter / Surgical face mask : A feasibility study on materials, construction and reusable possibilities Ström, Sara, Svenson, Julia January 2020 (has links) I december 2019 rapporterades de första fallen av ett virus benämnt som covid-19 i Wuhan, Kina. Viruset sprider sig snabbt och i takt med den okontrollerade spridningen blir också trycket på sjukvården allt högre. Samtidigt som vården gör allt i sin makt för att räcka till så rapporteras det om global brist på skyddsutrustning. Tillverkningen av ett kirurgiskt munskydd, från fiber till färdig produkt, består av ett omfattande system och kräver material av specifika fibrer som framställs i avancerade processer. Att skapa ett munskydd som besitter möjligheten för återanvändning hade varit ett alternativ i syfte att minska risk för att munskydd tar slut samtidigt som engångsförbrukning minimeras. Syftet med denna studie är att studera och analysera materialval, framställning, konstruktion och krav för kirurgiska munskydd. Studien syftar också till att undersöka alternativa möjligheter till att skapa ett återanvändbart munskydd. Val av metod för insamling av material har haft sin utgångspunkt i litteraturstudier av främst vetenskaplig karaktär. Då ämnet är högaktuellt har nyhetsartiklar från betrodda dagstidningar varit av värde. Intervjuer av kvalitativ läggning genomfördes i syfte att skapa en överskådlig inblick i vårdarbetet. Ett kirurgiskt munskydd fungerar som en skyddande barriär mot överföring av smittämnen mellan personal och patient och är generellt uppbyggt i tre olika lager. Det inre lagret, mittenlagret, är tillverkat genom en process kallad nonwoven meltblown medan de två yttre lagren, det övre och det undre, tillverkas genom en process kallad nonwoven spunbond. Dessa tre lager kalendreras sedan samman och bildar själva filtermediet som därefter veckas och sys i en konverteringslinje. Munskydd är en engångsvara och slängs direkt efter användning. Nawar Kadi, som är professor på Textilhögskolan i Borås, arbetar för tillfället med ett projekt som syftar till att utveckla ett delvis tvättbart munskydd som fungerar att återanvända. I dagsläget finns många aspekter att beakta och frågor att besvara innan projektet går att förverkliga i praktiken men med rätt förutsättningar, ekonomisk stöttning och framförallt beprövade metoder med bakomliggande forskning är möjligheten till att skapa ett återanvändbart munskydd inte långt borta. / In December 2019, the first cases of a virus called covid-19 were reported in Wuhan, China. The virus is spreading rapidly and in connection with the uncontrolled spread, the pressure on healthcare is also increasing. At the same time as healthcare is doing everything in its power to suffice, a global lack of protective equipment is reported. The manufacture of a surgical face mask, from fiber to finished product, consists of a comprehensive system and requires materials of specific fibers produced in advanced processes. Creating a face mask that possesses the possibility of reuse would have been an alternative with the aim of reducing the risk of face mask ending while minimizing disposable consumption. The purpose of this study is to analyze material selection, manufacture, construction and requirements for surgical face masks. The study also aims to explore alternative ways of creating a reusable face mask. The choice of method for collecting material has been based on literature studies of a primarily scientific nature. As the topic is highly current, news articles from trusted newspapers have been of value. Qualitative interviews were conducted with the aim of providing a clear insight into the healthcare work. A surgical face mask serves as a protective barrier against the transmission of infectious agents between staff and patients and is generally constructed in three different layers. The inner layer is made by a process called nonwoven meltblown, while the two outer layers, the upper and the lower, are made by a process called nonwoven spunbond. These three layers are then calendered together to form the filter media, which is then pleated and seamed in a converting line. The surgical face mask is a disposable item and is discarded immediately after use. Nawar Kadi, who is a professor at Textilhögskolan in Borås, is currently working on a project aimed at developing a partially washable face mask that thus functions to reuse. At present, there are many aspects to consider and questions to answer before the project can be realized in practice but with the right conditions, financial support and proven methods with underlying research, the possibility of creating a reusable face mask is not far away. Surgical face mask nonwoven medical textiles deficiency article reusable textiles protective equipment disposable consumables covid-19 Kirurgiskt munskydd nonwoven medicinska textilier bristvara återanvändbara textilier skyddsutrustning engångsartiklar covid-19 Other Engineering and Technologies Annan teknik
7	Adjusting the mechanical behavior of embroidered scaffolds to lapin anterior cruciate ligaments by varying the thread materials Hahner, Judith, Hinüber, Claudia, Breier, Annette, Siebert, Tobias, Brünig, Harald, Heinrich, Gert 17 September 2019 (has links) Traumatic rupture of the anterior cruciate ligament (ACL) can cause local destabilization and loss of mobility. Reconstruction using engineered ACL grafts is rarely successful due to sub-optimal material choice and mechanical performance. Thus, the presented work demonstrates the fabrication of various embroidered single- and bi-component scaffolds made of two commercially available monofilament threads (polydioxanone, poly(lactic acid-co-ɛ- caprolactone)) as well as a novel melt spun poly(L-lactic acid) multifilament and their mechanical analysis by tensile tests and under cyclic loading. Selected scaffolds, adjusted by material composition and textile parameters, revealed a load–strain behavior comparable to native lapin ACL tissue exhibiting a sufficient amount of elastic deformation within the toe-region of 1.7%, scaffold stiffness of 123 N/mm and adequate maximum tensile load (300 N) and strain (20%). Therefore, the design of resorbable embroidered bi-component scaffolds represents a promising approach to replace artificial non-resorbable ligament grafts and allows for innovative tissue engineering strategies. info:eu-repo/classification/ddc/660 ddc:660 info:eu-repo/classification/ddc/670 ddc:670
8	Approaches for process and structural finite element simulations of braided ligament replacements Gereke, Thomas, Döbrich, Oliver, Aibibu, Dilbar, Nowotny, Jorg, Cherif, Chokri 25 October 2019 (has links) To prevent the renewed rupture of ligaments and tendons prior to the completed healing process, which frequently occurs in treated ruptured tendons, a temporary support structure is envisaged. The limitations of current grafts have motivated the investigation of tissue-engineered ligament replacements based on the braiding technology. This technology offers a wide range of flexibility and adjustable geometrical and structural parameters. The presented work demonstrates the possible range for tailoring the mechanical properties of polyester braids and a variation of the braiding process parameters. A finite element simulation model of the braiding process was developed, which allows the optimization of production parameters without the performance of further experimental trials. In a second modelling and simulation step, mechanical properties of the braided structures were virtually determined and compared with actual tests. The digital element approach was used for the yarns in the numerical model. The results show very good agreement for the process model in terms of braiding angles and good agreement for the structural model in terms of force-strain behaviour. With a few adaptions, the models can, thus, be applied to actual ligament replacements made of resorbable polymers. info:eu-repo/classification/ddc/670 ddc:670

Search results