Medical and healthcare textiles
著者
書誌事項
Medical and healthcare textiles
(Woodhead Publishing in textiles, no. 75)
Woodhead Pub. , CRC Press, 2010
- Woodhead
- CRC
大学図書館所蔵 全1件
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  福島
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  東京
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  富山
  石川
  福井
  山梨
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  岐阜
  静岡
  愛知
  三重
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  京都
  大阪
  兵庫
  奈良
  和歌山
  鳥取
  島根
  岡山
  広島
  山口
  徳島
  香川
  愛媛
  高知
  福岡
  佐賀
  長崎
  熊本
  大分
  宮崎
  鹿児島
  沖縄
  韓国
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  イギリス
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注記
Selection of papers presented and discussed at MEDTEX 07 held at the University of Bolton.
"Published by Woodhead Publishing Limited in association with The Textile Institute"--T.P. verso
Includes bibliographical references
内容説明・目次
- 巻冊次
-
CRC ISBN 9781420079890
内容説明
Medical textiles remain one of the most dynamic areas of research in textiles. Medical and Healthcare Textiles is a compendium of worldwide research into medical textiles written by leading experts in the area. Part 1 contains papers addressing the risk of infection control and barrier materials. Part 2 demonstrates the significance of textile products in healthcare and hygiene applications for hospitals and other environments where hygiene is essential. Advanced wound dressings, such as drug delivery dressings, are evaluated in part 3. Papers in part 4 examine the use of bandaging and pressure garments. Recent developments and application of implantable medical devices are covered in part 5. Part 6 consists of topics which emphasize the role of medical devices in applications including dentistry and oncology. Research related to smart material developments are discussed in part 7. Part 8 concludes with industry standards and regulations.
目次
PART 1 INFECTION CONTROL AND BARRIER MATERIALS
Infection control and barrier materials: an overview, S Rajendran, University of Bolton, UK
Introduction. Wound infection. Hospital protective materials. Bibliography.
Antimicrobial properties of silver-containing chitosan fibres, Y Qin and C Zhu, The Biochemical Materials Research and Development Centre, China
Introduction. Experimental. Results and discussion. Conclusions. References.
Copper-impregnated antimicrobial textiles: an innovative weapon to fight infection, G Borkow, A Felix and J Gabbay, Cupron Inc, USA
Copper as a biocide. Incorporation of copper oxide into natural and synthetic fibres. Biocidal properties of fabrics containing copper oxide. Clinical studies. Discussion. References.
A review of the role of microwaves in the destruction of pathogenic bacteria, A S Lamb and E Siores, University of Bolton, UK
Microwave interactions with materials. Fixed frequency microwave interactions with bacteria. Work carried out at the University of Bolton. Flow cytometry. Concluding remarks. References.
Antimicrobial bioactive band-aids with prolonged and controlled action, P Skundric, L Simovic, M Kostic, A Medovic, K Milosevi and S Dimitrijevic, University of Belgrade, Serbia
Introduction. Experimental. Experimental results and discussion. Conclusion. References.
Comparison of antimicrobial textile treatments, E Smith, J T Williams, S E Walsh and P Painter, De Montfort University, UK
Introduction. Materials and methods. Results and discussion. Conclusions. References.
Evaluation of plasma-deposited anti-adhesive and anti-bacterial coatings on medical textiles, A J Paul, F Bretagnol, G Buyle, C Colin, O Lefranc and H Rauscher, CSMA Ltd, UK
Plasma treatment of textiles. X-ray photoelectron spectroscopy (XPS). Time-of-flight secondary ion mass spectrometry (ToFSIMS). References.
Controlling the spread of infections in hospital wards by the use of antimicrobials on medical textiles and surfaces, W C White, AEGIS Environmental Management, USA, R. Bellfield, Carrington Career and Workwear Ltd, UK, J Ellis, Devan-PPT Chemicals Ltd, UK and Ir P Vandendaele, Devan Chemicals NV, Belgium
Introduction. Microorganisms. Antimicrobials. Organofunctional silane antimicrobial technology. Verification techniques and safety profile. Potential uses. Hospital blankets. Nonwoven surgical drapes. Wound care silk dressings. Carpeting. Uniforms. Silicone rubber. Case study: the Arthur G. James Cancer Center Hospital and Research Institute. Summary. References.
Inherently antimicrobial alchite fibres developed for wound care applications
M Miraftab, C Iwu, C Okoro and G Smart, University of Bolton, UK
Introduction. Production methodology. Results and discussions. Conclusions. References.
Antimicrobial textiles for health and hygiene applications based on eco-friendly natural products, M Joshi, R Purwar and S W Ali, Indian Institute of Technology, India and S Rajendran, University of Bolton, UK
Introduction. Natural antimicrobial agents for textile substrates. Antimicrobial finishing of textiles based on neem extract. Conclusion. References.
Investigation of the filtration properties of medical masks
M Akalin, I Usta, D Kocak and M S Ozen, Marmara University, Turkey
Introduction. Materials and method. Results. Conclusion. References.
Lint release characteristics of nonwoven wipes
V K Kothari and R Loganathan, Indian Institute of Technology, India
Introduction. Design of measurement apparatus. Materials and methods. Results and discussion. Conclusions.
Development of antimicrobial polyester using neem extract
S W Ali, B Gupta and M Joshi, Indian Institute of Technology, India
Introduction. Materials. Methods. Results and discussion. Conclusion. References.
Fixation of cationic antibacterial products before dyeing: a more ecological process, R V Vieira, J G Santos, G M B Soares and J I N R Gomes, University of Minho, Portugal
Introduction. Experimental. Results and discussion. Conclusions. References.
Preliminary studies into wash-fast antimicrobial treatments of polyester, O Hauck, N Allen, G C Lees, H Rowe and J Verran, Manchester Metropolitan University, UK
Introduction. Background. Methodology. Results. Future work. References.
Enzyme-catalysed coupling of functional antioxidants onto protein fibres, S Jus and G M Guebitz, Technical University of Graz, Austria and V Kokol, University of Maribor, Slovenia
Introduction. Materials and methods. Results and discussion. Conclusions. References.
PART 2 HEALTHCARE AND HYGIENE PRODUCTS
Healthcare and hygiene products: an overview, S C Anand, University of Bolton, UK
Introduction. Recent advances. References.
Cellulosic materials for odor and pH control, J K Dutkiewicz, Buckeye Technologies Inc, USA
Introduction. Experimental model. Ammonia emission studies. FreshcomfortTM technology. Conclusions. References.
Development of a high-absorbent sanitary napkin, A Das, V K Kothari and S Makhija, Indian Institute of Technology, India
Introduction. Experimental. Results and discussions. Conclusions. References.
Retention of anionic surfactant following garment laundering and its potential effect on dermatitis sufferers, H D Rowe, Manchester Metropolitan University, UK
Introduction. Experimental. Results. Discussion. Conclusions. References.
Preparation of protective disposable hygiene fabrics for medical applications, M Montazer, Amirkabir University of Technology, Iran, F Rangchi, Tehran Azad University, Iran and F Siavoshi, Tehran University, Iran
Introduction. Experimental. Conclusions. References.
Development of surgical clothing from bamboo fibres, K Ramachandralu, PSG College of Technology, India
Introduction. Materials and methods. Results and discussions. Conclusions. References.
Thermal characterization and mechanical properties of PLA yarns, A M Manich, M Marti and R M Sauri, Spanish Council for Scientific Research, Spain, D Cayuela, Technical University of Catalonia, Spain and M Ussman, Universidade da Beira Interior, Portugal
Introduction. Materials. Methods. Results. Discussion and conclusions. References.
PART 3 WOUND CARE MATERIALS
Wound care materials: an overview, M Miraftab, University of Bolton, UK
Introduction. Wounds: natural healing mechanisms versus wound care materials. Review of papers on wound care materials. References.
Controlled drug release from nanofibrous polyester materials
M J Bide, University of Rhode Island, USA, M D Phaneuf and T M Phaneuf, BioSurfaces, USA and P J Brown, Clemson University, USA
Introduction. Experimental. Results. Conclusions. References.
Development of odour (volatile molecule) adsorbent materials for healthcare
G Lee, S C Anand and S Rajendran, University of Bolton, UK and I Walker, Lantor (UK) Ltd, UK
Introduction. Odour adsorbent materials. Experimental work. Results. Conclusions. References.
Development of a decision support system for determination of suitable dressings for wounds, K G Karthick and M Miraftab, University of Bolton, UK and J Ashton, Bolton Primary Care Trust, UK
Introduction. Research amongst nursing staff. The need for a decision support system. Expert systems in medicine. Decision support system for wound dressing selection. Conclusion. References.
Treatment of cotton fabrics with ethyl cellulose microcapsules, B Voncina, V Vivod and D Jausovec, University of Maribor, Slovenia
Introduction. Experimental. Results and discussion. Conclusions. References.
Measuring interface pressure in compression garments for burns patients, E Maklewska, A Nawrocki, K Kowalski and W Tarnowski, Institute of Knitting Technology and Techniques, Poland
Introduction. Investigation methods. Test material. Test results and discussion. Conclusions. References.
Psyllium: current and future applications, R Masood and M Miraftab, University of Bolton, UK
Introduction. The psyllium plant. History. Traditional food applications. Physiochemical properties of psyllium. Recent medical application of psyllium. Other applications of psyllium. Conclusions. References.
PART 4 BANDAGING AND PRESSURE GARMENTS
Bandaging and pressure garments: an overview, S C Anand, University of Bolton, UK
Introduction. Causes of venous disorders. Factors which determine sub-bandage pressure. Classification of compression bandages. Recent advances in compression therapy. Single-layer compression bandages. References.
Biomaterials with controlled elasticity for post-operation recovery, M Carmen and E Alexandra, The National Institute for Textile and Leather, Romania
Introduction. Testing cytotoxicity and sensitizing potential. Testing methods. Results: sensitizing and irritation potential. Conclusions. References.
A study of the pressure profile of compression bandages and compression garments for treatment of venous leg ulcers, M Sikka, S Ghosh and A Mukhopadhyay, National Institute of Technology, India
Introduction. Materials. Method. Results and discussion. Conclusions. References.
Development of three-dimensional structures for single-layer compression therapy, S Rajendran and S C Anand, University of Bolton, UK
Introduction. The treatment of venous leg ulcers. Compression systems. Problems with current bandages. 3D compression bandages. Materials and methods. Results and discussion. Summary. References.
Intermittent pneumatic compression and bandaging: the effects of external pressure applied over bandaging, S Rithalia and M Leyden, University of Salford, UK
Introduction. Methods and materials. Results. Conclusions. References.
Physiological effects of LycraA (R) pressure garments on children with cerebral palsy, J Attard, Royal National Orthopaedic Hospital, UK and S Rithalia, University of Salford, UK
Introduction. Cerebral palsy. Dynamic LycraA (R) pressure garments. Aims and objectives of study. Method. Results. Discussion. Conclusions. References.
Empirical modelling of elastic properties of pressure garments for healthcare, S Pereira, S C Anand and S Rajendran, University of Bolton, UK and C Wood, Baltex Ltd, UK
Introduction. Experimental. Results and discussion. Conclusions. References.
Investigation of elastic properties of multiaxial warp knitted bandages, M Akalin, D Kocak, S I Mistik and M Uzun, Marmara University, Turkey
Introduction. Materials and methods. Results. Conclusions. References.
PART 5 IMPLANTABLE MATERIALS
Implantable materials: an overview, S Rajendran, University of Bolton, UK
Introduction. Vascular grafts. Knee implants. Mesh grafts. Scaffolds. Bibliography.
Designing vena cava filters with textile structures, J Yoon and M W King, North Carolina State University, USA and E Johnson, Crux Biomedical Inc, USA
Introduction. Current filters for embolic protection. Discussion. Conclusion. References.
Application of polyvinylidene fluoride (PVDF) as a biomaterial in medical textiles, S Houis and T Gries, RWTH Aachen University, Germany, E M Engelhardt and F Wurm, Ecole Polytechnique FA (c)dA (c)rale de Lausanne, Switzerland
Introduction. State of the art. Production of medical textiles. Projects using PVDF for medical applications. Conclusion. References.
Textile scaffolds for tissue engineering aEURO" near future or just vision? D Aibibu, S Houis, M S Harwoko and T Gries, RWTH Aachen University, Germany
Introduction. Materials. Results. Discussion. References.
Visible invisibility: contamination-aware textile surfaces, A Toomey, Royal College of Art, UK
Introduction. Infection risks. Infection control. aEURO~Visible invisibilityaEURO (TM) contamination aware surfaces. Conclusion. References.
Textile medical products for the stabilization of the thoracic wall, E Alexandra and M Carmen, The National Institute for Textile and Leather, Romania and N Alexandru, Victor Babes Medical and Pharmaceutical University, Romania
Introduction. Experimental. Clinical experiments. Results. Conclusions. References.
Predicting the fatigue performance of endovascular prostheses, H Zhao, L Wang, Y Li and X Liu, Donghua University, China and M W King, North Carolina State University, USA
Introduction. Experimental. Results and discussion. Conclusions. References.
Integration and embedding of vital signs sensors and other devices into textiles, M J Abreu, H Carvalho, A Catarino and A Rocha, Universidade do Minho, Portugal
Introduction. Review of the state of the art. Overview of general principles. Experimental, results and discussions. Conclusions. References.
PART 6 MEDICAL DEVICES
Textile-based medical devices: an overview, J F Kennedy and C J Knill, Chembiotech Laboratories aEURO" Institute of Advanced Science and Technology, UK
What is a medical device? Medical textiles and their applications. Biomaterials used in medical textiles. References.
Design and release rates of a novel biodegradable slow-release implant for the prevention of paediatric dental caries, G J Dunn and A F Fotheringham, Heriot-Watt University, UK
Introduction. Materials and methods. Results and discussion. Conclusions. References.
Maternity support garment for the relief of lower back pain, S Ho, W Yu, T Lao, D Chow, J Chun and, Y Li, The Hong Kong Polytechnic University, Hong Kong
ntroduction. Study aims. Study objectives. Summary. References.
Self-powered medical devices for vibration suppression, L M Swallow, E Siores, D Dodds and J K Luo, University of Bolton, UK
Introduction. Piezoelectric materials. Power harvesting. Vibration suppression. Device overview. Results. Discussion. Future work. References.
Gas plasma treatment of polypropylene (PP) dental tape, J M Warren, R R Mather and D Robson, Heriot-Watt University UK and A Neville, University of Leeds, UK
Introduction. Experimental. Surface characteristics of plasma treated tape. PP tapes as dental flosses. References.
Investigating fracture mechanisms of some non-absorbable sutures in vivo, A S Hockenberger and E Karaca, Uludag University, Turkey
Introduction. Experimental. Results and discussion. Conclusion. References.
Wearable microwave radiometry device for early detection of sub-tissue oncological imperfections, T Shah and E Siores, University of Bolton, UK
Introduction. Main types of breast cancer. Detection of breast cancer. Microwave radiometry. Microwave radiometer design and testing. Device integration with fabric. Conclusions. References.
Investigation of differences in caprosyn, biosyn, polysorb, novafil and surgipro sutures, A D Erem and E Onder, Istanbul Technical University, Turkey and H H Erem, GATA Haydarpasa Training Hospital, Turkey
Introduction. Materials. Method. Results. Conclusions. References.
PART 7 SMART MATERIALS AND TECHNOLOGIES
Smart materials and technologies: an overview, M Miraftab, University of Bolton, UK
Introduction. Review of papers on smart materials. References.
Smart textiles embedded with optical fibre sensors for health monitoring of patients, F Pirotte, Centexbel, Belgium, A Depre, Elasta, Belgium, R Shishoo, Shishoo Consulting, Sweden, J De Jonckheere, ITM, France and A Grillet, Multitel, Belgium
Introduction. OFSETH research project. Preliminary results. Conclusions. References.
Integrating contactless sensors for stress level monitoring into clothing using conductive threads, C Rotsch, D Zschenderlei and U MAhring, TITV Greiz, Germany
Introduction. Conductive thread materials for the integration of textile sensors and actuators. References.
Designing compressive stretch garments for improved comfort and fit, P A Watkins, London College of Fashion, UK
Introduction. Garment pressure research literature. Traditional pattern design and mobility. Proximal fit pattern design. Summary. References.
Burn hazard potential, pre-ignition and post-ignition thermal properties of textiles, A W Kolhatkar, J D Institute of Engineering and Technology, India and P C Patel, M S University of Baroda, India
Introduction. Materials and methods. Results and discussion. Conclusions. References.
Assessing the performance of alternating pressure air mattresses (APAMs), S V S Rithalia, University of Salford, UK
Introduction. Methods and materials. Results. Discussion. References.
Smart textiles with slow-release ceramides for sensitive skin, M Marti, R Ramirez and L Coderch, IIQAB (CSIC), Spain and M Lis, J A Navarro and J Valldeperas, INTEXTER (UPC), Spain
Introduction. Ceramides from wool. Liposome formation and evaluation. Application of IWL-ceramide liposomes. Microencapsulation. Conclusions. References.
PART 8 INDUSTRY STANDARDS AND REGULATIONS
Directives, regulations and standards for the medical device industry: an overview, C J Knill and J F Kennedy, Chembiotech Laboratories aEURO" Institute of Advanced Science and Technology, UK
Medical devices in the EU. Medicines and Healthcare Products Regulatory Agency. CE marking. Safety/quality standard monitoring. Biocompatibility testing. The Drug Tariff. References.
Recent changes to the UK Drug Tariff for appliances listed in Part IX, G J Collyer, Sumed International Ltd, UK
Introduction. History to the reimbursement of appliances. The Gershon Review 2004. The Supply Chain Excellence Programme. Conclusions. References.
- 巻冊次
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Woodhead ISBN 9781845692247
内容説明
Medical textiles remain one of the most dynamic areas of research in textiles. Medical and healthcare textiles is the fourth in a series of conferences held at the University of Bolton. Like its predecessors, it has attracted papers from some of the leading international centres of expertise in the field. Contributors cover a range of topics including emerging textile-based biomaterials, hygienic textiles, the use of textiles in infection control and as barrier materials, bandaging and pressure garments for managing chronic infections such as ulcers, the role of textiles in the management of burns and wounds, textile-based implantable devices such as tissue scaffolds and sutures, and intelligent textiles.
目次
Part 1 Infection control and barrier materials. Part 2 Healthcare and hygiene products. Part 3 Wound care materials. Part 4 Bandaging and pressure garments. Part 5 Implantable materials. Part 6 Medical devices. Part 7 Smart materials and technologies. Part 8 Industry standards and regulations.
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