Home Articles List Article Information
International Design Journal
Journal Archive
Volume Volume 15 (2025)
Volume Volume 14 (2024)
Volume Volume 13 (2023)
Volume Volume 12 (2022)
Volume Volume 11 (2021)
Volume Volume 10 (2020)
Volume Volume 9 (2019)
Volume Volume 8 (2018)
Volume Volume 7 (2017)
Volume Volume 6 (2016)
Volume Volume 5 (2015)
Volume Volume 4 (2014)
Volume Volume 1 (2012)
Abdel Raouf, W., Merghany, S. (2017). Treatment of Gauze Fabrics with Chitosan Nano Particles for Use in Medical Fields. International Design Journal, 7(3), 57-63. doi: 10.12816/0044123
Wesam Osama Abdel Raouf; Samir Ahmed Merghany. "Treatment of Gauze Fabrics with Chitosan Nano Particles for Use in Medical Fields". International Design Journal, 7, 3, 2017, 57-63. doi: 10.12816/0044123
Abdel Raouf, W., Merghany, S. (2017). 'Treatment of Gauze Fabrics with Chitosan Nano Particles for Use in Medical Fields', International Design Journal, 7(3), pp. 57-63. doi: 10.12816/0044123
Abdel Raouf, W., Merghany, S. Treatment of Gauze Fabrics with Chitosan Nano Particles for Use in Medical Fields. International Design Journal, 2017; 7(3): 57-63. doi: 10.12816/0044123

Treatment of Gauze Fabrics with Chitosan Nano Particles for Use in Medical Fields

Article 4, Volume 7, Issue 3 - Serial Number 23, July 2017, Page 57-63  XML PDF (200.98 K)
Document Type: Original Article
DOI: 10.12816/0044123
View on SCiNiTO View on SCiNiTO
Authors
Wesam Osama Abdel Raouf1; Samir Ahmed Merghany2
1Lecturer , Rural Home Economics, Food Sciences. Dept., Faculty of Agriculture, Zagazig University, Egypt
2Professor, Microbiology, Agriculture Microbiology. Dept., Faculty of Agriculture, Zagazig University, Egypt
Abstract
The main objective was studying the effect of  chitosan nano particles on some performance properties for the medical gauze and specify the best types of nano chitosan material which can be used to improve performance properties and improve inhibition zone bacteria for the medical gauze thick for gram positive bacteria, which included Staphylo coccus aureus – Bacillus aureus – Listeria monocytogenes and gram negative bacteria, which included Escherichia Coli – Acenitobacter SPP – Klebsiella SPP. In This study the medical gauze thick  were choices as the following: 100% cotton.  Parameters such as: weight per square meter - the water absorption time .
Three different concentration of  nano chitosan : (2.5- 5-10 ml/ Litre), were used to study the effect of it on the performance properties and improve inhibition zone bacteria for the medical gauze thick  under investigation.
Research Significance: - Study the possibility of the application of  nano chitosan on the medical gauze thick.
- the use of Three different concentration of  nano chitosan : (2.5- 5-10 ml/ Litre), maintain the properties of the performance of the medical gauze thick and improve inhibition zone bacteria for the medical gauze thick for gram positive bacteria, which included Staphylo coccus aureus – Bacillus aureus – Listeria monocytogenes and gram negative bacteria, which included Escherichia Coli – Acenitobacter SPP – Klebsiella SPP .
Research problem: Study the effect of the use of nano chitosan particles on the performance properties for  the medical gauze thick to maintain these properties and maintain improve inhibition zone bacteria for the medical gauze thick for gram positive bacteria and gram negative bacteria.
Research hypotheses: there are significant differences between the medical gauze thick  and the type of concentration used for nano chitosan on inhibition zone bacteria  - there are significant differences between the concentrate of nano chitosan  used for the medical gauze thick  and performance properties for carpet and rugs.
Statistical analysis: Data were statistically analyzed according to testing L.S.D
 
Results and discussion: - Results showed an improve of inhibition zone bacteria for the medical gauze thick for gram postive bacteria, which included Staphylo coccus aureus – Bacillus aureus – Listeria monocytogenes and gram negtive bacteria, which included Escherichia Coli – Acenitobacter SPP – Klebsiella SPP .   The best results for the use of 10 ml/ Litre improve the properties of the performance of the medical gauze thick and improve inhibition zone bacteria for the medical gauze thick for gram positive bacteria, which included Staphylo coccus aureus – Bacillus aureus – Listeria monocytogenes and gram negative bacteria, which included Escherichia Coli – Acenitobacter SPP – Klebsiella SPP.
Keywords
chitosan nano particles Nano technology; functional performance Gauze inhibition zone bacteria
References

1.      إبراهیم, رحاب جمعة "تأثیر تجهیز الأقمشة الصوفیة والمخلوطة لمقاومة الکائنات الحیة الدقیقة للأیفاء بالغرض الوظیفی للمنتج النهائی" رسالة ماجستیر – کلیة التربیة النوعیة – جامعة طنطا 2006م.

2.      الرحمة, عبد الله ناصر" أسیاسات علم الفطریات جامعة الملک سعود – الریاض – 2005م.

3.      إیمان رافت سعد السید (2012 ) " معاییر تولیف أنواع مختلفة من الجلود الطبیعیة والصناعیة للوصول إلی قیم وظیفیة جدیدة فی تصمیم الملابس"- رسالة دکتوراه – کلیة الفنون التطبیقیة – جامعة حلوان.

4.      جلال مصطفی الصیاد, محمد الدسوقی حبیب (1998) "مقدمة فی للطرق الإحصائیة "– دار حافظ للنشر والتوزیع.

5.      رحاب محمد على – عواطف بهیج محمد – محمد عبدالمنعم رمضان (2015) معالجه أقمشة الشاش بالکیتوزان المحمل بجسیمات الفضة النانومیتریه للاستخدام فى المجال الطبى . مجلة التصمیم الدولیة – مجلد (2) عدد (5) الصفحات 351-360

6.      العشماوى سالى أحمد أحمد (2016) تکنولوجیا النانو فى تحسین الأداء الوظیفى للملابس الداخلیة للریاضیین . مجلة التصمیم الدولیة – مجلد (2) العدد (6) –الصفحات 163- 172.

7.      عبدالله – مروه عاطف على (2005) تحقیق أفضل المعاییر القیاسیة لانتاج الحفاضات بما یلائم أدائها الوظیفى . رسالة ماجیستیر – کلیة الفنون التطبیقیة – جامعة حلوان.

8.      علی, إیمان محمد "تحسین خواص الضمادات الجراحیة لتفی بغرض الأداء الوظیفی للإستخدام النهائی" رسالة ماجستیر کلیة الفنون التطبیقیة – جامعة حلوان, 2003م

9.      مبارک محمد الصاوی محمد وأخرون "عالم البکتیریا – دار الکتب" القاهرة, 2005م.

10.   البیسی منال وأخرون (2014) "استخدام عسل النحل بطریقة أمنة بیئیاً لتحضیر دقائق الفضة – المرکز القومی للبحوث - شعبة بحوث الصناعات النسیجیة.

11.   Nurfaizey A.H.  N. TuckerJ. Stanger, M.P. Staiger (2012)Functional nanofibers in clothing for protection against chemical and biological hazards. Functional Nanofibers and their ApplicationsA volume in Woodhead Publishing Series in Textiles, Pages 236–261..

12.   AATCC Test method 79 – 2000. Absorbency of Bleached Textiles

13.     Tayela, Ahmed A. , Shaaban H. Moussaa, Wael F. El-Trasb, Nihal M. Elguindyc, Klaus Opwis (2011) Antimicrobial textile treated with chitosan from Aspergillus niger mycelial wasteInternational Journal of Biological MacromoleculesVolume 49, Issue 2, 1 August, Pages 241–245

14.   Chen C.Y. Li Chiang C., (2008) preparation of cotton fibers with anti bacterial Silver nono particles materials Letters, 62, 3607- 3609.

15.   Felcher, E.M. (2008). The consumer product safety commission and nano technology.

16.    Thilagavathi, G. S. Viju  (2016) Antimicrobials for protective clothingAntimicrobial Textiles A volume in Woodhead Publishing Series in Textiles 2016, Pages 305–317

17.   Hideyuki Kanematsu, Michiko Yoshitake (2015) Nanocomposite Coating for Antibacterial PurposesHandbook of Nanoceramic and Nanocomposite Coatings and Materials, Pages 489–513

18.   I.R. Hardin, Y. Kim(2016) Nanotechnology for antimicrobial textiles Antimicrobial Textiles A volume in Woodhead Publishing Series in Textiles, Pages 87–97.

19.   Ilana Perelshtein1,Nina Perkas1, Aharon Gedanken, (2016) Making the hospital a safer place by the sonochemical coating of textiles by antibacterial nanoparticlesSurface Chemistry of Nanobiomaterials Applications of Nanobiomaterials Volume 3, Pages 71–105.

20.   Jia,J. Duan, Y.Y., Wang, S.H., Zhang, S.F.and Wang, Z.Y. (2007), Preparation. And characterization of Anti bacterial Silver Containing Nano fibers for wound Dressing Applications. J. US- China Med. Sci – 4, 52- 54.

21.    Laird K. , K. Riley (2016) Antimicrobial textiles for medicalenvironments. A volume in Woodhead Publishing Series in Textiles, Pages 249–262.

22.   Patra Maha S.S., and N. Karak, (2008). Silver nano Particle in hyper branched poly amine, Synthesis, characterization and anti bacterial activity, Mater. Chem , phys . 112, 1114- 1119.

23.   Mohamed E.I. Badawy, Entsar I. Rabea, (2012). “characterization and anti microbial activity of weter – Soluble . N- (4- carboxy /butyroyl) chitosans against Some plant pathogenic bacteria and fungi’ car bohyd rate polymer s, volmme 87, Issue  1,4  250 – 256. January.

24.   Orthue, P.O., Momoh A.R.M, (2012); The anti biogram Types of staphylo Coccus aureus Isolated from nasal Carriers from irrua Specialist Teaching hospital, Edostate.

25.   Park C.g.,S.G.Clark and C.A.Liichten steiger,(2009) Accelerated wound closure of pressure ulcers in aged mice by chitosan Scaffolds with or without bf GF, Acta Bio materialia,5,1926-1936.

26.   Rajendran Krishnaveni, Sivalingam Thambidurais (2013) with chitosan–ZnO composite for anti-bacterial and thermal stability Industrial method of cotton fabric finishing Industrial Crops and Product Volume 47, May, Pages 160–167

27.   Chandrasekar S., S. Vijayakumar, , R. Rajendran (2014) Application of chitosan and herbal nanocomposites to develop antibacterial medical textile Biomedicine & Aging PathologyVolume 4, Issue 1, January-March, Pages 59–64

28.   Sundarrajan S.  S. Ramakrishna (2013) The use of nanomaterials in smart protective clothing . Smart Textiles for ProtectionA volume in Woodhead Publishing Series in Textiles, Pages 127–147

29.   Sang Jin Lee, Dong Nyoung Heo, Ji-Hoi Moon, Wan-Kyu Ko, Jung Bok Lee, Min Soo Bae, Se Woong Park, Ji Eun Kim, Dong Hyun Lee, Eun-Cheol Kim, Chang Hoon Lee, Il Keun Kwon (2014) Electrospun chitosan nanofibers with controlled levels of silver nanoparticles. Preparation, characterization and antibacterial activityCarbohydrate PolymersVolume 111, 13 October, Pages 530–537

30.   Sanyakamdhorn, S. (2013). Encapsulation of Antitumor Drug Doxorubic in and its Ana Logue by chitosan nano particles. Bio macro molecules 14 (2) 557 – 563.

31.   Hui X. , H. Zhu, G. Sun (2016) Antimicrobial textiles for treating skin infections and atopic dermatitisAntimicrobial TextilesA volume in Woodhead Publishing Series in Textiles, Pages 287–303

32.   Xux. L. X.P. Zhuang and B.W. Cheng, et al, (2010). Manufature and properties of cellulose/O-hydroxy ethyle chitosan blend fibers, carbohydr, polym. 81,541 – 544.

 

33.   Youbo Dil, Qing Shan LiL, Xupin Zhuang, P.H.D., (2012). Antibacterial finishing of Tencel / Cotton nano woven Fabric using Ay nano Particels – chitosan Composite Journal of Engineered fibers and fabrics, volume 7, Issue 2.

Statistics
Article View: 345
PDF Download: 473