Research Article
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Year 2020, Volume: 41 Issue: 1, 160 - 168, 22.03.2020
https://doi.org/10.17776/csj.624419

Abstract

References

  • [1] Kara N., Baydar, H., Lavantanın uçucu yağ oranı ve kalitesine distilasyon suyuna eklenen katkı maddelerinin etkisi, SDÜ Ziraat Fakültesi Dergisi, 8(2) (2013) 52-58.
  • [2] Hossain, S., Heo, H., De Silva, B. C. J., Wimalasena, S. H. M. P., Pathirana, H. N. K. S., & Heo, G. J., Antibacterial activity of essential oil from lavender (Lavandula angustifolia) against pet turtle-borne pathogenic bacteria, Laboratory animal research, 33(3) (2017) 195-201.
  • [3] Aslancan, H., & Sarıbaş, R., Lavanta Yetiştiriciliği, Meyvecilik Araştırma İstasyonu Müdürlüğü, Yayın, 41 (2011).
  • [4] Vakilian, K., Atarha, M., Bekhradi, R., & Chaman, R., Healing advantages of lavender essential oil during episiotomy recovery: a clinical trial, Complementary therapies in clinical practice, 17(1) (2011) 50-53.
  • [5] Koca Kutlu, A., Çeçen, D., Gürgen, S. G., Sayın, O., & Çetin, F., A comparison study of growth factor expression following treatment with transcutaneous electrical nerve stimulation, saline solution, povidone-iodine, and lavender oil in wounds healing, Evidence-Based Complementary and Alternative Medicine, 2013.
  • [6] Reddy, K. K., Grossman, L., & Rogers, G. S., Common complementary and alternative therapies with potential use in dermatologic surgery: risks and benefits, Journal of the American Academy of Dermatology, 68(4) (2013) e127- e135.
  • [7] Mori, H. M., Kawanami, H., Kawahata, H., & Aoki, M., Wound healing potential of lavender oil by acceleration of granulation and wound contraction through induction of TGF-β in a rat model, BMC complementary and alternative medicine, 16(1) (2016) 144.
  • [8] Vakili, A., Sharifat, S., Akhavan, M. M. & Bandegi, A. R., Effect of lavender oil (Lavandula angustifolia) on cerebral edema and its possible mechanisms in an experimental model of stroke, Brain Research, 1548 (2014) 56-62.
  • [9] Malcolm, B. J. & Tallian, K., Essential oil of lavender in anxiety disorders: Ready for prime time, Mental Health Clinician, 7(4) (2017) 147-155.
  • [10] Perry, N. & Perry, E., Aromatherapy in the management of psychiatric disorders, CNS drugs, 20(4) (2006) 257-280.
  • [11] Lewith, G. T., Godfrey, A. D. & Prescott, P., A single-blinded, randomized pilot study evaluating the aroma of Lavandula augustifolia as a treatment for mild insomnia, Journal of Alternative & Complementary Medicine, 11(4) (2005) 631-637.
  • [12] Nedorostova, L., Kloucek, P., Kokoska, L., Stolcova, M. & Pulkrabek, J., Antimicrobial properties of selected essential oils in vapour phase against foodborne bacteria, Food control, 20(2) (2009) 157-160.
  • [13] Cavanagh, H. M. A. & Wilkinson, J. M., Biological activities of lavender essential oil, Phytotherapy research, 16(4) (2002) 301-308.
  • [14] Behmanesh, F., Pasha, H., Sefidgar, A. A., Taghizadeh, M., Moghadamnia, A. A., Adib Rad, H. & Shirkhani, L., Antifungal effect of lavender essential oil (Lavandula angustifolia) and clotrimazole on Candida albicans: an in vitro study, Scientifica, 2015.
  • [15] Soković, M., Glamočlija, J., Marin, P. D., Brkić, D. & van Griensven, L. J., Antibacterial effects of the essential oils of commonly consumed medicinal herbs using an in vitro model, Molecules, 15(11) (2010) 7532-7546.
  • [16] Inouye, S., Takizawa, T. & Yamaguchi, H., Antibacterial activity of essential oils and their major constituents against respiratory tract pathogens by gaseous contact, Journal of antimicrobial chemotherapy, 47(5) (2001) 565-573.
  • [17] Nelson, R. R., In-vitro activities of five plant essential oils against methicillin-resistant Staphylococcus aureus and vancomycin-resistant Enterococcus faecium, The Journal of antimicrobial chemotherapy, 40(2) (1997) 305-306.
  • [18] Kırmusaoğlu, S. & Cansız, E. İ., Nanoteknolojide Nano Gümüşün Antibakteriyel Özelliği, Haliç Üniversitesi Fen Bilimleri Dergisi, 1(1) (1997) 87-94.
  • [19] Can, C. & Körlü, A., Antibakteriyel tekstil üretiminde sıkça kullanılan gümüşün etki mekanizması ve toksisitesi, Tekstil Teknolojileri Elektronik Dergisi, 5(3) (2011) 54-59.
  • [20] İlkimen, H., & Gülbandılar, A., Lavanta, Ada Çayı, Kekik ve Papatya Ekstrelerinin Antimikrobiyal Etkilerinin Araştırılması, Türk Mikrobiyoloji Cemiyeti Dergisi, 48(4) (2018) 241-246.
  • [21] Güler, H. K., Dönmez, İ. & Aksoy, S. A., Tıbbi ve aromatik bitkilerin antibakteriyel aktivitesi ve tekstil sektöründe kullanımı, Süleyman Demirel Üniversitesi Fen Edebiyat Fakültesi Fen Dergisi, 10(2) (2015) 27-34.
  • [22] Süpüren, G., Ahmet, Ç. A. Y., Kanat, Z. E. & Tarakçıoğlu, I., Antimicrobial fibers, Tekstil ve Konfeksiyon, 16(2) (2006) 80-89.
  • [23] Kurtoğlu, A. H. & Karataş, A., Yara tedavisinde güncel yaklaşımlar: modern yara örtüleri, Ankara Eczacılık Fakültesi Dergisi, Ankara, 38(3) (2009) 211-232.
  • [24] Boateng, J. S., Matthews, K. H., Stevens, H. N. & Eccleston, G. M., Wound healing dressings and drug delivery systems: a review, Journal of pharmaceutical sciences, 97(8) (2008) 2892-2923.
  • [25] Bonan, R. F., Bonan, P. R., Batista, A. U., Sampaio, F. C., Albuquerque, A. J., Moraes, M. C., Mattoso, L. H., Glenn, G.M., Medeiros, E. S. and Oliveira, J. E., In vitro antimicrobial activity of solution blow spun poly (lactic acid)/polyvinylpyrrolidone nanofibers loaded with Copaiba (Copaifera sp.) oil, Materials Science and Engineering: C, 48 (2015) 372-377.
  • [26] Suganya, S., Senthil Ram, T., Lakshmi, B. S. & Giridev, V. R., Herbal drug incorporated antibacterial nanofibrous mat fabricated by electrospinning: an excellent matrix for wound dressings, Journal of Applied Polymer Science, 121(5) (2011) 2893-2899.
  • [27] Eğri, Ö. & Erdemir, N., Production of Hypericum perforatum oil-loaded membranes for wound dressing material and in vitro tests, Artificial cells, nanomedicine, and biotechnology, 47(1) (2019) 1404-1415.
  • [28] Zahedi, P., Rezaeian, I., Ranaei‐Siadat, S. O., Jafari, S. H. & Supaphol, P., A review on wound dressings with an emphasis on electrospun nanofibrous polymeric bandages, Polymers for Advanced Technologies, 21(2) (2010) 77-95.
  • [29] Geronemus, R. G. & Robins, P., The effect of two new dressings on epidermal wound healing, The Journal of dermatologic surgery and oncology, 8(10) (1982) 850-852.
  • [30] Gupta, B., Arora, A., Saxena, S., & Alam, M. S., Preparation of chitosan-polyethylene glycol coated cotton membranes for wound dressings: preparation and characterization, Polymers for Advanced Technologies, 20(1) (2009) 58-65.
  • [31] Zhao, T. & Jiang, L., Contact angle measurement of natural materials, Colloids and Surfaces B: Biointerfaces, 161 (2018) 324-330.

Production of lavender oil loaded antibacterial polymeric membranes

Year 2020, Volume: 41 Issue: 1, 160 - 168, 22.03.2020
https://doi.org/10.17776/csj.624419

Abstract

Antibacterial polymeric membranes were produced within the context of this study. PCL polymer solution and PEG solution that was mixed with lavender oil (Oleum lavendula angustifolia) was electrospun concurrently from opposite directions. Thus lavender oil used as antibacterial agent was entrapped within PEG fibers. Antibacterial polymeric membranes were produced by collecting electrospun fibers on rotating mandrel. Interaction of the solvent with the polymer determined with Fourier Transform Infrared Spectroscopy (FTIR). Surface morphology of the membrane and fiber diameters were investigated by using Scanning Electron Microscopy (SEM) images. Mechanical strengths of the membranes were evaluated by standard tensile tests. Hydrophilicity of the membranes was characterized by contact angle measurements and water uptake capacity was characterized by swelling tests. In vitro controlled release of the lavender oil by dissolution of PEG fibers in aqueous medium was investigated under in vitro conditions. Antibacterial activity of the membranes on gram positive and gram negative bacteria species was observed by disk diffusion tests.

References

  • [1] Kara N., Baydar, H., Lavantanın uçucu yağ oranı ve kalitesine distilasyon suyuna eklenen katkı maddelerinin etkisi, SDÜ Ziraat Fakültesi Dergisi, 8(2) (2013) 52-58.
  • [2] Hossain, S., Heo, H., De Silva, B. C. J., Wimalasena, S. H. M. P., Pathirana, H. N. K. S., & Heo, G. J., Antibacterial activity of essential oil from lavender (Lavandula angustifolia) against pet turtle-borne pathogenic bacteria, Laboratory animal research, 33(3) (2017) 195-201.
  • [3] Aslancan, H., & Sarıbaş, R., Lavanta Yetiştiriciliği, Meyvecilik Araştırma İstasyonu Müdürlüğü, Yayın, 41 (2011).
  • [4] Vakilian, K., Atarha, M., Bekhradi, R., & Chaman, R., Healing advantages of lavender essential oil during episiotomy recovery: a clinical trial, Complementary therapies in clinical practice, 17(1) (2011) 50-53.
  • [5] Koca Kutlu, A., Çeçen, D., Gürgen, S. G., Sayın, O., & Çetin, F., A comparison study of growth factor expression following treatment with transcutaneous electrical nerve stimulation, saline solution, povidone-iodine, and lavender oil in wounds healing, Evidence-Based Complementary and Alternative Medicine, 2013.
  • [6] Reddy, K. K., Grossman, L., & Rogers, G. S., Common complementary and alternative therapies with potential use in dermatologic surgery: risks and benefits, Journal of the American Academy of Dermatology, 68(4) (2013) e127- e135.
  • [7] Mori, H. M., Kawanami, H., Kawahata, H., & Aoki, M., Wound healing potential of lavender oil by acceleration of granulation and wound contraction through induction of TGF-β in a rat model, BMC complementary and alternative medicine, 16(1) (2016) 144.
  • [8] Vakili, A., Sharifat, S., Akhavan, M. M. & Bandegi, A. R., Effect of lavender oil (Lavandula angustifolia) on cerebral edema and its possible mechanisms in an experimental model of stroke, Brain Research, 1548 (2014) 56-62.
  • [9] Malcolm, B. J. & Tallian, K., Essential oil of lavender in anxiety disorders: Ready for prime time, Mental Health Clinician, 7(4) (2017) 147-155.
  • [10] Perry, N. & Perry, E., Aromatherapy in the management of psychiatric disorders, CNS drugs, 20(4) (2006) 257-280.
  • [11] Lewith, G. T., Godfrey, A. D. & Prescott, P., A single-blinded, randomized pilot study evaluating the aroma of Lavandula augustifolia as a treatment for mild insomnia, Journal of Alternative & Complementary Medicine, 11(4) (2005) 631-637.
  • [12] Nedorostova, L., Kloucek, P., Kokoska, L., Stolcova, M. & Pulkrabek, J., Antimicrobial properties of selected essential oils in vapour phase against foodborne bacteria, Food control, 20(2) (2009) 157-160.
  • [13] Cavanagh, H. M. A. & Wilkinson, J. M., Biological activities of lavender essential oil, Phytotherapy research, 16(4) (2002) 301-308.
  • [14] Behmanesh, F., Pasha, H., Sefidgar, A. A., Taghizadeh, M., Moghadamnia, A. A., Adib Rad, H. & Shirkhani, L., Antifungal effect of lavender essential oil (Lavandula angustifolia) and clotrimazole on Candida albicans: an in vitro study, Scientifica, 2015.
  • [15] Soković, M., Glamočlija, J., Marin, P. D., Brkić, D. & van Griensven, L. J., Antibacterial effects of the essential oils of commonly consumed medicinal herbs using an in vitro model, Molecules, 15(11) (2010) 7532-7546.
  • [16] Inouye, S., Takizawa, T. & Yamaguchi, H., Antibacterial activity of essential oils and their major constituents against respiratory tract pathogens by gaseous contact, Journal of antimicrobial chemotherapy, 47(5) (2001) 565-573.
  • [17] Nelson, R. R., In-vitro activities of five plant essential oils against methicillin-resistant Staphylococcus aureus and vancomycin-resistant Enterococcus faecium, The Journal of antimicrobial chemotherapy, 40(2) (1997) 305-306.
  • [18] Kırmusaoğlu, S. & Cansız, E. İ., Nanoteknolojide Nano Gümüşün Antibakteriyel Özelliği, Haliç Üniversitesi Fen Bilimleri Dergisi, 1(1) (1997) 87-94.
  • [19] Can, C. & Körlü, A., Antibakteriyel tekstil üretiminde sıkça kullanılan gümüşün etki mekanizması ve toksisitesi, Tekstil Teknolojileri Elektronik Dergisi, 5(3) (2011) 54-59.
  • [20] İlkimen, H., & Gülbandılar, A., Lavanta, Ada Çayı, Kekik ve Papatya Ekstrelerinin Antimikrobiyal Etkilerinin Araştırılması, Türk Mikrobiyoloji Cemiyeti Dergisi, 48(4) (2018) 241-246.
  • [21] Güler, H. K., Dönmez, İ. & Aksoy, S. A., Tıbbi ve aromatik bitkilerin antibakteriyel aktivitesi ve tekstil sektöründe kullanımı, Süleyman Demirel Üniversitesi Fen Edebiyat Fakültesi Fen Dergisi, 10(2) (2015) 27-34.
  • [22] Süpüren, G., Ahmet, Ç. A. Y., Kanat, Z. E. & Tarakçıoğlu, I., Antimicrobial fibers, Tekstil ve Konfeksiyon, 16(2) (2006) 80-89.
  • [23] Kurtoğlu, A. H. & Karataş, A., Yara tedavisinde güncel yaklaşımlar: modern yara örtüleri, Ankara Eczacılık Fakültesi Dergisi, Ankara, 38(3) (2009) 211-232.
  • [24] Boateng, J. S., Matthews, K. H., Stevens, H. N. & Eccleston, G. M., Wound healing dressings and drug delivery systems: a review, Journal of pharmaceutical sciences, 97(8) (2008) 2892-2923.
  • [25] Bonan, R. F., Bonan, P. R., Batista, A. U., Sampaio, F. C., Albuquerque, A. J., Moraes, M. C., Mattoso, L. H., Glenn, G.M., Medeiros, E. S. and Oliveira, J. E., In vitro antimicrobial activity of solution blow spun poly (lactic acid)/polyvinylpyrrolidone nanofibers loaded with Copaiba (Copaifera sp.) oil, Materials Science and Engineering: C, 48 (2015) 372-377.
  • [26] Suganya, S., Senthil Ram, T., Lakshmi, B. S. & Giridev, V. R., Herbal drug incorporated antibacterial nanofibrous mat fabricated by electrospinning: an excellent matrix for wound dressings, Journal of Applied Polymer Science, 121(5) (2011) 2893-2899.
  • [27] Eğri, Ö. & Erdemir, N., Production of Hypericum perforatum oil-loaded membranes for wound dressing material and in vitro tests, Artificial cells, nanomedicine, and biotechnology, 47(1) (2019) 1404-1415.
  • [28] Zahedi, P., Rezaeian, I., Ranaei‐Siadat, S. O., Jafari, S. H. & Supaphol, P., A review on wound dressings with an emphasis on electrospun nanofibrous polymeric bandages, Polymers for Advanced Technologies, 21(2) (2010) 77-95.
  • [29] Geronemus, R. G. & Robins, P., The effect of two new dressings on epidermal wound healing, The Journal of dermatologic surgery and oncology, 8(10) (1982) 850-852.
  • [30] Gupta, B., Arora, A., Saxena, S., & Alam, M. S., Preparation of chitosan-polyethylene glycol coated cotton membranes for wound dressings: preparation and characterization, Polymers for Advanced Technologies, 20(1) (2009) 58-65.
  • [31] Zhao, T. & Jiang, L., Contact angle measurement of natural materials, Colloids and Surfaces B: Biointerfaces, 161 (2018) 324-330.
There are 31 citations in total.

Details

Primary Language English
Journal Section Natural Sciences
Authors

Özlem Eğri 0000-0001-8225-7069

Publication Date March 22, 2020
Submission Date September 25, 2019
Acceptance Date December 1, 2019
Published in Issue Year 2020Volume: 41 Issue: 1

Cite

APA Eğri, Ö. (2020). Production of lavender oil loaded antibacterial polymeric membranes. Cumhuriyet Science Journal, 41(1), 160-168. https://doi.org/10.17776/csj.624419

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