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Determination the Best Method for the Isolation of Volatile Compounds of Characteristic Turkish Coffee Flavour

Yıl 2014, Cilt: 12 Sayı: 3, 6 - 15, 01.09.2014

Öz

The aim of this study was to determine the best method for the isolation of the volatile compounds of characteristic Turkish coffee flavour by gas chromatography/mass spectrometry GC/MS analysis. For this purpose manual headspace HS , liquid-liquid extraction methods and headspace/solid phase micro extraction HS/SPME method, in which Divinylbenzene/Carboxene/Polydimethylsiloxane-DVB/CAR/PDMS, were tested. A total of 25 volatiles by manual HS, 29 volatiles by liquid-liquid extraction, 14 volatiles by PA fiber, 49 volatiles by PDMS/DVB fiber, 65 volatiles by DVB/CAR/PDMS, 63 volatiles by CAR/PDMS by HS/SPME were isolated from Turkish coffee. By considering the number of volatile compounds, ratio of unidentified compounds, sensitivity to different compound groups and sensory term equivalents, the best results were obtained with the HS/SPME method in which the Divinylbenzene/Carboxene/Polydimethylsiloxane DVB/CAR/PDMS fiber was used

Kaynakça

  • TS 3117, 1978. Kahve (Çiğ Çekirdek ve Öğütülmüş). Türk Standartları Enstitüsü, Ankara.
  • Food-Info, 2011. Kahve. http://www.food
  • info.net/tr/products/coffee/intro.htm. Erişim tarihi: 21 Eylül 2011.
  • Coffee Research Org., 2011, Arabica and Robusta Coffee http://www.coffeeresearch.org/agriculture/coffeepla nt.htm. Erişim tarihi: 21 Eylül 2011. Plant.
  • Hattox, R.S., 1998. Kahve ve Kahvehaneler. 2. Baskı, Tarih Vakfı Yurt Yayınları 38, İstanbul, 142s.
  • Özgündoğdu, M.D., 1992. Fincan ve Kahvenin Türklerin Yaşamındaki Yeri ve Günümüzdeki Kullanımı. Hacettepe Üniversitesi, Sosyal Bilimler Enstitüsü, Yüksek Lisans Eseri Raporu, Ankara, 42s.
  • Evren, B., 1996. Eski İstanbul’da Kahvehaneler. AD Yayıncılık A.Ş, İstanbul, 224s.
  • Güral, S.,1999. Türk Kültüründe Kahvenin Yeri. Anadolu Üniversitesi Sosyal Bilimler Enstitüsü, Yüksek Lisans Tezi, Eskişehir, 98s.
  • Gürsoy, D., 2005. Sohbetin Bahanesi Kahve. Oğlak Yayıncılık ve Reklamcılık Ltd.Şti., İstanbul, 180s.
  • Dalan, G., 2007. Turkish Coffee: The sustaining power of interpersonal communication. Yeditepe University Graduate Institute of Social Sciences, Master of Arts, İstanbul, 122p.
  • Gross,G., Jaccaud, E., Huggett, A.C., 1997. Analysis of the content of the diterpenes cafestol and kahweol in coffee brews. Food and Chemical Toxicology 35: 547-554.
  • Karakaya, S., El, S.N., Taş, A.A., 2001. Antioxidant activity of some foods containing phenolic compounds. International Journal of Food Sciences and Nutrition 52: 501–508.
  • Gündüç, N., El, S., 2003. Assessing antioxidant activities of phenolic compounds of common Turkish food and drinks on in vitro low-density lipoprotein oxidation. Journal of Food Science 68(8): 2591-2595.
  • Czerny, M., Mayer, F., Grosch,W., 1999. Sensory study on the character impact odorants of roasted Arabica coffee, Journal of Agricultural Food Chemistry 47: 695:699.
  • Akiyama,M., Murakami, K., Ikeda, M., Iwatsuki, K., Wada, A., Tokuna, K., Onishi, M., Iwabuchi, H., 2007. Analysis of the headspace volatiles of freshly brewed microextraction. Journal of Food Science 72(7): 388-396. using solid-phase
  • Akiyama M., Murakami, K., Hirano,Y., Ikeda, M., Iwatsuki, M, Wada, A., Tokuna, K., Onishi, M., Iwabuchi, H., 2008. Characterization of headspace aroma compounds of freshly brewed Arabica coffees and studies on a characteristic aroma compounds of Ethiopian Coffee. Journal of Food Science 73(5) 335-346.
  • Maeztu, L., Sanz, C., Andueza, S., Paz de Pena, M., Bello, J., Cid, C., 2001. Characterization of espresso coffee aroma by static headspace GC-MS and sensory flavor profile. Journal of Agricultural Food Chemistry 49: 5437-5444.
  • Bicchi, C., Iori, C., Rubiolo, P., Sandra, P., 2002. Headspace sorptive extraction (HSSE), stir bar sorptive extraction (SBSE), and solid phase microextraction (SPME) applied to the analysis of roasted Arabica coffee and coffee brew. Journal of Agricultural Food Chemistry 50: 449-459.
  • Sanz, C., Maeztu, L., Zapelena, M.J., Bello, J., Cid, C., 2002. Profiles of volatile compounds and sensory analysis of three blends of coffee: influence of different proportions of Arabica and Robusta and influence of roasting coffee with sugar. Journal of the Science of Food and Agriculture 82: 840-847.
  • Rocha, S., Maeztu, L., Barros, A., Cid, C., Coimbra, M.A., 2003. Screening and distinction of coffee brews based on headspace solid phase microextraction/ gas chromatography/ principal component analysis. Journal of the Science of Food and Agriculture 84: 43-51.
  • Lopez-Galilea, I., Fournier, N., Cid, C., Guichards, E., 2006. Changes in headspace volatile concentrations of coffee brews caused by the roasting process and the brewing procedure. Journal of Agricultural Food Chemistry 54: 8560- 8566.
  • Andueza, S., Maeztu, L., Dean, B., De Pena, M.P., Bello, J., Cid, C., 2002. Influence of water pressure on the final quality of Arabica Espresso Coffee. Application of multivariate analysis. Journal of Agricultural Food Chemistry 50: 7426-7431.
  • Andueza, S., Maeztu, L., Pascual, L., Ibanez, C., De Pena, M.P., Cid, C., 2003a. Influence of extraction temperature on the final quality of Espresso Coffee. Journal of the Science of Food and Agriculture 83: 240-248.
  • Andueza, S., Paz de Pena, M., Cid, C., 2003b. Chemical and sensorial characteristics of Espresso Coffee as affected by grinding and torrefacto roast. Journal of Agricultural Food Chemistry 51: 7034- 7039.
  • Andueza, S., Vila, M.A., De Pena, M.P., Cid, C., 2007. Influence of coffee/water ratio on the final quality of Espresso Coffee. Journal of the Science of Food and Agriculture 83: 240-248.
  • Perez-Martinez, M., Sopelana, P., de Pena, M.P., Cid., C., 2008. Application of multivariate analysis to the effects of additives on chemical and sensory quality of stored coffee brew. Journal of Agricultural Food Chemistry 56(24): 11845-11853.
  • Baggenstoss, J., Poisson, L., Kaegi, R., Peren, R., Escher, F., 2008. Coffee roasting and aroma formation: Application of different time-temperature conditions. Journal of Agricultural Food Chemistry 56: 5836–5846.
  • Murakami, K., Akiyama, M., Sumi, M., Ikeda, M., Iwatsuki, K., Nishimura, O., Kumazawa, K., 2010. Differences in flavor characteristics of coffee drinks originating from thermal sterilization process. Food Science and Technology Research 16(2): 99 – 110.
  • Sarrazin, C., Le Quere, J.L., Gretsch, C., Liardon, R., 2000. Representativeness of coffee aroma extracts: A comparison of different extraction methods. Food Chemistry 70: 99-106.
  • Altuğ Onoğur T., Elmacı, Y., 2011. Gıdalarda Duyusal Değerlendirme. Sidas Yayınları, İzmir, 134s.
  • Sanz, C., Ansorena, D., Bello, J., Cid, C., 2001. Optimizing headspace temperature and time sampling for identification of volatile compounds in ground roasted Arabica coffee. Journal of Agricultural Food Chemistry 49: 1364-1369.
  • Heath, H.B., Reineccius, G., 1986. Flavor Chemistry and Technology. Avi Book, Van Nostrand Reinhold Company, Inc., New York, 12- 16.
  • Akiyama, M., Murakami, K., Ohtani, N., Iwatsuki, K., Sotoyama, K., Wada, A., Tokuna, K., Iwabuchi, H., Tanaka, K., 2003. Analysis of volatile compounds released during grinding of roasted coffee beans using solid-phase microextraction. Journal of Agricultural Food Chemistry 51: 1961-1969.
  • Zambonin, C.G., Balest, L., De Benedetto, G.E., Palmisano, F., 2005. Solid-phase microextraction- gas chromatography mass spectrometry and multivariate analysis for the characterization of roasted coffees. Talanta 66: 261-265. [34] Acree T., Arn, H., http://www.flavornet.org/flavornet.html. Erişim tarihi: 19 Eylül 2011. 2011. Flavournet. [35] The Good Scents Company, 2011. Erişim http://www.thegoodscentscompany.com/. tarihi: 19 Eylül 2011.
  • Mottram, R., 2011. LRI & Odour Database. http://www.odour.org.uk. Erişim tarihi: 20 Eylül 2011.
  • UFL (University of Florida) Citrus Research and Education http://www.crec.ifas.ufl.edu/crec_websites/Rouseff/ 2011. Website2002/Subpages/database_g_Frameset.sht ml. Erişim tarihi: 20 Eylül 2011.
  • Leffingwell and Associates, 2011. Burnt sugar, caramel and maple notes and molecular structures. http://www.leffingwell.com/burnt.htm. Erişim tarihi: 20 Eylül 2011.
  • Chembase, 2011. http://chembase.com. Erişim tarihi: 15 Eylül 2011. [40] Chemical Book, 2011. http://www.chemicalbook.com. Erişim tarihi: 15 Eylül 2011.
  • Oomah, B.D., Liang, L.S.Y., 2007. Volatile compounds of dry beans. Plant Foods for Human Nutrition 62: 177-183.
  • Surburg, H., Panten, J., 2006. Common Fragrance and Flavor Materials: Preparation, properties and uses. 5th Edition, Wiley-VCH, Chichester, 318s.
  • Schenker, S., Heinemann, C., Huber, M., Pompizzi, R., Perren, R., Escher, F., 2002. Impact of roasting conditions on the formation of aroma compounds in coffee beans. Journal of Food Science 67(1): 60- 66.
  • Smith, A.W., 1989. Chapter 1: Introduction. In Coffee Chemistry Vol.1. Edited by R.J. Clarke & R. Macrae, Elsevier Science Publishers Ltd., England, 306 p.

Türk Kahvesinin Lezzetini Oluşturan Uçucu Bileşenlerin Belirlenmesinde Uygun Yöntemin Seçilmesi

Yıl 2014, Cilt: 12 Sayı: 3, 6 - 15, 01.09.2014

Öz

Bu çalışmada Türk kahvesinin lezzetini oluşturan uçucu bileşenlerinin gaz kromatografisi/kütle spektrometresi GC/MS analizi ile saptanmasında en uygun izolasyon yönteminin belirlenmesi amaçlanmıştır. Bu amaçla manuel tepe boşluğu HS , sıvı-sıvı ekstraksiyon ve dört farklı fiberin Poliakrilat-PA, Polidimetilsiloksan/DivinilbenzenPDMS/DVB, CAR/PDMS denendiği tepeboşluğu/katı faz mikro ekstraksiyon HS/SPME teknikleri uygulanmıştır. Türk kahvesi örneğinden manuel HS izolasyon yöntemiyle 25, sıvı-sıvı ekstraksiyon yöntemiyle 29, HS/SPME izolasyon yöntemiyle PA fiber kullanılarak 14, PDMS/DVB fiber kullanılarak 49, DVB/CAR/PDMS fiber kullanılarak 65, CAR/PDMS fiber kullanılarak 63 adet uçucu bileşen izole edilmiştir. İzole edilen uçucu bileşen sayıları, tanımlanamayan bileşen oranları, farklı bileşik gruplarına duyarlılıkları ve duyusal terim karşılıkları açısından değerlendirildiğinde en uygun yöntemin DVB/CAR/PDMS fiberin kullanıldığı HS/SPME yöntemi olduğu belirlenmiştir

Kaynakça

  • TS 3117, 1978. Kahve (Çiğ Çekirdek ve Öğütülmüş). Türk Standartları Enstitüsü, Ankara.
  • Food-Info, 2011. Kahve. http://www.food
  • info.net/tr/products/coffee/intro.htm. Erişim tarihi: 21 Eylül 2011.
  • Coffee Research Org., 2011, Arabica and Robusta Coffee http://www.coffeeresearch.org/agriculture/coffeepla nt.htm. Erişim tarihi: 21 Eylül 2011. Plant.
  • Hattox, R.S., 1998. Kahve ve Kahvehaneler. 2. Baskı, Tarih Vakfı Yurt Yayınları 38, İstanbul, 142s.
  • Özgündoğdu, M.D., 1992. Fincan ve Kahvenin Türklerin Yaşamındaki Yeri ve Günümüzdeki Kullanımı. Hacettepe Üniversitesi, Sosyal Bilimler Enstitüsü, Yüksek Lisans Eseri Raporu, Ankara, 42s.
  • Evren, B., 1996. Eski İstanbul’da Kahvehaneler. AD Yayıncılık A.Ş, İstanbul, 224s.
  • Güral, S.,1999. Türk Kültüründe Kahvenin Yeri. Anadolu Üniversitesi Sosyal Bilimler Enstitüsü, Yüksek Lisans Tezi, Eskişehir, 98s.
  • Gürsoy, D., 2005. Sohbetin Bahanesi Kahve. Oğlak Yayıncılık ve Reklamcılık Ltd.Şti., İstanbul, 180s.
  • Dalan, G., 2007. Turkish Coffee: The sustaining power of interpersonal communication. Yeditepe University Graduate Institute of Social Sciences, Master of Arts, İstanbul, 122p.
  • Gross,G., Jaccaud, E., Huggett, A.C., 1997. Analysis of the content of the diterpenes cafestol and kahweol in coffee brews. Food and Chemical Toxicology 35: 547-554.
  • Karakaya, S., El, S.N., Taş, A.A., 2001. Antioxidant activity of some foods containing phenolic compounds. International Journal of Food Sciences and Nutrition 52: 501–508.
  • Gündüç, N., El, S., 2003. Assessing antioxidant activities of phenolic compounds of common Turkish food and drinks on in vitro low-density lipoprotein oxidation. Journal of Food Science 68(8): 2591-2595.
  • Czerny, M., Mayer, F., Grosch,W., 1999. Sensory study on the character impact odorants of roasted Arabica coffee, Journal of Agricultural Food Chemistry 47: 695:699.
  • Akiyama,M., Murakami, K., Ikeda, M., Iwatsuki, K., Wada, A., Tokuna, K., Onishi, M., Iwabuchi, H., 2007. Analysis of the headspace volatiles of freshly brewed microextraction. Journal of Food Science 72(7): 388-396. using solid-phase
  • Akiyama M., Murakami, K., Hirano,Y., Ikeda, M., Iwatsuki, M, Wada, A., Tokuna, K., Onishi, M., Iwabuchi, H., 2008. Characterization of headspace aroma compounds of freshly brewed Arabica coffees and studies on a characteristic aroma compounds of Ethiopian Coffee. Journal of Food Science 73(5) 335-346.
  • Maeztu, L., Sanz, C., Andueza, S., Paz de Pena, M., Bello, J., Cid, C., 2001. Characterization of espresso coffee aroma by static headspace GC-MS and sensory flavor profile. Journal of Agricultural Food Chemistry 49: 5437-5444.
  • Bicchi, C., Iori, C., Rubiolo, P., Sandra, P., 2002. Headspace sorptive extraction (HSSE), stir bar sorptive extraction (SBSE), and solid phase microextraction (SPME) applied to the analysis of roasted Arabica coffee and coffee brew. Journal of Agricultural Food Chemistry 50: 449-459.
  • Sanz, C., Maeztu, L., Zapelena, M.J., Bello, J., Cid, C., 2002. Profiles of volatile compounds and sensory analysis of three blends of coffee: influence of different proportions of Arabica and Robusta and influence of roasting coffee with sugar. Journal of the Science of Food and Agriculture 82: 840-847.
  • Rocha, S., Maeztu, L., Barros, A., Cid, C., Coimbra, M.A., 2003. Screening and distinction of coffee brews based on headspace solid phase microextraction/ gas chromatography/ principal component analysis. Journal of the Science of Food and Agriculture 84: 43-51.
  • Lopez-Galilea, I., Fournier, N., Cid, C., Guichards, E., 2006. Changes in headspace volatile concentrations of coffee brews caused by the roasting process and the brewing procedure. Journal of Agricultural Food Chemistry 54: 8560- 8566.
  • Andueza, S., Maeztu, L., Dean, B., De Pena, M.P., Bello, J., Cid, C., 2002. Influence of water pressure on the final quality of Arabica Espresso Coffee. Application of multivariate analysis. Journal of Agricultural Food Chemistry 50: 7426-7431.
  • Andueza, S., Maeztu, L., Pascual, L., Ibanez, C., De Pena, M.P., Cid, C., 2003a. Influence of extraction temperature on the final quality of Espresso Coffee. Journal of the Science of Food and Agriculture 83: 240-248.
  • Andueza, S., Paz de Pena, M., Cid, C., 2003b. Chemical and sensorial characteristics of Espresso Coffee as affected by grinding and torrefacto roast. Journal of Agricultural Food Chemistry 51: 7034- 7039.
  • Andueza, S., Vila, M.A., De Pena, M.P., Cid, C., 2007. Influence of coffee/water ratio on the final quality of Espresso Coffee. Journal of the Science of Food and Agriculture 83: 240-248.
  • Perez-Martinez, M., Sopelana, P., de Pena, M.P., Cid., C., 2008. Application of multivariate analysis to the effects of additives on chemical and sensory quality of stored coffee brew. Journal of Agricultural Food Chemistry 56(24): 11845-11853.
  • Baggenstoss, J., Poisson, L., Kaegi, R., Peren, R., Escher, F., 2008. Coffee roasting and aroma formation: Application of different time-temperature conditions. Journal of Agricultural Food Chemistry 56: 5836–5846.
  • Murakami, K., Akiyama, M., Sumi, M., Ikeda, M., Iwatsuki, K., Nishimura, O., Kumazawa, K., 2010. Differences in flavor characteristics of coffee drinks originating from thermal sterilization process. Food Science and Technology Research 16(2): 99 – 110.
  • Sarrazin, C., Le Quere, J.L., Gretsch, C., Liardon, R., 2000. Representativeness of coffee aroma extracts: A comparison of different extraction methods. Food Chemistry 70: 99-106.
  • Altuğ Onoğur T., Elmacı, Y., 2011. Gıdalarda Duyusal Değerlendirme. Sidas Yayınları, İzmir, 134s.
  • Sanz, C., Ansorena, D., Bello, J., Cid, C., 2001. Optimizing headspace temperature and time sampling for identification of volatile compounds in ground roasted Arabica coffee. Journal of Agricultural Food Chemistry 49: 1364-1369.
  • Heath, H.B., Reineccius, G., 1986. Flavor Chemistry and Technology. Avi Book, Van Nostrand Reinhold Company, Inc., New York, 12- 16.
  • Akiyama, M., Murakami, K., Ohtani, N., Iwatsuki, K., Sotoyama, K., Wada, A., Tokuna, K., Iwabuchi, H., Tanaka, K., 2003. Analysis of volatile compounds released during grinding of roasted coffee beans using solid-phase microextraction. Journal of Agricultural Food Chemistry 51: 1961-1969.
  • Zambonin, C.G., Balest, L., De Benedetto, G.E., Palmisano, F., 2005. Solid-phase microextraction- gas chromatography mass spectrometry and multivariate analysis for the characterization of roasted coffees. Talanta 66: 261-265. [34] Acree T., Arn, H., http://www.flavornet.org/flavornet.html. Erişim tarihi: 19 Eylül 2011. 2011. Flavournet. [35] The Good Scents Company, 2011. Erişim http://www.thegoodscentscompany.com/. tarihi: 19 Eylül 2011.
  • Mottram, R., 2011. LRI & Odour Database. http://www.odour.org.uk. Erişim tarihi: 20 Eylül 2011.
  • UFL (University of Florida) Citrus Research and Education http://www.crec.ifas.ufl.edu/crec_websites/Rouseff/ 2011. Website2002/Subpages/database_g_Frameset.sht ml. Erişim tarihi: 20 Eylül 2011.
  • Leffingwell and Associates, 2011. Burnt sugar, caramel and maple notes and molecular structures. http://www.leffingwell.com/burnt.htm. Erişim tarihi: 20 Eylül 2011.
  • Chembase, 2011. http://chembase.com. Erişim tarihi: 15 Eylül 2011. [40] Chemical Book, 2011. http://www.chemicalbook.com. Erişim tarihi: 15 Eylül 2011.
  • Oomah, B.D., Liang, L.S.Y., 2007. Volatile compounds of dry beans. Plant Foods for Human Nutrition 62: 177-183.
  • Surburg, H., Panten, J., 2006. Common Fragrance and Flavor Materials: Preparation, properties and uses. 5th Edition, Wiley-VCH, Chichester, 318s.
  • Schenker, S., Heinemann, C., Huber, M., Pompizzi, R., Perren, R., Escher, F., 2002. Impact of roasting conditions on the formation of aroma compounds in coffee beans. Journal of Food Science 67(1): 60- 66.
  • Smith, A.W., 1989. Chapter 1: Introduction. In Coffee Chemistry Vol.1. Edited by R.J. Clarke & R. Macrae, Elsevier Science Publishers Ltd., England, 306 p.
Toplam 42 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Bölüm Research Article
Yazarlar

Jülide Kıvançlı Bu kişi benim

Yeşim Elmacı Bu kişi benim

Yayımlanma Tarihi 1 Eylül 2014
Yayımlandığı Sayı Yıl 2014 Cilt: 12 Sayı: 3

Kaynak Göster

APA Kıvançlı, J., & Elmacı, Y. (2014). Türk Kahvesinin Lezzetini Oluşturan Uçucu Bileşenlerin Belirlenmesinde Uygun Yöntemin Seçilmesi. Akademik Gıda, 12(3), 6-15.
AMA Kıvançlı J, Elmacı Y. Türk Kahvesinin Lezzetini Oluşturan Uçucu Bileşenlerin Belirlenmesinde Uygun Yöntemin Seçilmesi. Akademik Gıda. Eylül 2014;12(3):6-15.
Chicago Kıvançlı, Jülide, ve Yeşim Elmacı. “Türk Kahvesinin Lezzetini Oluşturan Uçucu Bileşenlerin Belirlenmesinde Uygun Yöntemin Seçilmesi”. Akademik Gıda 12, sy. 3 (Eylül 2014): 6-15.
EndNote Kıvançlı J, Elmacı Y (01 Eylül 2014) Türk Kahvesinin Lezzetini Oluşturan Uçucu Bileşenlerin Belirlenmesinde Uygun Yöntemin Seçilmesi. Akademik Gıda 12 3 6–15.
IEEE J. Kıvançlı ve Y. Elmacı, “Türk Kahvesinin Lezzetini Oluşturan Uçucu Bileşenlerin Belirlenmesinde Uygun Yöntemin Seçilmesi”, Akademik Gıda, c. 12, sy. 3, ss. 6–15, 2014.
ISNAD Kıvançlı, Jülide - Elmacı, Yeşim. “Türk Kahvesinin Lezzetini Oluşturan Uçucu Bileşenlerin Belirlenmesinde Uygun Yöntemin Seçilmesi”. Akademik Gıda 12/3 (Eylül 2014), 6-15.
JAMA Kıvançlı J, Elmacı Y. Türk Kahvesinin Lezzetini Oluşturan Uçucu Bileşenlerin Belirlenmesinde Uygun Yöntemin Seçilmesi. Akademik Gıda. 2014;12:6–15.
MLA Kıvançlı, Jülide ve Yeşim Elmacı. “Türk Kahvesinin Lezzetini Oluşturan Uçucu Bileşenlerin Belirlenmesinde Uygun Yöntemin Seçilmesi”. Akademik Gıda, c. 12, sy. 3, 2014, ss. 6-15.
Vancouver Kıvançlı J, Elmacı Y. Türk Kahvesinin Lezzetini Oluşturan Uçucu Bileşenlerin Belirlenmesinde Uygun Yöntemin Seçilmesi. Akademik Gıda. 2014;12(3):6-15.

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