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Drug Development and Industrial Pharmacy Volume 31, 2005 - Issue 2
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Research Article

Supercritical Fluids Processing of Recombinant Human Growth Hormone

Sitaram P. Velaga Department of Pharmacy, Uppsala University, Box 580, Uppsala, SE 751 23, Sweden
&
Johan Carlfors Department of Pharmacy, Uppsala University, Box 580, Uppsala, SE 751 23, Sweden
Pages 135-149 | Published online: 26 Sep 2008

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Ranjith Kumar Kankala, Biao-Qi Chen, Chen-Guang Liu, Han-Xiao Tang, Shi-Bin Wang & Ai-Zheng Chen. (2018) Solution-enhanced dispersion by supercritical fluids: an ecofriendly nanonization approach for processing biomaterials and pharmaceutical compounds. International Journal of Nanomedicine 13, pages 4227-4245.
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Priti Girotra, Shailendra Kumar Singh & Kalpana Nagpal. (2013) Supercritical fluid technology: a promising approach in pharmaceutical research. Pharmaceutical Development and Technology 18:1, pages 22-38.
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Articles from other publishers (17)

Min-Seok Yang, Ji-Hyun Kang, Dong-Wook Kim & Chun-Woong Park. (2023) Recent developments in dry powder inhalation (DPI) formulations for lung-targeted drug delivery. Journal of Pharmaceutical Investigation.
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Solmaz Kamrani, Parichehreh Yaghmaei, Maryam Nikkhah & Saman Hosseinkhani. (2023) Spectroscopic analysis of recombinant human growth hormone in the presence of sucrose and trehalose. Biotechnology and Applied Biochemistry 70:4, pages 1543-1553.
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Aaron O’Sullivan, Kevin M. Ryan & Luis Padrela. (2022) Production of biopharmaceutical dried-powders using supercritical CO2 technology. The Journal of Supercritical Fluids 187, pages 105645.
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Birendra Chaurasiya & You-Yang Zhao. (2020) Dry Powder for Pulmonary Delivery: A Comprehensive Review. Pharmaceutics 13:1, pages 31.
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Ranjith Kumar Kankala, Yu Shrike Zhang, Shi-Bin Wang, Chia-Hung Lee & Ai-Zheng Chen. (2017) Supercritical Fluid Technology: An Emphasis on Drug Delivery and Related Biomedical Applications. Advanced Healthcare Materials 6:16, pages 1700433.
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Catherine A. Kelly, Steven M. Howdle, Andrew Naylor, Graham Coxhill, Laura C. Tye, Lisbeth Illum & Andrew L. Lewis. (2012) Stability of Human Growth Hormone in Supercritical Carbon Dioxide. Journal of Pharmaceutical Sciences 101:1, pages 56-67.
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Lei Yang, Jin-ming Huang, Yuan-gang Zu, Chun-hui Ma, Han Wang, Xiao-wei Sun & Zhen Sun. (2011) Preparation and radical scavenging activities of polymeric procyanidins nanoparticles by a supercritical antisolvent (SAS) process. Food Chemistry 128:4, pages 1152-1159.
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Ahmad M. Abdul-Fattah & Vu L. Truong. 2010. Formulation and Process Development Strategies for Manufacturing Biopharmaceuticals. Formulation and Process Development Strategies for Manufacturing Biopharmaceuticals 705 738 .
Shayne Cox GadAlbert H.L. Chow, Henry H.Y. Tong & Ying Zheng. 2010. Pharmaceutical Sciences Encyclopedia. Pharmaceutical Sciences Encyclopedia.
Miguel A. Rodrigues, Jun Li, Luís Padrela, António Almeida, Henrique A. Matos & Edmundo Gomes de Azevedo. (2009) Anti-solvent effect in the production of lysozyme nanoparticles by supercritical fluid-assisted atomization processes. The Journal of Supercritical Fluids 48:3, pages 253-260.
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Irene Pasquali & Ruggero Bettini. (2008) Are pharmaceutics really going supercritical?. International Journal of Pharmaceutics 364:2, pages 176-187.
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M.A. Tavares Cardoso, V. Geraldes, J.M.S. Cabral & A.M.F. Palavra. (2008) Characterization of minocycline powder micronized by a supercritical antisolvent (SAS) process. The Journal of Supercritical Fluids 46:1, pages 71-76.
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M.A. Tavares Cardoso, G.A. Monteiro, J.P. Cardoso, T.J.V. Prazeres, J.M.F. Figueiredo, J.M.G. Martinho, J.M.S. Cabral & A.M.F. Palavra. (2008) Supercritical antisolvent micronization of minocycline hydrochloride. The Journal of Supercritical Fluids 44:2, pages 238-244.
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Hirokazu Okamoto & Kazumi Danjo. (2008) Application of supercritical fluid to preparation of powders of high-molecular weight drugs for inhalation. Advanced Drug Delivery Reviews 60:3, pages 433-446.
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A. Tenorio, M.D. Gordillo, C. Pereyra & E.J. Mart?nez de la Ossa. (2007) Controlled submicro particle formation of ampicillin by supercritical antisolvent precipitation. The Journal of Supercritical Fluids 40:2, pages 308-316.
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Alvaro Tenorio, Maria D. Gordillo, Clara M. Pereyra & Enrique J. Martínez de la Ossa. (2006) Relative Importance of the Operating Conditions Involved in the Formation of Nanoparticles of Ampicillin by Supercritical Antisolvent Precipitation. Industrial & Engineering Chemistry Research 46:1, pages 114-123.
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Tarja Toropainen, Sitaram Velaga, Teemu Heikkil?Laura Matilainen, Pekka Jarho, Johan Carlfors, Vesa?Pekka Lehto, Tomi J?rvinen & Kristiina J?rvinen. (2006) Preparation of budesonide/??cyclodextrin complexes in supercritical fluids with a novel SEDS method. Journal of Pharmaceutical Sciences 95:10, pages 2235-2245.
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