References
- Bauer KH, Frömming K-H, Führer C. Pharmazeutische Technologie. Stuttgart: Wissenschaftliche Verlagsgesellschaft; 2012.
- Bauer-Brandl A, Ritschel WA. Die Tablette: Handbuch der Entwicklung, Herstellung und Qualitätssicherung. Aulendorf: ECV Editio Cantor Verlag; 2012.
- Mendez R, Muzzio FJ, Velazquez C. Study of the effects of feed frames on powder blend properties during the filling of tablet press dies. Powder Technol. 2010;200(3):105–116.
- Engisch W, Muzzio F. Using residence time distributions (RTDs) to address the traceability of raw materials in continuous pharmaceutical manufacturing. J Pharm Innov. 2016;11:64–81.
- Lee SL, O’Connor TF, Yang X, et al. Modernizing pharmaceutical manufacturing: from batch to continuous production. J Pharm Innov. 2015;10(3):191–199.
- Martinetz MC, Rehrl J, Aigner I, et al. A continuous operation concept for a rotary tablet press using mass flow operating points. CIT. 2017;89(8):1006–1016.
- Guidance for industry PAT – a framework for innovative pharmaceutical development, manufacturing and quality assurance [Internet]. Silver Spring (MD): U.S. Department of Health and Human Services FDA; [cited 3/23/2020]. Available from: https://www.fda.gov/media/71012/download.
- de Leersnyder F, Vanhoorne V, Kumar A, et al. Evaluation of an in-line NIR spectroscopic method for the determination of the residence time in a tablet press. Int J Pharm. 2019;565:358–366.
- Wahl PR, Fruhmann G, Sacher S, et al. PAT for tableting: inline monitoring of API and excipients via NIR spectroscopy. Eur J Pharm Biopharm. 2014;87:271–278.
- Dalvi H, Fauteux-Lefebvre C, Guay J-M, et al. Concentration monitoring with near infrared chemical imaging in a tableting press. J Spectral Imaging. 2018;7. DOI:10.1255/jsi.2018.a5
- de Leersnyder F, Peeters E, Djalabi H, et al. Development and validation of an in-line NIR spectroscopic method for continuous blend potency determination in the feed frame of a tablet press. J Pharm Biomed Anal. 2018;151:274–283.
- Ward HW, Blackwood DO, Polizzi M, et al. Monitoring blend potency in a tablet press feed frame using near infrared spectroscopy. J Pharm Biomed Anal. 2013;80:18–23.
- Pauli V, Roggo Y, Pellegatti L, et al. Process analytical technology for continuous manufacturing tableting processing: a case study. J Pharm Biomed Anal. 2019;162:101–111.
- Gosselin R, Durão P, Abatzoglou N, et al. Monitoring the concentration of flowing pharmaceutical powders in a tableting feed frame. Pharm Dev Technol. 2017;22:699–705.
- Šašić S, Blackwood D, Liu A, et al. Detailed analysis of the online near-infrared spectra of pharmaceutical blend in a rotary tablet press feed frame. J Pharm Biomed Anal. 2015;103:73–79.
- Harms ZD, Shi Z, Kulkarni RA, et al. Characterization of near-infrared and Raman spectroscopy for in-line monitoring of a low-drug load formulation in a continuous manufacturing process. Anal Chem. 2019;91(13):8045–8053.
- Li Y, Anderson CA, Drennen JK, et al. Method development and validation of an inline process analytical technology method for blend monitoring in the tablet feed frame using Raman spectroscopy. Anal Chem. 2018;90:8436–8444.
- Dave VS, Shahin HI, Youngren-Ortiz SR, et al. Emerging technologies for the non-invasive characterization of physical-mechanical properties of tablets. Int J Pharm. 2017;532:299–312.
- Dülle M, Özcoban H, Leopold CS. Analysis of the powder behavior and the residence time distribution within a production scale rotary tablet press. Eur J Pharm Sci. 2018;125:205–214.
- Dülle M, Özcoban H, Leopold CS. Investigations on the residence time distribution of a three-chamber feed frame with special focus on its geometric and parametric setups. Powder Technol. 2018;331:276–285.
- Dülle M, Özcoban H, Leopold CS. Influence of the feed frame design on the powder behavior and the residence time distribution. Int J Pharm. 2019;565:523–532.
- Dülle M, Özcoban H, Leopold CS. The effect of different feed frame components on the powder behavior and the residence time distribution with regard to the continuous manufacturing of tablets. Int J Pharm. 2019;555:220–227.
- Mateo-Ortiz D, Méndez R. Relationship between residence time distribution and forces applied by paddles on powder attrition during the die filling process. Powder Technol. 2015;278:111–117.
- Ketterhagen WR. Simulation of powder flow in a lab-scale tablet press feed frame: effects of design and operating parameters on measures of tablet quality. Powder Technol. 2015;275:361–374.
- Osorio JG, Vanarase AU, Romañach RJ, et al. Continuous powder mixing. In: Cullen PJ, Romañach RJ, Abatzoglou N, Rielly CD, editors. Pharmaceutical blending and mixing. Hoboken (NJ): Wiley; 2015. p. 101–128.
- Vanarase AU, Muzzio FJ. Effect of operating conditions and design parameters in a continuous powder mixer. Powder Technol. 2011;208(1):26–36.
- Potapov AV, Campbell CS. Computer simulation of shear-induced particle attrition. Powder Technol. 1997;94(2):109–122.
- Mendez R, Muzzio FJ, Velazquez C. Powder hydrophobicity and flow properties: Effect of feed frame design and operating parameters. AIChE J. 2012;58(3):697–706.
- Mendez R, Velazquez C, Muzzio FJ. Effect of feed frame design and operating parameters on powder attrition, particle breakage, and powder properties. Powder Technol. 2012;229:253–260.
- ICH Topic Q 2 (R1) Validation of analytical procedures: Text and Methodology [Internet]. London: European Medicines Agency; [cited 3/27/2020. Available from: https://www.ema.europa.eu/en/documents/scientific-guideline/ich-q-2-r1-validation-analytical-procedures-text-methodology-step-5_en.pdf.
- European Pharmacopoeia Commission. European Pharmacopoeia. Strasbourg: EDQM; 2019.
- Levenspiel O. Chemical reaction engineering. Hoboken (NJ): Wiley; 1999.
- Mateo-Ortiz D, Colon Y, Romañach RJ, et al. Analysis of powder phenomena inside a Fette 3090 feed frame using in-line NIR spectroscopy. J Pharm Biomed Anal. 2014;100:40–49.
- Järvinen K, Hoehe W, Järvinen M, et al. In-line monitoring of the drug content of powder mixtures and tablets by near-infrared spectroscopy during the continuous direct compression tableting process. Eur J Pharm Sci. 2013;48:680–688.
- Karande AD, Heng Wan Sia P, Liew CV. In-line quantification of micronized drug and excipients in tablets by near infrared (NIR) spectroscopy: real time monitoring of tabletting process. Int J Pharm. 2010;396:63–74.
- Kortüm G, Schreyer G. Über die Gültigkeit der Kubelka-Munk-Funktion für Reflexionsspektren an Pulvern. Z Naturforsch A. 1956;11(12):1018–1022.