Advanced search
Publication Cover
Drying Technology
An International Journal
Volume 33, 2015 - Issue 13: Selected Papers from the 19th International Drying Symposium (IDS 2014), Part 1
Submit an article Journal homepage
331
Views
28
CrossRef citations to date
0
Altmetric
Original Articles

Non-Invasive Temperature Monitoring in Freeze Drying: Control of Freezing as a Case Study

Irene OddoneDipartimento di Scienza Applicata e Tecnologia, Politecnico di Torino, Torino, Italy
,
Daniele FulginitiDipartimento di Scienza Applicata e Tecnologia, Politecnico di Torino, Torino, Italy
,
Antonello A. BarresiDipartimento di Scienza Applicata e Tecnologia, Politecnico di Torino, Torino, Italy
,
Sabrina GrassiniDipartimento di Scienza Applicata e Tecnologia, Politecnico di Torino, Torino, Italy
&
Roberto PisanoDipartimento di Scienza Applicata e Tecnologia, Politecnico di Torino, Torino, ItalyCorrespondence[email protected]
Pages 1621-1630 | Published online: 31 Aug 2015

REFERENCES

  • Barresi, A.A.; Pisano, R.; Fissore, D.; Rasetto, V.; Velardi, S.A.; Vallan, A.; Parvis, M.; Galan, M. Monitoring of the primary drying of liophilization process in vials. Chemical Engineering and Processing 2009, 48, 408–423.
  • Sadikoglu, H.; Ozdemir, M.; Seker, M. Optimal control of the primary drying stage of freeze drying of solutions in vials using variational calculus. Drying Technology 2003, 21, 1307–1331.
  • Pisano, R.; Fissore, D.; Velardi, S.A.; Barresi, A.A. In-line optimization and control of an industrial freeze-drying process for pharmaceuticals. Journal of Pharmaceutical Sciences 2010, 99(11), 4691–4709.
  • Pisano, R.; Fissore, D.; Barresi, A.A. Intensification or freeze-drying for the pharmaceutical and food industries. In: Modern Drying Technology–Volume 5: Process Intensification; Tsotsas, E. Mujumdar, A.S. Eds.; Wiley-VCH Verlag: Weinheim, 2014; 131–162.
  • Bosca, S.; Barresi, A.A.; Fissore, D. Use of a soft-sensor for the fast estimation of dried cake resistance during a freeze-drying cycle. International Journal of Pharmaceutics 2013, 451, 23–33.
  • Patel, S.M.; Doen, T.; Pikal, M.J. Determination of end point of primary drying in freeze-drying process control. AAPS PharmSciTech 2010, 11(1), 73–84.
  • Velardi, S.A.; Hammouri, H.; Barresi, A.A. In-line monitoring of the primary drying phase of the freeze-drying process in vial by means of a Kalman filter based observer. Chemical Engineering Research and Design 2009, 87(10), 1409–1419.
  • Bosca, S.; Barresi, A.A.; Fissore, D. Use of soft-sensors to monitor a pharmaceuticals freeze-drying process in vials. Pharmaceutical Development and Technology 2014, 19(2), 148–159.
  • Milton, N.; Pikal, M.J.; Roy, M.L.; Nail, S.L. Evaluation of manometric temperature measurement as a method of monitoring product temperature during lyophilization. PDA Journal of Pharmaceutical Science and Technology 1997, 51(1), 7–16.
  • Chouvenc, P.; Vessot, S.; Andrieu, J.; Vacus, P. Optimization of the freeze-drying cycle: A new model for pressure rise analysis. Drying Technology 2004, 22, 1577–1601.
  • Fissore, D.; Pisano, R.; Barresi, A.A. On the methods based on the Pressure Rise Test for monitoring a freeze-drying process. Drying Technology 2011, 29(1), 73–90.
  • Pisano, R.; Barresi, A.A.; Fissore, D. Innovation in monitoring food freeze drying. Drying Technology 2011, 29(16), 1920–1931.
  • Adams, G.D.J.; Ramsay, J.R. Optimizing the lyophilization cycle and the consequences of collapse on the pharmaceutical acceptability of Erwinia L-Asparaginase. Journal of Pharmaceutical Sciences 1996, 85, 1301–1305.
  • Liapis, A.I.; Sadikoglu, H. Dynamic pressure rise in the drying chamber as a remote sensing method for monitoring the temperature of the product during the primary drying stage of freeze-drying. Drying Technology 1998, 16(6), 1153–1171.
  • Schneid, S.; Gleseler, H. Process analytical technology (PAT) in freeze drying: Tunable diode laser absorption spectroscopy as an evolving tool for cycle monitoring. European Pharmaceutical Review 2009, 6, 18–25.
  • Kasper, J.C.; Friess, W.F. The freezing step in lyophilization: Physico-chemical fundamentals, freezing methods and consequences on process performance and quality attributes of biopharmaceuticals. European Journal of Pharmaceutics and Biopharmaceutics 2011, 78, 248–263.
  • Daoussi, R., Bogdani, E.; Vessot, S.; Andrieu, J.; Monnier, O. Freeze-drying of an active principle ingredient using organic co-solvent formulations: Influence of freezing conditions and formulation on solvent crystals morphology, thermodynamics data, and sublimation kinetics. Drying Technology 2011, 29(16), 1858–1867.
  • Hottot, A.; Vessot, S.; Andrieu, J. A direct characterization method of the ice morphology: Relationship between mean crystals size and primary drying times of freeze-drying processes. Drying Technology 2004, 22(8), 1–13.
  • Hottot, A.; Peczalski, R.; Vessot, S.; Andrieu, J. Freeze-drying of pharmaceutical proteins in vials: Modeling of freezing and sublimation steps. Drying Technology 2006, 24, 561–570
  • Searles, J.A.; Carpenter, J.F.; Randolph, T.W. The ice nucleation temperature determines the primary drying rate of lyophilization for samples frozen on a temperature-controlled shelf. Journal of Pharmaceutical Sciences 2001, 90(7), 860–871.
  • Rau, W. Eiskeimbildung durch dielektrische polarisation, Verlag der Zeitschrift für Naturforschung 1951, 6, 649–657.
  • Inada, T.; Zhang, X.; Yabe, A.; Yoshiyuki, K. Active control of phase change from supercooled water to ice by ultrasonic vibration, Part 1: Control of freezing temperature. International Journal of Heat and Mass Transfer 2001, 44(23), 4523–4531.
  • Zhang, X.; Inada, T.; Yabe, A.; Lu, S.; Kozawa, Y. Active control of phase change from supercooled water to ice by ultrasonic vibration, Part 2: Generation of ice slurries and effect of bubble nuclei. International Journal of Heat and Mass Transfer 2001, 44(23), 4533–4539.
  • Saclier, M.; Peczalski, R.; Andrieu, J. A theoretical model for ice primary nucleation induced by acoustic cavitation. Ultrasonics Sonochemistry 2010, 17(1), 98–105.
  • Nakagawa, K.; Hottot, A.; Vessot, S.; Andrieu, J. Influence of controlled nucleation by ultrasounds on ice morphology of frozen formulations for pharmaceutical proteins freeze-drying. Chemical Engineering and Processing 2006, 45, 783–791.
  • Rampersad, B.M.; Sever, R.R.; Hunek, B.; Gasteyer, T.H. Freeze Dryer and Method of Controlling the Same. Patent Application Publication No. US8240065 B2, 2010.
  • Rambhatla, S.; Ramot, R.; Bhugra, C.; Pikal, M. J. Heat and mass transfer scale-up issues during freeze drying, Part 2: Control and characterization of the degree of supercooling. AAPS PharmSciTech 2004, 5(4), article no. 58.
  • Patel, S.; Bhugra, C.; Pikal, M. Reduced pressure ice fog technique for controlled ice nucleation during freeze-drying. AAPS PharmSciTech 2009, 10, 1406–1411.
  • Kramer, M.; Sennhenn, B.; Lee, G. Freeze-drying using vacuum-induced surface freezing. Journal of Pharmaceutical Sciences 2002, 91, 433–443.
  • Liu, J.; Viverette T.; Virgin, M.; Anderson, M.; Dalal, P. A study of the impact of freezing on the lyophilization of a concentrated formulation with a high fill depth. Pharmaceutical Development and Technology 2005, 10, 261–272.
  • Oddone, I.; Pisano, R.; Bullich, R.; Stewart, P. Vacuum induced nucleation as a method for freeze-drying cycle optimisation. Industrial & Engineering Chemistry Research 2014, 53(47), 18236–18244.
  • Grassini, S.; Parvis, M.; Barresi, A.A. Inert thermocouple with nanometric thickness for lyophilisation monitoring. IEEE Transactions on Instrumentation and Measurement 2013, 62, 1276–1289.
  • Grassini, S.; Fulginiti, D.; Pisano, R.; Oddone, I.; Parvis, M. Real-time temperature monitoring in pharmaceutical freeze-drying. In Proceedings of MeMeA 2014–IEEE International Symposium on Medical Measurements and Applications, Lisbon, Portugal, June 11–12; 168–172.
  • Parvis, M.; Grassini, S.; Fulginiti, D.; Pisano, R.; Barresi, A.A. Sputtered thermocouple array for vial temperature mapping. In Proceedings of IEEE I2MTC International Instrumentation and Measurements Technology Conference, Montevideo, Uruguay, May 12–15, 2014; 1465–1470.
  • Voulgaris, C.; Amanatides, E.; Mataras, D.; Grassini, S.; Angelini, E.; Rosalbino, F. RF power and SiOxCyHz deposition efficiency in TEOS/O2 discharges for the corrosion protection of magnesium alloys. Surface & Coatings Technology 2006, 200(22–23), 6618–6622.
  • Palumbo, F.; D'Agostino, R.; Fracassi, F.; Laera, S.; Milella, A.; Angelini, E.; Grassini, S. On low pressure plasma processing for metal protection. Plasma Processes and Polymers 2009, 6(1), 684–689.
  • Patel, S.M.; Pikal, M.J. Lyophilization process design space. Journal of Pharmaceutical Science 2003, 102, 3883–3887.
  • Sundaram, J.; Hsu, C.C.; Shay, Y.; Sane, S.U. Design space development for lyophilization using DOE and process modeling. Biopharm International 2010, 23(9), 26–36.
  • Fissore, D.; Pisano, R.; Barresi, A.A. A model-based framework to optimize pharmaceuticals freeze drying. Drying Technology 2012, 30(9), 946–958.
  • Pisano, R.; Fissore, D.; Barresi, A.A. In-line and off-line optimization of freeze drying cycles for pharmaceutical products. Drying Technology 2013, 31(8), 905–919.
  • Fissore, D.; Pisano, R.; Barresi, A.A. Advanced approach to build the design space for the primary drying of a pharmaceutical freeze-drying process. Journal of Pharmaceutical Science 2011, 100(11), 4922–4933.
  • Grassini, S.; Mombello, D.; Neri, A.; Parvis, M.; Vallan, A. Plasma deposited thermocouple for non-invasive temperature measurement. In Instrumentation and Measurement Technology Conference, I2MTC ‘09 IEEE, Singapore, Singapore, May 5–7, 2009; 732–736.
  • Velardi, S.A.; Rasetto, V.; Barresi, A.A. Dynamic parameters estimation method: advanced manometric temperature measurement approach for freeze-drying monitoring of pharmaceutical solutions. Industrial & Engineering Chemistry Research 2008, 47(21), 8445–8457.
  • Corbellini, S.; Parvis, M.; Vallan, A. In-process temperature mapping system for industrial freeze dryers. IEEE Transactions on Instrumentation and Measurement, 2010, 59(5), 1134–1140.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.