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The effects of physical parameters on laser-induced breakdown spectroscopy analysis of intact tablets

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Abstract

With the advent of the Food and Drug Administration initiatives to investigate and encourage the use of process analytical technologies, laser-induced breakdown spectroscopy (LIBS) is considered an excellent analytical tool to understand the processability of solid dosage form. In this article, the feasibility of the LIBS system for quantitation of active drug within a solid dosage form, as well as the effects of various physical parameters on its signal, is investigated. A model drug containing chlorine and sulfur was used. The examination of the specificity and reproducibility of the measurements led to the use of chlorine and carbon as the internal standard. An overall relative SD of 1.1% for the signal was found. For quantitation purposes, calibration curves using compound-X in formulated tablets were generated. It was found that curves generated from roller-compaction tablets generally gave higher LIBS signal than those generated using direct-compressed (DC) process. To investigate these differences, effect of LIBS signals from several physical properties of the tablets were examined. It was found that unmilled compound-X used in the manufacture of the tablets gave a LIBS signal 30% lower than when milled compound-X was used. However, by using multiple crushing-recompression DC process of the milled compound-X, the LIBS results were comparable with those found from both processed tablets using milled compound-X. Other physical parameters, such as wide ranges of granule size and tablet hardness found in the typical manufacturing process, had limited effect on the LIBS signal. From these results, it was noted that for accurate quantitation, it is necessary to use the same physical properties of compound-X and the same manufacturing process in the calibration standards as the actual samples.

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References

  1. Sneddon J, Lee YI. Novel and recent applications of elemental determination by laser-induced breakdown spectroscopy.Spectrosc Lett. 1997;30:1417–1427.

    Article  CAS  Google Scholar 

  2. Menut D, Fichet P, Lacour JL, Rivoallan A, Mauchien P. Micro-laser induced breakdown spectoscopy technique: a powerful method for performing quantitative surface mapping on conductive and non-conductive samples.Appl Opt. 2003;42:6063–6071.

    Article  CAS  Google Scholar 

  3. Barbini R, Colao F, Fantoni R, et al. Laser induced breakdown spectroscopy for semi-quantitative elemental analysis in soils and marine sediments.Proceedings of EARSeL-Sig-Worshop LIDAR, Dresden/FRG, June 16–17, 2000;122–129. Available at: http://las.physik.uni-oldenburg.de/projekte/earsel/4th_workshop.html.

  4. Kaski S, Hakkanen H, Korppi-Tommola J. Sulfide mineral identification using laser-induced plasma spectroscopy.Miner Eng. 2003;16(suppl):1239–1243.

    Article  CAS  Google Scholar 

  5. Rosenwasser S, Asimellis G, Bromley B, et al. Development of a method for automated quantitative analysis of ores using LIBS.Spectrochim Acta B. 2001;56:707–714.

    Article  Google Scholar 

  6. Kraushaar M, Noll R, Schmitz HU. Slag analysis with laser-induced breakdown spectrometry.Appl Spectrosc. 2003;57:1282–1287.

    Article  CAS  Google Scholar 

  7. Cravetchi IV, Taschuk M, Rieger GW, Tsui YY, Fedosejevs R. Spectrochemical microanalysis of aluminium alloys by laser-induced breakdown spectroscopy: identification of precipitates.Appl Opt. 2003;42:6138–6147.

    Article  CAS  Google Scholar 

  8. Sabsabi M, Bussière J. Method and apparatus for rapid in situ analysis of preselected components of homogeneous solid compositions, especially pharmaceutical compositions. US Patent 5 781 289. July 14, 1998.

  9. Mowery MD, Sing R, Kirsch J, Razaghi A, Béchard S, Reed RA. Rapid at-line analysis of coating thickness and uniformity on tablets using laser induced breakdown spectroscopy.J Pharm Biomed Anal. 2002;28:935–943.

    Article  CAS  Google Scholar 

  10. Good JA, Mowery MD, Reed RA. Rapid at-line determination of lubricant distribution in powder blends using Laser Induced breakdown spectroscopy (LIBS).AAPS PharmSci Suppl. 2001;3:abstract 2344.

    Google Scholar 

  11. St-Onge L, Kwong E, Sabsabi M, Vadas EB. Quantitative analysis of pharmaceutical products by laser-induced breakdown spectroscopy.Spectrochim Acta B. 2002;57:1131–1140.

    Article  Google Scholar 

  12. Kurihara M, Ikeda K, Izawa Y, Deguchi Y, Tarui H. Optimal boiler control through real-time monitoring of unburned carbon in fly ash by laser-induced breakdown spectroscopy.Appl Opt. 2003;42:6159–6165.

    Article  CAS  Google Scholar 

  13. Fisher A, Hinds MW, Nelms SN, Penny DM, Goodall P. Atomic spectrometry update: Industrial analysis; metals, chemicals and advanced materials.J Anal Atomic Spectrom. 2002;17:1624–1649.

    Article  CAS  Google Scholar 

  14. Togoni E, Palleschi V, Corsi M, Cristoforetti G. Quantitative micro-analysis by laser-induced breakdown spectroscopy: a review of the experimental approaches.Spectrochim Acta B. 2002;57:1115–1130.

    Article  Google Scholar 

  15. Kuss HM, Mittelstadt H, Muller G, Nazikkol C. Fast scanning laser-OES. I. Characterization of non-metallic inclusions in steel.Anal Lett. 2003;36:659–665.

    Article  CAS  Google Scholar 

  16. Melessanaki K, Papadakis V, Balas C, Anglos D. Laser induced breakdown spectroscopy and hyper-structural imaging analysis of pigments on an illuminated manuscript.Spectrochim Acta B. 2001;56:2337–2346.

    Article  Google Scholar 

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Authors and Affiliations

  1. Alcan Inc, CRDA, 1955 Mellon, G7S 4K8, Jonquière, Quebec, Canada

    Jean-Francois Archambault

  2. Merck Frost Canada and Co, H9H 3L1, Kirkland, Quebec, Canada

    Anda Vintiloìu & Elizabeth Kwong

Authors
  1. Jean-Francois Archambault
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  2. Anda Vintiloìu
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  3. Elizabeth Kwong
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Corresponding author

Correspondence to Elizabeth Kwong.

Additional information

Published: October 6, 2005

Formerly with Merck Frosst Canada and Co

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Archambault, JF., Vintiloìu, A. & Kwong, E. The effects of physical parameters on laser-induced breakdown spectroscopy analysis of intact tablets. AAPS PharmSciTech 6, 36 (2005). https://doi.org/10.1208/pt060236

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  • DOI: https://doi.org/10.1208/pt060236

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