Data
Official data in SubjectManager for the following academic year: 2024-2025
Course director
Rozmer Zsuzsanna
associate professor,
Department of Pharmaceutical Chemistry
Number of hours/semester
Lectures: 0 hours
Practices: 56 hours
Seminars: 0 hours
Total of: 56 hours
Subject data
- Code of subject: OPG-R3G-T
- 4 Credit
- Pharmacy
- Pharmaceutical theoretical module and practical skills module
- autumn
OPG-R2E-T finished
Course headcount limitations
min. 5 people – max. 50 people
Topic
Introduction to the most important instrumental analytical methods and their applications to pharmacopoeal qualification of active pharmaceutical ingredients and excipients in pharamaceutical formulations.
Lectures
Practices
- 1. Laboratory safety and accident protection. Preliminary testing and classification of inorganic and organic compounds I. Identification of 10 inorganic and organic substances I.
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- 2. Laboratory safety and accident protection. Preliminary testing and classification of inorganic and organic compounds I. Identification of 10 inorganic and organic substances I.
- 3. Laboratory safety and accident protection. Preliminary testing and classification of inorganic and organic compounds I. Identification of 10 inorganic and organic substances I.
- 4. Laboratory safety and accident protection. Preliminary testing and classification of inorganic and organic compounds I. Identification of 10 inorganic and organic substances I.
- 5. Preliminary testing and classification of inorganic and organic compounds II. Identification of 10 inorganic and organic substances II.
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- 6. Preliminary testing and classification of inorganic and organic compounds II. Identification of 10 inorganic and organic substances II.
- 7. Preliminary testing and classification of inorganic and organic compounds II. Identification of 10 inorganic and organic substances II.
- 8. Preliminary testing and classification of inorganic and organic compounds II. Identification of 10 inorganic and organic substances II.
- 9. Principles of validation of analytical methods. (Seminars)
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- 10. Principles of validation of analytical methods. (Seminars)
- 11. Principles of validation of analytical methods. (Seminars)
- 12. Principles of validation of analytical methods. (Seminars)
- 13. Validation of a titrimetric methods. Comparison of different methods, Determination of sodium hydrogen carbonate according to the Ph. Hg. VII. and the Ph. Hg. VIII.
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- 14. Validation of a titrimetric methods. Comparison of different methods, Determination of sodium hydrogen carbonate according to the Ph. Hg. VII. and the Ph. Hg. VIII.
- 15. Validation of a titrimetric methods. Comparison of different methods, Determination of sodium hydrogen carbonate according to the Ph. Hg. VII. and the Ph. Hg. VIII.
- 16. Validation of a titrimetric methods. Comparison of different methods, Determination of sodium hydrogen carbonate according to the Ph. Hg. VII. and the Ph. Hg. VIII.
- 17. Spectrophotometry I. The Lambert-Beer's law. Determination of specific absorbance. Spectrophotometric determination of coffein, aminophenazone and paracetamol in powder mixtures.
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- 18. Spectrophotometry I. The Lambert-Beer's law. Determination of specific absorbance. Spectrophotometric determination of coffein, aminophenazone and paracetamol in powder mixtures.
- 19. Spectrophotometry I. The Lambert-Beer's law. Determination of specific absorbance. Spectrophotometric determination of coffein, aminophenazone and paracetamol in powder mixtures.
- 20. Spectrophotometry I. The Lambert-Beer's law. Determination of specific absorbance. Spectrophotometric determination of coffein, aminophenazone and paracetamol in powder mixtures.
- 21. Spectrophotometry II. Determination of salicylic acid and acetylsalicylic acid in mixtures by spectrophotometric and alkalimetric methods.
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- 22. Spectrophotometry II. Determination of salicylic acid and acetylsalicylic acid in mixtures by spectrophotometric and alkalimetric methods.
- 23. Spectrophotometry II. Determination of salicylic acid and acetylsalicylic acid in mixtures by spectrophotometric and alkalimetric methods.
- 24. Spectrophotometry II. Determination of salicylic acid and acetylsalicylic acid in mixtures by spectrophotometric and alkalimetric methods.
- 25. Application of fluometric methods. Application of NMR in pharmaceutical analysis. Principles of evaluation of NMR spectra. Evaluation of 1H and 13C NMR spectra of selected drug substances. (Seminar)
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- 26. Application of fluometric methods. Application of NMR in pharmaceutical analysis. Principles of evaluation of NMR spectra. Evaluation of 1H and 13C NMR spectra of selected drug substances. (Seminar)
- 27. Application of fluometric methods. Application of NMR in pharmaceutical analysis. Principles of evaluation of NMR spectra. Evaluation of 1H and 13C NMR spectra of selected drug substances. (Seminar)
- 28. Application of fluometric methods. Application of NMR in pharmaceutical analysis. Principles of evaluation of NMR spectra. Evaluation of 1H and 13C NMR spectra of selected drug substances. (Seminar)
- 29. Application of IR in pharmaceutical analysis. Principles of evaluation of IR spectra. Evaluation of IR spectra of selected drug substances. (Seminar) Application of mass spectrometry methods.
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- 30. Application of IR in pharmaceutical analysis. Principles of evaluation of IR spectra. Evaluation of IR spectra of selected drug substances. (Seminar) Application of mass spectrometry methods.
- 31. Application of IR in pharmaceutical analysis. Principles of evaluation of IR spectra. Evaluation of IR spectra of selected drug substances. (Seminar) Application of mass spectrometry methods.
- 32. Application of IR in pharmaceutical analysis. Principles of evaluation of IR spectra. Evaluation of IR spectra of selected drug substances. (Seminar) Application of mass spectrometry methods.
- 33. Application of electroanalytical methods in pharmaceutical analysis. (Seminar)
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- 34. Application of electroanalytical methods in pharmaceutical analysis. (Seminar)
- 35. Application of electroanalytical methods in pharmaceutical analysis. (Seminar)
- 36. Application of electroanalytical methods in pharmaceutical analysis. (Seminar)
- 37. Potentiometry I. Principles of potentiometry. Direct potentiometry and potentiometric titration. Determination of a strong and a weak acid in mixtures.
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- 38. Potentiometry I. Principles of potentiometry. Direct potentiometry and potentiometric titration. Determination of a strong and a weak acid in mixtures.
- 39. Potentiometry I. Principles of potentiometry. Direct potentiometry and potentiometric titration. Determination of a strong and a weak acid in mixtures.
- 40. Potentiometry I. Principles of potentiometry. Direct potentiometry and potentiometric titration. Determination of a strong and a weak acid in mixtures.
- 41. Potentiometry II. Electrodes used in potentiometry. Definition and importance of the pKa value. Determination of the pKa by direct potentiometric titration.
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- 42. Potentiometry II. Electrodes used in potentiometry. Definition and importance of the pKa value. Determination of the pKa by direct potentiometric titration.
- 43. Potentiometry II. Electrodes used in potentiometry. Definition and importance of the pKa value. Determination of the pKa by direct potentiometric titration.
- 44. Potentiometry II. Electrodes used in potentiometry. Definition and importance of the pKa value. Determination of the pKa by direct potentiometric titration.
- 45. Spectrophotometry III. Determination of the pKa of a weak acid and a weak base by spectrophotometry.
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- 46. Spectrophotometry III. Determination of the pKa of a weak acid and a weak base by spectrophotometry.
- 47. Spectrophotometry III. Determination of the pKa of a weak acid and a weak base by spectrophotometry.
- 48. Spectrophotometry III. Determination of the pKa of a weak acid and a weak base by spectrophotometry.
- 49. Pharmacopoeial analysis of steroidal hormons.
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- 50. Pharmacopoeial analysis of steroidal hormons.
- 51. Pharmacopoeial analysis of steroidal hormons.
- 52. Pharmacopoeial analysis of steroidal hormons.
- 53. Basics of stereochemistry. Stereochemistry of steroids and derivatives.
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- 54. Basics of stereochemistry. Stereochemistry of steroids and derivatives.
- 55. Basics of stereochemistry. Stereochemistry of steroids and derivatives.
- 56. Basics of stereochemistry. Stereochemistry of steroids and derivatives.
Seminars
Reading material
Obligatory literature
D.A. Williams, T.L. Lemke (eds.): Foye's Principles of Medicinal Chemistry, 7th edition, Lippincott Williams & Wilkins, Philadelphia, 2013
Literature developed by the Department
Attila Almási, Zsuzsanna Rozmer, Pál Perjési: Pharmaceutical Chemistry 1. Laboratory Experiments and Commentary, electronic educational material, PTE 2014
Notes
Pharmaceutical Chemistry Practice 1, laboratory manual, University of Pécs, 2015
Recommended literature
European Pharmacopoeia, EDQM Publication
Lecture notes.
Conditions for acceptance of the semester
Acknowledgement of the course is in accord with the Code of Studies and Examinations. Participation in the practices is obligatory. Maximum three absences can be accepted. Students have to write at least four short tests on the practices. The average of the results must be at least 50%. The practical work (results of the written tests and the experimental work) is evaluated by a practice grade.
Mid-term exams
Students have to write at least four short tests on the practices. The average of the results must be at least 50%. The practical work (results of the written tests and the experimental work) is evaluated by a practice grade.
Making up for missed classes
There is no opportunity to make up missed classes.
Exam topics/questions
The practical work (results of the written tests and the experimental work) is evaluated by a practice grade.
Examiners
Instructor / tutor of practices and seminars
- Harmath Lilla Édua
- Rozmer Zsuzsanna
- Tyukodi Levente