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Physical Pharmacy
Study Course Description
Course Description Statuss:Approved
Course Description Version:8.00
Study Course Accepted:20.03.2024 15:38:39
| Study Course Information | |||||||||
| Course Code: | FKK_032 | LQF level: | Level 7 | ||||||
| Credit Points: | 3.00 | ECTS: | 4.50 | ||||||
| Branch of Science: | Basic Sciences of Medicine, including Pharmacy | Target Audience: | Pharmacy | ||||||
| Study Course Supervisor | |||||||||
| Course Supervisor: | Liāna Orola | ||||||||
| Study Course Implementer | |||||||||
| Structural Unit: | Department of Pharmaceutical Chemistry | ||||||||
| The Head of Structural Unit: | |||||||||
| Contacts: | Riga, 16 Dzirciema Street, Block A, 5th floor, Room No. 502.kab., farmkk rsu[pnkts]lv, +371 67061544 | ||||||||
| Study Course Planning | |||||||||
| Full-Time - Semester No.1 | |||||||||
| Lectures (count) | 6 | Lecture Length (academic hours) | 2 | Total Contact Hours of Lectures | 12 | ||||
| Classes (count) | 9 | Class Length (academic hours) | 4 | Total Contact Hours of Classes | 36 | ||||
| Total Contact Hours | 48 | ||||||||
| Part-Time - Semester No.1 | |||||||||
| Lectures (count) | 6 | Lecture Length (academic hours) | 4 | Total Contact Hours of Lectures | 24 | ||||
| Classes (count) | 6 | Class Length (academic hours) | 4 | Total Contact Hours of Classes | 24 | ||||
| Total Contact Hours | 48 | ||||||||
| Study course description | |||||||||
| Preliminary Knowledge: | Inorganic, organic and analytical chemistry, desirable knowledge of physics and advanced mathematics. | ||||||||
| Objective: | The aim of the course is to provide knowledge of the theoretical and practical principles of physical pharmacy. The tasks of the course are to develop skills to use knowledge of physico-chemical processes and phenomena in pharmacy, to acquire methods of determination of physico-chemical parameters of substances, to interpret acquired data, to improve presentation skills, as well as skills to work with scientific information sources. The course deals with thermodynamics, physical states of substances, phases and their transitions, kinetics, physico-chemical properties of substances in solutions, as well as colloidal systems. | ||||||||
| Topic Layout (Full-Time) | |||||||||
| No. | Topic | Type of Implementation | Number | Venue | |||||
| 1 | Thermodynamics. Phases and their transitions. Gases and volatiles. | Lectures | 1.00 | auditorium | |||||
| 2 | Introductory lesson. Safe working methods. Entrance colloquium (exercises on the forms of concentration). | Classes | 1.00 | laboratory | |||||
| 3 | Solids. | Lectures | 1.00 | auditorium | |||||
| 4 | Laboratory work: Calorimetry. | Classes | 1.00 | laboratory | |||||
| 5 | Physico-chemical properties of drug substances in solutions. | Lectures | 1.00 | auditorium | |||||
| 6 | Colloquium: Thermodynamics, phases and their transitions, gases and volatiles, solids. | Classes | 1.00 | laboratory | |||||
| 7 | Solubility and Dissolution. | Lectures | 1.00 | auditorium | |||||
| 8 | Laboratory work: Determination of acid dissociation constant. | Classes | 1.00 | laboratory | |||||
| 9 | Chemical kinetics. Chemical stability of the drug substance. | Lectures | 1.00 | auditorium | |||||
| 10 | Laboratory work: Determination of solubility. | Classes | 1.00 | laboratory | |||||
| 11 | Colloidal systems. Surfactants. | Lectures | 1.00 | auditorium | |||||
| 12 | Colloquium: Physico-chemical properties of drug substances in solutions, solubility and dissolution. | Classes | 1.00 | laboratory | |||||
| 13 | Laboratory work: Buffers. | Classes | 1.00 | laboratory | |||||
| 14 | Laboratory work: Emulsions. | Classes | 1.00 | laboratory | |||||
| 15 | Colloquium: Chemical kinetics, chemical stability of drug substances, colloidal systems, surfactants. | Classes | 1.00 | laboratory | |||||
| Topic Layout (Part-Time) | |||||||||
| No. | Topic | Type of Implementation | Number | Venue | |||||
| 1 | Thermodynamics. Phases and their transitions. Gases and volatiles. | Lectures | 1.00 | laboratory | |||||
| 2 | Introductory lesson. Safe working methods. Entrance colloquium (exercises on the forms of concentration). | Classes | 0.50 | laboratory | |||||
| 3 | Solids. | Lectures | 1.00 | auditorium | |||||
| 4 | Laboratory work: Calorimetry. | Classes | 0.50 | laboratory | |||||
| 5 | Physico-chemical properties of drug substances in solutions. | Lectures | 1.00 | auditorium | |||||
| 6 | Colloquium: Thermodynamics, phases and their transitions, gases and volatiles, solids. | Classes | 1.00 | laboratory | |||||
| 7 | Solubility and Dissolution. | Lectures | 1.00 | auditorium | |||||
| 8 | Laboratory work: Determination of acid dissociation constant. | Classes | 0.50 | laboratory | |||||
| 9 | Chemical kinetics. Chemical stability of the drug substance. | Lectures | 1.00 | auditorium | |||||
| 10 | Laboratory work: Determination of solubility. | Classes | 0.50 | laboratory | |||||
| 11 | Colloidal systems. Surfactants. | Lectures | 1.00 | auditorium | |||||
| 12 | Colloquium: Physico-chemical properties of drug substances in solutions, solubility and dissolution. | Classes | 1.00 | laboratory | |||||
| 13 | Laboratory work: Buffers. | Classes | 0.50 | laboratory | |||||
| 14 | Laboratory work: Emulsions. | Classes | 1.00 | laboratory | |||||
| 15 | Colloquium: Chemical kinetics, chemical stability of drug substances, colloidal systems, surfactants. | Classes | 0.50 | laboratory | |||||
| Assessment | |||||||||
| Unaided Work: | Students have to prepare themselves for laboratory work (theoretical basis of the work, theoretical tasks). Students need to read relevant sections of compulsory literature in addition to lecture materials. Student does independent work outside of study time. It is recommended to fill in the study course survey, evaluating the existing course content and creating proposals for updating the course. | ||||||||
| Assessment Criteria: | Theoretical knowledge and ability to apply theoretical knowledge in practical tasks will be assessed. Student attitude (attendance, interest) will be evaluated. The final grade of the study course consists of the average mark of the colloquium (50%) and the mark of the exam (50%). | ||||||||
| Final Examination (Full-Time): | Exam (Written) | ||||||||
| Final Examination (Part-Time): | Exam (Written) | ||||||||
| Learning Outcomes | |||||||||
| Knowledge: | As a result of the course students will acquire knowledge of basic principles of drug substance thermodynamics and kinetics, drug state, other phase, physicochemical properties of solutions as well as colloidal systems of drug substances. | ||||||||
| Skills: | Using the acquired knowledge students will be able to characterize the physico-chemical properties of drug substances and will be able to solve problems related to physical pharmacy topics, eg drug substance stability, solubility, phase others, drug substance formulation. Students will acquire the skills to interpret the data obtained from the analysis, as well as to search and use information sources, collaborate in a group and present the results. | ||||||||
| Competencies: | Using the acquired knowledge and skills will be able to apply appropriate physico-chemical methods for successful research and characterization of drug substances. | ||||||||
| Bibliography | |||||||||
| No. | Reference | ||||||||
| Required Reading | |||||||||
| 1 | A. T. Florence., D. Attwood. Physicochemical Principles of Pharmacy: In Manufacture, Formulation and Clinical Use. 6th ed. London: Pharmaceutical Press, 2016 (e-grāmata, pieejama ProQuest Ebook Central e-grāmatu datubāzē). | ||||||||
| 2 | S. C. Fox. Pharmaceutics. 1st ed. London: Pharmaceutical Press, 2014 (e-grāmata, pieejama ProQuest Ebook Central e-grāmatu datubāzē). | ||||||||
| 3 | K. A. Connors, S. Mecozzi. Thermodynamics of Pharmaceutical Systems: An Introduction to Theory and Applications. 2nd ed. John Wiley & Sons, 2010 (akceptējams izdevums) | ||||||||
| 4 | B. Linder. Elementary Physical Chemistry. World Scientific Publishing Co Pte Ltd, 2010 (e-grāmata, pieejama ProQuest Ebook Central e-grāmatu datubāzē). (akceptējams izdevums) | ||||||||
| 5 | G. Zografi, X. Chen, S. R. Byrn. Solid-State Properties of Pharmaceutical Materials. John Wiley & Sons, 2017 (e-grāmata, pieejama ProQuest Ebook Central e-grāmatu datubāzē). | ||||||||
| 6 | G. M. Kontogeorgis, S. Kiil. Introduction to Applied Colloid and Surface Chemistry. Wiley, 2016 (e-grāmata, pieejama ProQuest Ebook Central e-grāmatu datubāzē). | ||||||||
| Additional Reading | |||||||||
| 1 | P. Atkins, J. de Paula. Atkins' physical chemistry. 9th ed. Oxford; New York: Oxford University Press, 2010, 972 p. | ||||||||
| 2 | Student's solutions manual to accompany Atkins' physical chemistry, ninth edition / Charles Trapp, Marshall Cady and Carmen Giunta. New York: W. H. Freeman and Company, 2010. viii, 599 lpp. | ||||||||
| 3 | CRC handbook of chemistry and physics: a ready-reference book of chemical and physical data. 91st ed. / editor-in-chief, W. M. Haynes; associate editor, David R. Lide. Boca Raton: CRC Press/Taylor & Francis Group, 2019. [2260] lpp. | ||||||||
| 4 | Physical chemistry: principles and applications in biological sciences / Ignacio Tinoco, Jr. ... [et al.]. 4th ed. Upper Saddle River, N.J.: Prentice Hall, c2002. xix, 740 lpp. | ||||||||
| 5 | Y. Qiu, Y. Chen, G. G. Z. Zhang, W. Porter, L. Liu, V. Rao, W. Porter. Developing Solid Oral Dosage Forms: Pharmaceutical Theory and Practice. 1st ed. Elsevier Science & Technology, 2017 (e-grāmata, pieejama ProQuest Ebook Central e-grāmatu datubāzē). | ||||||||
