(PHC 427 (Pharmaceutical Instrumental Analysis
Course Description:
The course is designed to give pharmacy schools an overview of the various modern instrumental analytical techniques used in the pharmaceutical research and industry. Basic principles, components, and operation of each technique will be presented in an integrative lecture and laboratory sessions.
وصف المقرر:
يختص هذا المقرر بالتحليل الآلي للمركبات الصيدلية. يشمل المقرر الطرق المختلفة للتحليل الآلي. يقدم المقرر بشكل تكاملي بين الدروس النظرية و المعملية التطبيقية لدراسة كل طريقة من طرق التحليل من حيث المفاهيم الأساسية للتحليل والتعريف بمكونات جهاز التحليل ووظيفة كل مكون, وطريقة العمل على جهاز التحليل و استخداماته في المجالات المختلفة من التحليل الصيدلي.
(توزيع المنهج) LECTURES’ OUTLINE
| Week | Lecture number |
Date | Topic |
| 1 | 1 | Atomic absorption and emission spectrophotometry Principles of atomic absorption spectrophotometry |
|
| 2 | Factors affecting atomic absorption | ||
| 3 | Instrumentation of atomic absorption spectrophotometry | ||
| 2 | 4 | Applications of atomic absorption spectrophotometry | |
| 5 | Principles of atomic emission spectrophotometry | ||
| 6 | Instrumentation of atomic emission spectrophotometry. | ||
| 3 | 7 | Applications of atomic emission spectrophotometry | |
| 8 | Optical methods Polarization of light, theory and instrumentation of polarimetric analysis. |
||
| 9 | Applications of polarimetry in pharmaceutical analysis | ||
| 4 | 10 | Theory and instrumentation of refractometric analysis. | |
| 11 | Applications of refractometry | ||
| 12 | Molecular emission spectrophotometry Theory of light emission |
||
| 5 | 13 | Fluorescence and phosphorescence | |
| 14 | Chemical structure and fluorescence | ||
| 15 | Instrumentation of fluorometry | ||
| 6 | 16 | Applications of fluorometry in direct analysis of fluorescent compounds | |
| 17 | Applications of fluorimetry in non-fluorescent compounds after their derivatization | ||
| 18 | Immunoanalytical methods Principles of immunoassay |
||
| 7 | 19 | Immunoanalytical reagents | |
| 20 | Separation matrices in immuoassays | ||
| 21 | Designs, formats, and types of immunoassays | ||
| 8 | 22 | Detection systems used in immunoassays | |
| 23 | Instrumentation of immunoassay. | ||
| 24 | Specific features of quantitative analysis by immunoasay. | ||
| 9 | 25 | Applications of immunoassays, competitive assay | |
| 26 | Applications of immunoassays, non-competitive assay | ||
| 27 | High performance liquid chromatography (HPLC): Instrumentation of HPLC |
| Week | Lecture number |
Date | Topic |
| 10 | 28 | Choice of detectors for different groups of drugs | |
| 29 | Choice of optimum systems for selected groups of drugs | ||
| 30 | Detection of degradation products and exipients | ||
| 11 | 31 | Chiral separation of pharmaceutical compounds | |
| 32 | Separation and quantification of mixtures in dosage forms | ||
| 33 | External and internal standard method for quantitative analysis by HPLC | ||
| 12 | 34 | Stability-indicating Methods of assay | |
| 35 | Gas Chromatographic The thermodynamic of gas chromatography. |
||
| 36 | The dynamics of gas chromatography. | ||
| 13 | 37 | Instrumentation of gas chromatography. | |
| 38 | Application of gas chromatography | ||
| 39 | Capillary electrophoresis Principles and instrumentation of capillary electrophoresis |
||
| 14 | 40 | Choice of optimum conditions for electrophoretic resolution. | |
| 41 | Modes of electrophoretic separation of compounds. | ||
| 42 | Applications of capillary electrophoresis in pharmaceutical analysis |
Text books:
1.Analytical Chemistry. Gary D. Christian. John Wiley & Sons, New York
2. Pharmaceutical analysis: a textbook for pharmacy students and pharmaceutical chemists. D. G. Watson. Churchill Livingstone. Edinburgh
Common questions:
Exam 1 (OUT of 10)
Q1: Ethanol and methanol are separated in a capillary column with retention times of 370 and 385 s, respectively, and base widths (Wb) of 16.0 and 17.0 s. An un-retained air peak occurs at 10 s. From these information, calculate:
( each worth 1 point)
1. The separation factor (selectivity)? α= (380-10)/(370-10)= 1.04
2. The retention factor of each compound? k1= (370-10)/10=36
k2= (385-10)/10= 38.5
3. resolution? Rs= 2(380-370)/(17+16)= 0.91
Q2: Choose the correct question: ( each worth 1 point)
| 1- |
In isocratic elution the composition is :
The Answer is (A) |
| 2- |
In comparison with HPLC system, UHPLC has_______ pressure pump and ________ particle size
The Answer is (C) |
| 3- |
Sonication is an approach that can act as a for solvents used in HPLC systems.
The Answer is (A) |
| 4- |
For solvent degassing, argon is not a good substitute of helium because it is :
The answer is (B) |
Q3: The fundamental resolution equation indicates that resolution is affected by three important parameters, name these parameters: (each worth 1 point)
1- Efficiency
2- Retention factor
3- Selectivity