PHARMACEUTICAL RAW MATERIALS V

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Learning Outcomes

Will be able to Evaluate Endocrine System Drugs From a Chemical Point of View.
• Name the catholamine derivatives. • Explain the chemical structures of catholamine derivatives. • Explains the chemical structure of thyroid hormones. • Explains the biotransformations of thyroid hormones. • Names thyroid hormones. • Explains the chemical structure of thyroid hormones. • Explains the synthesis methods of thyroid hormones. • Names antithyroidal drugs. • Explains the chemical structure of antithyroidal drugs. • Explains the synthesis methods of antithyroidal drugs. • Peptide classifies the hormones chemically. • Explains in which chemical class the active substances are. • Names the general structures of peptides. • Explains the general chemical structures of peptides. • Explains the chemical synthesis methods of peptides. • Explains the chemical structures of pancreatic hormones. • Names the sulfonylurea derivative antidiabetic drugs. • Explains the chemical structure of sulfonylurea derivative antidiabetic drugs. • Explains the synthesis methods of sulfonylurea derivative antidiabetic drugs. • Explain the structure-activity relationship of sulfonylurea derivative antidiabetic drugs. • Explain the biguanidine-derived antidiabetic drugs. • Explains the chemical structure of biguanidine-derived antidiabetic drugs. • Explains the synthesis methods of biguanidine derivative antidiabetic drugs. • Explain the structure-activity relationships of biguanidine-derived antidiabetic drugs. • Names enzyme inhibitor antidiabetic drugs. • Explains the chemical structure of enzyme inhibitor antidiabetic drugs. • Explains the synthesis method of enzyme inhibitor antidiabetic drugs. • Names antihypoglycemic drugs. • Describes the chemical structure of antihypoglycemic drugs. • Explains the synthesis methods of antihypoglycemic drugs. • Describes the chemical structure of pituitary hormones. • Explains the chemical structure of synthetic pituitary hormone analogues. • Names oxytolic drugs. • Explains the chemical structure of oxytolic drugs. • Explains the synthesis methods of oxytolic drugs. • Names tocolytic drugs. • Explain the chemical structures of tocolytic drugs. • Explains the synthesis methods of tocolytic drugs. • Classifies steroid hormones chemically. • Explains in which chemical class the active substances are. • Describes the chemical structure of the estrogen hormone. • Explain the biotransformation of the estrogen hormone. • Names estrogenic drugs. • Describes the chemical structure of estrogenic drugs. • Explains the structure-effect relationships of estrogenic drugs. • Explains the synthesis methods of estrogenic drugs. • Names estrogen antagonists. • Describes the chemical structure of estrogen antagonists. • Explains the synthesis methods of estrogen antagonists. • Describes the chemical structure of the progestagen hormone. • Describes the biotransformation of the hormone projectagen. • Names projectant drugs. • Describes the chemical structure of projectagenic drugs. • Explains the structure-effect relationships of projectagenic drugs. • Explains the synthesis methods of progestagenic drugs. • Names projecta antagonists. • Explains the chemical structure of projectagenic antagonists. • Explains the synthesis methods of progestagen antagonists. • Names abortive drugs. • Describes the chemical structure of abortive drugs. • Explains the synthesis methods of abortive drugs. • Explains the chemical structure of androgen hormone. • Explains the biotransformation of the androgen hormone. • Names androgenic drugs. • Explains the chemical structure of androgenic drugs. • Explains the structure-effect relationships of androgenic drugs. • Explains the synthesis methods of androgenic drugs. • Names androgen antagonists. • Explains the chemical structures of androgen antagonists. • Explains the synthesis methods of androgen antagonists. • Explains the chemical structure of adrenocorticoid hormones. • Explains the biotransformation of adrenocorticoid hormones. • Names adrenocorticoid drugs. • Explain the chemical structure of adrenocorticoid drugs. • Explains the structure-effect relationships of adrenocorticoid drugs. • Explains the synthesis methods of adrenocorticoid drugs. • Names adrenocorticoid antagonists. • Explains the chemical structure of adrenocorticoid antagonists. • Explains the synthesis methods of adrenocorticoid antagonists.
Will be able to Evaluate Herbal Drugs Related to Endocrine System.
• Lists antidiabetic drugs. • List the general characteristics of antidiabetic drugs. • Explains the chemical composition of antidiabetic drugs. • Describes the dosage and dosage of antidiabetic drugs. • Describes the points to be considered during the use of antidiabetic drugs. • Lists drugs that affect the thyroid. • Lists the general features of drugs affecting the thyroid. • Explains the chemical composition of drugs acting on thyroid. • Describes the usage and dosage of drugs that are effective on thyroid. • Describes the points to be considered during the use of drugs effective on the thyroid. • Lists drugs with estrogenic effects. • Lists the general characteristics of drugs with estrogenic effects. • Describes the chemical composition of drugs with estrogenic effects. • Describes the usage and dosage of drugs with estrogenic effects. • Explains the points to be considered during the use of drugs with estrogenic effects. • List other drugs that affect the endocrine system. • Lists the general characteristics of other drugs that affect the endocrine system. • Describes the chemical composition of other drugs that affect the endocrine system. • Describes the usage and dosage of other drugs that affect the endocrine system. • Explains the points to be considered during the use of other drugs that affect the endocrine system.
Will be able to Evaluate Immune System Drugs From a Chemical Point of View.
• Names the immunomodulators. • Explains the chemical structures of immunomodulators. • Names the immunosuppressants. • Explains the chemical structures of immunomosuppressants. • Classifies antiallergic drugs as chemicals. • Explains in which chemical class the active substances are. • Describes the receptor interaction regions of histamine H1 receptor antagonists. • Diarilalkilamin derivative names antihistamine drugs. • Describes the chemical structure of diarilalkilamin derivative antihistamine drugs. • Describes the structure-effect relationships of diarilalkylamine derivative antihistamine drugs. • Describes the synthesis methods of diarilalkilamin derivative antihistamine drugs. • It names basic cyclic amine derivative antihistamine drugs. • Describes the chemical structure of basic cyclic amine derivative antihistamine drugs. • Explains the synthesis methods of basic cyclic amine derivative antihistamine drugs. • Tricyclic alkylamine derivative names antihistamine drugs. • Describes the chemical structure of antihistamine drugs derived from tricyclic alkylamine derivative. • Describes the structure-effect relationships of tricyclic alkylamine derivative antihistamine drugs. • Explains the synthesis methods of tricyclic alkylamine derivative antihistamine drugs. • Names other antihistamine compound derivatives. • Describes the chemical structure of other antihistamine compound derivatives. • Explains the synthesis methods of other antihistamine compound derivatives. • Names compounds that inhibit histamine release. • Describes the chemical structure of compounds that inhibit histamine release. • Describes the synthesis methods of compounds that inhibit histamine release. • Describes the structure-activity relationships of compounds that inhibit histamine release.
Will be able to Evaluate Herbal Drugs Related to Immune System and Oxytoxic Effective.
• Lists immunomodulatory drugs. • Lists the general characteristics of immunomodulatory drugs. • Describes the chemical composition of immunomodulatory drugs. • Describes the use and dosage of immunomodulatory drugs. • Describes the points to be considered during the use of drugs using immunomodulating effects. • Describes the drug from which ergot alkaloids are obtained. • Lists the general properties of drug from which ergot alkaloids are obtained. • Describes the chemical composition of drug from which ergot alkaloids are obtained. • Describes the use and dosage of the drug that the ergot alkaloids are obtained from.
Will be able to Evaluate Quality Control Practices for Some Herbal Drugs; Synthesis, Analysis, Quality Control and Spectroscopy Practices of Some Pharmaceutical Compounds Related to Digestive, Endocrine and Immune Systems.
• Determines the appropriate method for the target compound related to digestion, endocrine and immune systems. • Describes the synthesis method of the target compound related to digestive, endocrine and immune systems. • Describes the reaction equation and mechanism of the synthesis of the target compound related to digestive, endocrine and immune systems. • List chemical substances necessary for the synthesis of target compound related to digestive, endocrine and immune systems. • Describes the properties and intended use of chemicals required for the synthesis of the target compound related to digestive, endocrine and immune systems. • Describes the properties and uses of the devices necessary for the synthesis of the target compound related to digestive, endocrine and immune systems. • Describes the reaction conditions of the synthesis of the target compound related to digestive, endocrine and immune systems. • Synthesizes the target compound related to digestive, endocrine and immune systems. • Terminates the reaction of the target compound related to digestive, endocrine and immune systems according to the result of the application of the TTC. • It applies the filtering process to take the synthesis product related to digestion, endocrine and immune systems from the reaction medium. • Uses extraction process to get the synthesis product related to digestion, endocrine and immune systems from the reaction medium. • Explains the physical and chemical properties of the synthesis product related to digestive, endocrine and immune systems. • Calculates the theoretical, practical and percentage yield of the synthesis product related to digestion, endocrine and immune systems. • Determines the appropriate crystallization solvent for the synthesis product related to digestion, endocrine and immune systems. • Explains the crystallization of the synthesis product related to digestion, endocrine and immune systems. • It is crystalline synthesis product related to digestion, endocrine and immune systems. • Lists the estimated IR data for pharmaceuticals related to the digestive, endocrine and immune systems. • Determines which functional groups belong to the bands observed in IR spectra of pharmaceutical compounds related to digestive, endocrine and immune systems. • Determines the structure by interpreting the IR spectra of the pharmaceutical compounds related to digestive, endocrine and immune systems. • Lists estimated 1H NMR data for pharmaceuticals related to digestive, endocrine and immune systems. • Determines which protons belong to the peaks observed in the 1H NMR spectra of pharmaceutical compounds of digestive, endocrine and immune systems. • Determines the structure by interpreting 1H NMR spectra of the pharmaceutical compounds related to digestive, endocrine and immune systems. • Lists estimated MS data for pharmaceuticals related to digestive, endocrine and immune systems. • Determines which parts of the peaks observed in the mass spectra of pharmaceutical compounds related to digestive, endocrine and immune systems. • Determines molecular ion peak in mass spectra of pharmaceutical compounds related to digestive, endocrine and immune systems. • Determines the basic peak in the mass spectra of pharmaceutical compounds related to digestive, endocrine and immune systems. • Interprets the mass spectra of the pharmaceutical compounds related to digestive, endocrine and immune systems. • Determines the structure of an unknown molecule by interpreting IR, NMR and Mass spectra and other techniques of pharmaceutical compounds related to digestion, endocrine and immune systems. • Distinguishes drug active substance sample related to digestive, endocrine and immune systems according to color, odor, taste and appearance. • Determines the melting point of the drug active substance sample related to digestion, endocrine and immune systems. • Determines the solubility class of the drug active substance sample related to digestion, endocrine and immune systems. • Applies the burning experiment to drug active substance sample related to digestive, endocrine and immune systems and interprets the results. • Detects the presence of nitrogen in the drug active substance sample related to digestive, endocrine and immune systems. • Detects the presence of sulfur in the drug active substance sample related to digestive, endocrine and immune systems. • Detects the presence of halogen in the drug active substance sample related to digestive, endocrine and immune systems. • Detects that the drug active substance sample related to digestive, endocrine and immune systems is acidic, basic or neutral. • Distinguish recognition tests for functional groups in the drug active substance sample related to digestive, endocrine and immune systems. • Describes the recognition tests of functional groups in the drug active substance sample related to digestive, endocrine and immune systems. • Applies functional group recognition tests to drug active substance sample related to digestive, endocrine and immune systems. • Identifies the specific diagnostic reaction that can be applied to the drug active substance sample related to digestive, endocrine and immune systems. • Applies a specific diagnostic reaction to the drug active substance sample related to digestive, endocrine and immune systems. • List the titrimetric methods that can be applied to the drug active substance sample related to digestive, endocrine and immune systems. • Determines the purity of drug active substance related to digestive, endocrine and immune systems by using acidimetric method. • Determines the purity of the drug active substance related to digestive, endocrine and immune systems by using the alkalimetric method. • Determines the purity of drug active substance related to digestive, endocrine and immune systems by using nitritometric method. • Determines the purity of the drug active substance related to digestive, endocrine and immune systems by using the iodimetric method. • Determines the purity of the drug active substance related to digestion, endocrine and immune systems by spectrophotometry with the method specified in the pharmacopoeia.
Will be able to Evaluate Quality Control Practices for Some Herbal Drugs Related to Digestive, Endocrine and Immune Systems.
• Applies macroscopic methods of a selected drug related to digestive system. • Applies organoleptic methods to a drug selected for the digestive system. • Evaluates the results of macroscopic and organoleptic analysis for a selected drug related digestive system. • Sorts the appropriate reagents to examine a selected drug related to the digestive system with microscopic methods. • Uses the determination key to examine a selected drug related to digestive system with microscopic methods. • Microscopically examines a selected drug related to digestive system. • Evaluates microscopic examination results of a selected drug related to digestive system. • Applies the method of determination of foreign matter for a selected drug related to the digestive system. • Evaluates the amount of foreign matter for a drug selected for the digestive system and evaluates the results in terms of limit values. • Describes the appropriate method to determine the amount of water in a selected drug related to the digestive system. • Applies the appropriate method to determine the amount of water in a selected drug related to the digestive system. • Calculates the amount of water in a selected drug related to the digestive system and evaluates the results in terms of limit values. • Lists the physicochemical methods required for a selected drug related digestive system. • Describes the steps of the physicochemical methods required for a drug selected for the digestive system. • Determines the results of the physicochemical method required for a selected drug related to the digestive system. • Interprets the results of the physicochemical methods required for a drug selected for the digestive system and compares it with the limit values. • Lists the extraction method suitable for the target active substances in a selected drug related to the digestive system. • Describes the steps of the extraction method suitable for the target active substances in a selected drug related to the digestive system. • Applies the appropriate extraction method for the target active substances in a selected drug related to the digestive system. • Lists the appropriate diagnostic reactions for target active substances in a selected drug related digestive system. • Describes the process steps of appropriate diagnostic reactions for target active substances in a selected drug related digestive system. • Evaluates the appropriate diagnostic reaction results for target active substances in a selected drug related digestive system. • Lists the chromatographic analysis methods suitable for the target active substances in a selected drug related to the digestive system. • Describes the process steps of chromatographic analysis methods suitable for target active substances in a selected drug related to digestive system. • Applies suitable chromatographic methods for target active substances in a selected drug related to digestive system. • Evaluates the results of chromatographic methods suitable for target active substances in a selected drug related to digestive system. • Lists the adulteration determinations specified in the Pharmacopoeia for a selected drug related to the digestive system. • Describes the process steps of adulteration determinations specified in Pharmacopoeia for a selected drug related digestive system. • Identifies the adulterations in a selected drug related to the digestive system. • Lists the pharmacognosy methods in the pharmacopoeia for a selected drug related digestive system. • Describes the steps of pharmacognosy methods in pharmacopoeia for a selected drug related digestive system. • Applies pharmacognosy methods in pharmacopoeia for a selected drug related digestive system. • Compares the results obtained for a selected drug related to digestive system with pharmacopoeia. • Interprets and evaluates all the results obtained for a selected drug related to the digestive system. • Applies macroscopic methods of a selected product related to digestive system. • Applies organoleptic methods to a selected product related to digestive system. • Evaluates the results of macroscopic and organoleptic analysis for a selected product related to the digestive system. • Sort the appropriate reagents to examine a selected product related to the digestive system by microscopic methods. • Uses the determination key to examine a selected product related to the digestive system with microscopic methods. • Microscopically examines a selected product related to the digestive system. • Evaluates microscopic examination results of a selected product related to digestive system. • Lists the extraction method suitable for the active substances in a selected product related to the digestive system. • Describes the steps of extraction method suitable for active substances in a selected product related to digestive system. • Applies the appropriate extraction method for the active substances in a selected product related to the digestive system. • Lists the appropriate diagnostic reactions for the active substances in a selected product related to the digestive system. • Describes the process steps of appropriate diagnostic reactions for active substances in a selected product related to the digestive system. • Evaluates the appropriate diagnostic reaction results for active substances in a selected product related to the digestive system. • Lists the chromatographic analysis methods suitable for the active substances in a selected product related to the digestive system. • Describes the processing steps of chromatographic analysis methods suitable for active substances in a selected product related to digestive system. • Applies chromatographic methods suitable for active substances in a selected product related to digestive system. • Evaluates the results of chromatographic methods suitable for active substances in a selected product related to the digestive system. • Applies macroscopic methods to a drug selected for the endocrine system. • Applies organoleptic methods to a drug selected for the endocrine system. • Evaluates the results of macroscopic and organoleptic analysis for a selected drug related to the endocrine system. • Sorts the appropriate reagents to examine a selected drug related to the endocrine system with microscopic methods. • Uses the determination key to examine a selected drug related to the endocrine system with microscopic methods. • Microscopically examines a selected drug related to the endocrine system. • A selected drug related to the endocrine system evaluates the results of microscopic examination. • Describes the method of determination of foreign matter for a selected drug related to the endocrine system. • Evaluates the amount of foreign matter for a selected drug related to the endocrine system and evaluates the results in terms of limit values. • Describes the appropriate method to determine the amount of water in a selected drug related to the endocrine system. • Applies the appropriate method to determine the amount of water in a selected drug related to the endocrine system. • Calculates the amount of water in a selected drug related to the endocrine system and evaluates the results in terms of limit values. • Lists the physicochemical methods required for a drug selected for the endocrine system. • Describes the steps of the physicochemical methods required for a drug selected for the endocrine system. • Determines the physicochemical method results required for a drug selected for the endocrine system. • Interprets the results of the physicochemical methods required for a drug selected for the endocrine system and compares it with the limit values. • Lists the extraction method suitable for the target active substances in a selected drug related to the endocrine system. • Describes the steps of extraction method suitable for target active substances in a selected drug related to the endocrine system. • Applies the appropriate extraction method for the target active substances in a selected drug related to the endocrine system. • Lists the appropriate diagnostic reactions for target active substances in a selected drug related to the endocrine system. • Describes the process steps of appropriate diagnostic reactions for target active substances in a selected drug related to the endocrine system. • Evaluates the appropriate diagnostic reaction results for target active substances in a selected drug related to the endocrine system. • List the chromatographic analysis methods suitable for the target active substances in a selected drug related to the endocrine system. • Describes the process steps of chromatographic analysis methods suitable for target active substances in a selected drug related to the endocrine system. • Applies appropriate chromatographic methods for target active substances in a drug selected for the endocrine system. • Evaluates the results of chromatographic methods suitable for target active substances in a selected drug related to the endocrine system. • Sorts the adulteration determinations specified in Pharmacopoeia for a selected drug related to the endocrine system. • Describes the process steps of adulteration determinations specified in Pharmacopoeia for a drug selected for the endocrine system. • Identifies the adulterations in a selected drug related to the endocrine system. • Interprets and evaluate the results obtained for a selected drug related to the endocrine system. • Applies macroscopic methods to a drug chosen effectively on the immune system. • Applies organoleptic methods to an effective drug chosen on the immune system. • Interprets the results of macroscopic and organoleptic analysis for a drug chosen effectively on the immune system. • Sorts the appropriate reagents to examine a drug selected on the immune system with microscopic methods. • Uses the determination key to examine a drug selected on the immune system with microscopic methods. • Microscopically examines a drug chosen effectively on the immune system. • Interprets the microscopic examination results of a drug chosen effectively on the immune system. • Determines the method of determination of foreign matter for a drug chosen effectively on the immune system. • Evaluates the amount of foreign matter for a drug chosen effectively on the immune system and evaluates the results in terms of limit values. • Determines the appropriate method for determining the amount of water in a drug selected effectively on the immune system. • Applies the appropriate method to determine the amount of water in a drug selected effectively on the immune system. • Evaluates the amount of water in a drug selected effectively on the immune system and evaluates the results in terms of limit values. • Distinguishes the physicochemical methods required for a drug that is effectively selected on the immune system. • Determines the results of the physicochemical method required for a drug that is effectively selected on the immune system. • Interprets the results of the physicochemical method required for a drug selected on the immune system and compares it with the limit values. • Lists the suitable extraction methods for the target active substances in a drug selected on the immune system. • Applies the appropriate extraction method for the target active substances in a drug selected on the immune system. • Lists the appropriate diagnostic reactions for the target active substances in a drug selected on the immune system. • Evaluates the appropriate diagnostic reaction results for target active substances in a drug selected on the immune system. • Determines the appropriate chromatographic analysis methods for the target active substances in a drug selected effectively on the immune system. • Applies chromatographic methods suitable for target active substances in a drug that is effectively selected on the immune system. • Evaluates the results of chromatographic methods suitable for target active substances in a drug selected on the immune system. • Determines the adulteration determinations specified in Pharmacopoeia for a drug chosen effectively on the immune system. • Identifies the adulterations in a drug that is effectively selected on the immune system. • Interprets and evaluates the results obtained for a drug that is effectively selected on the immune system.
Will be able to Evaluate Digestive System Drugs From a Chemical Point of View.
• Classifies digestion drugs as chemicals. • Explains in which chemical class the active substances are. • Names choleretic effect safari acids. • Describes the chemical structure of bile acids with choleretic effect. • Describes the synthesis methods of choleretic effect safari acids. • Describes the biotransformations of bile acids with choleretic effect. • Names choleretic effect benzyl alcohol derivatives. • Describes the chemical structure of benzyl alcohol derivatives with choleretic effect. • Describes the synthesis methods of choleretic effect benzyl alcohol derivatives. • Names drugs that can dissolve gallstones. • Describes the chemical structure of drugs that can melt gallstones. • Explains the synthesis methods of drugs that can dissolve gallstones. • Names the drugs used in liver disorders and treatment. • Explains the chemical structure of drugs used in liver disorders and treatment. • Explains the synthesis methods of drugs used in liver disorders and treatment. • Names other choleretic and collage effective compounds. • Describes the chemical structure of choleretic and other collogous compounds. • Explains the synthesis methods of other choleretic and collage-effect compounds. • Classifies antiulcer drugs as chemicals. • Explains in which chemical class the active substances are. • Distinguishes chemically Histamine H2 receptor blocker drugs. • Names Histamine H2 receptor blocker drugs. • Describes the chemical structure of Histamine H2 receptor blocker drugs. • Explains the synthesis methods of Histamine H2 receptor blocker drugs. • Describes the biotransformations of Histamine H2 receptor blocker drugs. • Explains the structure-effect relationships of Histamine H2 receptor blocker drugs. • Names the drugs that inhibit the proton pump. • Explains the chemical structure of drugs that inhibit the proton pump. • Explains the synthesis methods of drugs that inhibit the proton pump. • Names antimuscarinic drugs. • Explains the chemical structure of antimuscarinic drugs. • Explains the synthesis methods of antimuscarinic drugs. • Explains the chemical structure of drugs with antacid effect. • Names the drugs forming the protective layer. • Explains the chemical structure of drugs forming a protective layer. • Explains the synthesis methods of drugs forming a protective layer. • Classifies emetic and antiemetic drugs as chemicals. • Explains in which chemical class the active substances are. • Names the emetic drugs. • Explains the chemical structures of emetic drugs. • Explains the synthesis methods of emetic drugs. • Names the antiemetic effective tropan alkaloids. • Describes the chemical structure of tropan alkaloids with antiemetic effect. • Names antiemetic histamine H1 receptor antagonists. • Describes the chemical structure of histamine H1 receptor antagonists with antiemetic effects. • Describes the synthesis methods of antiemetic effective histamine H1 receptor antagonists. • Names antiemetic effective phenothiazine derivatives. • Describes the chemical structure of antiemetic effective phenothiazine derivatives. • Explains the synthesis methods of antiemetic effect phenothiazine derivatives. • Names antiemetic effective benzamide and benzimidazolone derivatives. • Describes the chemical structures of benzamide and benzimidazolone derivatives with antiemetic effect. • Describes the synthesis methods of antiemetic benzamide and benzimidazolone derivatives. • Names antiemetic effective 5-hydroxytryptamine antagonists. • Describes the chemical structure of antiemetic effective 5-hydroxytryptamine antagonists. • Describes the synthesis methods of antiemetic effective 5-hydroxytryptamine antagonists. • Describes the biotransformations of 5-hydroxytryptamine antagonists with antiemetic effects. • Classifies Laxative and Purgative drugs as chemicals. • Explains in which chemical class the active substances are. • Describes the chemical structure of softening laxative drugs. • Explains the chemical structure of osmotic laxative and purgative drugs. • Names stimulant laxative and purgative drugs. • Explains the chemical structure of stimulant laxative and purgative drugs. • Explains the synthesis methods of stimulant laxative and purgative drugs. • Explains the biotransformations of stimulant laxative and purgative drugs. • Names anthraquinone derivative glycosides. • Explains the chemical structure of anthraquinone derived glycosides. • Explains the synthesis methods of anthraquinone derived glycosides. • Describes biotransformations of anthraquinone derivative glycosides. • Names other stimulant drugs. • Explains the chemical structure of other stimulant drugs. • Explains the synthesis methods of other stimulant drugs. • Classifies Antidiarrheal Drugs as chemicals. • Explains in which chemical class the active substances are. • Names opiates and other opioids. • Explains the chemical structures of opiates and other opioids. • Explains the synthesis methods of opiates and other opioids. • Explains the biotransformations of opiates and other opioids. • Explains the chemical structures of antidiarrheal drugs with parasympatholytic effects. • Explains the chemical structure of adsorbent and mass-forming drugs.
Will be able to Evaluate Herbal Drugs Related to Digestive System.
• Lists drugs used in peptic ulcer treatment. • Lists the general features of drugs used in peptic ulcer treatment. • Describes the chemical composition of drugs used in peptic ulcer treatment. • Describes the usage and dosage of drugs used in peptic ulcer treatment. • Describes the points to be considered during the use of drugs used in the treatment of peptic ulcer. • Lists drugs with laxative and purgative effects. • Lists the general characteristics of drugs with laxative and purgative effects. • Describes the chemical composition of drugs with laxative and purgative effects. • Describes the usage and dosage of drugs with laxative and purgative effects. • Describes the points to be considered during the use of drugs with laxative and purgative effects. • Lists antidiarrheal drugs. • Lists the general characteristics of antidiarrheal drugs. • Explains the chemical composition of antidiarrheal drugs. • Describes the dosage and dosage of antidiarrheal drugs. • Explains the points to be considered during the use of antidiarrheal drugs. • Sorts the emetic effect drugs. • Lists the general features of emetic effect drugs. • Describes the chemical composition of emetic effect drugs. • Describes the usage and dosage of drugs with emetic effect. • Describes the points to be considered during the use of emetic effect drugs. • Lists drugs with antiemetic effects. • Lists the general characteristics of drugs with antiemetic effects. • Describes the chemical composition of drugs with antiemetic effects. • Describes the usage and dosage of drugs with antiemetic effects. • Describes the points to be considered during the use of drugs with antiemetic effects. • Lists prokinetic effective drugs. • Lists the general characteristics of prokinetic drug drugs. • Explains the chemical composition of prokinetic drug drugs. • Explains the usage and dosage of prokinetic drug drugs. • Explains the points to be considered during the use of prokinetic drug drugs. • Arranges digestive effective drugs. • Lists the general characteristics of the digestive drugs. • Describes the chemical composition of digestive drugs. • Determines the way of preparation of drug effective drugs. • Describes the usage and dosage of digges effective drugs. • Describes the points to be considered during the use of drugs with dijestan effect. • Sorts choleretic effect drugs. • Lists the general characteristics of choleretic effect drugs. • Explains the chemical composition of choleretic effect drugs. • Explains the usage and dosage of choleretic effect drugs. • Explains the points to be considered during the use of choleretic effect drugs. • Sorts collage effective drugs. • Lists the general characteristics of the collagen effective drugs. • Describes the chemical composition of cologgous effective drugs. • Describes the use and dosage of collage effective drugs. • Describes the points that should be considered during the use of the collagen effective drugs. • Lists drugs with carminative effects. • List the general characteristics of drugs with carminative effects. • Explains the chemical composition of drugs with carminative effects. • Describes the use and dosage of drugs with carminative effects. • Explains the points to be considered during the use of drugs with carminative effects. • Lists drugs affecting the liver. • Lists the general features of drugs affecting the liver. • Describes the chemical composition of drugs affecting the liver. • Describes the usage and dosage of drugs that affect the liver. • Explains the points to be considered during the use of drugs that affect the liver.