Chemistry for Dentistry Students

Daten

Offizielle Daten in der Fachveröffentlichung für das folgende akademische Jahr: 2024-2025

Lehrbeauftragte/r

Semesterwochenstunden

Vorlesungen: 42

Praktika: 28

Seminare: 0

Insgesamt: 70

Fachangaben

  • Kode des Kurses: OSA-OKF-T
  • 5 kredit
  • Dentistry
  • Basic modul
  • autumn
Voraussetzungen:

keine

Zahl der Kursteilnehmer für den Kurs:

min. 5 – max. 200

Thematik

Medical chemistry includes the topics of general chemistry which are necessary for medical students. It deals also with the chemistry of organic functional groups in concise way. Majority of the curriculum deals with the bioorganic chemistry, which means the chemistry and descriptive biochemistry of biomolecules. The purpose of practices is to study some analytical chemistry and the knowledge of materials. Curriculum of medical chemistry contains the basic knowledge that is necessary to understand biochemistry.

Vorlesungen

  • 41. Colloids - Berente Zoltán
  • 42. Colloids found in living systems - Berente Zoltán
  • 39. Organic sulfur compounds, thioesters - Böddi Katalin
  • 40. Amines and their biologically significant derivatives - Balogi Zsolt
  • 38. Carboxylic acid derivatives, acylating agents - Böddi Katalin
  • 36. Aldehydes and their derivatives - Böddi Katalin
  • 37. Carboxylic acids - Böddi Katalin
  • 35. Phenols, quinones, ethers - Nagy Veronika
  • 34. Alcohols, enols, esters (including phosphate and sulphate esters) - Nagy Veronika
  • 32. Constitutional, conformational and geometric isomerism - Nagy Veronika
  • 33. Optical isomerism. Relative and absolute configuration. - Nagy Veronika
  • 31. Unsaturated hydrocarbons: Alkenes and alkynes - Nagy Veronika
  • 30. Saturated hydrocarbons: Alkanes. Paraffins in medicine - Nagy Veronika
  • 29. Reaction types in organic chemistry - Bognár Zita
  • 28. Analitical instruments in medical diagnostics - Berente Zoltán
  • 27. Basics of separation thechniques for medical students - Takátsy Anikó
  • 26. Basics of analytical chemistry for medical students - Takátsy Anikó
  • 25. Electrochemistry in the medical practice - Berente Zoltán
  • 24. Electron transfer processes in living organisms - Berente Zoltán
  • 23. Electrochemistry - Nagy Veronika
  • 21. Steady-stateness, a characteristic of living systems - Nagy Veronika
  • 22. Kinetic characteristics of cascade- and cyclic reactions - Nagy Veronika
  • 20. Reactionkinetics - Nagy Veronika
  • 19. Thermodynamics applied to living systems - Nagy Veronika
  • 17. Thermochemistry - Berente Zoltán
  • 18. Thermodynamics and the direction of chemical reactions - Takátsy Anikó
  • 16. Metal complexes in living organisms and in medical diagnosis - Takátsy Anikó
  • 15. Structure and formation of metal complexes. - Berente Zoltán
  • 13. Buffer solutions - Takátsy Anikó
  • 14. Buffer systems in living organisms - Takátsy Anikó
  • 12. Ion product constant of water, pH, pOH, hydrolysis of salts, pH-dependence of protonation - Takátsy Anikó
  • 11. Acids and bases, acid-base theories, acid-base reactions - Takátsy Anikó
  • 10. Role of electrolytes in living organisms, solubilty - Takátsy Anikó
  • 9. Equilibrium, the law of mass action, Le Chatelier principle - Berente Zoltán
  • 8. Osmosis, composition of biofluids - Gallyas Ferenc
  • 7. Water and aqueous solutions. Concentration units. Colligative properties of dilute solutions. - Bóna Ágnes
  • 6. States of matter, gas laws. - Nagy Veronika
  • 5. Introduction to organic chemistry. Nomenclatute, functional groups, Reaction types - Nagy Veronika
  • 4. Molecular geometry, polarity, molecular interactions - Nagy Veronika
  • 3. Intrduction to inorganic chemistry. Oxides, oxoacids, hydroxides, salts - Nagy Veronika
  • 2. Structure of matter (atoms, ions, molecules, radicals) - Nagy Veronika
  • 1. Introduction to Medical Chemistry - Bognár Zita

Praktika

  • 1. Laboratory regulations. Accident and fire protection
  • 2. Laboratory regulations. Accident and fire protection
  • 3. Solutions, concentration calculation, mass, volume measurement, density.
  • 4. Solutions, concentration calculation, mass, volume measurement, density.
  • 5. Calculation of active substance concentration on the basis of body weight, preparation of an infusion solution
  • 6. Calculation of active substance concentration on the basis of body weight, preparation of an infusion solution
  • 7. Disinfectants: experiments with iodine, Lugol's solution. Preparation of an alcoholic solution. Experiment with hydrogen peroxide, preparation of Hyperol solution. Experiments with hypochlorous acid. Sterility at the clinic.
  • 8. Disinfectants: experiments with iodine, Lugol's solution. Preparation of an alcoholic solution. Experiment with hydrogen peroxide, preparation of Hyperol solution. Experiments with hypochlorous acid. Sterility at the clinic.
  • 9. Experiments with compounds of halogens, oxygen-group and nitrogen group elements
  • 10. Experiments with compounds of halogens, oxygen-group and nitrogen group elements
  • 11. Experiments with compounds of carbon-group, aluminium and s-block elements
  • 12. Experiments with compounds of carbon-group, aluminium and s-block elements
  • 13. Potentiometry. Buffer solutions.
  • 14. Potentiometry. Buffer solutions.
  • 15. Experiments on colloidal systems, chemical equilibria, and catalysis
  • 16. Experiments on colloidal systems, chemical equilibria, and catalysis
  • 17. Calculations II
  • 18. Calculation II
  • 19. Experiments in electrochemistry
  • 20. Experiments in electrochemistry
  • 21. Seminar
  • 22. Seminar
  • 23. Organic chemistry I. Reactions of functional groups I
  • 24. Organic chemistry I. Reactions of functional groups I
  • 25. Organic chemistry I. Reactions of functional groups II
  • 26. Organic chemistry I. Reactions of functional groups II
  • 27. Closing remarks, repetition
  • 28. Closing remarks, repetition

Seminare

Materialien zum Aneignen des Lehrstoffes

Obligatorische Literatur

P. Gergely (ed.): Organic and Bioorganic Chemistry for Medical Students, latest edition, Univ. Med. School of Debrecen

Vom Institut veröffentlichter Lehrstoff

Veronika Nagy (ed.): Laboratory Experiments in Medical Chemistry, Internet edition, Univ. Med. School of Pécs, 2011
http://aok.pte.hu/en/egyseg/oktatasianyagok/2024

Skript

http://aok.pte.hu/en/egyseg/oktatasianyagok/2024
Veronika Nagy (ed.): Laboratory Experiments in Medical Chemistry, Internet edition, Univ. Med. School of Pécs, 2011

Empfohlene Literatur

Veronika Nagy (ed.): Laboratory Experiments in Medical Chemistry, Internet edition, Univ. Med. School of Pécs, 2011

Hein-Pattison-Arena-Best: Introduction to Chemistry General, Organic, and Biochemistry, latest edition

P. Gergely (ed.): Organic and Bioorganic Chemistry for Medical Students, latest edition, Univ. Med. School of Debrecen

Voraussetzung zum Absolvieren des Semesters

nincs

Semesteranforderungen

Each week's practice scripts include questions that can be found in advance in the workbook. From the 3rd week, 3 times, students will write a small test at the beginning of the practice. Questions will be asked for written answers, with 6 minutes available for the answers. Those who do not take the test during the internship will automatically receive 0 points for this week. With the tests you can get bonus points for the exam. (max. 5 points). The points collected here do not apply to passing the minimum questions, but are added to the final exampoints as extra points. The result of the small test is only valid after the group leader has accepted the protocol booklet. The examination is a colloquium, the questions must be answered and explained in writing. T

Möglichkeiten zur Nachholung der Fehlzeiten

The lab and seminar classes cannot be made up.

If the student is late more than 5 minutes he/she can not write lab test. If the student is late 5-10 minutes, he/she may perform the lab experiments and this occasion will not be considered as an absence. Less than 5 minutes late is accepted. More than 10 minutes late is absence.

Prüfungsfragen

The exam is a written exam, it is based on the topic of the lectures and labs. Questions 1–10: MRT questions, max. 30 points, must be obtained at least 21 points. If less than 21 points is obtained from the MRT questions the exam is failed, irrespectively of the remaining part of the test and the brought extra points. Questions 11–: 70 points; Total: 100 points + Laboratory test points (maximum 5)

 Scores and grades:

   0–60: 1

61–70: 2

71–80: 3

81–90: 4

91–    : 5
Detailed information: http://aok.pte.hu/en/egyseg/oktatasianyagok/2024

Prüfer

  • Andreidesz Kitti
  • Bognár Zita
  • Bóna Ágnes
  • Debreceni Balázs

Praktika, Seminarleiter/innen

  • Andreidesz Kitti
  • Bóna Ágnes
  • Jakus Péter Balázs
  • Kiss Bence