Oral Biology

Data

Official data in SubjectManager for the following academic year: 2024-2025

Course director

  • Nagy Ákos Károly

    associate professor,
    Department of Dentistry, Oral and Maxillofacial Surgery

Number of hours/semester

lectures: 28 hours

practices: 0 hours

seminars: 14 hours

total of: 42 hours

Subject data

  • Code of subject: OSA-ORB-T
  • 3 kredit
  • Dentistry
  • Basic modul
  • spring
Prerequisites:

OSA-BKZ-T finished , OSA-MF2-T finished

Course headcount limitations

min. 5 – max. 60

Topic

During this semester the students acquire knowledge about the oral structures and these development, function and about the biochemical, molecular biological, histological processes of bone and oral environment.

Lectures

  • 1. Development of teeth - Nagy Ákos Károly
  • 2. Morphology and functional anatomy of the chewing organ. - Nagy Ákos Károly
  • 3. Process of mineralization - Nagy Ákos Károly
  • 4. Salivary Glands Saliva production - Nagy Ákos Károly
  • 5. Osteogenesis – tissue structure, metabolism. Process of bone resorption. - Nagy Ákos Károly
  • 6. Saliva as a diagnostical fluid - Nagy Ákos Károly
  • 7. Amelogenesis – tissue structure - Nagy Ákos Károly
  • 8. Salivary proteins in caries development, caries prevention - Nagy Ákos Károly
  • 9. Dentinogenesis primary, secondary, tertiary dentin formation - Nagy Ákos Károly
  • 10. Oral clearance - Nagy Ákos Károly
  • 11. Cementogenesis. Histology and function of parodontal ligaments - Nagy Ákos Károly
  • 12. Dental hard tissues - Nagy Ákos Károly
  • 13. Crystal-structure of bioapatites. Fluoride metabolism. Effect of fluorides on tooth structure - Nagy Ákos Károly
  • 14. Tissue regeneration in dentistry, molecular biological backround - Nagy Ákos Károly
  • 15. Eruption of teeth. Movement of teeth - Nagy Ákos Károly
  • 16. Specific and non specific oral defense - Nagy Ákos Károly
  • 17. Development and structure of pulp - Nagy Ákos Károly
  • 18. Midterm - Nagy Ákos Károly
  • 19. Oral sensation. Pain. Decreasing of stimulus-threshold. Sense of taste. Smelling - Nagy Ákos Károly
  • 20. Oral microorganisms. Plaque, like a biofilm. Biochemistry of plaque - Nagy Ákos Károly
  • 21. Ionizing radiation. Radio-Osseo-Necrosis - Nagy Ákos Károly
  • 22. Bleeding disorders - Nagy Ákos Károly
  • 23. Effect of diet on oral tissues. Effect of age. Systematic diseases, medicines in dental practice - Nagy Ákos Károly
  • 24. Inflammation - Nagy Ákos Károly
  • 25. Structure of oral soft tissues. Gingival sulcus, crevicular fluid - Nagy Ákos Károly
  • 26. Oral tumors - Nagy Ákos Károly
  • 27. Anatomy of temporo-mandibular joint. Pathways of articulation. Mastication, swallow - Nagy Ákos Károly
  • 28. Basic research methods and application of results in dental practice - Nagy Ákos Károly

Practices

Seminars

  • 1. Morphology and functional anatomy of the chewing organ. - Nagy Ákos Károly
  • 2. Salivary Glands Saliva production - Nagy Ákos Károly
  • 3. Saliva as a diagnostical fluid - Nagy Ákos Károly
  • 4. Salivary proteins in caries development, caries prevention - Nagy Ákos Károly
  • 5. Oral clearance - Nagy Ákos Károly
  • 6. Dental hard tissues - Nagy Ákos Károly
  • 7. Tissue regeneration in dentistry, molecular biological backround - Nagy Ákos Károly
  • 8. Specific and non specific oral defense - Nagy Ákos Károly
  • 9. Midterm - Nagy Ákos Károly
  • 10. Oral microorganisms. Plaque, like a biofilm. Biochemistry of plaque. - Nagy Ákos Károly
  • 11. Bleeding disorders - Nagy Ákos Károly
  • 12. Inflammation - Nagy Ákos Károly
  • 13. Oral tumors - Nagy Ákos Károly
  • 14. Basic research methods and application of results in dental practice - Nagy Ákos Károly

Reading material

Obligatory literature

Literature developed by the Department

Hand-outs

Notes

Recommended literature

Ferguson DB: Oral Bioscience, ISBN 0443053731

Conditions for acceptance of the semester

Attending the classes, according to the rules of the Code of Rules and regulations.

Mid-term exams

Oral exam. A score system is used for the acceptance of practices. The score system is demonstrated on the first practice.

9th week: MIDTERM TEST theory and practice.

Making up for missed classes

Not possible.

Exam topics/questions

1. Development of teeth

2. Process of mineralization

3. Osteogenesis

4. Process of bone resorption.

5. Amelogenesis

6. Dentinogenesis

7. Cementogenesis.

8. Histology and function of parodontal ligaments.

9. Crystal-structure of bioapatites.

10. Fluoride metabolism. Effect of fluorides on tooth structure.

11. Eruption of teeth. Movement of teeth.

12. Development and structure of pulp.

13. Oral sensation. Pain. Decreasing of stimulus-threshold.

14. Sense of taste. Smelling.

15. Ionizing radiation. Radio-Osseo-Necrosis.

16. Effect of diet on oral tissues. Effect of age.

17. Systematic diseases, medicines in dental practice.

18. Structure of oral soft tissues. Gingival sulcus.

19. Anatomy of temporo-mandibular joint.

20. Pathways of articulation. Mastication, swallow.

21. Saliva-production and physiology.

22. Role of saliva proteins and peptides in caries development and protection.

23. Bone regeneration, osseointegration.

24. Inflammation

25. Specific and aspecific oral protection.

26. Development of the dental plaque.

27. Plaque, like a biofilm. Biochemistry of plaque.

28. Basic research methods and application of results in dental practice.

29. Oral clearance

Examiners

  • Nagy Ákos Károly
  • Turzó Kinga Mónika

Instructor / tutor of practices and seminars

  • Nagy Ákos Károly