A QUALITATIVE AND QUANTITATIVE STUDY ON OCCLUSAL CONDITIONS IN HEALTH VOLUNTEERS AND ATHLETES WITH NORMAL OCCLUSION.
- Author:
Jung Mi JANG
1
;
Sung Bok LEE
Author Information
1. Department of Prosthodontics, School of Dentistry, Kyung Hee University, Korea.
- Publication Type:Original Article
- MeSH:
Aging;
Athletes*;
Female;
Football;
Gymnastics;
Healthy Volunteers;
Humans;
Ice;
Incisor;
Molar;
Silicones;
Tooth;
Volunteers*
- From:The Journal of Korean Academy of Prosthodontics
1998;36(2):302-322
- CountryRepublic of Korea
- Language:Korean
-
Abstract:
This study was accompolished to analyze and compare the number and area of the occlusal contact points in healthy volunteers and athletes with normal occlusion. For this study, 15 athletes(13 amles and 2 females with average age 20) and 21 healthy volunteers(14 mles and 7 females with average age 20.09) were selected. The visual display acquired by scanning of occlusal record in maximal intercuspation was converted into 16 gray value image. Then, using computer program (J &Lee Occlusal Analyser), the pixel which was in definite range of the gray value was recognized, and the numbers of recognized pixel were claculated to area. The results were as follows ; 1. The average numbers of total occlusal contact points were 31.05 in control group, and 34.67 in athlete group. The average area of total occlusal contacts was 100.25mm2in control group, and 127.78mm2in athlete group. 2. In control group, the average numbers of occlusal contact points were revealed in order as follows ; the first molar(8.48), the second molar(8.24), the second premolar(4.71), the lateral incisor(2.90), the first premor(2.43), the central incisor(2.19), and the canine(2.1). The least average in canine(2.1) was similar to the average(2.19) in central incisor and (2.09) in lateral incisor. In athlete group, the average numbers of occlusal contact points were revealed in order as follows ; the first molar(8.87), the second molar(8.47), the second premolar(5.60), the canine(3.80), the lateral incisor(3.33), the first premolar(2.67), and the central insicor(1.93). 3. In control group, the average areas of occlusal contact surface were revealed in order as follows ; the first molar(39.47mm2), the second molar(37.54mm2), the second premolar(9.54mm2) the first premolar(6.18mm2), canine(3.49mm2), the central incisor(3.7mm2), and the central incisor(2.25mm2). 4. With aging in both control and athlete group, there was a decreasing tendancy in average number of occlusal contact point, and was an increasing tendancy in average area of occlusal contact surface. In comparison at each age, both the numbers and area of occlusal contact were greater in athlete group than in control group. It was not significant in the numbers of occlusal contact points beween athlete and control group(p>0.1), but significant in the area of occlusal contact surface(p<0.05). 5. In comparision as to the kind of sports(Gymnastics : 2, Rugby : 3, Soccor : 5, Ice hocky : 5), the numbers of occlusal contact points were the most in ice hocky, and the area of occlusal contact surface was the greatest in gymnastics. With increasing a career in athlete group, there was a decreasing tendancy in average numbers of occiusal contact points and was an increasing tendancy in average area of occlusal contact surface. 6. By T-scan analyzing, the contact numbers on the anterior teeth were greater in control group than in athlete group, and on the posterior teeth were greater in athlete group than in control group. And the results acquired by T-scan were lesser than that caquired by the silicone bite records. It was not significant in the posterior teeth, but significant in the anterior teeth. In T-scan records, the numbers of occlusal contact points on second molar were the greatest, but in the silicone records, the numbers on first molar were the greatest.