Analysis of Age-related Distribution of the Tracheal Diameter and Cross-sectional Area Among Koreans: Compuerized Tomographic Measurement.
- Author:
Kun LEE
1
;
Dae Sik KIM
;
Seung Chul MOON
;
Won Mo GOO
;
Jin Young YANG
;
Hun Jae LEE
;
Chang Young LIM
;
Hun HAN
;
Kwang Ho KIM
;
Kyung SUN
Author Information
1. Department of Thoracic and Cardiovascular Surgery, Heart Center, Pundang CHA General Hospital, Pochon CHA University.
- Publication Type:Original Article
- Keywords:
Trachea;
Diameter;
Age factor;
Tomogram, X-ray, computed
- MeSH:
Age Factors;
Child, Preschool;
Female;
Humans;
Lung Diseases, Obstructive;
Male;
Pathology;
Retrospective Studies;
Thorax;
Trachea;
Tracheal Diseases
- From:The Korean Journal of Thoracic and Cardiovascular Surgery
1999;32(5):442-447
- CountryRepublic of Korea
- Language:Korean
-
Abstract:
INTRODUCTION: Understanding the normal distribution of the tracheal diameter and crross- sectional area is one of the key elements in the management of various tracheal pathologies or tracheal reconstruction for the patients in growing age. However, data for Korean standard has been lacking. This study was designed to analyze retrospectively the distribution of tracheal diameter and cross-sectional area in young Koreans, which can afford fundamental data for the management of tracheal diseases. MATERIAL AND METHOD: Of the patients who underwent computerized tomogram of the chest between May 1996 and August 1998, one hundred six young patients(age range: 0-20 years) were included. Patients with any conditions which might affect the tracheal cross-sectional area or diameter, such as tracheal disease, previous operation, mediastinal tumor, or obstructive lung disease were excluded from the study. Gender distribution was 69 males and 37 females. Tracheal diameters, anterior-posterior and transverse, were measured at the level of the thoracic inlet(level I) and the aortic arch(level II). Types of the trachea were divided into round, oval, or horseshoe shaped on cross-sectional view, and the dimension was calculated by using the equation of A=1/4(pi)ab(A; area, (pi); 3.14, a; anterior-posterior diameter, b; transverse diameter). We analyzed the distribution of the diameter at each level and compared the cross-sectional area with respect to age and gender. A p-value lower than 0.05 wa considered significant. RESULT: The trachea of patients less than 5 years old were round in shape at both of level I and II, and no differences in cross-sectional area was observed between the levels(p=NS). As the age increased, the trachea become oval in shape at level I while it remained round in shape at level II(p=0.020). The tracheal diameter and cross-sectional area increased as the age increased with a linear correlation(r>0.9). In patients less than 5 years of age, female patients showed larger cross-sectional area than male patients (p=0.020), and it was reversed in patients older than 15 years of age(p=0.002). CONCLUSION: From the above results, we suggest chest computerized tomogram as a safe and reliable tool in measuring the tracheal diameter and cross-sectional area. We also provide the data as a standard for distribution of the tracheal diameter and cross-sectional area in young Korean population.
