Warning: mkdir(): Permission denied in /home/virtual/lib/view_data.php on line 81

Warning: fopen(upload/ip_log/ip_log_2024-11.txt): failed to open stream: No such file or directory in /home/virtual/lib/view_data.php on line 83

Warning: fwrite() expects parameter 1 to be resource, boolean given in /home/virtual/lib/view_data.php on line 84
An epidemiological study of human paragonimiasis by means of micro-ELISA
| Home | E-Submission | Sitemap | Contact us |  
top_img
Korean J Parasito Search

CLOSE

Korean J Parasito > Volume 21(2):1983 > Article

Original Article
Korean J Parasitol. 1983 Dec;21(2):246-256. Korean.
Published online Mar 20, 1994.  http://dx.doi.org/10.3347/kjp.1983.21.2.246
Copyright © 1983 by The Korean Society for Parasitology
An epidemiological study of human paragonimiasis by means of micro-ELISA
Seung-Yull Cho,Dong-Keun Lee,Shin-Yong Kang and Suk-Il Kim
Department of Parasitology, College of Medicine, Chung-Ang University, Seoul 151, Korea.
Abstract

As epidemiological parameters of human paragonimiasis, the positive rates of intradermal test and the sputum/stool examination have long been employed in population surveys. However, both the specificity of the intradermal test and the sensitivity of sputum/stool examination have been gradually declined as the endemicity was lowered; thus the gap between above two parameters widened. In such context, the development of a new epidemiological parameter or tool which makes it possible to accurately discriminate the active paragonimiasis cases was necessary.

In the present study, the detection rate of Paragonimus-specific IgG antibody by micro-ELISA was evaluated as an indicator of epidemiologic status of human paragonimiasis in a population.

A total of 4,285 students and inhabitants living in Bukpyeong Myeon and Bukil Myeon, Haenam Gun, Jeonlanam Do was surveyed in October 1983 by intradermal test first. Out of them, 244 case (5.7 percent) were found positively reacted to VBS antigen of P. wetermani. Out of 168 positive reactors, 7 cases (4.2 percent) were egg positive either by two times of sputum examination or by one stool examination. That indicated that only 0.16 percent of total surveyed were confirmed as active paragonimiasis by egg detection.

When sera collected from 239 positive reactors of intradermal test were tested by micro-ELISA for their specific IgG antibody, 40 cases (16.7 percent) were found to be positive. All of 7 eggs positive cases were again positive for specific IgG antibody. Among remaining 232 intradermal test positive cases, 33 cases were positive for IgG antibody. In contrast to those, none of 42 positive reactors to intradermal test for Clonorchis and of 128 intradermal test negative cases showed positive for Paragonimus-specific IgG antibody.

The rate of specific IgG antibody as detected by micro-ELISA appeared to be increased with the wheal size of the intradermal test. When the wheal size was over 13 mm in diameter, about 50 percent of them were positive for specific IgG antibody.

Thirty-one specific antibody positive cases were clinically evaluated by laboratory examinations (repeated sputum examination, peripheral eosinophil count and chest roentgenogram) and by history taking. Out of them 24 cases were associated with one or more positive laboratory findings; thus considered as active paragonimiasis cases. Out of 7 lab. finding-free cases 3 revealed past history of typical paragonimiasis symptoms, suggesting that they were in chronic or in convalescent stages. The remaining 4 cases were considered as either mild or ectopic infection cases; the possibility of cross-reaction with other helminthiases could not be ruled out.

From the above results, it was inferred that the detection of Paragonimus-specific IgG antibogy by micro-ELISA was very much helpful in detecting the active cases as well as in proper evaluation of the endemicity of human paragonimiasis in a population. The convenience of mass handling of sera in micro-ELISA was considered another superiority as an epidemiologic tool.

Figures


Fig. 1
The relationship between the wheal size of intradermal test and the level of Paragonimus-specific IgG antibody as tevealed by the absorbance of micro-ELISA. Open circle(○) indicated either one egg-negative or sputum examination was not done. Closed circle(●) indicated one egg-positive case. ⦿ indicated one egg-positive case found at repeated sputum examination.


Fig. 2
The relationship between the level of specific antibody as revealed by the absorbance in two sera samples of each case; one by filter paper sample and serum sample.


Fig. 3
The relationship between the level of specific antibody and the clinical and laboratory findings of antibody positive cases. Association of at least one positive laboratory finding was considered active paragonimiasis in this paper.

□: Chest lesion ○: Egg(+) △: Eosinophilia ⨅: With history ●: No history



Fig. 4
A map showing the distribution of Paragonimus specific IgG antibody positive cases as shown by village. The number in rectangle indicated the cases found in the village.


Fig. 5
The positive rates of intradermal test, and of specific antibody by micro-ELISA, shown by age group. However the ratio, micro-ELISA/intradermal test, was lower in older age group.

Tables


Table 1
Positive rates of intradermal tests for Paragonimus and Clonorchis


Table 2
Results of sputum examination for eggs and serologic test by micro-ELISA for diagnosis of paragonimiasis


Table 3
Evaluation of Paragonimus-specific IgG antibody test (by micro-ELISA) in different groups of intradermal test reactors


Table 4
Relationship between the wheal size of intradermal test for Paragonimus and the positive reaction by micro-ELISA


Table 5
Comparison of two sputum examinations for Paragonimus eggs undertaken two month interval in 33 serologically positive cases by micro-ELISA


Table 6
Findings of chest X-ray films in 31 serologically positive cases by micro-ELISA when analysed by the result of egg examination


Table 7
Cases of eosinophilia of peripheral blood in 31 serologically positive cases


Table 8
Frequency of subjective symptoms in 31 serologically positive cases by micro-ELISA when analysed by the result of egg examination


Table 9
Positive rates of intradermal test for Paragonimus, sputum examination and serologic test by micro-ELISA in surveyed population analyzed by age

References
1. Cho SY, Hong ST, Rho YH, Choi SY, Han YC. Application of micro-ELISA in serodiagnosis of Human paragonimiasis. Korean J Parasitol 1981;19(2):151–156.
 
2. Choi DW, Hwang JT. Epidemiological study of Paragonimus westermani in Wiseong County, Kyungpook Province, Korea. Korean J Parasitol 1980;18(2):229–234.
 
3. Rim HJ, Chang YS, Lee JS, Joo KH, Suh WH, Tsuji M. Clinical Evaluation Of Praziquantel(Embay 8440; Biltricide(R)) In The Treatment Of Paragonimus Westermani. Korean J Parasitol 1981;19(1):27–37.
 
4. Rim HJ, Lee JS, Chung HS, Hyun I, Jung KH. [Epidemiological survey on paragonimiasis in Kang Hwa Gun]. Korean J Parasitol 1975;13(2):139–151.
 
5. Walton BC, et al. Bull Wld Hlth Org 1959;21:721–726.
6. Yokogawa M, et al. Japanese J Parasit 1962;11:117–122.
Editorial Office
Department of Molecular Parasitology, Samsung Medical Center, School of Medicine, Sungkyunkwan University,
2066 Seobu-ro, Jangan-gu, Suwon 16419, Gyeonggi-do, Korea.
Tel: +82-31-299-6251   FAX: +82-1-299-6269   E-mail: kjp.editor@gmail.com
About |  Browse Articles |  Current Issue |  For Authors and Reviewers
Copyright © 2024 by The Korean Society for Parasitology and Tropical Medicine.     Developed in M2PI