INTRODUCTION
Fishborne trematode (FBT) infections affect the health of more than 18 million people around the world, particularly in Asian countries. These flukes provoke remarkable morbidity and cause serious damage to aquaculture in developing countries [
1,
2]. The liver flukes,
Clonorchis sinensis and
Opisthorchis spp., have been known as the representative FBT. Many species of intestinal flukes, mainly belonging to the family Heterophyidae and Echinostomatidae are also infected by eating raw fish [
2].
In the Republic of Korea, many species of FBT including
C. sinensis have been reported.
C. sinensis is still prevalent in riverside areas and is the most important helminth species of public health importance. About 10 species of the Heterophyidae and 3 of the Echinostomatidae have been reported as the intestinal flukes infected by eating raw fish meat [
3-
6]. On the other hand,
C. sinensis infections are found in 22 out of 30 PRM (Province/Autonomous Region/Municipality) in China. Especially, prevalences in 4 provinces, Guangdong, Guangxi, Anhui and Heilongjiang, are much higher than those of the other regions [
7-
9]. As the intestinal FBT, 8 species of the Heterophyidae (
Metagonimus yokogawai,
M. takahashii,
Stellantchasmus falcatus,
Centrocestus formosanus,
Haplorchis pumilio,
H. taichui, and
H. yokogawai) and 5 species of the Echinostomatidae (
Echinostoma angustitestis,
Echinochasmus japonicus,
E. perfoliatus,
E. liliputanus, and
E. fujianensis) are distributed in China [
10].
Guangxi Zhuang Autonomous Region (GZAR) locates in the southern part of China, on the subtropical zone and its southwest area contact with Vietnam. This province has many minority people. They have some different food habit. Some monority people like to eat raw fish and easily infect with FBT. Furthermore, they have engaged in aquaculture in the fishponds with latrines that contribute as an important source of contamination [
11]. It has been revealed that many minority peoples are infected with FBT including
C. sinensis in GZAR, China [
11]. However, the major source of infection has not yet been obvious. Therefore, we performed epidemiological surveys to know the second intermediate hosts and the infection status of FBT metacercariae in freshwater fish from 5 administrative regions of GZAR, China.
DISCUSSION
World Health Organization (WHO) estimated that more than 18 million people are infected with fishborne trematodes (FBT), and more than half of billion people are at risk of FBT infections around the world [
1,
13]. FBT infections are classified as zoonoses because they are viewed as animal diseases transmitted to human. Some infections appear to be rare while others are common and cause serious disease. It has been known that liver flukes,
C. sinensis and
Opisthorchis spp., and some groups of intestinal flukes are representative FBT, and they are mainly infected by eating raw meat of freshwater and estuarine fish in low- and middle-income countries. On the other hand, it has been revealed that so many peoples are infected with FBT including
C. sinensis in GZAR, China by the work of "Korea-China Collaborative Project of Control Strategies for Helminthiasis" [
11]. However, it has not been obvious that what kinds of fish play a role of second intermediate host of FBT in this area. Therefore, present study was performed to investigate the infection status of FBT metacercariae in freshwater fish from GZAR, China.
Through this study, it was confirmed that some species of FBT metacercariae are prevalent in freshwater fish from GZAR, China. Especially, four species of intestinal flukes,
H. taichui,
H. pumilio,
M. yokogawai and
C. formosanus, were prevalent in fish hosts while
C. sinensis metacercariae were detected from only 3 species of fish. Besides aforementioned 5 species,
E. perfoliatus and
M. taiwanensis metacercariae were also found in this study. Moreover, it was proved for the first time that 4 trematode species,
H. pumilio,
M. yokogawai,
E. perfoliatus and
M. taiwanensis, are distributed in GZAR, China [
10].
About 70 species belonging to the 14 families, i.e., Heterophyidae, Echinostomatidae, Plagiorchiidae, Lecithodendriidae, Neodiplostomidae, Nanophyetidae, Paramphistomatidae, Cathaemaciidae, Fasciolidae, Gastrodiscidae, Gymnophallidae, Microphallidae, Strigeidae and Brachylaimidae, have been found in the intestinal tract of humans around the world. Among members in these families, it has been known that Heterophyidae and Echinostomatidae are the major groups [
14]. In China, it has been revealed that
Fasciolopsis buski is most important intestinal fluke by the prevalence and morbidity, and 8 species of Heterophyidae (
M. yokogawai,
M. takahashii,
Stellantchasmus falcatus,
C. formosanus,
H. pumilio,
H. taichui and
Haplorchis yokogawai) and 5 species of Echinostomatidae (
Echinostoma angustitestis,
Echinochasmus japonicus,
E. perfoliatus,
Echinochasmus liliputanus and
Echinochasmus fujianensis) are reported as the intestinal FBT [
10].
H. taichui metacercariae have been recorded in fish from several Asian countries, i.e. India, Thailand, the Philippines, Lao PDR and China [
10,
15-
20]. They were detected in 4 fish species,
Cirrhinus reba (=
Labeo ariza),
Amblypharyngodon mola,
Labeo bata, and
Puntius sophore, in India, 3 fish species,
Puntius binotatus,
Puntius palata (=
Spratellicypris palata), and
Ophicephalus striatus (=
Channa striata), in the Philippines, 3 fish species,
Barbonymus gonionotus,
Puntius brevis, and
Puntius orphoides, in Thailand, 11 fish species,
Hampala dispar,
Hampala macrolepidota,
B. gonionotus,
Mystacoleucus maginatus,
P. brevis,
Puntioplites falcifer,
Cyclocheilchthys armatus,
Cyclocheilchthys repasson,
Onychostoma elongatum,
Labiobarbus leptocheila, and
Cirrhnus molitorella, in Lao PDR, and 7 fish species,
Carassius auratus,
Cyprinus carpio,
Ctenopharyngodon idella,
Pseudorasbora parva,
Gambusia affinis,
Rhodeus ocellatus and
Puntius binotatus, in China [
10,
15-
20]. In the present study,
H. taichui metacercariae were detected in 15 fish species including 3 susceptible ones such as,
H. leucisculus,
C. carpio and
T. houdemeri. Moreover, it was confirmed that 14 fish species,
H. molitrix,
H. maculatus,
T. houdemeri,
P. dispar,
O. bidens,
S. argentatus,
A. rivularis,
P. semifasciolatus,
H. leucisculus,
C. recurviceps,
S. dabryi,
M. lineata and
C. dabryi, are recorded as new second intermediate hosts of
H. taichui in the literature. On the other hand, it had been known that
H. taichui is distributed in only Taiwan, China. However,
H. taichui adults were collected from residents of GZAR, China after praziquantel treatment and magnesium salt purgation by the work of "Korea-China Collaborative Project of Control Strategies for Helminthiasis" [
11].
Distribution of
H. pumilio has been recorded in Guangdong and Fujian Provinces and Taiwan, China [
9]. However, it has been confirmed by this study that
H. pumilio is distributed in GZAR also. Seventeen fish species except
P. parva,
i.e.,
C. auratus,
A. tonkinensis,
H. maculates,
H. molitrix,
H. leucisculus,
C. idella,
T. houdemeri,
M. fukiensis,
P. dispar,
O. bidens,
S. argentatus,
M. lineata,
C. carpio,
P. semifasciolatus,
S. dabryi,
C. recurviceps and
C. dabryi are listed as the new second intermediate hosts of this fluke in China. On the other hand, it has been reported that the prevalence of
H. pumilio is 0.5% in Zhangzhou of Fujian Province by the special processing way of fish dish [
10]. Many human cases by this fluke may be present in GZAR also because of many residents like to eat raw fish and they can easily infect with FBT.
C. formosanus has been reported in Guangdong, Fujian, GZAR, and Taiwan, and 8 fish species,
Anabas testudineus,
Channa formosana,
Clarias fuscus,
Macropodus opercularis,
G. affinis,
C. autatus,
C. carpio,
C. idella, have been recorded as the second intermediate hosts of this fluke in China [
10]. In the present study, 10 fish species including susceptible
M. fukiensis were revealed to be the second intermediate host or the source of infection of
C. formosanus. Among them, 9 fish species,
M. fukiensis,
A. tonkinensis,
S. argentatus,
H. molitrix,
A. rivularis,
H. leucisculus,
M. lineate,
S. dabryi and
P. parva, were added as new second intermediate hosts for
C. formosanus in China. Recently, metacercariae of this fluke were detected in some fish species, i.e.,
Esomus longimanus,
P. brevis,
C. repasson,
O. hasseltii, and
C. molitorella, from Lao PDR [
15,
20,
21].
In China, 2
Metagonimus species,
M. yokogawai and
M. takahashii, have been reported.
M. yokogawai has been distributed in Taiwan, Guangdong, Anhui, Hubei and Zhejiang, while
M. takahashii has been reported in Anhui Province only. Twelve fish species,
Abramis brama,
Abramis ballerus (=
Ballerus ballerus),
Aspius aspius,
Blicca bjoerkna,
Carassius carassius,
Chondrostoma nasus,
Hemibarbus labeo,
Leuciscus idus,
Pelecus cultratus,
Pseudobagrus fulvidraco (=
Pelteobagrus fulvidraco),
T. hakonensis and
Zacco platypus, have been recorded as the second intermediate hosts of
M. yokogawai in China [
9]. In the present study,
M. yokogawai metacercariae were detected in 18 fish species from Yangshou county, and only one fish species,
Hemibarbus maculatus, from a market in Nanning, GZAR. Among them,16 fish species,
Acrossocheilus hemispinus,
Discogobio tetrabarbatus,
H. maculates,
Puntius semifasciolatus,
Sinibrama macrops,
Acheilognathus tonkinensis,
Abbottina rivularis,
Pseudogobio esocinus,
C. auratus,
Coreoperca whiteheadi,
Opsariichthys bidens,
Squalidus wolterstorffi,
C. carpio,
Ancherythroculter lini,
Pseudohemiculter dispar and Hemiculter leucisculus, were newly recorded as the second intermediate host of
M. yokogawai in China.
Morphologically, adults of
Metagonimus sp. recovered from experimentally infected animals with metacercariae, which collected in fish from Yangshou county, were identical with those of
M. yokogawai except the size of eggs. They have the larger ventral sucker, deviated to right side, than oral sucker, and the uterine loop passes through anterior border of both testes, whereas it courses between both testes in
M. takahashii and
M. miyatai. Their eggs, 25.4 × 15.6 µm in average size, were somewhat smaller than those of 3
Metagonimus species in Korea and Japan [
22]. Biologically, the host specificity of this fluke relatively low when it is compared with those of 3
Metagonimus species, i.e.
M. yokogawai,
M. takahashii and
M. miyatai, distributed in Korea [
22]. As their fish intermediate hosts,
Plecoglossus altivelis,
Tribolodon hakonensis,
T. taczanowskii and
Lateolabrax japonicus for
M. yokogawai,
C. carpio and
C. auratus for
M. takahashii,
Zacco platypus and
Z. temmincki for
M. miyatai have been reported in Korea [
23,
24].
C. sinensis infections are distributed in 22 out of 30 PRM (Province/Autonomous Region/Municipality) in China. In a nationwide survey, the prevalence was 0.4% among about 1.5 million people examined. Especially, the prevalence in Guangxi (1.39%), with those in Guangdong (2.09%), Anhui (1.37%) and Heilongjiang (1.19%), was much higher than those of the other regions. Based on data of nationwide survey, the number of clonorchiasis patients in China may be about 6 million [
7-
9]. On the other hand, as the second intermediate hosts of
C. sinensis, 102 fish species in 59 genera 15 families have been reported in China including Taiwan [
9]. However, metacercariae of
C. sinensis were detected in only 3 fish species,
H. maculatus,
C. dabryi and
H. leucisculus, in this study. Moreover, their infection rates and intensities were very low.