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World J Gastroenterol. Feb 14, 2010; 16(6): 698-702
Published online Feb 14, 2010. doi: 10.3748/wjg.v16.i6.698
Capillaria hepatica in China
Chao-Ding Li, Hui-Lin Yang, Ying Wang
Chao-Ding Li, Hui-Lin Yang, Department of Orthopedics, First Affiliated Hospital of Soochow University, Soochow 215006, Jiangsu Province, China
Ying Wang, Department of Hematology, First Affiliated Hospital of Soochow University, Soochow 215006, Jiangsu Province, China
Author contributions: Li CD, Yang HL and Wang Y all contributed to this paper.
Correspondence to: Hui-Lin Yang, Professor, Department of Orthopedics, First Affiliated Hospital of Soochow University, Soochow 215006, Jiangsu Province, China.
Telephone: +86-512-67780429 Fax: +86-512-67780999
Received: October 11, 2009
Revised: December 9, 2009
Accepted: December 16, 2009
Published online: February 14, 2010


Capillaria hepatica (C. hepatica) is a parasitic nematode causing hepatic capillariasis in numerous mammals. Ecologic studies showed that the first hosts of C. hepatica were rodents, among which rats had relatively high infection rates, which explains why C. hepatica spreads globally. Anatomical studies showed that the liver was the principal site of colonization by these parasites and physical damage tended to occur. Although C. hepatica might lead to serious liver disorders, relevant clinical reports were rare, because of the non-specific nature of clinical symptoms, leading to misdiagnosis. This review mainly focuses on the biological characteristics and epidemiology of C. hepatica in China and histopathologic changes in the liver, with expectation of gaining a better understanding of the disease and seeking more effective treatment.

Key Words: Capillaria hepatica, Enoplida infections, Liver diseases, Host-parasite interactions, Diagnosis, Treatment


Capillaria hepatica (C. hepatica) is a nematode parasite of wild rodents and other mammals and has worldwide distribution[1-8]. Adult worms colonize the liver of the host[6,9-11]. They can cause hepatica capillariasis, a serious liver disorder, which may be found both in humans and animals[11-14]. These parasites could be accidentally transmitted to humans by ingestion of embryonated eggs. Up to the year 2000, 37 cases of human infections had been documented[15]. However, there are few reports of the pathology of the infection, which results in serious effects in subjects because of the special anatomic area in which C. hepatica congregates. Clinical symptoms of hepatica capillariasis were non-specific with manifestations of persistent fever, hepatomegaly, eosinophilia and, more seriously, death.


A typical adult C. hepatica takes the shape of a slender nematode, with the anterior part of the body narrow, and the posterior part gradually swelling. The females measure about 53-78 mm × 0.11-0.20 mm, but males are approximately 24-37 mm × 0.07-0.10 mm. The esophagus is long, occupying half of the body of the female and a third of the male body. The cauda of C. hepatica bears a copulatory spicule and sheath. The eggs of C. hepatica resemble those of Trichuris trichiura, but differ in size. The C. hepatica egg is about 48-66 μm × 28-36 μm, and numerous minipores can be seen in the outer shell[16].

Biological features

C. hepatica parasites live in liver parenchyma, where they become biologically mature, then lay eggs in this site. Eggs are immature when produced in the first 4 wk, and these eggs will develop into larvae under favorable conditions of appropriate temperature and moisture. When embryonated, eggs can be ingested by a predator, their larvae then hatch and invade the intestinal mucosa, transporting themselves via the mesenteric vein and portal vein to the liver. The first ecdysis takes place 3-4 d after their arrival in the liver, followed by the second, third (5-7 d) and fourth (9-16 d) larval stages. In the fourth stage, sexual differentiation starts. After sexual differentiation (male, 18 d; female, 20 d), they will experience their final ecdysis and become fifth-stage larvae. The life-span of the female lasts about 59 d, with 40 d for males[17]. It is worthy of note that eggs produced by females in the liver are metabolically active for a prolonged period of time, but remain immature. The host which has ingested these immature eggs displays a “spurious infection”. In contrast, “true infection” occurs when the host ingests embryonated eggs, which will result in the production of larvae that can invade the intestine wall and lead to hepatica capillariasis.

Epidemiology in the human population

Reports of the 37 cases of hepatica capillariasis indicate they were scattered predominantly in Japan, India, America, Canada, Brazil, Germany, Italy, Korea and Czechoslovakia[15,18-26]. While only 3 cases of “true infection” had been confirmed in China[27-29], those few cases found in China do not necessarily encompass the overall actual morbidity, as the final diagnosis would have to rely on biopsy or necropsy[30,31], so both the rate of misdiagnosis and missed diagnosis could be higher. Table 1 shows the 3 cases with detailed clinical symptoms.

Table 1 Three cases of hepatica capillariasis in China.
ReporterDateArea in ChinaDiagnostic basis
Bing-Kun Xu[27]1979Guangdong ProvinceCapillaria hepatica (C. hepatica) detected by liver biopsy
Xi-Meng Lin[28]2003Tangzhuang, Xinxiang CityPersistent fever (40°C), hepatomegaly eosinophilia, and adult C. hepatica detected by liver biopsy
Jia-Nin Huang[29]2003Fuzhou City, Fujian ProvincePersistent fever, anemia, hepatomegaly, eosinophilia, and eggs detected by liver biopsy
Epidemiology in the animal population

The chief hosts of C. hepatica are various rodents, including more than 70 species, and the principal hosts include Tamias striatus, squirrel, mole, shrew, opossum, weasel and skunk[32]. In mainland China, the total infection rate of hepatica capillariasis in rodent species ranges widely. Table 2 highlights the infection rate in distinct areas with different rodent species[33-41].

Table 2 Infection rate in distinct areas with different rodent species.
ReporterDateArea in ChinaInvestigated speciesInfection rate (%)
Zhou et al[33]1990Wuhan City, Hubei ProvinceNorway rat61.90
Rattus flavipectus61.90
Mus musculus19.10
Liu et al[40]1997Shandong ProvinceVarious rodent species including those of rodent-shaped animals27.36 (Norway rat dominant)
Zhou et al[34]1998Kunming City, Yunnan ProvinceNorway rat66.67
Yellow breasted rat65.13
Mus musculus21.11
Yuan et al[36]1998Ningde City, Fujian ProvinceChestnut rat55.56
Norway rat66.67
Rattus flavipectus44.33
Rattus losea38.94
Rattus confucianus30.00
Xue et al[37]1998Fuqing City, Fujian ProvinceRattus flavipectus13.11
Norway rat12.34
Mus musculus4.59
Zhang et al[35]2002Jiangle Location, Fujian ProvinceNorway rat46.15
Rattus flavipectus66.67
Shen et al[39]2003Dali City, Yunnan ProvinceCommensal Mus76.83
Norway rat77.01
Rattus flavipectus77.46
Wild Mus4.47
Rattus rattus sladerni38.81
Lin et al[41]2007Henan ProvinceNorway rat25.83
Rattus flavipectus12.90
Mus musculus10.00
Tung et al[38]2009TaichungVarious species of rodents49.50

C. hepatica primarily invade the sinus hepaticus, where they experience maturation and egg-laying. Both the worms and their eggs cause focal chronic inflammation in the liver, and around these worms and eggs appear diverse inflammatory cells, including macrophages, eosinophils, and some multinucleate giant cells. Inflammatory infiltration may persist until the final formation of encapsulation or calcification of dead worms. After the focal parasitic necroinflammatory lesions, septal fibrosis occurs. Although the pathological course of the formation of fibrosis has not been well established, it was speculated that the slow and continuous release of disintegrated products from encapsulated parasitic lesions activated the Kupffer cells, which then promoted the development of fibrosis in the liver[42]. Whether there is a relationship between the focal parasitic hepatic lesions and septal fibrosis remain to be resolved. In the experiment of Gomes et al[12], rats were first infected with 600 embryonated eggs, and then injected with a corticoid and C. hepatica antigen. After treatment, focal inflammation ceased, but there was no evident alteration in the formation of septal fibrosis. These findings indicated that, although focal lesions and septal fibrosis were both caused by C. hepatica infection, they played different roles in the pathological course of the infection. Further studies should be conducted to explore the pathological course of hepatic fibrosis.


Hepatica capillariasis is an exceptionally rare infection in humans with non-specific clinical manifestations, and frequent misdiagnoses have been made[43]. More importantly, the main difficulties interfering with correct diagnosis were related to the unique biological characteristics of the parasite. Apart from those cases of “spurious infection”, both worms and eggs could not be detected in the peripheral blood and stools of infected hosts, so routine laboratory tests of blood and stools invariably showed negative results. Although liver biopsy was a precise and quick method in confirming C. hepatica infection, it was not the most appropriate one, as biopsy was a traumatic diagnostic approach. With introduction of immuno-techniques, the detection of C. hepatica became more convenient and efficient. Assis and colleagues[12] employed an indirect immunofluorescence test to diagnose hepatica capillariasis successfully. Huang et al[44] developed a diagnostic test for experimental rat hepatica capillariasis using an enzyme-linked immunosorbent assay, with high sensitivity and specificity, which was specific for C. hepatica infection. The tests described above have been considered practical, reliable and sensitive. A sensitive immunological test is useful for particular clinical situations, but it is essential to take account of the epidemiological surveys in local areas, which may help lead to a more comprehensive diagnosis.

The differential diagnosis should include accidental tissue infection by nematodes, including Toxocara cati, Toxocara canis, Fasciola hepatica, and Schistosoma japonicum, hepatitis B virus, hepatitis C virus and visceral larva migrants[45-48].


Pereira et al[30] reported a case of hepatica capillariasis in Brazil where the male subject with massive C. hepatica infection survived after treatment with prednisone, disophenol, and pyrantel tartrate. Thanks to marked eosinophilia in the peripheral blood and hepatic lesions, the patient underwent initial therapy with prednisone (60 mg/d) for a session of 10 d and sequential maintenance by 10 mg every other 10 d. To kill the parasites, or at least to prevent the production of eggs, the patient was treated with disophenol (2-6-diiodo-4-nitrophenol) intramuscularly in a single dose of 7.5 mg/kg body weight and with pyrantel tartrate orally in a single dose of 30 mg/kg body weight. Three years after the treatment, a needle biopsy of the liver, showed sparse portal fibrosis but it was otherwise normal, and the patient remained well during an 8-year follow-up. Also, medication with albendazole was generally effective[31].

Other than chemical treatment, partial hepatectomy or some distinct surgical intervention proved therapeutically effective in animal experiments in rats. The results revealed morphologically that the fibrosis was unaffected, but its relative quantity within the microscopic field appeared significantly decreased, as a consequence of the increased liver tissue mass following regeneration[49].


While prevalence of C. hepatica is dominant in rodents, other mammalian species showed slight resistance to this infection even in laboratory conditions. Yang et al[50] examined the predisposition to C. hepatica between rats and cats by injecting each animal with embryonated eggs at high density. The long-term investigation revealed that every rat became infected with C. hepatica, while, as was expected, the liver biopsy from cats showed negative results. To further confirm whether there were some differences between rats and mice in the course of the formation of hepatic fibrosis, Andrade et al[13] infected both rats and mice with embryonated eggs, and he found that, although rats and mice both had the same pathological changes in the first stage, there were distinct features in the development of hepatic fibrosis. Researching into the immunological mechanisms of hepatica capillariasis, Kim et al[51] measured cytokine mRNA expression in mice spleen cells and mesenteric lymph node cells. In the earlier stages, expression of T-helper, Th1 and Th2, cells were at a high level, as well as the expression of immunoglobulin G1 and G2. Expression in functional cells in the spleen was relatively higher than in mesenteric lymph node cells, which indicated that the spleen was the main location of the response to the infection rather than the mesenteric lymph node. With the density of egg production, expression of interferon-γ became stronger, suggesting that it had significant importance in the defense against infection.


C. hepatica can cause a serious liver disorder in its hosts including humans and animals. More simple and accurate diagnostic methods and more effective treatment measures need to be further developed. A better understanding of C. hepatica and hepatica capillariasis would help humans to better combat the disease.


Peer reviewer: Dr. Assy Nimer, Assistant Professor, Liver Unit, Ziv Medical Centre, Box 1008, Safed 13100, Israel

S- Editor Tian L L- Editor Cant MR E- Editor Lin YP

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