- Open Access
Dynamics of HEV viremia, fecal shedding and its relationship with transaminases and antibody response in patients with sporadic acute hepatitis E
© Chandra et al; licensee BioMed Central Ltd. 2010
Received: 24 February 2010
Accepted: 6 September 2010
Published: 6 September 2010
There is paucity of data regarding duration of fecal excretion and viremia on sequential samples from individual patients and its correlation with serum transaminases and antibody responses in patients with acute hepatitis E. This prospective study was undertaken at a tertiary care center in Northern India over 15 months. Only those patients of sporadic acute hepatitis E who were in their first week of illness and followed up weekly for liver function tests, IgM anti HEV antibody and HEV RNA in sera and stool were included. HEV RNA was done by RT - nPCR using two pairs of primers from RdRp region of ORF 1 of the HEV genome.
Over a period of 15 months 60 patients met the inclusion criterion and were enrolled for the final analysis. The mean age of the patients was 29.2 ± 8.92 years, there were 39 males. The positivity of IgM anti HEV was 80% at diagnosis and 18.3% at 7th week, HEV RNA 85% at diagnosis and 6.6% at 7th week and fecal RNA 70% at the time of diagnosis and 20% at 4th week. The maximum duration of viremia detected was 42 days and fecal viral shedding was 28 days after the onset of illness.
Present study reported HEV RNA positivity in sera after normalization of transaminases. Fecal shedding was not seen beyond normalization of transaminases. However, viremia lasted beyond normalization of transaminases suggesting that liver injury is independent of viral replication.
Hepatitis E virus is the etiological agent of non-HAV enterically transmitted hepatitis and major cause of sporadic as well as epidemic hepatitis [1, 2]. In Indian subcontinent, it accounts for 30-60% of sporadic hepatitis [3, 4]. One distinct feature of hepatitis E, compared with other forms of viral hepatitis is its higher incidence and severity in pregnant woman . The overall mortality rate of hepatitis E is generally lower than 1% but it can be as high as 20-25% among pregnant women .
Being a disease of developing countries a fair amount of information has been generated from India. There is paucity of data regarding duration of fecal excretion and viremia on sequential multiple samples from individual patients and its relationship with serum transaminases and IgM antibody response. This information is vital for understanding pathogenesis and transmission dynamics of acute hepatitis E. The information is either from a human volunteer who ingested HEV  or a study , based predominantly on pooled data of single sample from different patients during HEV epidemics. Data on sequential samples obtained from individual patients is scant.
Two studies with relatively less number of patients have looked for viremia and fecal shedding at varying but not at regular intervals, the samples were collected as and when the patients attended the clinics but not at a fixed schedule [9, 10]. Only in a recent Chinese study, small number of patients (n = 32) were tested for viremia in a sequential manner but fecal shedding and IgM and anti-HEV were not studied . The present study has been undertaken where patients with sporadic acute viral hepatitis were prospectively evaluated for transaminases, HEV viremia, HEV fecal shedding, and IgM antibody in multiple series samples obtained from individual patients at weekly interval. Also, these parameters of acute hepatitis E were compared between pregnant and non-pregnant females.
Materials and methods
The present study was undertaken prospectively at a tertiary care center in Rajasthan, India. The study period extended from 1st Jan 2007 to 31st Jan 2008 over 13 months. The study was approved by the institutional ethics committee and informed written consent was taken from the patients. The diagnosis of acute hepatitis E was made on the basis of clinical presentation, raised transaminases and Bilirubin, and positive IgM anti HEV antibody and/or HEV RNA in sera. Only those patients of sporadic acute hepatitis E who were in their first week of illness, followed up weekly for liver function tests, IgM anti HEV antibody and HEV RNA for final analysis and those were failing these criteria excluded from the study. Patients with concomitant positive IgM anti HAV, IgM anti HBc or anti HCV (i.e. dual infection) and patients with underlying alcoholic liver disease were also excluded from the study.
Sample Collection and Handling
The patients were asked to follow up weekly intervals after the first visit. At each visit clinical sign and symptoms were noted. All events were measured with reference to day of the first symptoms. Serum and stool samples were collected, coded and stored at -80°C till processing. The stool and serum samples were obtained for subsequent two weeks after the clearance of virus from serum and stool to avoid any error and confirm the negativity.
Biochemical analyses that include serum Bilirubin, ALT, AST and serum alkaline phosphatase was done at each visit by automated analyzer in the central laboratory of the institute. Coded sera of patients and positive and negative controls were tested for IgM anti- HEV using commercially available kit (Globe diagnostic SRL, Italy).
For data management and statistical analysis, SPSS-10 software (SPSS Inc., Chicago, IL)was used. Baseline laboratory markers were expressed as mean values with standard deviation. Difference between pregnant and non-pregnant females with respect to various liver function tests, and duration of persistence of IgM anti-HEV, HEV viremia and HEV fecal RNA was calculated using the student t-test. P value of less than 0.05 was considered significant.
Over a period of thirteen months there were 60 patients met the inclusion criterion and were enrolled for the final analysis rest were excluded from the study because of lack of desired follow up. The mean age of the patients was 29.2 ± 8.92 years (range: 11 to 54 years) and there were 39 males and 21 females; there were 10 pregnant and 11 non-pregnant females. Five pregnant females were in third trimester, four in second trimester and one in first trimester. Three pregnant females developed acute liver failure, 3 developed miscarriages and 1 died (after completion of study in the 3rd month of illness), all pregnant females with complicated diseases were in the third trimester. Uncomplicated acute hepatitis E was seen in 44 patients and acute liver failure in 16 patients.
Weekly levels of various liver function tests
7.02 ± 3.5
961.5 ± 575.8
1145.1 ± 773
773 ± 643.5
6.69 ± 3.32
750 ± 717.6
746.1 ± 677.1
599.8 ± 521
5.97 ± 5.34
153.9 ± 130.4
253.3 ± 237.6
424.2 ± 265.8
4.91 ± 4.37
111.8 ± 67.67
147.2 ± 119
444.8 ± 346.5
2.98 ± 2.76
56.17 ± 30
73.47 ± 69
333.3 ± 318.8
1.2 ± 1.03
43.5 ± 16.3
45.5 ± 18
298.7 ± 276.37
0.96 ± 0.64
40.1 ± 21.08
40.8 ± 10.8
271.4 ± 235.6
Diagnosis of acute hepatitis E
There were thirteen patients with negative IgM anti HEV but positive HEV RNA. There were eight patients with positive IgM anti HEV and negative HEV RNA at presentation; rest 39 patients had positivity of both IgM anti HEV and HEV RNA.
Positivity of various markers of HEV infection
Positivity of IgM anti HEV, HEV RNA and fecal viral shedding in serial samples of patients with acute sporadic hepatitis E (N = 60)
IgM anti HEV
HEV RNA in sera
Fecal Viral shedding
Mean ALT activity was higher in sera collected 1-7 days and declined there after. This suggested that liver injury is highest during initial stages of infection. HEV RNA was detected in 86.7% sera collected during first seven days of illness when the ALT level was maximum.
Clinical parameter and pregnancy
Comparison of various liver function tests and persistence of various markers of HEV infection in pregnant and non-pregnant females
Pregnant females (N = 10)
Non-Pregnant females (N = 11)
S. bilirubin(mg %)
8.84 ± 2.23
7.518 ± 4.72
S. AST (IU)
1156.4 ± 183.04
925.81 ± 527.86
S. ALT (IU)
1295.3 ± 877.95
1272.53 ± 831.88
S. ALP (IU)
956.6 ± 511.51
1103 ± 814.77
36.1 ± 5.82
29.09 ± 5.87
18.4 ± 4.19
13.0 ± 3.72
IgM anti HEV†
40.1 ± 5.80
39.90 ± 4.86
Hepatitis E is an important etiological agent of epidemic and sporadic hepatitis associated with high morbidity and mortality in pregnant females. The pathogenesis and rate of transmission of hepatitis is not very clear. Information on the duration of IgM anti HEV, viremia and fecal shedding is very important to understand the transmission dynamics and pathogenesis of hepatitis E, but related data are particularly limited.
Therefore, the present study explained IgM anti HEV, viremia, fecal shedding and level of transminases in individual patient with acute sporadic hepatitis E. we were selected 60 patients who provided sequential samples for the study. The serial samples obtained from the individual patients were studied for IgM anti HEV and HEV RNA in sera and fecal matter weekly till disappearance of HEV. Two subsequent samples were tested to confirm persistent negativity for HEV RNA. This is in comparison to a recent study from China that studied serial samples (at around 5 day interval) in patients with acute hepatitis E and looked for HEV viremia . A study explained 26 patients with acute sporadic hepatitis E, the samples were collected as and when the patient came in contact with the author's for IgM anti HEV, HEV viremia and fecal shedding . Similar method of sample collection was reported in another study . Few studies based on a volunteer and single sample from patients are also available [7, 8].
In the present study diagnosis of acute hepatitis E was based on either IgM anti HEV or HEV-RNA positivity. Positivity of IgM anti HEV (78.3%) was less than the positivity for HEV-RNA (86.7%) thus indicating that HEV RNA may be slightly better indicator for ongoing HEV infection and hence its diagnosis. Even though HEV RNA was better than anti HEV for diagnosis of acute hepatitis, it cannot be a better test in routine, as RT-PCR is cumbersome and costly. However, in a setting of acute hepatitis if routine viral markers are negative, HEV RT-PCR may be the next useful tool of investigation.
In the present study 13/60 (21.6%) patients were positive for HEV- RNA but negative from week 1 onwards. Possible explanation for its negativity could be i.) low sensitivity of the ELISA test used  ii.) sequence variation among different genotypes  and iii.) a poor host immune response to HEV infection . Some patients were positive for IgM anti HEV but negative for HEV-RNA (13.3%), reason behind that the viremia is short lived and disappeared prior to development of icterus or early in 1st week of development of icterus and the variation of nucleotide sequence in the primary regions among different HEV strains could be as high as 28%, which may account for the difficulty in PCR amplification .
In present series IgM anti HEV, viremia and fecal shedding could be detected up to 49 days, 42 days and 28 days respectively after onset of illness. We have shown earlier IgM anti HEV was positive up to 45 days  and in another Indian study IgM anti HEV was positive up to 21-112 days after iceterus . A study from China on serial sample in 32 patients viremia was detected till 35 days after the onset of illness and in other group of randomly selected samples maximum duration of viremia was noted 51 days after the onset of illness . In another study viremia was lasted for a maximum period of 45 days after the onset of illness . In a human self inoculation study with hepatitis E virus, viremia was detected to last for 16 days . In another were single serum samples from patients with acute hepatitis E was collected, HEV-RNA was detected in 7% and 91% of serum sample collected on days 0-3 and 8-11 respectively; however, only two of the 11 serum samples obtained during days 27-41 tested positive . In an Indian study, fecal shedding was studied in only 4 patients, at varying intervals and lasted 9, 10, 12 and 52 days . Fecal shedding was detected less frequently than viremia. This finding is similar to earlier reports [8, 10, 17]. The reason for this remains unknown. Therefore, the present and previous reports suggest that detection of fecal viral shedding is a less desirable event for diagnostic approach than detection of viremia.
Till now there have been limited data including the present study that talks of protracted viremia. The concept of protracted viremia was first given by Nanda et al and reported four patients in whom viremia extended beyond the normalization of ALT; they concluded that these patients may act as short term reservoirs for propagation of sporadic hepatitis E . However, how they act as reservoir was not mentioned. Aggarwal R et al reported 1 case as protracted viremia and there were 4 such cases in the present study . Viremia that lasts beyond normalization of transaminases may suggest that liver injury is independent of viral replication. The exact importance of this concept is not known.
In the present study the duration of viremia, fecal shedding and mortality was significantly higher in pregnant females in comparison to non-pregnant females but duration of persistence of IgM antibodies and other liver function tests were not different. This data is not available in the literature to the best of our literature search. However, the number of patients in both the groups was small and would need further research on large number of patients to reach any statistical conclusion. Whether the pregnant females contribute more to maintain the pool of hepatitis E in the society also needs further studies. The authors feel that viral load may be an important factor determining the outcome of acute hepatitis E in pregnancy as has been shown by a recent Indian study .
This is the largest study that analyzed 60 patients of acute sporadic hepatitis E prospectively for IgM anti HEV, viremia and fecal shedding. HEV RNA was better than IgM anti HEV for diagnosis of acute hepatitis; still its routine use for diagnosis of acute hepatitis E is not feasible except in patients with negative IgM anti HEV, high level of suspicion and in research setting. It was observed that viremia lasts for a longer period than fecal shedding in most patients. Although fecal shedding was not seen beyond normalization of transaminases. Viremia lasted beyond normalization of transaminases in some patients and this may suggest that liver injury is independent of viral replication. Viremia and fecal shedding did not last too long to be responsible for maintenance of HEV virus in the environment. The present study also provides data on pregnant females for the first time and duration of viremia and fecal shedding was significantly more than non-pregnant females.
The authors are thankful to Principal & Controller for providing lab facilities and also thankful to the ICMR for their financial support. The authors thank Dr. Harsh Udawat in writing the manuscript.
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