Evaluation of Hyperimmune Hen Egg Yolk Derived Anti-Human Rotavirus Antibodies ( Anti-HRVIgY ) against Rotavirus Infection

Oral delivery of specific IgY has been reported to be beneficial against rotavirus infection. However, the production of IgYs against globally prevalent human rotavirus (HRV) serotypes and their evaluation detailing the influence on the virological/histopathological consequences have not been reported to date. In the present study, anti-HRVIgY was generated in the eggs of specific pathogen free hens immunized with HRV serotypes G1 G4 and G9 independently. Purified anti-HRVIgY preparations were tested to determine the ELISA and neutralizing antibody titers respectively in an indirect ELISA and cell culture based neutralization assay. Efficacy of pre and post infection treatment of antiHRV-3IgY was assessed in an infant BALB/c mouse model of human rotavirus infection by monitoring percent diarrhea, severity and duration of diarrhea, intestinal viral load and histopathology. High (1:64,000 1:512,000) titered antiHRVIgYs were obtained from the egg yolk of immunized hens with peak titer value (1:256,000/1:512,000) at 40 60 day of immunization. In-vitro, each of the anti-HRVIgY preparations showed the presence of multiserotypic neutralizing activity with high (1:1600 ≥1:6400) homologous and low (≤1:50 1:800) heterologous titers. However, anti-HRV3IgY neutralized all of the serotypes tested in the study indicating broader in-vitro neutralizing activity. In mice, post exposure treatment with anti-HRV-3IgY significantly reduced the extent of diarrhea and intestinal virus load and inhibited histopathological changes whereas pre exposure anti-HRV-3IgY treatment imparted immediate protection from development of rotavirus gastroenteritis. Thus, the anti-HRVIgY administered orally decreased morbidity and disease incidences in mice suggesting its potential implication in prophylactic and therapeutic usage in human to achieve reduction in rotavirus disease burden.


Introduction
Rotaviruses are the leading cause of acute infectious diarrhea in infants and young children, worldwide.These viruses account for half a million deaths annually in children <5 years of age, with majority (82%) of the deaths occurring in developing countries [1].In both developed and developing countries alike, rotavirus infections lead to an annual economic loss of several million US$ in direct and indirect medical care [2][3][4].Subsequent to the intussusception related withdrawal of the first rotavirus vaccine, different strategies, including both active and passive immunization/immunotherapy have been continuously attempted to develop a safe and effective intervention against rotavirus infection [5][6][7].Two new generation rotavirus vaccines, RotaTeq and Rotarix have been introduced in the global market.In developed countries, the efficacy of these vaccines has been reported to be significant against rotavirus gastroenteritis of any severity (74% -79%), severe rotavirus gastroenteritis (90% -98%) and hospitalization due to rotavirus (96%) [8].As against this, in impoverished children from Asian and African countries, a low level (39.3% -48.3%) of efficacy of rotavirus vaccine probably attributable to high concentration of transplacentally acquired maternal antibodies, interfering gut flora, diarrheal diseases caused by enteric infections other than rotavirus, micronutrient malnutrion and associated immunodeficiency and concomitant administration of oral poliovirus vaccine is described recently [9,10].While inclusion of rotavirus vaccine in national childhood immunization program is under consideration in these settings [11], exploration of the alternate and adjunct strategies such as oral immunotherapy and antivirals carries valued significance for management of rotavirus infection.
Neutralizing antibodies (NAbs) generated against two outer capsid proteins, VP7 and VP4 of rotavirus have been described as correlates of protection from rotavirus disease [12][13][14][15].These antibodies prevent infection locally by inhibiting rotavirus attachment to susceptible cells in the intestinal lumen [16,17].As a corollary to this, oral delivery of rotavirus specific neutralizing milk, serum antibodies and monoclonal antibodies have been demonstrated to impart local passive protection against rotavirus infection [18].However, the practical application of these antibodies as oral immunotherapy may be limited because of difficulties in large-scale production.
In recent years, a considerable attention has been drawn towards chicken eggs as a good source of conveniently packaged antibodies useful for immunotherapeutics and diagnostics.Chicken produces a unique immunoglobulin molecule called IgY that is functionally homologous to mammalian IgG [19].IgY, the serum antibodies of chicken are passed from hens to embryo via the egg yolk.Laying hens immunized against different antigens, transport high concentration of specific IgY to the egg yolk.Nonreactivity of IgY with mammalian Fc receptors, an evolutionarily distinctive biochemical property makes IgY antibodies appropriate for per oral immunotherapy [20].
The beneficial effect of purified IgY antibodies specifically generated against rotaviruses has previously been described [21][22][23].However, such studies have rarely included the production and evaluation of IgYs against globally prevalent rotavirus serotypes, G1 -G4 and G9, essentially required for practicability of the approach.Further, the effect of orally supplied rotavirus specific IgY antibodies on the intestinal viral load and cellular pathological changes has not been examined.The objective of the present study was to produce IgY antibodies against common rotavirus types and evaluate their neutralizing activity against homotypic and heterotypic rotavirus infections in-vitro and also to test the homotypic protective efficacy of IgY antibodies in a murine model of human rotavirus (HRV) infection of G3 origin.

Purification of Viruses
All of the rotavirus serotypes propagated in MA104 cell line were purified by rate zonal ultracentrifugation (Sorvall Ultracentrifuge OTD-COMBI, USA) using 20% -60% continuous sucrose gradient as described earlier [26] with minor modifications in the protocol.Antigen capture ELISA was performed on the fractions collected from a gradient column.The fractions were pooled according to the OD 450 values and centrifuged at 30,000 rpm for 2 h to pellet the virus and remove the sucrose.The pelleted virus was reconstituted in 0.01 M phosphate buffered saline (PBS), pH 7.4 and viral protein was determined [27].

Immunization of Birds and Collection of Eggs
Eighteen

Purification of IgY from Immune Eggs
Eggs laid by the immunized hens were pooled (30 -35 eggs per pool) on weekly basis.The yolks were separated from egg white and washed with chilled 0.01 M PBS, pH 7.4 to remove traces of albumin and dried completely on filter paper.One hundred ml of yolk was further processed for purification of IgY using polyethylene glycol (PEG 8000) and ammonium sulfate (Sigma, USA) as described earlier [28].Purified IgY was dialyzed four times against 0.01 M PBS, pH 7.4 to remove the residues of salt.After estimation of protein content, IgY was stored at −20˚C until used.

Detection and Titration of Anti-HRVIgY Antibodies in Serum and Egg Yolk
The presence of anti-HRVIgY antibodies in serum and egg yolk of immunized hens was monitored and assayed by modified protocol of an indirect ELISA described earlier [29].Briefly, purified simian rotavirus strain, SA11 (as group reactive antigen) coated on microtiter plates (Immunol-H, Dynatech USA) was allowed to react with serum and yolk samples diluted serially at two folds in 0.01 M PBS, pH 7.4 containing 2.5% skimmed milk powder and 0.05% Tween-20.Bound anti-HRVIgYs were probed by rabbit anti-chick IgG conjugated to horse raddish peroxidase enzyme (Bangalore Genei, India) at 1:20,000 dilution followed by its reaction with Tetramethylbenzedine substrate (Bangalore Genei, India).The cut off value was set as mean OD 450 of serum and IgY samples from control birds + 3 standard deviation.

Cell Culture Based In-Vitro Neutralization Assay
In-vitro neutralization potency of anti-HRVIgYs was tested in MA104 cell monolayers combined with a rotavirus antigen capture ELISA [30].Briefly, 100 EEP of each of the HRV serotypes was incubated with two fold serially diluted corresponding IgY samples at 37˚C for 0.5 h.The mixture was allowed to adsorb on MA104 cell monolayers grown in microplates (Nunc, USA).After 18 h of incubation at 37˚C in a humidified 5% CO 2 atmosphere, the plates were frozen at −70˚C and a rotavirus antigen detection ELISA was carried out on the culture harvests from the wells.The percent neutralization of virus was calculated as 100 -{[(Diln -C1)/(C2 -C1)] × 100} wherein C1:OD of control well, C2:OD of virus dilution used in the test, Diln:OD of IgY dilution [31].
The reciprocal of the highest dilution of an IgY preparation indicating ≥50% neutralization was considered as titer of NAbs.Each type of anti-HRVIgY was tested for its neutralizing activity against all five serotypes used in the study.

Anti-HRVIgY Treatment of Mice Infected with Rotavirus
All animal experiments were approved by Institutional Biosafety Committee and Institutional Animal Ethical Committee of National Institute of Virology, Pune India.
A previously characterized infant BALB/c mouse model of human rotavirus infection [32] was used to evaluate pre and post exposure treatment efficacy of anti-HRV-IgY.
The infections were induced orally in 4/5 day old mice using 4000 EEP of HRV-3 (strain YO), a dose that proved to cause 100% attack rate manifesting diarrhea and intestinal histopathological changes in the inoculated mice [32].Post exposure treatment was commenced at 12 hour post inoculation (hpi) via oral route with 50 µl anti-HRV-3IgY per animal that continued as twice daily till day 3 post inoculation.Three different doses1.25,0.625, 0.3125 mg/ml of anti-HRV-3IgY were tested respectively in n = 21, 21 and 20 mice.Two groups of mice, 1) inoculated with HRV-3 but not treated with IgY (n = 23) and 2) HRV-3 uninoculated and IgY untreated (n = 16) were included as controls.The animals were examined daily for the signs of diarrhea during the experimental period of 120 hpi and the outcome was measured as prevalence of diarrhea (defined as the percentage of pups with diarrhea on a daily basis), severity (defined as the sum of diarrhea scores of each pup during the course of experiment) and duration of diarrhea (defined as time in days with diarrhea) [6,33].At the end of the course of treatment (96 hpi), six pups from each group including those from the control groups were necropsied and the tissue samples from lower intestine were processed for quantification of viral load and pathological analysis.
For pre exposure treatment, 19 and 20 animals/group were fed respectively with 50 µl of 250 and 125 µg/ml of anti-HRV-3IgY per mouse 2 h prior to oral challenge with 2000 EEP of HRV-3.Two groups of animals, one infected with HRV-3 but not treated with anti-HRV-3IgY (n = 18) and the other without inoculation or treatment (n = 10) served as controls.The occurrence of diarrhea in the animals was recorded during the experimental period.Real time PCR and histopathological analyses were carried out on the intestinal tissues collected from experimental and control groups at 72 hpi.

Real Time PCR
The mouse stool and intestinal tissue samples were ex-tracted with TRIzol ® LS and TRIzol ® respectively (Invitrogen Life Technologies, USA) as per the manufacturer's protocol for isolation of rotavirus RNA.Complementary DNA (cDNA) was prepared from 10 µl RNA by reverse transcription using M-MuLV reverse transcriptase (Roche, USA) in the presence of VP6 gene specific primers-VP6F-5'GACGGVGCRACTACATGGT3' and VP6R-5'GTCCAATTCATNCCTGGTG3' (where R = A or G; V = A, C or G; N = A, T, C or G).The resulting cDNA was used as template for real time PCR.Quantitect SYBR green PCR mastermix kit (Qiagen, USA) was used for real time PCR quantification of rotavirus VP6 RNA as described earlier [34].Eight serial dilutions of the plasmid containing 10 8 to 10 1 copies of rotavirus VP6 gene fragment were included in each reaction to serve as positive controls to construct the standard curve and quantitate the rotavirus in the experimental specimens.The optimal viral load cut off values that can be associated with infectious intestinal disease and clearance of the virus from intestine of the infected mice was set as per criterion described earlier [35,36].

Pathology
The intestinal tissue segments were inflated with 10% neutral buffered formalin, treated with ascending and descending grade of alcohol and embedded in paraffin to prepare sections of 3 -5 µm thickness and stain with haematoxylin and eosin by standard procedure [37].Tissue sections from mice treated with different doses of IgY were analyzed for histopathological changes associated with rotavirus infection.

Statistics
Comparison of IgY treated versus untreated mice for the occurrence diarrhea in day wise manner was done by Fisher's exact test [38].Severity of infection and duration of diarrhea were analyzed by Kruskal-Wallis test [39].Differences in the intestinal viral load as monitored by real-time PCR were assessed using Mann-Whitney test [40].

Anti-HRVIgY Responses in Serum and Yolk of Immunized Hens
None of the hens showed any clinical signs of distress in response to the immunization against rotaviruses.Average egg laying rate (5 eggs/hen/week) of the hens immunized with rotavirus was not affected as compared to that of the control hens.
The profiles of anti-HRVIgY antibodies in serum and egg yolk of the immunized hens as monitored by indirect ELISA are depicted in Figure 1.Anti-HRVIgY titers in the serum increased rapidly after 2 nd dose of immunization with peaked Geometric Mean Titer (GMT) value at 1:144915.8against HRV-1; 1:131253.7 against HRV-2; 1:231865.3against HRV-3; and 1:256000 against HRV-4 after 4 th dose (at 35 days of 1 st immunization) and remained at plateau after the 5 th dose except in the group immunized with HRV-9.The latter group attained a highest GMT of 1:90509.67 after 5 th dose.
Eight to nine lots of anti-HRVIgY prepared against each of the HRV serotypes were obtained from the eggs collected during the experimental period of 11 -12 weeks.Different anti-HRVIgY preparations showed 1:64,000 to 1:512,000 ELISA antibody titers with a peak value of 1:256,000/1:512,000 at 40 -60 day after 1 st dose of immunization (Figure 1).The protein concentrations of these preparations varied from 2.8 to 3.7 mg/ml.The IgY prepared from the eggs of unimmunized control hens showed the presence of 2.3 mg/ml of protein, however, absence of rotavirus specific antibodies.
AntiHRV-3IgY preparation was found to possess broader neutralizing activity with the ability to neutralize all of the serotypes tested in the study.On the other hand an-tiHRV-4IgY showed a narrow spectrum of neutralization with heterotypic neutralizing antibodies against HRV-3 and HRV-9 only.AntiHRV-1, 2 and 9IgY preparations neutralized the serotypes other than HRV-4.The control IgY preparation obtained from unimmunized hens was ested negative for neutralizing antibodies.t

Effect of Post Infection Administration of Anti-HRVIgY on the Course of Rotavirus Infection in Mice
1) Diarrhea Oral inoculation of 1:4000 EEP of YO strain of HRV-3 in 4/5 day old BALB/c mice typically induced diarrhea at 24 hpi with a disease peak at day 2 to 3. Administration of anti-HRV-3IgY in these mice produced a clear dose dependent positive effect on reduction of percentage of diarrhea and severity and duration of disease (Figure 2(A), Table 2).Feeding of the animals twice daily with 50 µl of 1.25 mg/ml of anti-HRV-3IgY resulted in the decrease of diarrhea by 58% on day 2 and 81% on day 3 as compared to the percent diarrhea noted in infected but untreated mice (p < 0.001 for day 2 and p < 0.0001 for day 3).The beneficial effect was also pronounced in pups receiving 50 µl of 0.625 mg/ml of anti-HRV-3IgY with 53% and 62% reduction in diarrhea on day 2 and 3 respectively as against the untreated group (p < 0.001 for both).The lower dose, 0.3125 mg/ml imparted low but significant (p < 0.05) protection by reducing diarrhea by 26% on day 2 and 35% on day 3 as compared to untreated control group.IgY antibody treatment also shortened the diarrhea duration by 0.78 to 1.36 days and alleviated severity by 23.19% to 48.45% as compared to that noted in the untreated group of mice (Table 2).
2) Rotaviral RNA load in the intestine and stool At the end of the course of anti-HRV-3IgY treatment, the group of mice treated with 1.25 mg/ml cleared (GMCt ≥ 30, 31.88) the virus from intestine while in the groups treated with 0.625 and 0.3125 mg/ml, reduction in the intestinal virus (respectively GMCt 27.87 and 25.62) (p < 0.01/p < 0.05) was well below the level (GMCt 24) that could produce infectious intestinal disease (Figure 2(B)).On the other hand, the viral load in the intestines of infected but untreated mice was higher (GMCt 20.2) than all of the IgY treated groups.
3) Histopathology of intestine Formalin fixed intestinal tissue sections from mice treated with different doses of anti-HRV-3IgY were analyzed for the major histopathological changes described to be associated with human rotavirus infection [32,41].The intestinal sections of HRV-3 infected mice untreated with IgY presented typical histopathology with vacuolization in enterocytes at the distal one third of villi and blunting of villi at 96 hpi.The tips of the infected villi were unstainable due to epithelial cell death.On the other hand, the intestinal sections from the groups of mice treated with different doses of IgY showed reduced vacuolization and cell death at villus tips at 96 hpi (Figure 2(C)).Treatment with 1.25 mg/ml of IgY prevented marked visible lesions while the lower doses allowed minimal to mild vacuolization in the villi epithelium of intestine.The uninfected negative control mice showed a normal histology.

Effect of Preinfection Feeding of Anti-HRVIgY in Mice
Preinfection anti-HRV-3IgY treatment of the mouse pups provided 95% -100% protection from diarrhea in a dose dependent manner.Almost all animals were free from the signs of diarrhea on day 2 and day 3, the time points that mark peak clinical disease (Figure 3(A)).Only 1/20 animals from the group treated with 125 µg/ml of anti-HRV-3IgY developed mild diarrhea on day 1 which subsided on day 2 of HRV inoculation.The rotaviral RNA in the intestines was undetectable at 72 hpi as per the set criterion (GMCt ≥ 30 for RNA < 10 copies) in both, 250 µg/ml (GMCt 31.81) and 125 µg/ml (GMCt 30.52)IgY treated groups (Figure 3(B)).Histologically, the lower intestines appeared normal and comparable to that of  uninfected healthy control mice (Figures 3(C) and (D-I)).HRV inoculation developed diarrhea in 39% (7/18) and 50% (9/18) of IgY untreated animals at day 2 and 3 respectively (Figure 3(A)), with an overall diarrhea prevalence of 55%, mean severity score 2.7 and duration 2.2 days over the experimental period of 120 hpi.The intestinal tissue sections collected at 72 hpi showed the accumulation of rotavirus RNA (GMCt 19.9) and presence of histological lesions specific to rotavirus infection (Figures 3(B) and (D-II)).

Discussion
Development of an effective oral immunotherapy necessitates generation of larger quantities of high titered, good quality pathogen specific antibodies and their extensive evaluation.Since, a single hen can produce up to 30 gm of purified IgY per year with 2% -10% specific antibodies, egg yolk have potential of providing larger and more economical supply of specific antibody than any other sources [42].The present study describes the preparation of human rotavirus specific egg yolk derived immunoglobulin, anti-HRVIgY and its evaluation for oral immunotherapy in a mouse model of human rotavirus infection.
Production of specific IgY is known to be achieved by immunizing laying hens with target antigen.However, five major factors such as the antigen (dose and molecular weight), type of adjuvant used, route and frequency of immunization and interval between immunizing doses influence the generation of specific immune response in hens [43].Rotaviruses are known to be good immunogen while Freund's adjuvants remain the most effective ones among more than 100 known adjuvants [44,45].The amount of rotavirus antigen mixed in Freund's adjuvants and route and schedule of immunization employed in the present study efficiently induced a high titered and long lasting anti-rotavirus IgY antibody response in eggs of immunized hens without any marked effect on rate of egg lay and size of egg known to govern efficient production and yield of egg antibodies [46].The specific antibodies appeared in blood (serum) of pullets as early as two weeks after the primary dose of immunization with rotavirus, steadily increased following booster doses and remained static.The pullets started laying after the 3 rd dose of immunization.At this time point, the high titers of anti-rotavirus antibody present in the serum (Figure 1) facilitated the transfer and accumulation of high amount of anti-rotavirus antibody in the egg yolk.The titers persisted at elevated levels in the IgY prepared against all five types of human rotavirus throughout the experimental period (11 -12 weeks).This finding is in accordance with previous observations that described high specific immune responses in the egg yolk from hens immunized with bovine rotavirus serotype 6 and 10, HRV serotype 3 (strain MO) and other enteric pathogens [22,[47][48][49].
Neutralization of virus infectivity by antibodies is an important arm of immunity to fight against viral infection.Usually level of protection correlates with the in vitro neutralization titers [50].It has been reported that the variable epitopes, immunodominant in nature and the conserved epitopes, immunorecessive in nature on the VP7 and VP4 capsid proteins across the serotypes of rotavirus respectively elicit homotypic and heterotypic neutralizing antibodies [51][52][53].Each of the anti-HRV-IgY preparations obtained in the present study was able to neutralize two or more serotypes of rotavirus apart from the serotype involved in its own production.The multiserotypic neutralization response probably developed slowly and was independent of doses used for immunization as described earlier [54].
The mouse model of human rotavirus YO infection used in the study has been reported to have a course of infection of 5 days with highest rate of virus replication within 24 hpi [32].Hence, the post exposure treatment of the infected animals with homologous (anti-HRV-3IgY) polyclonal antibodies in the present study was initiated at 12 hpi.Further the protection achieved by passive oral immunotherapy against enteric infections is known to reflect solely the effect of externally delivered immunoglobulins.The immunoglobulin with high content of neutralizing activity is expected at the mucosal site to control the infection process [23].In the present study, the dose of IgY for in vivo testing was decided predominantly on the basis of neutralizing antibody titer determined in the in vitro assay followed by its protein concentration.The 12 hourly regimen of post infection treatment with anti-HRV-3IgY antibodies successfully blunted the disease by reducing viral load, normalizing pathological features and mitigating diarrhea in the mouse model used in the present study.The higher doses produced a stronger effect corroborating the dose dependent response of oral immunoglobulin treatment observed earlier against various enteric diseases in different animal models [23,36].
Since most of the naturally occurring rotavirus infections are caused by low doses of virus [55], the mice treated with IgY prior to infection were challenged with a low dose of HRV-3 that was found to cause diarrhea in 55% of the animals.The animals did not develop diarrhea and were devoid of rotaviral RNA and pathological lesions in the intestines at 72 hpi (Figure 3) as reported earlier [21].
It is to be noted that though in-vitro neutralization of five major HRV serotypes in cell culture as well as invivo protection against HRV-3 induced gastroenteritis in mice could be monitored efficiently by anti-HRV-3IgY treatment, the in-vivo protective efficacy of the same preparation (anti-HRV-3IgY) against HRV serotypes 1, 2, 4 and 9 could not be assessed in the present study due to the absence of a mouse model of gastroenteritis for these serotypes.The HRV serotypes other than 3 have been reported to replicate inefficiently to produce diarrhea in mice [56].Nevertheless, establishment of in-vivo neutralizing potency of anti-HRV-3IgY against multiple HRV serotypes would greatly simplify the comercial produc-Copyright © 2012 SciRes.WJV Evaluation of Hyperimmune Hen Egg Yolk Derived Anti-Human Rotavirus Antibodies (Anti-HRVIgY) against Rotavirus Infection 82 tion of rotavirus specific IgY.

Conclusion
In conclusion, immunization of SPF hens with different serotypes of HRVs yielded high titered anti-HRVIgYs that displayed multiserotypic neutralizing activity invitro.The post rotavirus exposure administration of anti-HRV-3IgY in mice of the present study did demonstrate the negative effect on virus replication in the gut and intestinal pathology, thereby influencing the main outcome of disease i.e. severity and duration of diarrhea in the animals.On the other hand pre exposure administration of anti-HRV-3IgY presented an ideal situation, wherein IgY imparted immediate effect implying better protection from the disease.Thus, the findings ascertain that orally supplied anti-HRVIgY decreases morbidity and disease incidences in mice infected with human rotavirus.Such preparations need to be explored as oral immunotherapy in human to reduce the rotavirus disease burden.However, implementation of this approach would require development of a formulation containing anti-HRVIgYs and its clinical trial in different settings of the rotavirus endemic region.

Figure 1 .
Figure 1.Anti-HRVIgY titers in serum ( ) and egg yolk ( ) of hens immunized against different human rotaviruses.The bars ( ) indicate protein content of the IgY preparations.The arrows denote time points of immunization doses.

Figure 2 .Figure 3 .
Figure 2. Effect of post HRV-3 infection treatment with anti-HRV-3IgY.(A) Percent diarrhea in IgY treated mice.Anti-HRV-3IgY caused significant reduction in diarrhea prevalence in treated groups as compared with the untreated group on day 2 (1.25 and 0.625 mg/ml groups, p < 0.001; 0.3125 mg/ml group, p < 0.05) and 3 (1.25 mg/ml group, p < 0.0001; 0.625 mg/ml group, p < 0.001 and 0.3125 mg/ml group, p < 0.05) (Fischer's exact test); (B) Rotavirus VP6 RNA load in small intestine of mice as determined by real time PCR.Each bar represents mean Ct value for six animals; dashed (------) and dotted (……) lines indicate the viral load cut off Ct values for induction of infectious intestinal disease and clearance of virus from intestine respectively; (C) Photomicrograph of H & E stained tissue sections of lower intestine from (I) uninfected control mouse; (II) mouse treated with 1.25 mg/ml anti-HRV-3IgY (resolved histopathology to normal) (II-a), 0.625 mg/ml and 0.3125 mg/ml anti-HRV-3IgY (reduced vacuolization and moderately resolved histopathology) (II-b, II-c); (III) infected mouse but untreated with IgY (massive vacuolar degeneration at the distal part of the villi).Original magnification 20×.

Table 2 . Duration and severity of diarrhea in different groups of mice treated with anti-HRV-3IgY. Group No. of mice with diarrhea (%) No of mice inoculated with HRV-3 Duration of diarrhea in days Mean ± SE
*p < 0.05, **p < 0.01 vs untreated group (Kruskal-wallis test).Copyright © 2012 SciRes.WJV Evaluation of Hyperimmune Hen Egg Yolk Derived Anti-Human Rotavirus Antibodies (Anti-HRVIgY) against Rotavirus Infection