Showing papers on "Viral Vaccine published in 1991"

Varicella vaccine (VARIVAX) in healthy children and adolescents: results from clinical trials, 1987 to 1989.

Abstract: A total of 3303 healthy children and adolescents, aged 12 months to 17 years, were vaccinated with one of five production lots of a live attenuated varicella vaccine (VARIVAX) containing 1000 to 1625 plaque-forming units per dose. The vaccine was generally well tolerated. Ninety-six percent (2381/2475) of vaccinees responded to vaccination by producing antibody as measured by a glycoprotein-based enzyme-linked immunosorbent assay; 99% (569/576) of those tested maintained antibody at 1 year following vaccination. The incidence of varicella following household exposure in vaccinees was approximately 12%; household contact historically results in 87% infection. Nearly all of the vaccinees who had varicella after vaccination had a clinically modified disease.

Evaluation of bovine, cold-adapted human, and wild-type human parainfluenza type 3 viruses in adult volunteers and in chimpanzees.

Abstract: In an attempt to evaluate the level of attenuation of live parainfluenza type 3 virus (PIV3) vaccine candidates, we compared the responses of partially immune adult volunteers inoculated intranasally with 10(6) to 10(7) 50% tissue culture infective dose (TCID50) of bovine PIV3 (n = 18) or cold-adapted (ca) PIV3 (n = 37) with those of 28 adults administered 10(6) to 10(7) TCID50 of wild-type PIV3. The candidate vaccine viruses and the wild-type virus were avirulent and poorly infectious for these adults even though all of them had a low level of nasal antibodies to PIV3. To determine whether the ca PIV3 was attenuated, we then administered 10(4) TCID50 of ca PIV3 (cold-passage 12) or wild-type PIV3 intranasally and intratracheally to two fully susceptible chimpanzees, respectively, and challenged the four primates with wild-type virus 1 month later. Compared with wild-type virus, which caused upper respiratory tract illness, the ca PIV3 was highly attenuated and manifested a 500-fold reduction in virus replication in both the upper and lower respiratory tracts of the two immunized animals. Despite restriction of virus replication, infection with ca PIV3 conferred a high level of protective immunity against challenge with wild-type virus. The ca PIV3 which had been passaged 12 times at 20 degrees C did not retain its ts phenotype. These findings indicate that ca PIV3 may be a promising vaccine candidate for human beings if a passage level can be identified that is genetically stable, satisfactorily attenuated, and immunogenic.

Lack of transmission of the live attenuated varicella vaccine virus to immunocompromised children after immunization of their siblings.

Abstract: The safety of administering the live attenuated Oka/Merck varicella vaccine to the well siblings of children with malignancy was evaluated as a strategy for reducing the risk of household exposure to varicella among immunocompromised children. Susceptible well children were eligible for vaccination if the child with malignancy had leukemia, lymphoma, or solid tumor in remission for 3 months or longer. No evidence of vaccine virus transmission was found among 30 children with malignancy whose 37 healthy susceptible siblings were immunized with varicella vaccine. Varicella-zoster virus was not isolated from the oropharyngeal secretions taken from 17 vaccinees or their 14 immunocompromised siblings. None of the 30 immunocompromised children had vaccine-related rashes or showed immunologic evidence of subclinical varicella-zoster virus infection based on testing for varicella-zoster virus IgG antibodies and T-lymphocyte proliferation to varicella-zoster virus. Four healthy vaccinees eventually had mild breakthrough cases of varicella, with transmission to the high-risk sibling in 3 cases. However, even in these families, the immunocompromised children had been protected from household exposure varicella for at least 20 months early in the course of their immunosuppressive treatment.

Bovine viral diarrhea virus contamination of nutrient serum, cell cultures and viral vaccines.

Abstract: Bovine viral diarrhea virus (BVDV) infection is common in the bovine population. Infection in utero leads to virus and antibody contamination of the fetal bovine serum used in cell cultures. These contaminants can interfere with diagnosis of viral infection. The high frequency of virus and antibody detection in individual animal or small pool samples suggests that any large pool of unscreened sera will be contaminated. Infection of cell cultures with BVDV can lead to interference with the growth of other viruses. Vaccine produced on contaminated cells may in turn be contaminated, leading to seroconversion or disease in the vaccine. The safety, purity, and efficacy of viral vaccines require BVDV testing of ingredients, cell substrates and final product. Methods for detection of BVDV in nutrient serum, cell cultures, seed viruses, and viral vaccines, and the frequency of their detection at the National Veterinary Services Laboratories are discussed.

Development of artificial vaccines against HIV using defined epitopes.

Abstract: HIV may not follow the paradigm that has been used successfully for developing most viral vaccines, namely, that the best vaccine is the one that most closely mimics natural infection. This approach is based on the premise that natural infection leads to long-lasting protective immunity, which may not be applicable to HIV. Also, some immune responses elicited by infection with HIV may enhance infection or contribute to the development of immune deficiency. To overcome these problems, an artificial vaccine could be constructed using only antigenic epitopes that elicit neutralizing antibodies, helper T cells, and CD8+ cytotoxic T cells, and avoiding epitopes that elicit deleterious responses. Progress has been made in identifying all three of these types of epitopes, in characterizing their activity in animals, and in demonstrating that at least two of these can be linked to induce neutralizing antibodies without a carrier. Methods have also been developed to induce cytotoxic T cells. It is therefore feasible to construct an artificial vaccine for HIV that should be safer and more effective than a natural whole viral or subunit vaccine.

Efficacy of SIV/deltaB670 glycoprotein-enriched and glycoprotein-depleted subunit vaccines in protecting against infection and disease in rhesus monkeys.

Abstract: Immunization with an inactivated whole-virus vaccine is highly effective in preventing lentivirus infection. The viral protein(s) essential to the induction of protective responses, however, have not been identified. To define the role of virion components in the induction of protective immunity, we evaluated the efficacy of glycoprotein-enriched and glycoprotein-depleted simian immunodeficiency virus (SIV) subunit vaccines prepared by lentil-lectin affinity chromatography of gradient-purified virions using the immunization and challenge regimen previously found successful with an inactivated whole-virus vaccine. Infection was determined by successful recovery of virus, the induction of SIV-specific antibody responses, and infection of naive recipients by inoculation with lymph-node-derived lymphocytes from the vaccinates. Immunization with the glycoprotein-enriched preparation prevented infection in two out of four monkeys, whereas the glycoprotein-depleted vaccine failed to prevent infection in all four vaccinates tested. However, the glycoprotein-depleted vaccine appeared to moderate the progression of SIV-induced disease compared with non-immunized infected control monkeys inoculated with the same challenge dose. These data suggest that subunit vaccines containing sufficient quantities of viral glycoproteins can protect against SIV infection, whereas subunit vaccines composed predominantly of viral core proteins cannot. The development of effective vaccines against HIV infection should include studies on the optimum presentation of the viral envelope glycoproteins to produce long-term broadly protective immune responses.

Development of immunogenic recombinant Oka varicella vaccine expressing hepatitis B virus surface antigen.

Abstract: Recombinant Oka varicella vaccine expressing hepatitis B virus (HBV) surface antigen (HBs) was constructed by inserting the HBs gene into the viral thymidine kinase (TK) gene and was examined for its immunogenicity in guinea-pigs. The HBs gene encoding 25 amino acids of preS2 and the whole of the S region was inserted into the TK gene of the cloned plasmid. The chimeric plasmid DNA and Oka varicella vaccine DNA were cotransfected and recombinant virus was isolated after immunofluorescence screening using a monoclonal antibody to HBs and a fluorescein-conjugated anti-mouse antibody. Expression of viral HBs was detected in the cytoplasm of infected cells and was stable over several repeated passages in vitro. The recombinant virus expressed 26K and 30K HBs molecules in infected cells and the culture supernatant contained 30K and 35K HBs molecules. HBs was purified at a density of 1.20 g/ml from the culture supernatants. The recombinant virus induced an antibody response to HBs as well as to varicella-zoster virus (VZV) in guinea-pigs, and the antibody titre to HBs was comparable to that induced by a recombinant HBs subunit vaccine produced in yeast. Thus a single dose of live recombinant Oka varicella vaccine could induce good immunity to VZV and HBs. The recombinant Oka varicella vaccine expressing HBs may be a good candidate for a combined HBV and VZV vaccine.

Attenuated revertant serotype 1 Marek's disease viruses: safety and protective efficacy.

Abstract: In earlier studies, a revertant serotype 1 Marek's disease virus (MDV), clone Md11/75C/R2, was found to be a highly protective vaccine virus but was mildly pathogenic for susceptible chickens. The term "revertant" indicates that the virus, after attenuation, gained virulence following backpassage in chickens. The present study is an attempt to develop a more attenuated but still protective vaccine virus from Md11/75C/R2. Forty-two derivative viruses or clones from Md11/75C/R2 were evaluated. Two of these, designated clones R2/23 and R2/29, induced viremia but little or no pathology in preliminary trials and were selected for further study. In a series of nine trials, both clones provided protection against challenge with very virulent MDV strains that was superior to that induced by turkey herpesvirus (HVT) and was not significantly different (P greater than 0.05) from that induced by a bivalent (HVT + SB-1) vaccine. Both clones appeared fully attenuated based on pathogenicity tests in susceptible antibody-negative chickens. Both clones gained virulence on backpassage in chickens, but this seemed of little concern because neither virus spread by contact to other chickens. Although the two clones were very similar, clone R2/23 appeared to have a slightly lower pathogenic potential following backpassage and thus best meets the combined criteria of safety and efficacy.

Vaccination against and immune response to viral haemorrhagic disease of rabbits: a review of research in the People's Republic of China

Abstract: Viral haemorrhagic disease (VHD) of rabbits is an acute entity with high mortality which affects adult rabbits. Several vaccines have been developed in China and extensive use of these vaccines in the field has controlled the spread of the disease. Formalin inactivated tissue vaccine induces solid immunity on the third to fourth day post vaccination and immunity lasts for at least six months. The oil-emulsion tissue vaccine which has been developed has longer lasting potency. Successful adaptation of VHD virus (VHDV) to cultured cells and preliminary immunisation will provide the possibility of large-scale production of cell-cultured virus vaccine. Passive, emergency immunisation with hyperimmune antiserum provides short-term protection of threatened rabbits as well as treatment of infected rabbits in the field. Histopathological and pathophysiological studies reveal that immune cells and organs are the most affected targets in infected rabbits; owing to the damage to the endothelial system of blood vessels, extensive disseminated intravascular coagulation (DIC) occurs in the parenchymal tissues. Destruction of the immune system and the occurrence of DIC lead to acute illness and sudden death post infection. Experimental immunological studies demonstrate that the induction of rapid immunity is coordinated by macrophages and T and B lymphocytes in the initial, post-immunisation stage, whereas humoral immunity plays the main role in long-term protection against VHDV infection. The positive association of post-vaccination protection with haemagglutination inhibition antibody can also be observed. Interferon probably takes effect as an anti-VHDV agent soon after vaccination.

Development of a genetically engineered vaccine against feline leukemia virus infection.

Abstract: A genetically engineered subunit vaccine against FeLV infection was developed. The protective immunogen in the vaccine was a purified recombinant protein containing the entire amino acid sequence of FeLV subgroup A gp70 envelope protein. The optimal adjuvant was determined to be a highly purified saponin, QS-21, derived from Quillaja saponaria Molina. A vaccine formulation containing the recombinant protein, QS-21, and aluminum hydroxide was tested in specific-pathogen-free kittens and was shown to induce neutralizing antibodies as well as appreciable antibody responses to native gp70 by enzyme immunoassay and protein (western) immunoblot analysis and of whole virus preparations.

Immunogenicity of tetravalent rhesus rotavirus vaccine administered with buffer and oral polio vaccine.

Abstract: • Between January and November 1989, we studied 174 infants aged 6 to 16 weeks in a randomized clinical trial to (1) determine the immunogenicity of a single dose of tetravalent rhesus rotavirus vaccine (RRV-TV) when administered with three different buffer regimens: no antacid buffer and small-volume (2.5-mL) and large-volume (30-mL) antacid buffer; and (2) examine the potential interference of RRV-TV on the immune response to oral polio vaccine. Immunogenicity of RRV-TV, measured as a fourfold rise in antibody titers to rotavirus, was similar in the groups receiving small- and large-dose buffer (45% and 49%, respectively) and significantly less in the group that received RRV-TV alone (23%). Administration of RRV-TV with oral polio vaccine did not significantly interfere with the neutralization response of oral polio vaccine poliovirus serotypes 1, 2, or 3, and overall, 29%, 87%, and 24% of the infants had a fourfold rise in titer to each serotype, respectively. ( AJDC . 1991;145:892-897)

Toward a vaccine against Argentine hemorrhagic fever

Abstract: A vaccine against Argentine hemorrhagic fever, the "mal de los rastrojos" of the pampas, has been a dream of physicians and scientists involved with the disease since its recognition in the 1950s. Several killed and live immunogens have been produced and tested in pursuit of this goal, none of which has proved suitable for widespread human use. Recently, a new live-attenuated Junin virus vaccine, Candid #1, was developed through a cooperative international effort. Testing conducted to date indicates that this vaccine holds considerable promise.

Homotypic and heterotypic serological responses to rotavirus neutralization epitopes in immunologically naive and experienced animals.

Abstract: Gnotobiotic or specific-pathogen-free animals with no previous exposure to rotavirus were vaccinated with strain UK, serotype G6. The highest serological response was to homologous virus; significant but lower responses occurred to viruses with either VP4 or VP7 related to that of vaccine virus; responses to other viruses were of low titer or infrequent. Adult cows vaccinated with UK virus produced increased titers of antibody to all rotavirus serotypes. The increases in titer to homologous virus and to other natural and reassortant viruses sharing VP7 with the vaccine virus were significantly higher than those to all other viruses. These results suggest the presence of common epitopes which are not well recognized in primary infections.

Efficacy and safety field trials of a recombinant DNA vaccine against feline leukemia virus infection.

Abstract: A new recombinant gp70 vaccine was found to be safe and effective for prevention of infection by FeLV. The vaccine incorporates a unique purified saponin adjuvant with the recombinant antigen. Serious systemic reactions were not observed during the efficacy trial. Local reactions were transient and mild. More than 2,000 doses were administered to a cross section of household cats in a field safety trial. Only 1 cat had hypersensitivity reaction, which resolved. Among veterinarians who used the vaccine and the cat owners, the vaccine was judged satisfactory and safe. After rigorous intraperitoneal challenge exposure without use of immunosuppressants, 100% of the controls in the efficacy trial became infected, 70% of which remained persistently infected with FeLV. Among vaccinates, 45% were never viremic and 40% cleared transient infection within 12 weeks after challenge exposure. Of the 20 vaccinated cats, 3 were persistently infected. Overall, 85% of cats vaccinated with this recombinant DNA FeLV vaccine resisted persistent FeLV infection after stringent challenge exposure, which translates to preventable fraction of 78.6%.

Adjuvant Effect of Human Growth Hormone with an Inactivated Flavivirus Vaccine

Abstract: Vaccines made by inactivating pathogenic microorganisms have been dramatically successful in controlling diseases in humans and animals. Despite their successes, they have a major disadvantage in that several inoculations are required for them to be effective. To overcome this problem, a commercial inactivated vaccine preparation against tickborne encephalitis was combined with human growth hormone (HGH). This formulation produced complete protection in a murine model with only one dose of vaccine, apparently by binding hormone and antigen to an insoluble matrix containing aluminium hydroxide. Thus it is postulated that when virus-specific lymphocytes are attracted to the site of injection, the hormone is at a high local concentration and stimulates the clonal expansion of antigen-specific T cells. The development of genetically engineered HGH now gives unlimited supplies of hormone, potentially resulting in an increase in efficacy of a wide variety of vaccines, especially those needing prolonged immunization schedules such as those being developed to combat human immunodeficiency virus infection.

Bacterially expressed nucleoprotein of infectious hematopoietic necrosis virus augments protective immunity induced by the glycoprotein vaccine in fish.

Abstract: The ribonucleoprotein gene of infectious hematopoietic necrosis virus (IHNV) has been expressed in Escherichia coli as a trpE fusion protein. This viral protein does not induce protective immunity to lethal IHNV infection in fish, and virus-neutralizing antibodies do not react with this viral protein. However, when it was administered with a bacterial lysate containing a region of the IHNV glycoprotein, there was enhanced resistance in immunized fish to lethal virus infection.

Differentiation of oka varicella vaccine strain from wild varicella-zoster virus strains isolated from vaccinees and household contact.

Abstract: The Oka varicella vaccine strain can be differentiated from wild-type strains by its unique restriction endonuclease fingerprinting (REFP: HpaI-K and EcoRI-P) pattern of the gpV-coding region of the varicella-zoster virus (VZV) genome. VZV-DNAs from patients with complicated clinical courses related to vaccination were examined to determine whether they were vaccine-derived or wild-type. A virus was isolated from a one year-old boy with acute lymphocytic leukemia (ALL) who developed typical varicella 28 days after vaccination (case A). Another virus was isolated from a four-year-old boy without clinical symptoms following household contact with varicella patients at the age of two months, and he developed zoster 14 months after vaccination (case B). Also, two strains (OK1 and OK2) were isolated from household contacts (mother and sister) with a vaccine with ALL in Oklahoma who developed varicella 18 days after vaccination (case C). In case C, BgII-REFP did not determine conclusively whether the two strains (OK1 and OK2) were vaccine-derived or wild-type because the patterns obtained were different from both the Oka varicella vaccine strain and American wild-type strains [Gelb et al., Journal of Infectious Diseases, 155:633-640, 1987]. All VZV strains examined in the present study were identified as wild-type by our method using HpaI-K and EcoRI-P fragments as marker fragments. Thus it is becoming evident that REFP using HpaI and EcoRI endonucleases is a convenient and reliable means of distinguishing between the Oka vaccine virus strain and wild-type viruses isolated from individuals developing vesicular rashes shortly and long after varicella vaccination.

Pancreatitis caused by measles, mumps, and rubella vaccine.

Abstract: Acute pancreatitis may result from viral infections, including mumps, coxsackie B, Epstein-Barr, and varicella. However, viral pancreatitis has not been reported after immunization with viral vaccines. We report the occurrence of acute pancreatitis in an adult who had received measles, mumps, and rubella II vaccine (MMR II).

The ideal vaccine.

Abstract: The ideal vaccine is discussed under three headings. 1. The major requirements of the vaccine. This includes primarlly safety and efficacy and a number of other desirable features if the vaccine is to control a disease of global importance. These include cost, easy administration (e.g. orally), thermal stability, multivalency and long-lived immunlty 2. The nature and persistence of the immune responses which, as judged by model systems, are probably generated by the most effective viral vaccines in current human usage. 3. Approaches for developing future ‘simplified” vaccines with similar levels of safety and efficacy so that these objectives are achieved.

Introduction: objectives of herpes simplex virus vaccines seen from a historical perspective.

Abstract: Herpes simplex virus (HSV) types 1 and 2 cause a variety of severe manifestations in humans. A major characteristic of HSVs is their ability to establish latent infection in sensory ganglia, where these viruses are shielded from the immune system and are impervious to the action of antiviral drugs known to date. Ideally, HSV-induced clinical syndromes should be prevented by vaccination, but two major problems arise. First, although many antiviral vaccines have successfully prevented disease, none have prevented infection. Once the virus infects cells at the portal of entry of the infection, it can establish latent infection in sensory neurons that innervate the cell. Second, while HSV disease primarily affects adults greater than 18 years of age, mass immunization in the United States is effectively carried out in the interval between nursery school and high school, and yet the vaccines must confer protection for a long time after vaccination. The central issues involved in the development of an anti-HSV vaccine include what type of vaccine should be developed, what we should expect from an HSV vaccine, and how we should monitor the effectiveness of the vaccine.

Comparison of the efficacy of three commercial feline leukemia virus vaccines in a natural challenge exposure.

Abstract: Forty-seven kittens were exposed for 31 weeks to 12 FeLV-positive carrier cats. The carrier cats were infected with 2 laboratory strains of FeLV and at least 2 strains of street virus. Eleven nonvaccinated control kittens and 12 vaccinated kittens were allotted to 3 groups. After 31 weeks of exposure, the following kittens were persistently blood FeLV positive by ELISA and immunofluorescence antibody (IFA) testing: 7 of the 11 control kittens, 0 of 12 kittens inoculated with vaccine A, 5 of 12 kittens inoculated with vaccine B, and 6 of 12 kittens inoculated with vaccine C. Only the kittens inoculated with vaccine A were significantly (P less than 0.05) different from the control group. After 23 weeks of exposure, culture was done to identify FeLV in the bone marrow of the kittens. Feline leukemia virus was isolated from the bone marrow of 9 of 11 control kittens. Virus was isolated from the bone marrow of 5 of 12 kittens inoculated with vaccine A, 11 of 12 kittens inoculated with vaccine B, and 10 of 12 kittens inoculated with vaccine C. Of the 17 cats that had FeLV isolated only from culture of bone marrow (negative results of blood virus isolation, ELISA, and IFA testing), 13 eliminated the virus from the bone marrow by week 31 of exposure. After 31 weeks of exposure, FeLV was isolated from the bone marrow of 8 of 11 control kittens, 0 of 12 kittens inoculated with vaccine A, 7 of 12 kittens inoculated with vaccine B, and 7 of 12 kittens inoculated with vaccine C.

Evaluation of efficacy and safety of an inactivated virus vaccine against feline leukemia virus infection.

Abstract: An inactivated virus vaccine was developed for prevention of FeLV infection in domestic cats. When given in 2 doses, 3 weeks apart, to cats that were greater than or equal to 9 weeks old at the time of first vaccination, the vaccine prevented persistent viremia from developing in 132 of 144 (92%) vaccinates after oronasal challenge exposure with virulent FeLV. In contrast, persistent viremia developed after oronasal challenge exposure with FeLV in 39 of 45 (87%) age-matched nonvaccinated control cats. Transient viremia, indicated by early detection of p27 by ELISA in serum of cats protected from persistent viremia at 12 weeks after challenge exposure, was found in 10 of 132 (8%) vaccinates. Cats that were aviremic 12 to 16 weeks after challenge exposure were examined for reactivation of latent FeLV infection; 4 weekly doses of methylprednisolone were administered, followed by in vitro culture of bone marrow cells. Latent infection was readily reactivated in 6 of 8 (75%) nonvaccinated control cats that had been transiently viremic after challenge exposure. However, latent infection was reactivated in only 5 of 48 (10%) protected vaccinates, and in none of 38 vaccinates in which transient viremia had not been detected. In a safety field trial, only 34 mild reactions of short duration were observed after administration of 2,379 doses of vaccine to cats of various ages, breeds, and vaccination history, for a 1.43% reaction rate. Results indicate that the aforementioned inactivated virus vaccine is safe and efficacious for the prevention of infection with FeLV.

Safety and immunogenicity of multiple conventional immunizations administered during early HIV infection.

Abstract: Twenty-one asymptomatic adults who had recently received multiple polysaccharide, live viral, and protein-derived vaccines were identified as being infected with human immunodeficiency virus (HIV). The mean subject age was 24 years (range 18-33); 20 of 21 (95%) were male. The mean T4 count was 523/mm3 with a mean T4/T8 ratio of 0.6. Serologic responses to immunization with meningococcus group C, adenovirus types 4 and 7, tetanus, and diphtheria were evaluated for the HIV seropositive subjects and were compared with the responses of similarly vaccinated age-, sex-, and race-matched HIV-seronegative controls. Significantly fewer (p less than 0.03) HIV subjects responded to meningococcus C (bactericidal antibody) and adenovirus 4 (neutralizing antibody) vaccines than did normals; the HIV-infected subjects who did respond produced functional antibody comparable to that of normals. Booster responses of HIV subjects to tetanus and diphtheria were comparable to those of normals. HIV-infected vaccine nonresponders did not differ from HIV-infected responders in total white blood cell, T4, T4/T8, total serum IgG, or delayed-type hypersensitivity skin test reactivity. All HIV subjects had negative cultures for live vaccine viruses (rubella, measles, adenovirus, and poliovirus). Postimmunization, no clinically apparent adverse reactions to vaccination were detected.

Development of a whole killed feline leukemia virus vaccine.

Abstract: A whole killed FeLV vaccine was developed. By use of a chromatography method of purification and concentration, the resulting vaccine has been shown to be significantly lower in bovine serum albumin and total protein contents than were the same ingredients in the starting materials. The virus was inactivated or killed as an essential part of the vaccine development process. Vaccination trials with the vaccine without use of adjuvants indicated appreciable virus-neutralizing serum titer (greater than or equal to 1:10) in 107 of 110 vaccinated cats. Of 43 cats vaccinated and subsequently challenge exposed with virulent FeLV, only 2 developed persistent virus antigenemia (longer than 1 month), whereas 14 of 22 nonvaccinated control cats developed persistent viremia. In field tests, 2,770 cats from 6 states were vaccinated and observed. Postvaccinal reactions were not observed.

Efficacy of coarse-spray administration of a reovirus vaccine in young chickens.

Abstract: Coarse-spray (CS) administration of a commercial S1133 reovirus vaccine in chickens for prevention of clinical viral tenosynovitis (VT) infection was evaluated. In Expt. 1, one-day-old specific-pathogen-free (SPF) white leghorns were vaccinated with a combination of reovirus, Newcastle disease (ND), and infectious bronchitis (IB) vaccines by CS and infectious bursal disease vaccine by the subcutaneous (SQ) route. In Expt. 2, one-day-old commercial broilers were vaccinated by CS with reovirus vaccine and Marek's disease (MD) vaccine by SQ. In Expt. 3, one-day-old commercial broilers received reovirus vaccine in combination with ND-IB vaccines at 1 day of age by CS and MD vaccine by SQ. Some birds received an initial or second vaccination at 7 days of age by CS or the drinking-water (DW) route. Birds vaccinated by CS at 1 day of age with reovirus vaccine did not produce circulating virus-neutralizing antibody against reovirus, although they had resistance to VT infection. In contrast, initial or booster vaccination at 7 days of age by CS or DW resulted in an antibody response and greater resistance to challenge than did CS vaccination at 1 day of age. There was no difference in efficacy between CS and DW routes at 7 days of age. The reovirus vaccine did not interfere with other vaccines as measured by serologic (ND-IB-IBD) or challenge (MD) studies.

Viral Vaccines for the Prevention of Childhood Pneumonia in Developing Nations: Priorities and Prospects

Abstract: In concert with bacteria, respiratory viruses play a major role in the high rates of acute lower respiratory infection (ALRI) experienced in developing nations. Respiratory syncytial virus, parainfluenza and influenza viruses, and the adenoviruses are the predominant viral causes of ALRI in both developed and developing regions. In this review, the epidemiologic data from developing nations for these viral infections are summarized and the current status of viral vaccines for prevention of ALRI are described