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Autori principali: Rojas-Peña, M, Aceituno, P, Ordóñez-Grande, B, García-Ordoñez, M, Liang, X, Okeleye, O, Ji, J, Roher, N
Natura: Artículo científico
Lingua:en
Pubblicazione: Fish & shellfish immunology 2026
Soggetti:
Accesso online:https://pubmed.ncbi.nlm.nih.gov/41138895/
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author Rojas-Peña, M
Aceituno, P
Ordóñez-Grande, B
García-Ordoñez, M
Liang, X
Okeleye, O
Ji, J
Roher, N
author_facet Rojas-Peña, M
Aceituno, P
Ordóñez-Grande, B
García-Ordoñez, M
Liang, X
Okeleye, O
Ji, J
Roher, N
Rojas-Peña, M
Aceituno, P
Ordóñez-Grande, B
García-Ordoñez, M
Liang, X
Okeleye, O
Ji, J
Roher, N
collection PubMed - marine biology
contents Oral antiviral vaccines in aquaculture: Current status, challenges, and future prospects. Rojas-Peña, M Aceituno, P Ordóñez-Grande, B García-Ordoñez, M Liang, X Okeleye, O Ji, J Roher, N Animals Aquaculture Fish Diseases Viral Vaccines Administration, Oral Fishes Virus Diseases Vaccination Vaccination remains the most effective strategy for preventing viral infections in the aquaculture industry. Most commercially available antiviral vaccines are produced from attenuated viral particles and administered via intraperitoneal or intramuscular injection. While this approach has proven effective concerns on safety, and the negative impact of injection on the welfare of the farmed fish species cannot be overlooked. Therefore, research have been geared towards finding effective oral vaccine alternatives to eliminate the need for fish handling without incurring additional operational costs. However, the instability of antigenic peptides in the harsh digestive enzymatic conditions becomes a major setback to adequately stimulate optimum immune responses against viral pathogens. This article discusses progress, challenges, and future possibilities in the design and development of commercial and experimental oral vaccines for finfish and shellfish aquaculture species against viral infection.
format Artículo científico
id pubmed_41138895
institution PubMed
language en
publishDate 2026
publisher Fish & shellfish immunology
record_format pubmed
spellingShingle Oral antiviral vaccines in aquaculture: Current status, challenges, and future prospects.
Rojas-Peña, M
Aceituno, P
Ordóñez-Grande, B
García-Ordoñez, M
Liang, X
Okeleye, O
Ji, J
Roher, N
Animals
Aquaculture
Fish Diseases
Viral Vaccines
Administration, Oral
Fishes
Virus Diseases
Vaccination
Oral antiviral vaccines in aquaculture: Current status, challenges, and future prospects. Rojas-Peña, M Aceituno, P Ordóñez-Grande, B García-Ordoñez, M Liang, X Okeleye, O Ji, J Roher, N Animals Aquaculture Fish Diseases Viral Vaccines Administration, Oral Fishes Virus Diseases Vaccination Vaccination remains the most effective strategy for preventing viral infections in the aquaculture industry. Most commercially available antiviral vaccines are produced from attenuated viral particles and administered via intraperitoneal or intramuscular injection. While this approach has proven effective concerns on safety, and the negative impact of injection on the welfare of the farmed fish species cannot be overlooked. Therefore, research have been geared towards finding effective oral vaccine alternatives to eliminate the need for fish handling without incurring additional operational costs. However, the instability of antigenic peptides in the harsh digestive enzymatic conditions becomes a major setback to adequately stimulate optimum immune responses against viral pathogens. This article discusses progress, challenges, and future possibilities in the design and development of commercial and experimental oral vaccines for finfish and shellfish aquaculture species against viral infection.
title Oral antiviral vaccines in aquaculture: Current status, challenges, and future prospects.
topic Animals
Aquaculture
Fish Diseases
Viral Vaccines
Administration, Oral
Fishes
Virus Diseases
Vaccination
url https://pubmed.ncbi.nlm.nih.gov/41138895/