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Online Ahead of Print

Articles online ahead of print are accepted, peer-reviewed articles that have not yet been assigned to a volume/issue of Journal of Swine Health and Production (JSHAP), but are citable using the article DOI. When an article is assigned to a volume/issue, the online ahead of print version will be removed from this page and the final version will appear in the associated published volume/issue of JSHAP. The DOI and the date an article was first made available online will be carried over.

An investigation of group and subtype diversity and distribution of porcine rotaviruses in Canadian suckling piglets with diarrhea, 2019-2023

Carol Malgarin; Francisco de Grau

Abstract

Objective: To determine the frequency of detection and group diversity of rotavirus (RV) A, B, and C, and G (glycoprotein antigen) serotype (based on viral protein 7 [VP7] gene analysis) infecting suckling piglets with diarrhea in Canadian farms.

Materials and methods: Canadian swine veterinarians submitted 1117 enteric samples from suckling piglets between July 2019 and December 2023 to the University of Guelph Animal Health Laboratory for RV group identification and VP7 sequencing for subtyping. Analysis of the VP7 sequence from 837 samples was performed using the Animal Health Sequivity Dashboard (Merck & Co, Inc) and descriptive statistics.

Results: Rotavirus A, B, and C were present in 40.7%, 12.5%, and 46.8% of samples, respectively. The most common RV identified was RVC G6, present in 296 samples, followed by RVA G9 in 205 samples. A single RV group was involved in 444 cases (72.3%), while in 170 cases (27.7%), more than one RV group/subtype was detected. Eighteen subtypes were identified by sequencing the VP7 protein (5 RVA, 9 RVB, and 4 RVC).

Implications: Rotavirus protection for suckling piglets comes from colostrum and milk. Knowing which RV group is causing diarrhea is important since vaccination does not generate cross-protection among groups. Using molecular diagnostic testing, it is possible to identify the specific group and subtype of RV circulating on the premises and decide the best treatment strategy for the disease.

Keywords: swine, rotavirus, diarrhea, VP7, vaccine.

Received date: March 18, 2024
Accepted date: July 1, 2024
Published online date: October 8, 2024

DOI:

Assessment of hemoglobin concentration in sows and their offspring over consecutive reproductive cycles

Katlyn A. McClellan; Merlin D. Lindemann; Crystal L. Levesque

Abstract

Objective: Evaluate hemoglobin concentration (HbC) in sows and their offspring over consecutive parities.

Materials and methods: Twenty-three females were monitored for HbC during parities 1, 2, and 3 at 7 timepoints (30 [± 2], 60 [± 2], 90 [± 2], and 112 days of gestation, 2 and 16 [± 1] days of lactation, and 5 [± 1] days post weaning). Piglet HbC was measured within 18 hours after birth and at 16 (± 1) days of age. Pigs were classified as anemic (HbC < 10 g/dL) or nonanemic (HbC ≥ 10 g/dL) at each timepoint.

Results: On gestation day 90, 71.1% of sows were anemic across parities. In parity 1, HbC was less on lactation day 16 than all gestational timepoints (P < .001). In parity 2, HbC on lactation days 2 and 16 was less than all gestational timepoints (P < .001). In parity 3, HbC on lactation days 2 and 16 was less than gestation days 30 and 60 (P = .015). Piglet anemia prevalence at 1 day of age was 55.8%, 36.3%, and 46.1% for parity 1, 2, and 3, respectively (X2 < .001). Piglet anemia prevalence at 16 days of age was 35.6%, 18.7%, and 15.9% for parity 1, 2, and 3, respectively (X2 < .001).

Implications: Decreasing sow HbC over the reproductive cycle and lack of postweaning recovery in parity 3 indicates iron declines with advancing parity and may impact long-term health. Piglet anemia prevalence declined with advancing parity, suggesting a need to reevaluate piglet iron supplementation in litters from younger females.

Keywords: swine, anemia, hemoglobin, sow

Received date: March 14, 2024
Accepted date: July 1, 2024
Published online date: October 8, 2024

DOI: