Zinc status and indicators of intestinal health in enterotoxigenic Escherichia coli F18 challenged newly weaned pigs fed diets with different levels of zinc.

This study investigated the impact of an enterotoxigenic Escherichia coli (ETEC) F18 challenge on newly weaned pigs when fed one of three Zn levels (150, 1,400, or 2,500 ppm) on performance, Zn status, ETEC shedding, and diarrhea. The ETEC challenge was hypothesized to have a more pronounced negative impact on pigs fed a diet containing 150 ppm Zn compared to 1,400 or 2,500 ppm Zn for 14 d after weaning. The study included 72 ETEC F18 susceptible pigs weaned at ~28 d of age (d 0 of the study). The pigs were distributed according to initial weight and litter to one of the three dietary Zn levels. Half of the pigs were challenged with ETEC on d 1 and 2. The challenge reduced (P ≤ 0.03) feed intake and average daily gain (ADG) during d 3 to 5. Challenged pigs fed 150 ppm Zn had lower (P = 0.01) ADG during d 5 to 7 compared to those fed 1,400 or 2,500 ppm Zn, whereas control pigs' ADG were not affected by dietary Zn content. Challenged pigs fed 150 ppm Zn also showed lower (P < 0.01) fecal dry matter (DM) on d 5 compared to control pigs fed 150 ppm Zn and challenged pigs fed 1,400 or 2,500 ppm Zn. Challenge increased (P < 0.01) ETEC shedding in all groups, but challenged pigs fed 150 ppm Zn showed higher (P ≤ 0.05) fecal shedding of ETEC and toxins than when fed 1,400 or 2,500 ppm. On d 3, C-reactive protein concentration in plasma was lower (P < 0.03) for pigs fed 1,400 and 2,500 compared to 150 ppm Zn. Plasma haptoglobin and pig major acute phase protein were unaffected by dietary Zn content. On d 0, the serum Zn concentration was 586 ±â€…36.6 µg/L, which pigs fed 150 ppm Zn maintained throughout the study. The serum Zn concentration increased (P ≤ 0.07) in pigs fed 1,400 or 2,500 ppm Zn. The challenge decreased (P < 0.01) the serum Zn concentration in pigs fed 2,500 ppm Zn. On d 5 and 7, serum Zn concentration was similar for challenged pigs fed 1,400 and 2,500 ppm Zn, while control pigs fed 2,500 ppm Zn had higher (P < 0.01) serum Zn concentration than 1,400 ppm Zn. On d 7, serum Zn concentration tended (P = 0.08) to be lower for pigs with diarrhea (fecal DM ≤ 18%). In summary, these results indicate that newly weaned pigs fed 150 ppm Zn are more susceptible to ETEC F18 colonization and its adverse consequences such as diarrhea and reduced growth, even though challenge did not increase acute phase proteins.

At weaning, the immune system of pigs is not fully developed, leaving them more susceptible to infections such as enterotoxigenic Escherichia coli (ETEC) F18. This study investigated the effect of dietary zinc content on newly weaned pigs infected with ETEC in terms of performance, serum zinc status, diarrhea, E. coli shedding, and systemic inflammation markers. Challenged pigs had reduced growth the first 3 d after the challenge when fed 150 ppm dietary Zn compared to non-challenged pigs. Moreover, the challenge increased E. coli fecal shedding and resulted in more liquid feces, and a greater risk of diarrhea in pigs fed 150 ppm zinc compared to 1,400 and 2,500 ppm zinc. The challenge was not able to induce a response in the acute phase proteins. The serum zinc concentration was lowest when feeding 150 ppm, and the ETEC challenge caused a reduction in the serum Zn concentration only when feeding 2,500 ppm zinc. These findings suggest that newly weaned pigs fed 150 ppm zinc are less capable of withstanding an ETEC challenge based on impaired growth performance and increased diarrhea and E. coli shedding.

Determination of the optimal dietary zinc content for pigs between 10 and 30 kg body weight.

The Zn requirement of pigs immediately after weaning is more investigated compared to the Zn requirement in the growth period between 10 and 30 kg. Unabsorbed and excessive dietary Zn is excreted mainly through feces, and spreading pig slurry to fields can cause environmental issues because high levels of Zn can impair plant growth and contribute to the development of antimicrobial resistance genes in microorganisms. Therefore, more precise knowledge of Zn requirements and dietary Zn recommendations is important. The present study investigated the optimal dietary Zn content for 10- to 30-kg pigs. The study used 150 pigs weaned at 28 d of age (day 0) and supplied with 1,474 mg dietary Zn/kg the first 2 wk post-weaning. After 2 wk, pigs were randomly distributed according to body weight (BW; 10.1 ±â€…0.3 kg) and sex, to individually housing, and fed a diet supplemented with either 0, 30, 60, 120, or 240 mg Zn/kg (from ZnO), resulting in total dietary Zn contents of 80, 92, 117, 189, and 318 mg/kg until week 6 post-weaning. BW, feed intake, and fecal scores were recorded, and samples of blood (weeks 2, 3, 5, and 6) and tissues (week 6) were collected. The feed intake, growth, feed efficiency, relative weight of the pancreas and liver, Zn concentration in the liver, and pancreatic digestive enzyme activity were unaffected by dietary Zn content (P > 0.12). The serum Zn level decreased (P < 0.01) by up to 24% from weeks 2 to 3. The serum Zn concentrations in weeks 5 and 6 were similar to in week 2 when 117, 189, and 318 mg Zn/kg were provided, while with 80 and 92 mg Zn/kg the serum Zn concentration was lower (P < 0.01) than in week 2. The serum Zn concentration reached a plateau in weeks 5 and 6, and breakpoints were calculated at 126 ±â€…17 and 102 ±â€…6 mg Zn/kg, respectively. Bone Zn status was greater (P < 0.01) with 189 than 80 mg Zn/kg and a breakpoint was calculated at 137 ±â€…19 mg Zn/kg. According to performance, the Zn requirement for 10- to 30-kg pigs can be fulfilled with 80 mg total Zn/kg, but based on serum and bone Zn status, the optimal total dietary Zn content is 102 to 137 mg/kg. The latter corresponds to a daily Zn intake (requirement) of 103 to 138 mg when calculated from the average feed intake during weeks 3 to 6 (1,005 g/d). Importantly, the presented results are obtained in pigs supplied with 1,474 mg Zn/kg from ZnO the first 2 wk post-weaning and a high level of phytase (1,000 phytase units) in the diet throughout the experiment.

It is important to ensure that the dietary zinc (Zn) content fulfills the Zn requirement of pigs. The unabsorbed proportion of dietary Zn is excreted mainly through feces and supplying pigs with more Zn than they need increases the excretion, which may be an environmental issue. This study investigated the optimal dietary Zn content in 10- to 30-kg pigs. From weaning until 10 kg (the first 2 wk post-weaning) pigs were fed a diet containing 1,474 mg Zn/kg. From the third to the sixth week post-weaning (10- to 30-kg) pigs were fed a basal diet supplemented with either 0, 30, 60, 120, or 240 mg Zn/kg from zinc oxide. Analysis of the five experimental diets showed total Zn contents of 80, 92, 117, 189, and 318 mg/kg. The feed intake, weight gain, and feed efficiency were unaffected by dietary Zn content. The Zn concentration in serum (blood) at the end of the experiment was lowest with 80 and 92 mg total Zn/kg compared to 117, 189, and 318 mg total Zn/kg, which resulted in similar serum Zn concentration. The Zn content in bone was lower at 80 compared to 189 mg total Zn/kg.