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4 minutes read

Swine Nutrition Impacts Piglet Gut Health and Immune Response

Group of piglets, shown laying in a pen.
Dr. Zachary Rambo

Global RNS Species Leader – Swine
Zinpro Corporation

One of the biggest challenges in the pork industry is piglet survivability and performance. The stress of weaning and loss of passive immunity from the sow’s milk increases the susceptibility of newly weaned pigs to infectious intestinal bacteria creating challenges to overall survivability.

The average pre-wean mortality rate in the United States is around 16 percent with high variation, and opportunity for improvement. So, ensuring piglets develop strong gut health and a robust immune response is vital for survival.

Research has shown that by supplementing gestating gilts and sows with performance trace minerals, we see an improved performance response, and a lasting impact in the offspring by helping to improve gut integrity.

Prevent Leaky Gut Through Improved Trace Mineral Nutrition

The lining of the intestinal tract is comprised of multiple epithelial tissue layers. The villi, or absorptive structures of the intestine are lined with enterocytes which is where nutrients are absorbed. These cells are bound to each other by complex protein structures, one of which is “tight junctions”. Their role is to prevent bacteria, pathogens and toxins from passing between the enterocytes and into the bloodstream, helping to create a protective physical barrier.

A healthy intestinal wall has long, finger shaped villi that provide a large surface for digestion and absorption of nutrients. Before weaning, intestinal villi (responsible for nutrient absorption) are thin and elongated, whereas after weaning, villus height has been shown to decrease about 75 percent during the first 24 hours post-weaning, quickly become thick and short. Shortened villi can impair digestion and nutrient absorption. A reduction in nutrient intake also compromises the integrity of the tight junctions.

Factors, such as heat stress, reduced feed intake, bacteria, feed contaminants, etc., can weaken the quality of the tight junctions, leading to a syndrome called “leaky gut.” This condition — leaky gut — allows molecules such as bacteria, pathogens and toxins to pass between the epithelial cells, resulting in cell damage and inflammation of the intestine. When this occurs, it triggers the immune system which requires significant levels of nutrients to deal with the inflammation, reducing the amount of nutrients available for piglet growth.

Research has demonstrated the nutrition of one generation can have a positive or negative impact on the nutrition of the next generation. This is true for humans, as well as animals. Zinpro partnered with the University of Alberta (Caine et al., 2009) to evaluate how incorporating performance trace minerals into the diet of the gestating sow can help the piglet develop a more robust initial immune response.

Sows were split into two groups and fed either inorganic trace minerals or performance trace minerals during the last stage of gestation (d 80 to 114):

Inorganic Treatment: 120 ppm Zn from zinc oxide (ZnO)
Availa®Zn Treatment: 250 ppm of zinc from Availa®Zn added on top of the control diet from d 80 to 114 of gestation.

Once the sows farrowed their litter, they transitioned to a common lactation diet and the piglets were harvested at 14 days of age to view their intestinal morphology.

While villus height has been shown to decrease about 75 percent during the first 24 hours post-weaning quickly becoming thick and short, the piglets born to sows receiving zinc from Availa-Zn had higher intestinal villi height and a higher villi height to crypt depth ratio. This resulted in a greater absorptive surface for the piglet to absorb nutrients, while also helping to reduce the incidence of diarrhea.

Two bar graphs showing villous height and villous height to crypt depth ratio

A More Robust Immune Response

The intestinal morphology also showed an increase in intra-epithelial lymphocytes which help to eliminate damaged or infected intestinal epithelial cells. This in turn helps improve the intestinal immune response of the pig. There was also an increase in goblet cells in the intestine. Goblet cells are responsible for producing mucin, and mucin creates that mucus layer along the walls of the intestine. Intra-epithelial lymphocytes target and destroy pathogens to help reduce overall pathogen load. Goblet cells are responsible for mucin production which helps act as a protective mucous barrier for the lining of the intestine.

Two bar graphs showing intra-epithelial lymphocytes and goblet cells

To learn more about performance trace minerals and their role in piglet gut health, contact your Zinpro representative.

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