Article
Veterinary Gastroenterology Gut Health Enterotoxigenic Escherichia Coli Intestinal Health Gut Microbiome Enteric Diseases Veterinary Preventive Medicine Swine Production Post-Weaning Diarrhea Piglet Health Swine Health Management Weaning Stress ETEC Infection Piglet Nutrition Intestinal Barrier Function Piglet Disease Prevention Livestock Health Management Swine Herd Health Diarrhea Management Disease Risk Factors

Post-Weaning Diarrhea in Piglets: Understanding the Causes, Pathogenesis, and Clinical Impact

The transition from milk to solid feed is one of the most challenging phases in a piglet's life. Along with abrupt dietary, environmental, and social changes, weaning places considerable stress on the gastrointestinal tract and immune system, increasing susceptibility to enteric disease. Among these conditions, post-weaning diarrhea (PWD) remains one of the leading causes of illness, mortality, impaired growth, and economic loss in swine production1,2,3

Understanding the mechanisms that drive PWD is essential for timely intervention. Recognizing the interaction between weaning stress, intestinal health, microbial balance, and infectious agents allows veterinarians to develop targeted herd health strategies that minimize disease impact while supporting long-term productivity. 

Why Weaning Increases the Risk of PWD 

Weaning triggers several physiological changes that directly affect intestinal health. Sudden alterations in feed, housing environment, and social grouping disrupt normal gastrointestinal function and challenge the developing immune system1,2

At the same time, the intestinal microbiome undergoes substantial changes. Variations in microbial populations occur as piglets adapt from milk to solid feed, and these shifts influence intestinal stability and overall gut health. Environmental conditions and dietary composition further modify microbial diversity, affecting host responses through microbial metabolites and interactions with intestinal tissues3,4,5

Weaning stress can also alter intestinal morphology and function, reducing digestive and absorptive capacity while compromising the intestinal barrier. As barrier integrity declines, piglets become more vulnerable to enteric infections, resulting in reduced feed intake, increased diarrhea, and slower growth6

ETEC: The Primary Driver of Post-Weaning Diarrhea 

Enterotoxigenic Escherichia coli (ETEC) remains the principal pathogen associated with PWD in newly weaned piglets3

Disease begins when ETEC adheres to receptors on the small intestinal epithelium through fimbriae or other surface structures without causing immediate structural damage3. This attachment enables colonization of the intestinal mucosa, after which enterotoxins are released. 

The enterotoxins disrupt intestinal barrier function and stimulate intestinal inflammation, resulting in excessive fluid and electrolyte secretion into the intestinal lumen7. Clinically, affected piglets may develop: 

  • Watery diarrhea 
  • Progressive dehydration 
  • Reduced feed intake 
  • Poor weight gain 
  • Increased mortality in severe cases 

Because adhesins and enterotoxins are major virulence factors, successful colonization is a critical step in disease development7

Additional Factors Contributing to Disease Development 

Although ETEC is the predominant cause of PWD, it is not the only contributor. Rotavirus A has also been identified as an important etiological agent, while Balantidium coli may contribute to disease in certain situations8

Dietary factors can further increase susceptibility by disturbing intestinal fluid balance. Several nutritional components have been associated with higher risk, including: 

  • High crude protein levels 
  • Certain antigenic proteins 
  • High acid-binding capacity (ABC) of feed 
  • Deoxynivalenol (DON) contamination9 

These factors can promote intestinal dysfunction and create conditions that favour enteric disease during the vulnerable post-weaning period. 

Clinical Impact on Piglet Health 

PWD affects far more than fecal consistency. The condition compromises intestinal integrity, reduces nutrient absorption, and limits growth performance during a critical production stage. Fluid and electrolyte losses contribute to dehydration, while ongoing intestinal inflammation prolongs recovery and negatively affects overall piglet performance7,10

In addition to direct health consequences, PWD remains a major cause of morbidity and mortality worldwide, making it one of the most important diseases requiring proactive herd health management3

Practical Clinical Insights 

For practicing veterinarians, PWD should be viewed as a multifactorial condition rather than a single infectious disease. Early recognition of weaning-associated stress, maintenance of gut health, and identification of factors that favour ETEC colonization are fundamental when investigating outbreaks. 

Evaluating dietary changes, environmental conditions, intestinal health, and likely infectious agents together provides a more complete understanding of disease development and forms the basis for effective prevention and herd-level management strategies. 

References 

  1. Blavi L, Solà-Oriol D, Llonch P, López-Vergé S, Martín-Orúe SM, Pérez JF. Management and feeding strategies in early life to increase piglet performance and welfare around weaning: A review. Animals. 2021 Jan 25;11(2):302. https://www.mdpi.com/2076-2615/11/2/302 
  1. Canibe N, Højberg O, Kongsted H, Vodolazska D, Lauridsen C, Nielsen TS, Schönherz AA. Review on preventive measures to reduce post-weaning diarrhoea in piglets. Animals. 2022 Sep 27;12(19):2585. https://www.mdpi.com/2076-2615/12/19/2585 
  1. Iribagiza A, Nimbona C, Hanyurwumutima E, Mvuyekure E, Hakizimana E, Nzeyimana MC, Irakoze S. Post-Weaning Diarrhea in Piglets: Causes, Risk Factors, and Management Strategies. Open Journal of Animal Sciences. 2025 Oct 29;15:369-81. https://hal.science/hal-05512666/document 
  1. Guevarra RB, Hong SH, Cho JH, Kim BR, Shin J, Lee JH, Kang BN, Kim YH, Wattanaphansak S, Isaacson RE, Song M. The dynamics of the piglet gut microbiome during the weaning transition in association with health and nutrition. Journal of animal science and biotechnology. 2018 Jul 30;9(1):54. https://link.springer.com/content/pdf/10.1186/s40104-018-0269-6.pdf 
  1. Tang Q, Yin X, Wen G, Luo Z, Zhang L, Tan S. Unraveling the composition and function of pig gut microbiome from metagenomics. Animal Microbiome. 2025 Jun 4;7(1):60. https://link.springer.com/content/pdf/10.1186/s42523-025-00419-7.pdf 
  1. Tang X, Xiong K, Fang R, Li M. Weaning stress and intestinal health of piglets: A review. Frontiers in immunology. 2022 Nov 24;13:1042778. https://www.frontiersin.org/journals/immunology/articles/10.3389/fimmu.2022.1042778/pdf 
  1. Kim K, Song M, Liu Y, Ji P. Enterotoxigenic Escherichia coli infection of weaned pigs: Intestinal challenges and nutritional intervention to enhance disease resistance. Frontiers in immunology. 2022 Aug 5;13:885253. https://www.frontiersin.org/journals/immunology/articles/10.3389/fimmu.2022.885253/full 
  1. Eriksen EØ, Kudirkiene E, Barington K, Goecke NB, Blirup-Plum SA, Nielsen JP, Olsen JE, Jensen HE, Pankoke K, Larsen LE, Liu G. An observational field study of porcine post-weaning diarrhea: clinical and microbiological findings, and fecal pH-measurements as a potential diagnostic tool. Porcine Health Management. 2023 Jul 11;9(1):33. https://link.springer.com/content/pdf/10.1186/s40813-023-00325-x.pdf 
  1. Tang Q, Lan T, Zhou C, Gao J, Wu L, Wei H, Li W, Tang Z, Tang W, Diao H, Xu Y. Nutrition strategies to control post-weaning diarrhea of piglets: From the perspective of feeds. Animal Nutrition. 2024 Jun 1;17:297-311. https://www.sciencedirect.com/science/article/pii/S2405654524000362 
  1. Tang X, Xiong K, Fang R, Li M. Weaning stress and intestinal health of piglets: A review. Frontiers in immunology. 2022 Nov 24;13:1042778. https://www.frontiersin.org/journals/immunology/articles/10.3389/fimmu.2022.1042778/pdf