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Clinical Trial Summary

The investigators propose a clinical trial in premature infants to determine the effect of orally-administered bovine lactoferrin on occurrence of severe infections and to determine whether as a result of decreased infections, infants' growth and development improve after daily lactoferrin supplementation, due to its antimicrobial and anti-inflammatory properties. If successful, the use of lactoferrin as a protective protein could profoundly affect clinical care of neonates both in the developed and developing world.


Clinical Trial Description

Neonatal mortality is an important global public health challenge. Approximately 4 million neonatal deaths per year occur in developing countries, accounting for 40% all of deaths in children under 5. Infection, birth asphyxia and consequences of premature birth/low birth weight are responsible for the majority of these deaths. Although advances in neonatal intensive care led to improved survival of premature infants, sepsis continues to be an important cause of morbidity and mortality worldwide. Lactoferrin, an iron-binding protein with multiple physiological functions (anti-microbial, anti-inflammatory, and immunomodulatory), is one of the most important proteins present in mammalian milk. Our hypothesis is that lactoferrin given as a daily oral food supplement to preterm infants will improve their health by mimicking its protective role in milk. There is a vast literature showing in vitro and animal model benefits of lactoferrin. However, there are few clinical studies designed to translate this knowledge into patient care. A recent Italian study showed that lactoferrin given to low-birth weight infants reduces incidence of sepsis (17% vs. 6%) and death. Whether lactoferrin has an effect in higher risk populations and an impact on subsequent neurodevelopment and growth remains to be determined. Specific aim 1: The investigators will test the hypothesis that bovine lactoferrin supplementation prevents serious infections in preterm infants. The investigators will conduct a randomized placebo-controlled double blind study in 414 premature infants < 2000 g in Neonatal Units in Lima, Peru to determine whether bovine lactoferrin prevents late-onset sepsis or sepsis-associated death. This hypothesis is based on lactoferrin´s antimicrobial and immunomodulating activities. Lactoferrin protects against pathogens in multiple ways: it sequesters iron essential for bacterial growth; binds to lipopolysaccharide (LPS) on the cell surface of Gram negative bacteria, disrupting the bacterial cell membrane; it has anti-lipoteichoic acid (against Gram positive organisms) and anti-Candida cell wall activities. The investigators have found that lactoferrin not only inhibits growth; it impairs virulence of some of the major pathogens by decreasing their ability to adhere or to invade mammalian cells, and by binding to, or degrading, specific virulence proteins. Lactoferrin may protect infants from sepsis by blocking attachment and invasion of organisms in the gut. Specific aim 2: The investigators will test the hypothesis that bovine lactoferrin supplementation promotes better neurodevelopment and growth outcomes in preterm infants assessed by the Mullen Scales of Early Learning, a standardized neurologic exam and growth measurements at 12, 18 and 24 months corrected age. It is postulated that exposure of the preterm brain to inflammatory mediators during infectious episodes contribute to brain (white matter) injury and poor developmental outcome. It has been demonstrated that breast milk has a beneficial effect on neurodevelopment outcomes in preterm infants. The investigators hypothesize that lactoferrin is the major factor in milk responsible for this effect due to its antimicrobial and immunomodulatory properties: it reduces inflammation by decreasing production of tumor necrosis factor α and other pro-inflammatory molecules, and by regulating the immune response, protecting against severe inflammation related to infection and septic shock. In addition, the investigators hypothesize that lactoferrin will improve growth by decreasing the frequency of growth-impairing infections and by lactoferrin effect on intestinal cell proliferation, differentiation and maturation. The use of lactoferrin as a broad-spectrum non-pathogen specific antimicrobial protective protein is an innovative approach. If successful this study will profoundly affect clinical care of neonates both in the developed and developing world. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT01525316
Study type Interventional
Source Universidad Peruana Cayetano Heredia
Contact
Status Completed
Phase Phase 3
Start date May 2012
Completion date October 2016

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