Maltodextrin Derived from starches like corn or rice, maltodextrin is a heavily processed stabilizer commonly used to add bulk and texture. While it's generally considered safe, it's hardly an inert, harmless filler. Maltodextrin is often criticized for its sky-high glycemic index. Still, in the context of meal replacement drinks, this is likely a secondary concern: the most troubling aspect is its impact on intestinal health.

More and more research indicates that maltodextrin can reduce beneficial bacteria, deplete the protective mucosal barrier, and increase gut inflammation. Maltodextrin seems to incite the growth of pathogenic bacteria linked to inflammatory and autoimmune conditions and contribute to the formation of biofilms—the slimy matrix structure that harmful bacteria use to evade the immune system. This may be why maltodextrin can even increase colitis progression in susceptible individuals. Some research indicates that it may even have adverse neurological effects.

Carrageenan This increasingly controversial thickening agent stabilizes meal replacement drinks, almond milk, plant-based ice cream, baby formula and more. Carrageenan is derived from seaweed but undergoes major chemical processing until it resembles its natural source. Carrageenan has been linked to significant digestive damage, and in animal studies, carrageenan is actually used to induce intestinal inflammation reliably.

More human studies are desperately needed, but small trials have shown that it can cause IBD flares and impaired insulin signalling. As a filler, carrageenan has zero nutritional value. Therefore, while the degree of harm may be debated, there is no downside to avoiding it altogether. While the ingredient is legal and generally regarded as safe (GRAS), more and more manufacturers have voluntarily removed it from their products anyway.

Aspartame Aspartame, the non-caloric sweetener known by various brand names like NutraSweet, Equal, and SugarTwin, is widely present in over 6,000 products, including meal replacement drinks. Despite its long-standing use, controversies persist regarding its safety, and mounting research has connected aspartame to potential harms in humans and animals, including seizures, changes in brain function, mood disorders, headaches, and disruptions to the gut microbiome.

Some studies also suggest neuro-chemical imbalances and congenital risks, raising concerns about the safety of this artificial sweetener. Although marketed as a healthier alternative to sugar, these risks question its role in products intended to support overall health. And just like maltodextrin and carrageenan, it has no nutritional value or theoretical benefit- only risk. Check out our feature Aspartame: More Bitter than Sweet for a deeper dive into aspartame.

Natural and Artificial Flavours These deceptively vague terms conceal a cocktail of chemicals that are engineered for addictive flavour, not health. Where 'natural flavours' are derived from plant or animal sources, 'artificial flavours' are entirely synthetic or derived from petroleum and other inedible origins. However, in the end, they are chemically indistinguishable from one another. They are also mysterious: where 'natural flavours' may account for one listing on an ingredient label, it can represent 100s of lab-created compounds, the vast majority of which are typically solvents, preservatives, and emulsifiers.

While flavouring elements are generally regarded as safe, there is very little oversight reviewing the thousands of different possible chemicals used in this process. As for whether or not these phantom ingredients are harmful to human health, we simply have no idea, apart from very limited evidence. However, rodent studies are not encouraging, with acute cellular toxicity and cell mutation reported in more than one.

Grass Fed Whey or Blended Plant-Based Protein Sources A good protein source is a great thing to look for in a meal replacement drink, and there is a case to be made that grass-fed whey protein is categorically superior to any single-source plant-based protein. While large manufacturers typically rely on pea protein as a cheap vegan option, the amino acid profile, muscle-boosting leucine content, digestibility, or absorbability don't favourably compare.

Anecdotal reports of bloating from pea protein are also not uncommon. However, for those with sensitivity to dairy or looking for plant-based options, the good news is that combinations of multiple plant-based sources can create a more well-rounded amino acid profile, affecting muscle synthesis on par with whey.

High-Quality Omega 3 Sources Omega-3s are essential fats because the body needs them but can't make them- they must come from the diet. Sadly, most people struggle to get enough of them with a standard Western diet. While most meal replacements rely on cheap, inflammatory oils like soybean or canola, intentional sources of omega-3 fatty acids can mark the difference between a good meal replacement and a bad one.

High-DHA algal oil or fish oil can contribute essential long-chain unsaturates which support brain function, switch off inflammation, and promote robust heart health. Including a clean, sustainably sourced omega-3 in a meal replacement significantly elevates its nutritional profile.

About Soylent: Soylent ingredients. Soylent. (n.d.). https://soylent.com/pages/about-soylent

Are artificial food flavors and colorings harmful?. News. (2018, November 14). https://www.news-medical.net/health/Are-Artificial-Food-Flavors-and-Colorings-Harmful.aspx

Arnold, A. R., & Chassaing, B. (2019). Maltodextrin, Modern Stressor of the Intestinal Environment. Cellular and molecular gastroenterology and hepatology, 7(2), 475–476. https://doi.org/10.1016/j.jcmgh.2018.09.014

Bhattacharyya, S., Shumard, T., Xie, H., Dodda, A., Varady, K. A., Feferman, L., Halline, A. G., Goldstein, J. L., Hanauer, S. B., & Tobacman, J. K. (2017). A randomized trial of the effects of the no-carrageenan diet on ulcerative colitis disease activity. Nutrition and Healthy Aging, 4(2), 181–192. https://doi.org/10.3233/nha-170023

Brissette, C. (n.d.). Which eating habits are holding you back?. 80 Twenty Nutrition. https://80twentynutrition.com/artificial-flavors-food-avoid/

de-la-Cruz, M., Millán-Aldaco, D., Soriano-Nava, D. M., Drucker-Colín, R., & Murillo-Rodríguez, E. (2018). The artificial sweetener Splenda intake promotes changes in expression of c-Fos and NeuN in hypothalamus and hippocampus of rats. Brain research, 1700, 181–189. https://doi.org/10.1016/j.brainres.2018.09.006

Does pea protein cause gas? A dietitian’s perspective. Growing Naturals. (n.d.). https://growingnaturals.com/blogs/articles/does-pea-protein-cause-gas-a-plant-based-dietitians-perspective#:~:text=Pea%20protein%20contains%20some%20Galacto,associated%20with%20gas%20and%20bloating

Dwyer, K. (2017, March 15). The truth about natural and artificial flavors. Bon Appétit. https://www.bonappetit.com/story/truth-about-natural-artificial-flavors?srsltid=AfmBOorigpPy3jno9fLf5JhdwIfPqXXy7bJeYTy1JLMSIdjsbjF8aLox

Eichel, J. (n.d.). The dangers of artificial flavors - what you need to know. WICKED Protein. https://www.wickedprotein.com/blogs/nutrition/the-dangers-of-artificial-flavors?srsltid=AfmBOoq4QyrfjYRHKKLrFH4RVQgjYxTx26fpQgrehgvIQVmH1eKQlO-S

Everything you need to know about natural flavors. Food Revolution Network. (2023, May 23). https://foodrevolution.org/blog/natural-flavors/

Feferman, L., Bhattacharyya, S., Oates, E., Haggerty, N., Wang, T., Varady, K., & Tobacman, J. K. (2020). Carrageenan-Free Diet Shows Improved Glucose Tolerance and Insulin Signaling in Prediabetes: A Randomized, Pilot Clinical Trial. Journal of diabetes research, 2020, 8267980. https://doi.org/10.1155/2020/8267980

Goodman M. J. (2017). The “Natural” vs. “Natural Flavors” Conflict in Food Labeling: A Regulatory Viewpoint. Food and drug law journal, 72(1), 78–102.

Imperatore, R., Orso, G., Facchiano, S., Scarano, P., Hoseinifar, S. H., Ashouri, G., Guarino, C., & Paolucci, M. (2023). Anti-inflammatory and immunostimulant effect of different timing-related administration of dietary polyphenols on intestinal inflammation in zebrafish, danio rerio. Aquaculture, 563, 738878. https://doi.org/10.1016/j.aquaculture.2022.738878

Liebman, B., Galligan, T., Bailey, M. M., & Goldstein, Z. (2024, July 28). Artificial and natural flavoring. Center for Science in the Public Interest. https://www.cspinet.org/article/artificial-and-natural-flavoring

Mathai, J. K., Liu, Y., & Stein, H. H. (2017). Values for digestible indispensable amino acid scores (DIAAS) for some dairy and plant proteins may better describe protein quality than values calculated using the concept for protein digestibility-corrected amino acid scores (PDCAAS). The British journal of nutrition, 117(4), 490–499. https://doi.org/10.1017/S0007114517000125

Martino, J. V., Van Limbergen, J., & Cahill, L. E. (2017). The Role of Carrageenan and Carboxymethylcellulose in the Development of Intestinal Inflammation. Frontiers in pediatrics, 5, 96. https://doi.org/10.3389/fped.2017.00096

Newman, T. (2024, April 23). Food flavorings: Natural, artificial, and health effects. Food Flavorings: Natural, Artificial, and Health Effects. https://zoe.com/learn/food-flavorings-safety

Nickerson, K. P., Chanin, R., & McDonald, C. (2015). Deregulation of intestinal anti-microbial defense by the dietary additive, maltodextrin. Gut microbes, 6(1), 78–83. https://doi.org/10.1080/19490976.2015.1005477

Nickerson, K. P., & McDonald, C. (2012). Crohn's disease-associated adherent-invasive Escherichia coli adhesion is enhanced by exposure to the ubiquitous dietary polysaccharide maltodextrin. PloS one, 7(12), e52132. https://doi.org/10.1371/journal.pone.0052132

Oaklander, M. (2014, August 22). Soy milk brand stops using carrageenan. Time. https://time.com/3162074/carrageenan-whitewave/

Piri Damaghi, M., Mirzababaei, A., Moradi, S., Daneshzad, E., Tavakoli, A., Clark, C. C. T., & Mirzaei, K. (2022). Comparison of the effect of soya protein and whey protein on body composition: a meta-analysis of randomised clinical trials. The British journal of nutrition, 127(6), 885–895. https://doi.org/10.1017/S0007114521001550

Researcher bias and the carrageenan controversy. Cornucopia Institute. (2023a, January 9). https://www.cornucopia.org/researcher-bias-carrageenan-controversy/

Sales, I. M. S., Barbosa, J. S., Silva Dos Santos, F. K., Carneiro da Silva, F. C., Ferreira, P. M. P., Marcelo de Castro E Sousa, J., & Peron, A. P. (2017). Assessment of Grape, Plum and Orange Synthetic Food Flavourings Using in vivo Acute Toxicity Tests. Food technology and biotechnology, 55(1), 131–137. https://doi.org/10.17113/ftb.55.01.17.4770

Sales, I. M. S., Silva, J. M., Moura, E. S. R., Alves, F. D. S., Silva, F. C. C., Sousa, J. M. C., & Peron, A. P. (2018). Toxicity of synthetic flavorings, nature identical and artificial, to hematopoietic tissue cells of rodents. Brazilian journal of biology = Revista brasleira de biologia, 78(2), 306–310. https://doi.org/10.1590/1519-6984.07716

VAN DER Heijden, I., Monteyne, A. J., West, S., Morton, J. P., Langan-Evans, C., Hearris, M. A., Abdelrahman, D. R., Murton, A. J., Stephens, F. B., & Wall, B. T. (2024). Plant Protein Blend Ingestion Stimulates Postexercise Myofibrillar Protein Synthesis Rates Equivalently to Whey in Resistance-Trained Adults. Medicine and science in sports and exercise, 56(8), 1467–1479. https://doi.org/10.1249/MSS.0000000000003432

Warner J. O. (2024). Artificial food additives: hazardous to long-term health?. Archives of disease in childhood, 109(11), 882–885. https://doi.org/10.1136/archdischild-2023-326565

What’s the controversy over carrageenan? Cornucopia Institute. (2023b, January 4). https://www.cornucopia.org/carrageenan/#:~:text=Is%20carrageenan%20natural%3F,a%20highly%20processed%2C%20synthetic%20ingredient

Zangara, M. T., Ponti, A. K., Miller, N. D., Engelhart, M. J., Ahern, P. P., Sangwan, N., & McDonald, C. (2022). Maltodextrin Consumption Impairs the Intestinal Mucus Barrier and Accelerates Colitis Through Direct Actions on the Epithelium. Frontiers in immunology, 13, 841188. https://doi.org/10.3389/fimmu.2022.841188

Zielinski, D. (2024a, January 2). Aspartame: More bitter than sweet · good recipes. Rily. https://www.rily.co/articles/aspartame:-more-bitter-than-sweet-48

Zielinski, D. (2024b, August 12). Ultra processed foods: Dietary demon or unjustly accused? · Good Recipes. Rily. https://www.rily.co/articles/ultra-processed-foods:-dietary-demon-or-unjustly-accused-109

Lead image credit: Alexsander Saks | Unsplash