What's Hopping? Cricket Protein and Human Gut Microbiota

Overview

Edible insects are often considered a nutritious, protein-rich, environmentally sustainable alternative to traditional meat. They represent a new food for North American consumers. While the nutrient composition of several insects is characterized, all potential health impacts have not been evaluated. Crickets contain chitin and other fibers that may influence gut health. In this study, we evaluated the effects of consuming 25 grams/day whole cricket powder on gut microbiota composition, while assessing safety and tolerability. Twenty healthy adults participated in this six-week, double-blind, crossover dietary intervention. Participants were randomized into two treatment arms and consumed either cricket-containing or control breakfast foods for 14 days, followed by a 14-day washout period and assignment to the opposite arm. Blood and stool samples were collected at baseline and after each treatment period to assess liver function and microbiota changes. Results demonstrate that cricket consumption is tolerable and non-toxic at the treatment dose. Cricket powder supported growth of the probiotic bacteria, Bifidobacterium animalis, which increased more than 5.7-fold. Cricket consumption was also associated with reduced plasma TNF-a. These data suggest that eating crickets may improve gut health and reduce systemic inflammation; however, more research is needed to understand these effects and underlying mechanisms.

Although no research on the impact of edible insect protein powder on the human microbiome, there is plenty of evidence that edible insects offer a good source nutrition. Extensive research demonstrates that edible insects provide a source of high-quality bioavailable animal protein as many edible insects contain all essential amino acids for human nutrition and have high crude protein levels containing between 40 and 75% protein by dry weight. House crickets, for example, have more protein by dry weight than ground beef or broiled cod fish. Insects are also rich in healthy fatty acids, B vitamins (riboflavin, pantothenic acid, biotin, and folate, as well as important minerals such as iron and zinc. In addition to their nutrient content, and as arthropods, edible insects are also rich in dietary fiber, including chitin, which is found in the exoskeleton. Chitin is a modified polysaccharide containing nitrogen; it is considered an insoluble fiber with potential prebiotic properties that could benefit human health by selectively promoting the growth of beneficial bacterial species in the intestines. Previous studies on the impact of chitin-glucan derived from Aspergillus niger mycelium on oxidized low-density lipoprotein (OxLDL) in adults, a risk factor for atherosclerosis, found that chitin-glucan intakes of 4.5g/day significantly reduced OxLDL in 6 weeks. Additionally, a study of chito-oligosaccharides found that chitosan derivatives from shrimp cells with a great content of acetylated residues did not cause a putatively prebiotic effect in human gut microbiota-although this study was conducted on human fecal microbiota in batch cultures (not in humans). To date, no comprehensive study has evaluated the impact of whole insect consumption on the microbiota in humans, which would include consumption of insect-derived dietary fibers and chitins with potential health benefits. An assessment of the tolerability of whole insect consumption is also needed, despite the fact that around 2 billion people consume insects on a regular basis in 130 countries or more. The "What's Hopping? Cricket Protein and Human Gut Microbiota" study will determine the impact of a commercially available insect flour, containing high levels of protein and dietary fiber on human gut bacterial composition and functional capacity. A secondary aim is to establish whether insect powder acts as a prebiotic. In this study, a 100% insect-based flour/powder derived from edible crickets (Acheta domesticus) will be assessed. The objective of this study is to determine if Insect powder consumption changes gut bacteria and reduces inflammation in your intestinal tract compared to a placebo. To this end, we intend to enroll 20 healthy individuals to participate in a crossover diet intervention study. Participants will consume meals made with cricket powder and placebo meals daily for 2 weeks per treatment arm with a 2-week washout period. Both study participants and study personnel (clinical coordinators, PI's, statisticians) will be blinded to the intervention group. Anthropometric measures, as well as stool and blood samples, will be collected at each of 3 clinic visits (baseline, and the end of each intervention period). Primary outcome measures will include gut microbiota and microbial metabolism (determined by measuring fecal short chain fatty acids), local and systemic inflammatory markers, comprehensive metabolic panels and GI health questionnaires to assess safety and tolerability of the intervention foods.