Details

Title

Edible insects as a source of dietary protein for companion animals with food responsive enteropathies – perspectives and possibilities

Journal title

Polish Journal of Veterinary Sciences

Yearbook

2024

Volume

vol. 27

Issue

No 2

Authors

Affiliation

Gałęcki, R. : Department of Veterinary Prevention and Feed Hygiene, Faculty of Veterinary Medicine, University of Warmia and Mazury in Olsztyn, Oczapowskiego 13, 10-719 Olsztyn, Poland ; Hanuszewska-Dominiak, M. : Department of Histology and Embryology, Faculty of Veterinary Medicine, University of Warmia and Mazury in Olsztyn, Oczapowskiego 13, 10-719 Olsztyn, Poland ; Kaczmar, E. : Department of Clinical Diagnostics, Faculty of Veterinary Medicine, University of Warmia and Mazury in Olsztyn, Oczapowskiego 13, 10-719 Olsztyn, Poland

Keywords

chronic enteropathies (CE) ; edible insects ; edible insect industry ; food-responsiveenteropathies (FRE) ; veterinary diets ; veterinary medicine

Divisions of PAS

Nauki Biologiczne i Rolnicze

Coverage

309-318

Publisher

Polish Academy of Sciences Committee of Veterinary Sciences ; University of Warmia and Mazury in Olsztyn

Bibliography


Abd El-Wahab A, Meyer L, Kölln M, Chuppava B, Wilke V, Visscher C, Kamphues J (2021) Insect larvae meal (Hermetia illucens) as a sustaina-ble protein source of canine food and its impacts on nutrient digestibility and fecal quality. Animals (Basel) 11: 2525.

Aldrich GC, Koppel K (2015) Pet food palatability evaluation: a review of standard assay techniques and interpretation of results with a primary focus on limitations. Animals (Basel) 5: 43-55.

Allenspach K, Vaden SL, Harris TS, Gröne A, Doherr MG, Griot‐Wenk ME, Bischoff SC, Gaschen F (2006) Evaluation of colonoscopic allergen provocation as a diagnostic tool in dogs with proven food hypersensitivity reactions. J Small Anim Pract 47: 21-26.

Areerat S, Chundang P, Lekcharoensuk C, Kovitvadhi A (2021) Possibility of using house cricket (Acheta domesticus) or mulberry silkworm (Bombyx mori) pupae meal to replace poultry meal in canine diets based on health and nutrient digestibility. Animals (Basel) 11: 2680.

Bae S, Lee S, Kim J, Hwang Y (2020) Analysis of consumer receptivity to pet food containing edible insects in South Korea. Korean J Appl En-tomol 59: 139-143.

Bakuła T, Gałęcki R (2021) Strategy of using insects as alternative sources of protein in animal nutrition and possibilities of developing its produc-tion in the territory of the Republic of Poland. 1st ed., ERZET, Olsztyn, pp 139-169.

Barrena R, Sánchez M (2013) Neophobia, personal consumer values and novel food acceptance. Food Qual Pref 27: 72-84.

Beck AM, Fine AH, Coren S, King E, Feldman S, Braun L (2023) Why do we love the pets we have? The role of animals and family. In: The routledge international handbook of human-animal interactions and anthrozoology. routledge, pp 200-213.

Benvenuti E, Pierini A, Bottero E, Pietra M, Gori E, Salvadori S, Marchetti, V (2021) Immunosuppressant-responsive enteropathy and non-responsive enteropathy in dogs: prognostic factors, short-and long-term follow up. Animals (Basel) 11: 2637.

Bloch PH (1995) Seeking the ideal form: Product design and consumer response. J Mark 59: 16-29.

Boldrin M, Levine DK (2002) The case against intellectual property. Am Econ Rev 92: 209-212.

Bosch G, Swanson KS (2021) Effect of using insects as feed on animals: pet dogs and cats. J Insects Food Feed 7: 795-805.

Bosch G, Vervoort JJ, Hendriks WH (2016) In vitro digestibility and fermentability of selected insects for dog foods. Anim Feed Sci Technol 221: 174-184.

Bosch G, Zhang S, Oonincx DG, Hendriks WH (2014) Protein quality of insects as potential ingredients for dog and cat foods. J Nutr Sci 3: e29.

Bueno AD, Motta-Junior JC (2004) Food habits of two syntopic canids, the maned wolf (Chrysocyon brachyurus) and the crab-eating fox (Cerdocyon thous), in southeastern Brazil Rev Chil Hist Nat 77: 5-14.

Bussink AP, Speijer D, Aerts JM, Boot RG (2007) Evolution of mammalian chitinase (-like) members of family 18 glycosyl hydrolases. Genetics 177: 959-970.

Chesney CJ (2001) Systematic review of evidence for the prevalence of food sensitivity in dogs. Vet Rec 148: 445-448.

Dagevos H (2021) A literature review of consumer research on edible insects: recent evidence and new vistas from 2019 studies. J Insects Food Feed 7: 249-259.

Dandrieux JR, Mansfield CS (2019) Chronic enteropathy in canines: prevalence, impact and management strategies. Vet Med (Auckl) 10: 203-214.

Deroy O, Reade B, Spence C (2015) The insectivore’s dilemma, and how to take the West out of it. Food Qual Pref 44: 44-55.

Dossey AT, Tatum JT, McGill WL (2016) Modern insect-based food industry: current status, insect processing technology, and recommendations moving forward. In: Insects as Sustainable Food Ingredients. Academic Press, pp 113-152.

Drucker P (2014) Innovation and Entrepreneurship. 1st ed., Routledge, New York, pp: 31-156

EFSA Scientific Committee (2015) Risk profile related to production and consumption of insects as food and feed. EFSA J 13: 4257.

Euromonitor (2019) Premiumisation: How Value-Seeking Trends in the US Will Shape the Future of Pet Food. https://www.euromonitor.com/premiumisation-how-value-seeking-trends-in-the-us-will-shape-the-future-of-petfood/report (Accessed 04.05.2021).

Evason M, Peace M, Munguia G, Stull J (2020) Clients’ knowledge, attitudes, and practices related to pet nutrition and exercise at a teaching hos-pital. Can Vet J 61: 512-516.

Fasanelli R, Galli I, Riverso R, Piscitelli A (2020) Social representations of insects as food: an explorative-comparative study among millennials and x-generation consumers. Insects 11: 656.

Fediaf Annual Report (2021) https://europeanpetfood.org/about/annual-report/ (Accessed 20.01.2023).

Ferrantelli V, Riili S, Vicari D, Percipalle M, Chetta M, Monteverde V, Gaglio G, Giardina G, Usai F, Poglayen G (2010) Spirocerca lupi isolated from gastric lesions in foxes (Vulpes vulpes) in Sicily (Italy). Pol J Vet Sci 13: 465-471.

Forbes SL, Trafford S, Surie M (2018) Pet humanisation: what is it and does it influence purchasing behaviour? J Dairy Vet Sci 5: 1-5.

Formica P (2013) Stories of innovation for the millennial generation: The lynceus long view. 1st ed., Springer, Berlin, pp 2-26.

Gallen C, Pantin-Sohier G, Oliveira D (2022) How can the design thinking process improve an innovative insect-based food experience? Int J Food Des 7: 29-58.

Gałęcki R, Bakuła T, Gołaszewski J (2023) Foodborne diseases in the edible insect industry in Europe – new challenges and old problems. Foods 12: 770.

Gałęcki R, Zielonka Ł, Zasȩpa M, Gołȩbiowska J, Bakuła T (2021) Potential utilization of edible insects as an alternative source of protein in animal diets in Poland. Front Sustain Food Syst 5: 675796.

Gasco L, Józefiak A, Henry M (2021) Beyond the protein concept: health aspects of using edible insects on animals. J Insects Food Feed 7: 715-741.

German AJ, Hall EJ, Day MJ (2001) Immune cell populations within the duodenal mucosa of dogs with enteropathies. J Vet Intern Med 15: 14-25.

Glanemann B, Seo YJ, Priestnall SL, Garden OA, Kilburn L, Rossoni-Serao M, Segarra S, Mochel JP, Allenspach K (2021) Clinical efficacy of prebiotics and glycosaminoglycans versus placebo in dogs with food responsive enteropathy receiving a hydrolyzed diet: a pilot study. PloS One, 16: e0250681.

Graham TM, Milaney KJ, Adams CL, Rock MJ (2019) Are millennials really picking pets over people? Taking a closer look at dog ownership in emerging adulthood. Can J Fam Youth 11: 202-227.

Hankin S (2007) Not a living room sofa: Changing the legal status of companion animals. Faculty Scholarship, p 85.

Harvey RG (1993) Food allergy and dietary intolerance in dogs: a report of 25 cases. J Small Anim Pract 34: 175-179.

Hill CW (1997) Establishing a standard: Competitive strategy and technological standards in winner-take-all industries. Acad Manag Ex 11: 7-25.

Hong J, Han T, Kim YY (2020) Mealworm (Tenebrio molitor Larvae) as an alternative protein source for monogastric animal: a review. Animals (Basel) 10: 2068.

Islam MM, Yang CJ (2017) Efficacy of mealworm and super mealworm larvae probiotics as an alternative to antibiotics challenged orally with Salmonella and E. coli infection in broiler chicks. Poult Sci 96: 27-34.

Jarett JK, Carlson A, Serao MR, Strickland J, Serfilippi L, Ganz HH (2019) Diets with and without edible cricket support a similar level of diver-sity in the gut microbiome of dogs. PeerJ 7: e7661.

Jeromin A (2018) Food allergy: Fact versus fiction. Vet Pract News Published November 5, 2018.

Jin XH, Heo PS, Hong JS, Kim NJ, Kim YY (2016) Supplementation of dried mealworm (Tenebrio molitor larva) on growth performance, nutri-ent digestibility and blood profiles in weaning pigs. Asian-Australas J Anim Sci 29: 979-986.

Kamleh M, Khosa, DK, Verbrugghe A, Dewey CE, Stone E (2020) A cross‐sectional study of pet owners’ attitudes and intentions towards nutri-tional guidance received from veterinarians. Vet Rec 187: e123.

Kawano K, Shimakura H, Nagata N, Masashi Y, Suto A, Suto Y, Uto S, Ueno H, Hasegawa T, Ushigusa T, Nagai T, Arawatari Y, Miyaji K, Ohmori K, Mizuno T (2016) Prevalence of food-responsive enteropathy among dogs with chronic enteropathy in Japan. J Vet Med Sci 78: 1377-1380.

Kępińska-Pacelik J, Biel W (2022) Insects in pet food industry – hope or threat? Animals (Basel) 12: 1515.

Kinyuru JN, Ndung’u NW (2019) Promoting edible insects in Kenya: historical, present and future perspectives towards establishment of a sus-tainable value chain. J Insects Food Feed 6: 51-58.

Kröger S, Heide C, Zentek J (2020) Evaluation of an extruded diet for adult dogs containing larvae meal from the black soldier fly (Hermetia illu-cens). Anim Feed Sci Technol 270: 114699.

Kucharska B, Malinowska M (2019) Trends in Y generation’s behaviour on the food market. Zeszyty Naukowe SGGW w Warszawie. Polityki Europejskie, Finanse i Marketing 22: 106-119.

Kulkov I, Barner-Rasmussen W, Ivanova-Gongne M, Tsvetkova A, Hellström M, Wikström K (2021) Innovations in veterinary markets: opinion leaders’ social capital. J Bus Ind Mark 36: 1-14.

Lähteenmäki-Uutela A, Marimuthu SB, Meijer N (2021) Regulations on insects as food and feed: a global comparison. J Insects Food Feed 7: 849-856.

Lange KW, Nakamura Y (2021) Edible insects as future food: chances and challenges. J Future Foods 1: 38-46.

Lee KI, Chae Y, Yun T, Koo Y, Lee D, Kim H, So KM, Cho WJ, Kim HJ, Yang MP, Kang BT (2021) Clinical application of insect-based diet in canine allergic dermatitis. Korean J Vet Res 61: e36.

Lincoln J (2018) How do Millennial retail shopping habits for animal feed differ from that of other generations? Doctoral Dissertation. http://hdl.handle.net/2097/39321 (Accessed 10.12.2022).

Makielski K, Cullen J, O’Connor A, Jergens AE (2019) Narrative review of therapies for chronic enteropathies in dogs and cats. J Vet Intern Med 33: 11-22.

Mancini S, Moruzzo, R, Riccioli F, Paci G (2019) European consumers’ readiness to adopt insects as food. A review. Food Res Int 122: 661-678.

McConnell AR, Paige LE, Humphrey BT (2019) We are family: Viewing pets as family members improves wellbeing. Anthrozoös 32: 459-470.

Mowat AM (2019) The immunopathogenesis of food-sensitive enteropathies. 1st ed., CRC Press, Boca Raton, pp 199-226.

Murefu TR, Macheka L, Musundire R, Manditsera FA (2019) Safety of wild harvested and reared edible insects: A review. Food Control 101: 209-224.

Nagata N, Ohta H, Yokoyama N, Teoh YB, Nisa K, Sasaki N, Osuga T, Morishita K, Takiguchi M (2020) Clinical characteristics of dogs with food‐responsive protein‐losing enteropathy. J Vet Intern Med 34: 659-668.

Niyonsaba HH, Höhler J, Kooistra J, Van der Fels-Klerx HJ, Meuwissen MP (2021) Profitability of insect farms. J Insects Food Feed 7: 923-934.

Nowakowski AC, Miller AC, Miller ME, Xiao H, Wu X (2022) Potential health benefits of edible insects. Crit Rev Food Sci Nutr 62: 3499-3508.

Oakland Veterinary Referral Service Staff (2019). The future is pets: why millennials have the top spot as pet owners. Published January 17, 2019. https://www.ovrs.com/blog/pet-owners/ (Accessed 15.12.2022).

Ojha S, Bußler S, Psarianos M, Rossi G, Schlüter OK (2021) Edible insect processing pathways and implementation of emerging technologies. J Insects Food Feed 7: 877-900.

Okamoto Y, Nose M, Miyatake K, Sekine J, Oura R, Shigemasa Y, Minami S (2001) Physical changes of chitin and chitosan in canine gastroin-testinal tract. Carbohydr Polym 44: 211-215.

Olivry T, Bizikova P (2010) A systematic review of the evidence of reduced allergenicity and clinical benefit of food hydrolysates in dogs with cutaneous adverse food reactions. Vet Dermatol 21: 32-41.

Ortiz JC, Ruiz AT, Morales-Ramos JA, Thomas M, Rojas MG, Tomberlin JK, Yi L, Han R, Giroud L, Jullien RL (2016) Insect mass production technologies. In: Insects as sustainable food ingredients. Academic Press, San Diego, pp 153-201.

Panteli N, Mastoraki M, Lazarina M, Chatzifotis S, Mente E, Kormas KA, Antonopoulou E (2021) Configuration of gut microbiota structure and potential functionality in two teleosts under the influence of dietary insect meals. Microorganisms 9: 699.

Patel S, Suleria HA, Rauf A (2019) Edible insects as innovative foods: Nutritional and functional assessments. Trends Food Sci Technol 86: 352-359.

Paterson S (1995) Food hypersensitivity in 20 dogs with skin and gastrointestinal signs. J Small Anim Pract 36: 529-534.

Prata JC (2022) Survey of pet owner attitudes on diet choices and feeding practices for their pets in Portugal. Animals (Basel) 12: 2775.

Premrov Bajuk B, Zrimšek P, Kotnik T, Leonardi A, Križaj I, Jakovac Strajn B (2021) Insect protein-based diet as potential risk of allergy in dogs. Animals 11: 1942.

Procoli F (2020) Inflammatory bowel disease, food-responsive, antibiotic-responsive diarrhoea, protein losing enteropathy: Acronyms, clinical staging, and treatment of chronic inflammatory enteropathy in dogs. Adv Small Anim Med Care 1: 127-141.

Regulation (EU) 2015/2283 of the European Parliament and of the Council of 25 November 2015 on Novel Foods, Amending Regulation (EU) No. 1169/2011 of the European Parliament and of the Council and Repealing Regulation (EC) No. 258/97 of the European Parliament and of the Council and Commission Regulation (EC) No. 1852/2001; European Union: Luxemburg, 2001.

Rumpold BA, Schlüter OK (2013) Nutritional composition and safety aspects of edible insects. Mol Nutr Food Res 57: 802-823.

Schumpeter JA (2017) The theory of economic development: An inquiry into profits, capital, credit, interest, and the business cycle. Routledge, New York, pp 15-100.

Selaledi L, Mbajiorgu CA, Mabelebele M (2020) The use of yellow mealworm (T. molitor) as alternative source of protein in poultry diets: a re-view. Trop Anim Health Prod 52: 7-16.

Sheldon JW (2013) Wild dogs: the natural history of the nondomestic canidae. 1st ed., Elsevier, Amsterdam, pp 8-203.

Siddiqui SA, Brunner TA, Tamm I, van der Raad P, Patekar G, Bahmid NA, Aarts K, Paul A (2023) Insect-based dog and cat food: A short inves-tigative review on market, claims and consumer perception. J Asia-Pac Entomol 26: 102020.

Siddiqui SA, Zannou O, Karim I, Kasmiati, Awad NMH, Gołaszewski J, Heinz V, Smetana S (2022) Avoiding food neophobia and increasing consumer acceptance of new food trends – a decade of research. Sustainability 14: 10391.

Siel D, Beltrán CJ, Martínez E, Pino M, Vargas N, Salinas A, Pérez O, Pereira I, Ramírez-Toloza G (2022) Elucidating the role of innate and adap-tive immune responses in the pathogenesis of canine chronic inflammatory enteropathy – a search for potential biomarkers. Animals (Basel) 12: 1645.

Simpson JW, Anderson RS, Markwell PJ (1993) Clinical nutrition of the dog and cat. 1st ed., Blackwell Sci. Publ., Oxford, pp 36-95.

Sindermann D, Heidhues J, Kirchner S, Stadermann N, Kühl A (2021) Industrial processing technologies for insect larvae. J Insects as Food Feed 7: 857-875.

Smeets-Peeters M, Watson T, Minekus M, Havenaar R (1998) A review of the physiology of the canine digestive tract related to the development of in vitro systems. Nutr Res Rev 11: 45-69.

Smith AD (2011) Competitive approaches to new product development: A comparison of successful organizations in an unstable economic envi-ronment. Team Perform Manag 17: 124-145.

Souilhac C, Roux C, Vergnet J, Coyla M, Arqué L, Rioux G (2021) Tutored project on how to introduce insects onto French people’s plates? Entomophagy and generation Z in France. Université Toulouse - Jean Jaurès Institut Superieur Du Tourisme, pp 34-78.

Stull VJ, Finer E, Bergmans RS, Febvre HP, Longhurst C, Manter DK, Patz JA, Weir TL (2018) Impact of edible cricket consumption on gut microbiota in healthy adults, a double-blind, randomized crossover trial. Sci Rep 8: 10762.

Suleman S (2011) Comparative advertising, disparagement and trademark infringement: An interface. SSNR 18: 1-33.

Taylor K (2019) Eating insects will soon go mainstream as bug protein is set to explode into an $8 billion business. Bussines Insider. Published January 25, 2019.
https://www.businessinsider.com/eating-insects-set-to-become-8-billionbusiness-barclays-2019-6?IR=T (Accessed 10.03.2022).

Tolbert MK, Murphy M, Gaylord L, Witzel-Rollins A (2022) Dietary management of chronic enteropathy in dogs. J Small Anim Pract 63: 425-434.

Valdes F, Villanueva V, Durán E, Campos F, Avendaño C, Sánchez M, Domingoz-Araujo C, Valenzuela C (2022) Insects as feed for companion and exotic pets: A current trend. Animals (Basel) 12: 1450.

Van Huis A (2020) Insects as food and feed, a new emerging agricultural sector: a review. J Insects Food Feed 6: 27-44.

Van Huis A (2022) Edible insects: Challenges and prospects. Entomol Res 52: 161-177.

Van Kleef E, Van Trijp HC, Luning P (2005) Consumer research in the early stages of new product development: a critical review of methods and techniques. Food Qual Pref 16: 181-201.

Voge M, Heyneman D (1957) Development of Hymenolepis nana and Hymenolepis diminuta (Cestoda: Hymenolepididae) in the intermediate Host Tribolium confusum. Univ Calif Publ Zool 59: 549-579.

Weru J, Chege P, Kinyuru J (2021) Nutritional potential of edible insects: a systematic review of published data. Int. J Trop Insect Sci 41: 2015-2037.

White BL (2023) Insights-driven development of humanized foods for pets. MMB 6: 1-12.

Wolff J (1937) Unfair Competition by Truthful Disparagement. Yale Law J 47: 1304.

Woodmansey D (2018) Database shows 75% rise in hypoallergenic food demand. Veterinary Times. Published August 15, 2018. https://www.vettimes.co.uk/news/database-shows75-rise-in-hypoallergenic-food-demand/ (Accessed 16.12.2022).

Woodroffe R, Cleaveland S, Courtenay O, Laurenson MK, Artois M (2004) Infectious disease – infectious disease in the management and conser-vation of wild canids. In: Macdonald DW, Sillero-Zubiri C (eds) Biol Conserv Wild Canids, Eds. Oxford University Press, pp 123-142.

YPulse Survey (2020) 76% of millennials are pet parents –here’s what they’ve been buying for them. Published August 24, 2020. https://www.ypulse.com/article/2020/08/24/76-ofmillennials-are-pet-parents-heres-what-theyve-beenbuying-for-them/ (Accessed 16.12.2022).

Zielińska E, Baraniak B, Karaś M (2017) Antioxidant and anti-inflammatory activities of hydrolysates and peptide fractions obtained by enzymatic hydrolysis of selected heat-treated edible insects. Nutrients 9: 970

Żuk-Gołaszewska K, Gałęcki R, Obremski K, Smetana S, Figiel S, Gołaszewski J (2022) Edible insect farming in the context of the EU regulations and marketing – an overview. Insects 13: 446.

Date

12.06.2024

Type

Article

Identifier

DOI: 10.24425/pjvs.2024.149361
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