Expert panel reveals the latest research on the multiple benefits of EPA and DHA in medical nutrition

By: Talking Nutrition Editors

New research explores the benefits of EPA and DHA in clinical settings

  • As the global population ages and the prevalence of non-communicable diseases (NCDs) rises, there is a growing demand for appropriate nutrition interventions and targeted medical nutrition solutions that address increasingly complex patient needs, improve outcomes and help to reduce healthcare costs.
  • A recent expert paper published in the Nutrients journal explores the latest scientific research behind eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA) omega-3 fatty acids and how these ingredients may contribute to better quality of life and clinical outcomes in patients and senior adults.
  • The expert panel investigated the benefits of EPA and DHA in specific therapeutic areas and patient populations, and discussed how this inspires the development of more targeted and palatable medical nutrition solutions.

Want to learn more about the latest science behind nutritional lipids? Download our new whitepaper to learn how EPA and DHA lipids can enable manufacturers to develop concept-led medical nutrition solutions.

How EPA and DHA support patients and older individuals

Life expectancy is rising worldwide, leading to a higher prevalence of age and lifestyle-related non-communicable diseases (NCDs) and an increasing number of patients and older  people presenting with complex medical needs. Optimal nutritional care is essential for these individuals as it helps to support healthy immune function, reduce medical complications and promote the recovery and independence of patients. However, disease-related malnutrition – a condition characterized by inadequate intake of energy, protein and/or micronutrients resulting from disease or treatment of disease – is common in many clinical conditions and can lead to poorer prognosis. As such, medical nutrition products – like oral nutritional supplements or enteral nutrition – may be required to address nutritional deficiencies in vulnerable patients, giving them the best possible clinical outcomes.

newly published paper explores the mounting body of scientific evidence linking eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA) intake to patient health and how these ingredients support older persons and patients1. With the available research, the expert panel concluded that provision of oral nutritional supplements, or enteral and parenteral formulas containing EPA and DHA may help to support a number of patient populations in a variety of therapeutic areas.

Here, we highlight the key conclusions and scientific insights published in the paper.

EPA and DHA exhibit promising benefits across several therapeutic areas

Chronic inflammation is usually present in individuals with NCDs. Supporting the resolution of inflammation and ensuring it is properly regulated in the body is therefore considered to be appropriate in the management of disease. The long-chain omega-3 fatty acids, EPA and DHA, are known to play a role in human health and normal immune function, with one of their primary actions being to reduce inflammation and promote its resolution.1,2,3 Research shows that this broad action helps to reduce medical complications and support the nutritional needs of patients in many different therapeutic areas.4,5,6,7 In the new publication, the expert panel identified a role for EPA and DHA nutrition in a number of patient populations and medical conditions, including cognitive health, age-related decline in muscle mass, cancer, surgical patients and critically ill patients.8,9,10 As a result, adequate supply of long-chain omega-3 fatty acids should be seen as a critical component in the nutritional management of patients presenting with these conditions.

Research roundup: what are the key application areas for EPA and DHA?

  • Cognitive decline: As people are living for longer, cognitive decline has become a growing public health concern, and the number of people living with dementia is expected to reach 75 million by 2030.12 The expert panel discussed is increasing evidence to suggest that EPA and DHA intake may support brain health and even help to slow cognitive decline, particularly in the early stages of dementia. One study showed that omega-3 LCPUFA supplementation had a small effect on memory in non-demented older people, whereas another report showed it had an effect on executive function.13,14 Another analysis found a beneficial effect of omega-3 LCPUFA supplementation on the progression of cognitive decline at an early stage in individuals with the ApoE ε4 genotype – an important genetic risk factor for age-dependent chronic diseases, including Alzheimer’s disease.15 However, the expert panel concluded that EPA and DHA intervention is less likely to have a beneficial effect on individuals experiencing dementia that has progressed beyond the mild stage.16,17,18,19,20 This is supported by a recent meta-analysis which determined that EPA and DHA is most beneficial in patients presenting with the early stages of Alzheimer’s disease and makes individuals with mild cognitive decline the most promising target group for nutritional intervention.21
  • Sarcopenia: Old age is accompanied by an increasing number of comorbidities, aswell as challenges achieving adequate intake of energy and essential nutrients. This means that conditions like sarcopenia (progressive muscle loss), malnutrition and frailty are often common and overlapping in the senior population and can have a negative impact on quality of life and independence.22,23 Age-related chronic low-grade inflammation may be an important contributor to sarcopenia.24,25 As such, the anti-inflammatory effects of EPA and DHA may be beneficial in slowing age-related muscle loss (sarcopenia).26 Furthermore, omega-3 fatty acids may modulate muscle protein synthesis, promoting muscle strength and function.27 Ensuring long-term EPA and DHA supplementation is included in the nutritional management of older people, in combination with exercise, is therefore of increasing interest to the medical community as it looks for safe and affordable ways to slow physical disability and improve the quality of life and independence of senior adults.
  • Cancer cachexia: Cancer cachexia – a wasting syndrome characterized by weight loss, anorexia and physical weakness – affects around 50-80% of cancer patients and negatively impacts clinical prognosis, therapy effectiveness and mortality rates.8,29,30,31,32,33 The precise mechanisms of the condition are not well-understood, however, chronic systemic inflammation appears to play a crucial role in most patients.34 Given their ability to mitigate inflammation, DHA and EPA interventions in cancer patients have been receiving increasing attention. Importantly, existing evidence shows that EPA and DHA are safe and well-tolerated in cancer patients.35,36 Moreover, there are indications that supplementation with omega-3 LCPUFAs in combination with high protein might have a beneficial effect on quality of life in cancer patients.37 However, current recommendations for their use in cancer patients is weak indicating the need for more scientific research investigating the benefits of EPA and DHA in cancer patients specifically.38
  • Surgical patients: Malnutrition is a serious risk factor for surgical complications, leading to longer hospital stays, increased vulnerability towards infection and higher mortality rates. To prevent surgical complications, the Enhanced Recovery After Surgery concept – known as ERAS – advocates the integration of perioperative nutritional therapy into the overall management of patients.39 Because surgery is associated with increased stress and inflammation in the body, it may be beneficial to add DHA and EPA to perioperative immunonutrition therapy, to help mitigate excessive inflammation and support patient recovery.

What does this mean for the role of EPA and DHA in innovative medical nutrition solutions? 

Despite the promising findings shared here, the currently available research is limited and inconsistent, due to variations in dosage, timing and duration of supplementations, baseline nutritional status, clinical state and medication use. For example, it is increasingly recognized that multimodal interventions are most promising for the therapy of cancer cachexia, yet most of the clinical evidence is derived from trials using only a single therapy. Likewise, it is evident that DHA and EPA play a role in perioperative immunonutrition, but more well-designed trials could provide clearer evidence for their use and confirm the optimal timing and duration. This emphasizes the need for better controlled intervention studies that will help to further define the benefits of EPA and DHA in specific patient groups and inspire the development of more personalized and effective medical nutrition products. Moreover, continued patient insights are critical in the educating medical nutrition community about the latest patient preferences so that they can manufacture more palatable and appealing medical nutrition products. 

Published on

14 September 2020

Tags

  • Nutritional Lipids
  • Medical Nutrition
  • New Science
  • R&D

Share

5 min read

Related Content

Sign up for our newsletter

   Stay up-to-date on the latest science, events and market trends

We are social

Follow us on your favorite social networks.

Follow Us:

References

1.     Troesch B et al. Expert opinion on benefits of long-chain omega-3 fatty acids (DHA and EPA) in aging and clinical nutrition. Nutrients 2020;12:2555.

2.     Calder PC. Marine omega-3 fatty acids and inflammatory processes: Effects, mechanisms and clinical relevance. Biochim Biophys Acta 2015;1851:469-84.

3.     Calder PC. Omega-3 fatty acids and inflammatory processes: from molecules to man. Biochem Soc Trans 2017;45:1105-15.

4.     Barnig C, Bezema T, Calder PC, et al. Activation of Resolution Pathways to Prevent and Fight Chronic Inflammation: Lessons From Asthma and Inflammatory Bowel Disease. Front Immunol 2019;10:1699.

5.     Calder PC. Marine omega-3 fatty acids and inflammatory processes: Effects, mechanisms and clinical relevance. Biochim Biophys Acta 2015;1851:469-84.

6.     Molfino A, Amabile MI, Monti M, Muscaritoli M. Omega-3 Polyunsaturated Fatty Acids in Critical Illness: Anti-Inflammatory, Proresolving, or Both? Oxid Med Cell Longev 2017;2017:5987082.

7.     Manzanares W, Langlois PL, Hardy G. Intravenous lipid emulsions in the critically ill: an update. Curr Opin Crit Care 2016;22:308-15.

8.     Serhan CN, Hong S, Gronert K, et al. Resolvins: a family of bioactive products of omega-3 fatty acid transformation circuits initiated by aspirin treatment that counter proinflammation signals. J Exp Med 2002;196:1025-37.

9.     Calder PC. Intravenous Lipid Emulsions to Deliver Bioactive Omega-3 Fatty Acids for Improved Patient Outcomes. Mar Drugs 2019;17.

10.   Innes JK, Calder PC. Marine Omega-3 (N-3) Fatty Acids for Cardiovascular Health: An Update for 2020. International Journal of Molecular Sciences 2020;21:1362.

11.   Calder PC. Omega-3 (n-3) polyunsaturated fatty acids and inflammation: From membrane to nucleus and from bench to bedside. Proceedings of the Nutrition Society in press.

12.   Visit Alzheimer's Disease International "Dementia statistics". (Accessed 04 May, 2020

13.   Alex A, Abbott KA, McEvoy M, Schofield PW, Garg ML. Long-chain omega-3 polyunsaturated fatty acids and cognitive decline in non-demented adults: A systematic review and meta-analysis. Nutr. Rev. 2019;78:563–578.

14.   Witte AV, Kerti L, Hermannstädter HM, Fiebach JB, Schreiber SJ, Schuchardt JP, Hahn A, Flöel A. Long-chain omega-3 fatty acids improve brain function and structure in older adults. Cereb.Cortex, 2014;24:3059–3068.

15.   Yassine HN, Braskie MN, Mack WJ, Castor KJ, Fonteh AN, Schneider LS, Harrington MG, Chui HC. Association of docosahexaenoic acid supplementation with Alzheimer disease stage in apolipoprotein e epsilon4 carriers: A review. JAMA Neurol. 2017;74:339–347.

16.   Zhang Y, Chen J, Qiu J, Li Y, Wang J, Jiao J. Intakes of fish and polyunsaturated fatty acids and mild-to-severe cognitive impairment risks: a dose-response meta-analysis of 21 cohort studies. Am J Clin Nutr 2016;103:330-40.

17.   Köbe T, Witte AV, Schnelle A, et al. Combined omega-3 fatty acids, aerobic exercise and cognitive stimulation prevents decline in gray matter volume of the frontal, parietal and cingulate cortex in patients with mild cognitive impairment. NeuroImage 2016;131:226-38.

18.   Bo Y, Zhang X, Wang Y, et al. The n-3 Polyunsaturated Fatty Acids Supplementation Improved the Cognitive Function in the Chinese Elderly with Mild Cognitive Impairment: A Double-Blind Randomized Controlled Trial. Nutrients 2017;9:54.

19.   Zhang YP, Miao R, Li Q, Wu T, Ma F. Effects of DHA Supplementation on Hippocampal Volume and Cognitive Function in Older Adults with Mild Cognitive Impairment: A 12-Month Randomized, Double-Blind, Placebo-Controlled Trial. J Alzheimers Dis 2017;55:497-507.

20.   Zhang YP, Lou Y, Hu J, Miao R, Ma F. DHA supplementation improves cognitive function via enhancing Aβ-mediated autophagy in Chinese elderly with mild cognitive impairment: a randomised placebo-controlled trial. J Neurol Neurosurg Psychiatry 2018;89:382-8.

21.   Canhada S, Castro K, Perry IS, Luft VC. Omega-3 fatty acids' supplementation in Alzheimer's disease: A systematic review. Nutr Neurosci 2018;21:529-38.

22.   Rémond D, Shahar DR, Gille D, et al. Understanding the gastrointestinal tract of the elderly to develop dietary solutions that prevent malnutrition. Oncotarget 2015;6:13858-98.

23.   Ligthart-Melis GC, Luiking YC, Kakourou A, Cederholm T, Maier AB, de van der Schueren MAE. Frailty, Sarcopenia, and Malnutrition Frequently (Co-)occur in Hospitalized Older Adults: A Systematic Review and Meta-analysis. J Am Med Dir Assoc 2020.

24.   Landi F, Calvani R, Tosato M, et al. Anorexia of Aging: Risk Factors, Consequences, and Potential Treatments. Nutrients 2016;8:69.

25.   Calder PC, Bosco N, Bourdet-Sicard R, et al. Health relevance of the modification of low grade inflammation in ageing (inflammageing) and the role of nutrition. Ageing Research Reviews 2017;40:95-119.

26.   Smith GI, Julliand S, Reeds DN, Sinacore DR, Klein S, Mittendorfer B. Fish oil-derived n-3 PUFA therapy increases muscle mass and function in healthy older adults. Am J Clin Nutr 2015;102:115-22.

27.   Dupont J, Dedeyne L, Dalle S, Koppo K, Gielen E. The role of omega-3 in the prevention and treatment of sarcopenia. Aging clinical and experimental research 2019.

28.   Ross PJ, Ashley S, Norton A, et al. Do patients with weight loss have a worse outcome when undergoing chemotherapy for lung cancers? Br J Cancer 2004;90:1905-11.

29.   Prado CM, Lieffers JR, McCargar LJ, et al. Prevalence and clinical implications of sarcopenic obesity in patients with solid tumours of the respiratory and gastrointestinal tracts: a population-based study. The Lancet Oncology 2008;9:629-35.

30.   Antoun S, Baracos VE, Birdsell L, Escudier B, Sawyer MB. Low body mass index and sarcopenia associated with dose-limiting toxicity of sorafenib in patients with renal cell carcinoma. Ann Oncol 2010;21:1594-8.

31.   Prado CM, Baracos VE, McCargar LJ, et al. Body composition as an independent determinant of 5-fluorouracil-based chemotherapy toxicity. Clin Cancer Res 2007;13:3264-8.

32.   Prado CM, Baracos VE, McCargar LJ, et al. Sarcopenia as a determinant of chemotherapy toxicity and time to tumor progression in metastatic breast cancer patients receiving capecitabine treatment. Clin Cancer Res 2009;15:2920-6.

33.   Barret M, Antoun S, Dalban C, et al. Sarcopenia is linked to treatment toxicity in patients with metastatic colorectal cancer. Nutr Cancer 2014;66:583-9.

34.   Arends J, Baracos V, Bertz H, et al. ESPEN expert group recommendations for action against cancer-related malnutrition. Clinical nutrition (Edinburgh, Scotland) 2017;36:1187-96.

35.   Klassen P, Cervantes M, Mazurak VC. N - 3 fatty acids during chemotherapy: toward a higher level of evidence for clinical application. Current opinion in clinical nutrition and metabolic care 2020;23:82-8.

36.   Arends J, Bachmann P, Baracos V, et al. ESPEN guidelines on nutrition in cancer patients. Clinical Nutrition 2017;36:11-48.

37.   de van der Schueren MAE, Laviano A, Blanchard H, Jourdan M, Arends J, Baracos VE. Systematic review and meta-analysis of the evidence for oral nutritional intervention on nutritional and clinical outcomes during chemo(radio)therapy: current evidence and guidance for design of future trials. Annals of Oncology 2018;29:1141-53.

38.   Arends J, Bachmann P, Baracos V, et al. ESPEN guidelines on nutrition in cancer patients. Clinical Nutrition 2017;36:11-48.

39.   Weinmann et al, ESPEN guidelines, 2017.g. 2555, 2020.

More than ingredients

Learn how dsm-firmenich can help your business. Select the options below to connect your needs with the right solution.

I'd like to explore...

Quick Links

Premix Solutions

Customized blends of desired functional ingredients in one single, efficient, homogenous premix. 

Health Benefits & Solutions

Solutions to address consumers' health and lifestyle needs.

Market-ready Solutions

Streamline your product development process and get to market faster. 

dsm-firmenich.com

We're innovators in nutrition, health, and beauty. And we bring progress to life! 

Talking Nutrition

Explore new science, consumer insights, industry events and more.

Customer Portal

Request samples, place orders and view product documentation.