- 1Department of Internal Medicine, University of Iowa, Iowa City, IA, United States
- 2Independent Researcher, Greensboro, NC, United States
- 3Department of Neurology, Medical College of Wisconsin, Milwaukee, WI, United States
1. Introduction
There is great interest in diet among people with multiple sclerosis (MS) (1). Surveys consistently observe that half of people with MS report modifying their diets (2–5). Despite the enthusiasm among people with MS, considerable controversy exists regarding the role of nutritional approaches for MS (6–8). This may be due in part to neurologists reporting feeling inadequately trained in nutrition to provide dietary support (9) and that the research supporting the role for diet in MS is still in preliminary stages (10, 11). For these reasons, people with MS receive little dietary education (12) leading those who are interested in diet to likely utilize internet sources that may not be evidence-based to acquire this information (13).
Several studies indicate that people with MS strongly desire resources and support for including evidence-based dietary guidelines into their treatment and personal wellness plans (14–17). To meet this patient desire, we propose that Registered Dietitian Nutritionists (RDNs) be included on the multidisciplinary care team for people with MS in the United States. In Canada, RDNs are included on the multidisciplinary care team for MS and are considered important members according to a survey of MS health care providers (18). This article provides an overview of RDNs and details some of the key reasons why their inclusion may be beneficial to the care of people with MS.
2. Overview of RDNs
2.1. Training and licensure
The RDN credential is granted by the Commission on Dietetic Registration (CDR) after completion of master's (formerly baccalaureate) level didactic coursework from an Accreditation Council for Education in Nutrition and Dietetics (ACEND) accredited degree program, supervised practice through a 9–12 months dietetic internship, and passage of the required registration examination for dietitians administered by CDR (19). To maintain the credential, RDNs must complete 75 h of continuing education in 5 years which is documented in and approved by the CDR. RDNs must adhere to the Code of Ethics for the Nutrition and Dietetic Profession (20) and maintain active certification or licensure (in most states) and practice within applicable federal and state laws to practice. These requirements ensure that all RDNs receive training that meets a set of competencies established by the CDR and are how RDNs are distinguished from other “nutritionists” who do not necessarily have the same requirements. Through these distinctions, RDNs are certified to provide medical nutrition therapy to treat specific conditions in clinical practice whereas most other ‘nutritionists' may not have credential requirements or licensure.
2.2. The nutrition care process and behavior change
Another means by which RDNs differentiate from other ‘nutritionists' and other healthcare providers is via the use of the nutrition care process (NCP), which is a systematic approach to nutrition care that utilizes standardized terminology and is comprised of the following four components: nutrition assessment and reassessment, nutrition diagnosis, nutrition intervention and nutrition monitoring and evaluation (19). This NCP provides a framework for personalized nutrition care that considers a patient's specific goals, needs, and other person-specific factors that can be applied to any individual in any state of health. To facilitate behavior change, RDNs utilize motivational interviewing with goal setting, problem solving, social support, and self-monitoring within the framework of behavior change theory (21).
2.3. MS specialization
While the CDR does offer several specialization certifications for RDNs, neither MS nor general neurology are included. However, through the Consortium of MS Centers (CMSC), RDNs can obtain a MS Certified Specialist certification that is offered to all licensed allied healthcare professionals (22).
3. Reasons to include RDNs
3.1. Avoid pitfalls of online dietary advice
A 2019 scoping review of online web-pages that provide dietary advice targeted toward people with MS found that many specific diets (‘Healthy balanced', Swank low-saturated fat, Wahls Paleolithic, and Best Bet) are recommended online (13), but two recent meta-analyses found that only low-quality evidence supports specialized diets in MS (10, 11). Of these online recommended diets (13), only the “healthy balanced diet”, promoted on webpages by the National MS Society, MS Society of the United Kingdom, and the Mayo Clinic, is based on evidence as these webpages promoted dietary recommendations for increased intake of fruits and vegetables, whole-grains, lean proteins, healthy fats and to restrict/limit added sugar, alcohol, sodium, and ultra-processed foods by the American Heart Association and Dietary Guidelines for Americans (23, 24). Many of the other promoted diets restrict specific foods or nutrients (e.g., grains, dairy) due to the belief that certain dietary antigens, such as gluten and casein, trigger immune-mediated disease activity. Such restrictive diets decrease food variety and increase risk for nutrient deficiencies and disordered eating. For example, the Swank low-saturated fat diet is associated with inadequate intake of vitamins C, A, E, and folate and the Wahls modified Paleolithic diet is associated with inadequate intake of calcium and the vitamins B12, D, E, and thiamin among people with MS (25, 26). In addition, sparse evidence suggests that 10% of samples of adults with MS suffer from disordered eating (27–30), which is approximately five times higher than the lifetime prevalence among the general U.S. adult population (31). Given that several surveys show that approximately half of respondents with MS report implementing dietary modifications (2–5), it is possible that many people with MS are at risk for nutrient deficiencies and disordered eating. Through individual screening and promotion of food literacy via nutrition education and motivational interviewing, RDNs can support people with MS to avoid these pitfalls by promoting a healthy relationship with food.
3.2. Promote food literacy and provide support
Food literacy refers to the tools needed to establish and maintain a lifelong healthy relationship with food (32). Food literacy is highly contextualized as it comprises many person-specific factors including planning and management, selection and acquisition, preparation, and eating (32). In addition, people with physical and cognitive disabilities may require additional support to select, acquire, and prepare healthy food (33). Several studies report that people with MS want additional support to make healthy food choices (14–17). RDNs facilitate behavior change regarding food through motivational interviewing and behavior change theory (21), and are more effective at improving diet quality, glycemic control, cholesterol, and weight management compared to control and other healthcare providers (34, 35). RDNs can help people with MS develop resilience and adaptive strategies regarding food literacy through these patient-centered support strategies to gain knowledge, confidence, and ability in selecting, acquiring, and preparing healthy food.
3.3. Screen for food insecurity and malnutrition
Food insecurity is defined as a disruption of food intake due to a lack of resources. People with MS have staggering healthcare costs (36) and tend to exit the workforce earlier compared to people without MS (37), suggesting that food insecurity is possibly an underappreciated consequence of living with MS. A link between disability burden and food insecurity is well documented in several groups without MS; however, this evidence is sparse among people with MS. Importantly, one study observed that people with MS shop for their own food less often compared to healthy controls (38). In addition, several observational studies have observed an inverse association between diet quality and disability burden in MS (38–41), suggesting that people with the greatest disability burden likely have less ability to acquire and prepare healthy foods and likely rely more on convenience foods which tend to be less healthy. In addition, long-term food insecurity increases risk for malnutrition. A 2018 review noted that people with MS have high prevalence of several indicators suggestive of malnutrition including low serum albumin, low BMI, and high prevalence of osteopenia, osteoporosis, vitamin D deficiency, and dysphagia (42). Through validated screening tools (43, 44) and nutrition-focused physical exams (45), RDNs can identify these issues among people with MS (44, 46).
3.4. Prevent and manage comorbid conditions
Metabolic risk factors and comorbidities are common among people with MS, and the prevalence is increasing (47). Higher burden of metabolic risk factors and comorbidities is associated with increased MS severity (48–50), brain volume loss (51, 52), and death (53, 54) among people with MS. Low quality diets that are energy-dense, rather than nutrient-dense, increase risk for several metabolic comorbid conditions and risk factors. Observational studies have linked higher diet quality to reduced prevalence of metabolic comorbidities among people with MS (55, 56). Among people without MS, treatments provided by RDNs are effective for weight management and improving lipids, glucose, and blood pressure (57–59); however, no studies have specifically investigated treatment provided by RDNs among people with MS. A few preliminary dietary intervention trials report improvement in biomarkers of metabolic health (60–63) suggesting that treatment provided by RDNs would yield similar favorable outcomes among people with MS.
4. Discussion
We propose that including referral for treatment provided by RDNs into the care for people with MS who have interest in diet or a medical justification for the referral, has tremendous upside for patients with minimal risks. To date the majority of preliminary dietary intervention studies link several diets to favorable outcomes among people with MS (11); however, the lack of referral to RDNs has created a situation where people with MS turn to online sources for this information (13). This may predispose people with MS to misinformation that can create distrust with their treating neurologists that may lead to DMT refusal or discontinuation. Without the support of an RDN, the online restrictive diets promoted for MS may cause negative relationships with food or even medical concerns.
While coverage varies between insurance providers, there are some commonalities. For example, clinicians can refer to RDNs and diagnose dietary counseling and surveillance using the billable ICD-10 code Z71.3. This ICD-10 code can be used in conjunction with CPT codes 97802-97804 for medical nutrition therapy or CPT codes 99401-99404 for preventive counseling for risk factor reduction for insurance reimbursement for therapy administered by RDNs. Under the Affordable Care Act, diet counseling must be covered by all marketplace health plans without copay or coinsurance for adults at higher risk for chronic disease. Given the high prevalence of comorbid conditions (47), malnutrition (42), and disordered eating (27–30) among people with MS, it is likely that a large proportion may qualify for care, that is covered by insurance, by RDNs who work in a variety of settings including hospitals, clinics, health maintenance organizations, private practice, long-term care facilities, and in community and public health organizations. In addition, treatment by RDNs is cost-effective among people with dyslipidemia and diabetes mellitus (58, 64). For neurologists or other health care providers, who do not have access to in-house RDNs, wishing to refer patients to an RDN, the Academy of Nutrition and Dietetics ‘Find a Nutrition Expert' page (65) or local departments of public health are options to locate an RDN in their local community or via telehealth.
5. Conclusions
The inclusion of RDNs in multidisciplinary care teams for MS will have other benefits through counseling patients on food:drug interactions (66), increasing the opportunity for research to evaluate the nutritional status and long-term impacts of diet on MS outcomes, and educating other healthcare providers on the benefits of nutrition in the prevention and management of chronic diseases (67, 68). Emerging observational evidence shows that adherence to healthy dietary patterns is associated with several favorable MRI outcomes (69, 70); however, the impact of dietary interventions on MS is remains unclear, albeit promising for patient-reported outcomes (11). This article serves to educate other healthcare providers involved in patient care for people with MS, by outlining several reasons for which people with MS may benefit from care provided by RDNs through promoting health literacy, screening for and preventing food insecurity, malnutrition, and nutrient deficiencies, and for treating and preventing metabolic comorbidities, all issues that are common among people with MS. Inclusion of RDNs in the care for people with MS is justified for several reasons and is a better alternative to the current situation where diet information is not provided in the treatment plan and instead found on online-sources that are mostly not evidence-based. Ultimately, studies are needed to evaluate the impact of treatment provided by RDNs on MS.
Author contributions
TT wrote the first draft of the manuscript with intellectual input from MB and AO. All authors read, revised, and approved of the final version.
Funding
TT is supported by the Carter Chapman Shreve Family Foundation and the Carter Chapman Shreve Fellowship Fund for diet and lifestyle research in MS conducted at the University of Iowa.
Conflict of interest
MB is a certified MS specialist RDN and has a private practice providing nutrition education for people living with MS. AO reports that he received personal compensation for participation in scientific advisory boards, steering committees, and/or for speaking engagements from Alexion Pharmaceuticals, Banner Life Sciences, Biogen, Biologix, Bristol Myers Squibb, Celgene, EMD Serono, Genentech, GW Pharma, Horizon therapeutics, Jazz Pharma, Novartis (local and global), Sanofi/Genzyme, Sandoz pharmaceuticals, TG therapeutics, and Viela Bio. Consultant fee for serving as a scientific reviewer for Exploration-Hypothesis Development Award (EHDA) peer review panel of the 2020 Multiple Sclerosis Research Program (MSRP) for the Department of Defense Congressionally Directed Medical Research Programs (CDMRP). Honoraria from CMSC, Medscape, WebMD, and MJH Life Sciences for Educational Activities. AO serves as a site PI for studies funded (directly paid to MCW) by National MS Society/PCORI; Atara biotherapeutics, Biogen, Bristol Myers Squibb, Celgene, CorEvitas, LLC, EMD Serono, Genentech, GW pharma, Immunic, Sanofi/Genzyme, Novartis, Roche. AO received research funds from Central for Immunology, Research Affairs Committee, Neuroscience Research Center, Clinical and Translational Science Institute (CTSI), and the National Institutes of Health. AO serves on the editorial board of the International Journal of MS Care.
The remaining author declares that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.
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References
1. Dunn M, Bhargava P, Kalb R. Your patients with multiple sclerosis have set wellness as a high priority—and the national multiple sclerosis society is responding. US Neurol. (2015) 11:80–6. doi: 10.17925/USN.2015.11.02.80
2. Anderson HD, Leister NR, Biely SA. The perceptions of persons with multiple sclerosis (MS) on the impact of diet and supplements on MS symptoms. J Altern Complement Med. (2022) 8:221. doi: 10.24966/ACIM-7562/100221
3. Fitzgerald KC, Tyry T, Salter A, Cofield SS, Cutter G, Fox RJ, et al. A survey of dietary characteristics in a large population of people with multiple sclerosis. Mult Scler Relat Disord. (2018) 22:12–8. doi: 10.1016/j.msard.2018.02.019
4. Marck CH, Probst Y, Chen J, Taylor B, van der Mei I. Dietary patterns and associations with health outcomes in australian people with multiple sclerosis. Eur J Clin Nutr. (2021) 75:1506–14. doi: 10.1038/s41430-021-00864-y
5. Russell RD, Lucas RM, Brennan V, Sherriff JL, Begley A. Reported changes in dietary behavior following a first clinical diagnosis of central nervous system demyelination. Front Neurol. (2018) 9:161. doi: 10.3389/fneur.2018.00161
6. Fitzgerald KC, Mowry EM. Specific dietary interventions to tackle obesity should be a routine part of recommended Ms care - commentary. Mult Scler. (2020) 26:1631–2. doi: 10.1177/1352458520963907
7. Kalron A. Specific dietary interventions to tackle obesity should be a routine part of recommended Ms care - no. Mult Scler. (2020) 26:1629–31. doi: 10.1177/1352458520937280
8. Stampanoni Bassi M, Centonze D. Specific dietary interventions to tackle obesity should be a routine part of recommended Ms care - yes. Mult Scler. (2020) 26:1627–9. doi: 10.1177/1352458520916701
9. Russell RD, Black LJ, Begley A. The unresolved role of the neurologist in providing dietary advice to people with multiple sclerosis. Mult Scler Relat Disord. (2020) 44:102304. doi: 10.1016/j.msard.2020.102304
10. Guerrero Aznar MD, Villanueva Guerrero MD, Cordero Ramos J, Eichau Madueno S, Morales Bravo M, Lopez Ruiz R, et al. Efficacy of diet on fatigue, quality of life and disability status in multiple sclerosis patients: rapid review and meta-analysis of randomized controlled trials. BMC Neurol. (2022) 22:388. doi: 10.1186/s12883-022-02913-w
11. Snetselaar LG, Cheek J, Shuger Fox S, Healy HS, Schweizer ML, et al. Efficacy of diet on fatigue and quality of life in multiple sclerosis: a systematic review and network meta-analysis of randomized trials. Neurology. (2022) 100:e356–61. doi: 10.1212/WNL.0000000000201371
12. Russell RD, Black LJ, Sherriff JL, Begley A. Dietary responses to a multiple sclerosis diagnosis: a qualitative study. Eur J Clin Nutr. (2019) 73:601–8. doi: 10.1038/s41430-018-0252-5
13. Beckett JM, Bird ML, Pittaway JK, Ahuja KD. Diet and multiple sclerosis: scoping review of web-based recommendations. Interact J Med Res. (2019) 8:e10050. doi: 10.2196/10050
14. Dean C, Parks S, Titcomb TJ, Arthofer A, Meirick P, Grogan N, et al. Facilitators of and barriers to adherence to dietary interventions perceived by women with multiple sclerosis and their support persons. Int J MS Care. (2022). doi: 10.7224/1537-2073.2021-051
15. Elkhalii-Wilhelm S, Sippel A, Riemann-Lorenz K, Kofahl C, Scheiderbauer J, Arnade S, et al. Experiences of persons with multiple sclerosis with lifestyle adjustment-a qualitative interview study. PLoS ONE. (2022) 17:e0268988. doi: 10.1371/journal.pone.0268988
16. Russell RD, Black LJ, Begley A. Navigating dietary advice for multiple sclerosis. Health Expect. (2021) 24:853–62. doi: 10.1111/hex.13226
17. Silveira SL, Richardson EV, Motl RW. Desired resources for changing diet among persons with multiple sclerosis: qualitative inquiry informing future dietary interventions. Int J MS Care. (2022) 24:175–83. doi: 10.7224/1537-2073.2021-052
18. Marrie RA, Donkers SJ, Jichici D, Hrebicek O, Metz L, Morrow SA, et al. Models of care in multiple sclerosis: a survey of canadian health providers. Front Neurol. (2022) 13:904757. doi: 10.3389/fneur.2022.904757
19. Academy Quality Management C. Academy of nutrition and dietetics: revised 2017 scope of practice for the registered dietitian nutritionist. J Acad Nutr Diet. (2018) 118:141–65. doi: 10.1016/j.jand.2017.10.002
20. AND CRD. Code of Ethics for the Nutrition and Dietetics Profession. (2018). Available online at: https://www.eatrightpro.org/-/media/eatrightpro-files/career/code-of-ethics/coeforthenutritionanddieteticsprofession.pdf?la=en&hash=0C9D1622C51782F12A0D6004A28CDAC0CE99A032 (accessed September 01, 2022).
21. Rigby RR, Mitchell LJ, Hamilton K, Williams LT. The use of behavior change theories in dietetics practice in primary health care: a systematic review of randomized controlled trials. J Acad Nutr Diet. (2020) 120:1172–97. doi: 10.1016/j.jand.2020.03.019
22. CMSC. Become a Multiple Sclerosis Certified Specialist. (2022). Available online at: https://www.mscare.org/page/about_mscs (accessed September 01, 2022).
23. American Heart Association,. The American Heart Association Diet Lifestyle Recommendations. (2022). Available online at: https://www.heart.org/en/healthy-living/healthy-eating/eat-smart/nutrition-basics/aha-diet-and-lifestyle-recommendations (accessed September 01, 2022).
24. U.S. Department of Agriculture and U.S. Department of Health and Human Services. Dietary Guidelines for Americans, 2020-2025. 9th Edn. (2020). Available online at: DietaryGuidelines.gov (accessed September 01, 2022).
25. Masullo L, Papas MA, Cotugna N, Baker S, Mahoney L, Trabulsi J. Complementary and alternative medicine use and nutrient intake among individuals with multiple sclerosis in the United States. J Community Health. (2015) 40:153–60. doi: 10.1007/s10900-014-9913-z
26. Titcomb TJ, Brooks L, Smith KL, Ten Eyck P, Rubenstein LM, Wahls TL, et al. Change in micronutrient intake among people with relapsing-remitting multiple sclerosis adapting the swank and wahls diets: an analysis of weighed food records. Nutrients. (2021) 13:507. doi: 10.3390/nu13103507
27. Kara B, Çelik A. The relationship between risk for eating disorder and health-related quality of life in patients with multiple sclerosis. Gulhane Med J. (2015) 57:36–40. doi: 10.5455/gulhane.155043
28. Uzdil Z, Kaya S, Sökülmez P, Terzi M. Evaluation of eating attitudes in patients attending multiple sclerosis patient camp. Samsun Saglik Bilimleri Dergisi. (2021) 6:49–54. doi: 10.47115/jshs.765412
29. Terzi M, Kocamanglu B, Güz H, Onar M. The eating attitudes in multiple sclerosis patients. J Neurol Sci. (2009) 26:311–7. Available online at: http://www.jns.dergisi.org/text.php3?id=306
30. Mohamadirizi S, Shaygannejad V, Mohamadirizi S, Mohamadirizi M. Eating disorders in a multiple sclerosis clinical population and its association with social anxiety. J Mult Scler. (2016) 3:183. doi: 10.4172/2376-0389.1000183
31. Udo T. Grilo CM. Prevalence and correlates of Dsm-5-defined eating disorders in a nationally representative sample of US adults. Biol Psychiatry. (2018) 84:345–54. doi: 10.1016/j.biopsych.2018.03.014
32. Vidgen HA, Gallegos D. Defining food literacy and its components. Appetite. (2014) 76:50–9. doi: 10.1016/j.appet.2014.01.010
33. Vesnaver E, Keller HH, Payette H, Shatenstein B. Dietary resilience as described by older community-dwelling adults from the nuage study “if there is a will -there is a way!”. Appetite. (2012) 58:730–8. doi: 10.1016/j.appet.2011.12.008
34. Mitchell LJ, Ball LE, Ross LJ, Barnes KA, Williams LT. Effectiveness of dietetic consultations in primary health care: a systematic review of randomized controlled trials. J Acad Nutr Diet. (2017) 117:1941–62. doi: 10.1016/j.jand.2017.06.364
35. Thompson RL, Summerbell CD, Hooper L, Higgins JP, Little PS, Talbot D, et al. Dietary advice given by a dietitian versus other health professional or self-help resources to reduce blood cholesterol. Cochrane Database Syst Rev. (2003) 3:CD001366. doi: 10.1002/14651858.CD001366
36. Bebo B, Cintina I, LaRocca N, Ritter L, Talente B, Hartung D, et al. The economic burden of multiple sclerosis in the United States: estimate of direct and indirect costs. Neurology. (2022) 98:e1810–e7. doi: 10.1212/WNL.0000000000200150
37. Vitturi BK, Rahmani A, Dini G, Montecucco A, Debarbieri N, Sbragia E, et al. Occupational outcomes of people with multiple sclerosis: a scoping review. BMJ Open. (2022) 12:e058948. doi: 10.1136/bmjopen-2021-058948
38. Atuk Kahraman T, Yilmaz M, Yetkin MF, Mirza M. The nutritional status of relapsing-remitting multiple sclerosis (Rrms) patients compared to that of healthy people: a turkish hospital-based study. Nutr Neurosci. (2021) 25:1–9. doi: 10.1080/1028415X.2021.1956253
39. Fitzgerald KC, Tyry T, Salter A, Cofield SS, Cutter G, Fox R, et al. Diet quality is associated with disability and symptom severity in multiple sclerosis. Neurology. (2018) 90:e1–11. doi: 10.1212/WNL.0000000000004768
40. Hadgkiss EJ, Jelinek GA, Weiland TJ, Pereira NG, Marck CH, van der Meer DM. The association of diet with quality of life, disability, and relapse rate in an international sample of people with multiple sclerosis. Nutr Neurosci. (2015) 18:125–36. doi: 10.1179/1476830514Y.0000000117
41. Simpson-Yap S, Nag N, Probst Y, Jelinek G, Neate S. Higher-quality diet and non-consumption of meat are associated with less self-determined disability progression in people with multiple sclerosis: a longitudinal cohort study. Eur J Neurol. (2022) 29:225–36. doi: 10.1111/ene.15066
42. Prell T, Perner C. Disease specific aspects of malnutrition in neurogeriatric patients. Front Aging Neurosci. (2018) 10:80. doi: 10.3389/fnagi.2018.00080
43. De Marchis EH, Torres JM, Fichtenberg C, Gottlieb LM. Identifying food insecurity in health care settings: a systematic scoping review of the evidence. Fam Community Health. (2019) 42:20–9. doi: 10.1097/FCH.0000000000000208
44. Skipper A, Coltman A, Tomesko J, Charney P, Porcari J, Piemonte TA, et al. Position of the academy of nutrition and dietetics: malnutrition (undernutrition) screening tools for all adults. J Acad Nutr Diet. (2020) 120:709–13. doi: 10.1016/j.jand.2019.09.011
45. Hummell AC, Cummings M. Role of the nutrition-focused physical examination in identifying malnutrition and its effectiveness. Nutr Clin Pract. (2022) 37:41–9. doi: 10.1002/ncp.10797
46. Holben DH, Marshall MB. Position of the academy of nutrition and dietetics: food insecurity in the United States. J Acad Nutr Diet. (2017) 117:1991–2002. doi: 10.1016/j.jand.2017.09.027
47. Marrie RA, Cohen J, Stuve O, Trojano M, Sorensen PS, Reingold S, et al. A systematic review of the incidence and prevalence of comorbidity in multiple sclerosis: overview. Mult Scler. (2015) 21:263–81. doi: 10.1177/1352458514564491
48. Kowalec K, McKay KA, Patten SB, Fisk JD, Evans C, Tremlett H, et al. Comorbidity increases the risk of relapse in multiple sclerosis: a prospective study. Neurology. (2017) 89:2455–61. doi: 10.1212/WNL.0000000000004716
49. Marrie RA, Elliott L, Marriott J, Cossoy M, Tennakoon A, Yu N. Comorbidity increases the risk of hospitalizations in multiple sclerosis. Neurology. (2015) 84:350–8. doi: 10.1212/WNL.0000000000001187
50. Marrie RA, Rudick R, Horwitz R, Cutter G, Tyry T, Campagnolo D, et al. Vascular comorbidity is associated with more rapid disability progression in multiple sclerosis. Neurology. (2010) 74:1041–7. doi: 10.1212/WNL.0b013e3181d6b125
51. Jakimovski D, Gandhi S, Paunkoski I, Bergsland N, Hagemeier J, Ramasamy DP, et al. Hypertension and heart disease are associated with development of brain atrophy in multiple sclerosis: a 5-year longitudinal study. Eur J Neurol. (2019) 26:87–e8. doi: 10.1111/ene.13769
52. Murali N, Browne RW, Fellows Maxwell K, Bodziak ML, Jakimovski D, Hagemeier J, et al. Cholesterol and neurodegeneration: longitudinal changes in serum cholesterol biomarkers are associated with new lesions and gray matter atrophy in multiple sclerosis over 5 years of follow-up. Eur J Neurol. (2020) 27:188–e4. doi: 10.1111/ene.14055
53. Chou IJ, Kuo CF, Tanasescu R, Tench CR, Tiley CG, Constantinescu CS, et al. Comorbidity in multiple sclerosis: its temporal relationships with disease onset and dose effect on mortality. Eur J Neurol. (2020) 27:105–12. doi: 10.1111/ene.14040
54. Marrie RA, Elliott L, Marriott J, Cossoy M, Blanchard J, Leung S, et al. Effect of comorbidity on mortality in multiple sclerosis. Neurology. (2015) 85:240–7. doi: 10.1212/WNL.0000000000001718
55. Marck CH, Neate SL, Taylor KL, Weiland TJ, Jelinek GA. Prevalence of comorbidities, overweight and obesity in an international sample of people with multiple sclerosis and associations with modifiable lifestyle factors. PLoS ONE. (2016) 11:e0148573. doi: 10.1371/journal.pone.0148573
56. Suliga E, Brola W, Sobas K, Ciesla E, Jasinska E, Goluch K, et al. Dietary patterns and metabolic disorders in polish adults with multiple sclerosis. Nutrients. (2022) 14:927. doi: 10.3390/nu14091927
57. Nitschke E, Gottesman K, Hamlett P, Mattar L, Robinson J, Tovar A, et al. Impact of nutrition and physical activity interventions provided by nutrition and exercise practitioners for the adult general population: a systematic review and meta-analysis. Nutrients. (2022) 14:729. doi: 10.3390/nu14091729
58. Sikand G, Cole RE, Handu D., deWaal D, Christaldi J, Johnson EQ, et al. Clinical and cost benefits of medical nutrition therapy by registered dietitian nutritionists for management of dyslipidemia: a systematic review and meta-analysis. J Clin Lipidol. (2018) 12:1113–22. doi: 10.1016/j.jacl.2018.06.016
59. Williams LT, Barnes K, Ball L, Ross LJ, Sladdin I, Mitchell LJ. How effective are dietitians in weight management? a systematic review and meta-analysis of randomized controlled trials. Healthcare. (2019) 7:20. doi: 10.3390/healthcare7010020
60. Brenton JN, Banwell B, Bergqvist AGC, Lehner-Gulotta D, Gampper L, Leytham E, et al. Pilot study of a ketogenic diet in relapsing-remitting Ms. Neurol Neuroimmunol Neuroinflamm. (2019) 6:e565. doi: 10.1212/NXI.0000000000000565
61. Yadav V, Marracci G, Kim E, Spain R, Cameron M, Overs S, et al. Low-fat, plant-based diet in multiple sclerosis: a randomized controlled trial. Mult Scler Relat Disord. (2016) 9:80–90. doi: 10.1016/j.msard.2016.07.001
62. Fitzgerald KC, Vizthum D, Henry-Barron B, Schweitzer A, Cassard SD, Kossoff E, et al. Effect of intermittent vs. daily calorie restriction on changes in weight and patient-reported outcomes in people with multiple sclerosis. Mult Scler Relat Disord. (2018) 23:33–9. doi: 10.1016/j.msard.2018.05.002
63. Lee JE, Titcomb TJ, Bisht B, Rubenstein LM, Louison R, Wahls TL. A Modified mct-based ketogenic diet increases plasma beta-hydroxybutyrate but has less effect on fatigue and quality of life in people with multiple sclerosis compared to a modified paleolithic diet: a waitlist-controlled, randomized pilot study. J Am Coll Nutr. (2020) 40:1–13. doi: 10.1080/07315724.2020.1734988
64. Burrows T, Teasdale S, Rocks T, Whatnall M, Schindlmayr J, Plain J, et al. Cost effectiveness of dietary interventions for individuals with mental disorders: a scoping review of experimental studies. Nutr Diet. (2022) 79:291–302. doi: 10.1111/1747-0080.12703
65. Academy of Nutrition Dietetics. Find a Nutrition Expert. (2022). Available online at: https://www.eatright.org/find-a-nutrition-expert (accessed September 01, 2022).
66. McCabe-Sellers BJ, Skipper A, American Dietetic A. Position of the american dietetic association: integration of medical nutrition therapy and pharmacotherapy. J Am Diet Assoc. (2010) 110:950–6. doi: 10.1016/j.jada.2010.04.017
67. Hark LA, Deen D. Position of the academy of nutrition and dietetics: interprofessional education in nutrition as an essential component of medical education. J Acad Nutr Diet. (2017) 117:1104–13. doi: 10.1016/j.jand.2017.04.019
68. Slawson DL, Fitzgerald N, Morgan KT. Position of the academy of nutrition and dietetics: the role of nutrition in health promotion and chronic disease prevention. J Acad Nutr Diet. (2013) 113:972–9. doi: 10.1016/j.jand.2013.05.005
69. Jakimovski D, Weinstock-Guttman B, Gandhi S, Guan Y, Hagemeier J, Ramasamy DP, et al. Dietary and lifestyle factors in multiple sclerosis progression: results from a 5-year longitudinal MRI study. J Neurol. (2019) 266:866–75. doi: 10.1007/s00415-019-09208-0
Keywords: multiple sclerosis, registered dietitian nutritionist, diet, food literacy, opinion
Citation: Titcomb TJ, Bostick M and Obeidat AZ (2023) Opinion: The role of the registered dietitian nutritionist in multiple sclerosis care in the United States. Front. Neurol. 14:1068358. doi: 10.3389/fneur.2023.1068358
Received: 12 October 2022; Accepted: 27 January 2023;
Published: 09 February 2023.
Edited by:
Eugenio Pucci, UOC Neurologia - Area Vasta 4 - ASUR Marche, ItalyReviewed by:
Andrea Begley, Curtin University, AustraliaYasemin Akdevelioǧlu, Gazi University, Türkiye
Gloria Dalla Costa, San Raffaele Scientific Institute (IRCCS), Italy
Copyright © 2023 Titcomb, Bostick and Obeidat. This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
*Correspondence: Tyler J. Titcomb, dHlsZXItdGl0Y29tYiYjeDAwMDQwO3Vpb3dhLmVkdQ==