Discussion

This scoping review revealed twenty studies investigating the association between adherence to MDi and various oral health indicators that were divided into two groups based on the primary direction of this association. The inclusion criteria included only publications that investigated the effect of full MDi scales’ scores and not their individual components because the findings are more reliable, particularly when sample sizes are small^{(Reference Samoli, Lagiou, Nikolopoulos, Lagogiannis, Barbouni and Lefantzis64)}. Only three studies investigated the effect of oral factors on adherence to MDi, and safe conclusions cannot be drawn. On the other hand, seventeen studies explored the effect of the level of adherence to MDi on oral health indicators, mainly PD and UADT cancer, showing a systematic negative association between better adherence to MDi and prevalence of disease. It should be noted that the reviewed papers revealed increased inconsistencies in the methodology applied regarding both oral and MDi indicators, posing difficulties in comparisons. Various indexes and scores for quantifying MDi adherence were implemented, using either cutoff values classifying participants as high, moderate or low adherers to MDi or various scoring systems to credit or penalise individuals according to their level of adherence to each MDi component.

The effect of oral factors on food choices and nutrient intake is ambiguous, as found in the present study regarding the effect of oral indicators on adherence to MDi. Some studies conducted in non-Mediterranean countries have shown that older adults with very few teeth (zero to ten) were less likely to choose dark-green or orange vegetables and whole grains and were more likely to consume more calories from solid fat, alcohol and added sugar compared with those with eleven and more teeth^{(Reference Savoca, Arcury, Leng, Chen, Bell and Anderson45,Reference Zhu and Hollis66)} . Furthermore, deficiency of posterior functional units (opposing pair of natural or fixed prosthetic teeth) has been related to avoidance of vegetables and fibres and higher consumption of sugar-rich food^{(Reference Kossioni and Bellou67,Reference Quandt, Chen, Bell, Savoca, Anderson and Leng68)} . Removable denture wearers showed less dietary variety and were often discouraged from eating hard food, mostly fruit and vegetables, compared with dentate older adults^{(Reference Yoshida, Kikutani, Yoshikawa, Tsuga, Kimura and Akagawa69–Reference Jauhiainen, Männistö, Ylöstalo, Vehkalahti, Nordblad, Turunen and Suominen71)}. Several studies did not find any significant improvement in food intake after removable dentures provision to edentulous people,^{(Reference Tada and Miura72)} whereas others have shown that those satisfied with their removable dentures received significantly higher amounts of vegetables in contrast to those unsatisfied^{(Reference Tada and Miura72,Reference Lin, Chen, Lee, Yang and Chou73)} . A systematic review of the association of mastication with food and nutrient intake in older people found that studies reporting no associations were performed in developed countries where food is often processed to become softer and manageable by individuals with poor dental status^{(Reference Tada and Miura72)}.

The effect of local culture on food choice can be revealed from studies performed in Greece, a Mediterranean country, in comparison with other European countries. Greek studies have shown that tooth loss and denture use did not have a significant impact on different food types consumption^{(Reference Quandt, Chen, Bell, Savoca, Anderson and Leng68,Reference Anastassiadou and Heath74)} . Older Greeks, with dental or chewing deficiencies, still consumed basic elements of MDi, such as cereals, fruits and vegetables, either by selecting those with softer texture or by preparing them to be easier to chew. For example, they ate oranges, grapes, tangerines and melons, cut harder fruits such as apples into small pieces, softened bread crust and rusks in water or milk or minced the meat. Regarding vegetables, ‘Ladera’ (stewed vegetables in olive oil, easy to chew) is the common way for their consumption together with boiling them and eating as a salad with the addition of raw olive oil. Meanwhile, English complete denture wearers were more likely to avoid vegetables, grains and other healthy but harder foods and settled for softer, sugary foods^{(Reference Millwood and Heath75)}. These studies revealed an increased cultural effect on food preparation pattens enabling or impeding older people with poor dental status and\or chewing difficulties eating basic elements of MDi, such as cereals, raw vegetables and fruits. Bousiou et al.^{(Reference Bousiou, Konstantopoulou, Martimianaki, Peppa, Trichopoulou and Polychronopoulou38)} in an older community-dwelling sample living in Athens, Greece, concluded that the most important oral predictor for better adherence to MDi was good masticatory performance^{(Reference Bousiou, Konstantopoulou, Martimianaki, Peppa, Trichopoulou and Polychronopoulou38)}. The number and location of teeth is not the only predictor of good masticatory performance, that is, a complex function affected by several factors, including tooth mobility, neuromuscular coordination, intraoral sensitivity, jaw-closing muscle force, tongue function, saliva quality and quantity, general medical condition or ageing^{(Reference Bousiou, Konstantopoulou, Martimianaki, Peppa, Trichopoulou and Polychronopoulou38,Reference Bousiou, Konstantopoulou, Polychronopoulou, Halazonetis, Schimmel and Kossioni42)} .

Moreover, apart from chewing process, hyposalivation, swallowing problems or oral neuromuscular dysfunction may affect food choices^{(Reference Kossioni43)}. Regarding PD, the reviewed studies^{(Reference Bousiou, Konstantopoulou, Martimianaki, Peppa, Trichopoulou and Polychronopoulou38,Reference Lohse and Masters49)} did not reveal any statistically significant association with adherence to MDi, but PD was not comprehensively measured using current validated clinical methodology and further investigation is needed. The above findings reveal the complex nature of food selection patterns, associated with various medical, oral, psychological, religious, socioeconomic and cultural factors^{(Reference Bousiou, Konstantopoulou, Martimianaki, Peppa, Trichopoulou and Polychronopoulou38,Reference Kossioni43)} and the need to further investigate effective strategies to promote healthy dietary patterns such as MDi.

The findings of the opposite direction of the association between adherence to MDi and oral health were clearer and revealed a general tendency for a protective dietary effect. The moderate to strong association between better MDi adherence and lower PD prevalence and severity is not surprising considering current evidence of the effect of certain ‘healthy foods’, integral to MDi, on the aetiopathogenesis of PD. PD is a biofilm-mediated inflammation located in the periodontal tissue in response to the increased presence of bacteria in dental plaque. When an imbalance is created between periodontopathogenic bacteria and the host’s defence mechanisms, inflammation is triggered progressively. This imbalance is subject to the influence of several external factors, including nutrition^{(Reference Millwood and Heath75,Reference Albandar76)} . It has been shown that the consumption of at least five portions a day of vegetables (especially dark-green and yellow ones) such as spinach, broccoli, yellow peppers, cabbage and onions, fruits rich in vitamin C such as black currants, grapefruit, oranges and fruits rich in dietary fibres such as bananas, apples and plums can prevent the development of an aggressive form of PD and, thus, tooth loss^{(Reference Kinane, Stathopoulou and Papapanou77)}. Intake of larger quantities of salad, fruit/vegetables, poultry, seafood, water, whole grains and lower intake of red/processed meat showed a positive association with lower clinical attachment loss and, consequently, less chances of a more severe form of PD^{(Reference Skoczek-Rubińska, Bajerska and Menclewicz78–Reference Salazar, Laniado, Mossavar-Rahmani, Borrell, Qi, Sotres-Alvarez and Morse80)}. In particular, whole-grain cereals are considered to have a prominent effect in the prevention of PD, mostly in lower interdental clinical attachment loss^{(Reference Marruganti, Traversi, Gaeta, Ferrari Cagidiaco, Parrini, Discepoli and Grandini53)}. Whole-grain consumption showed an association with lower systemic inflammatory markers, such as C-reactive protein, and decreased insulin resistance^{(Reference Nielsen, Trak-Fellermeier, Joshipura and Dye81)}. Consequently, when insulin sensitivity is preserved, the production of glycation end products, oxidative stress and, accordingly, the release of cytokines is reduced, which has a positive effect on the periodontal tissue^{(Reference Jenkins, Axelsen, Kendall, Augustin, Vuksan and Smith82)}. Catechins and ellagic acids found in fruits, vegetables and nuts can inhibit the growth of Prevotella intermedia which has a significant role in the pathogenesis of PD^{(Reference Esposito, Marfella, Ciotola, Di Palo, Giugliano and Giugliano83)}. In addition, it is considered that phytochemicals, including vitamin C (ascorbic acid), vitamin E (α-tocopherol), vitamin A, β-carotene and coenzyme Q-10, and minerals provided by fruits, vegetables, nuts and whole grains in the MDi are effective for maintaining periodontal homeostasis^{(Reference Veloso, Abrão, Martins, Bronzato, Gomes, Higino and Sampaio84)}. Olive oil is a key protective factor for PD, and in some studies, it was shown to be the only effective ingredient^{(Reference Iwasaki, Ennibi, Bouziane, Erraji, Lakhdar and Rhissassi55,Reference Hujoel and Lingström85)} . An olive oil-enriched diet was found to protect mononuclear phagocyte system function^{(Reference Rasperini, Pellegrini, Sugai, Mauro, Fiocchi, Corvi Mora and Dellavia86)}, and phagocyte abnormalities are among the key mechanisms in the pathogenesis of PD^{(Reference Millwood and Heath75)}.

A significant protective effect of MDi was also recorded for UADT cancers^{(Reference Machowicz, Hall, de Pablo, Rauz, Richards and Higham61–Reference Giraldi, Panic, Cadoni, Boccia and Leoncini63,Reference Saraiya, Bradshaw, Meyer, Lund, Slade and Olshan65)} . The positive influence of MDi on infectious, inflammation and cancerogenic processes is based on its potential in modifying oxidative stress^{(Reference Garnacho-Montero, Ortiz-Leyba, Garnacho-Montero, Garcia-Garmendia, Pérez-Paredes and Moyano-Del Estad87)}. The bioactive components from MDi that mainly act as antioxidants are polyphenols, vitamin C, vitamin E and β-carotene^{(Reference Veloso, Abrão, Martins, Bronzato, Gomes, Higino and Sampaio84–Reference Rasperini, Pellegrini, Sugai, Mauro, Fiocchi, Corvi Mora and Dellavia86)} Dietary polyphenols play an important role in preventing the disequilibrium between oxidative stress and antioxidant activities in the oral cavity, thereby preventing periodontal tissue destruction. Polyphenol intake was positively associated with S-type cystatins levels in saliva in a study by Louro et al.^{(Reference Louro, Simões, Penetra, Carreira, Castelo and Luis60)} who investigated the association of MDi with saliva composition. Besides antioxidant capacities, polyphenols also carry anti-inflammatory properties by interfering with a number of proinflammatory pathways and inhibits them, which results in a reduction of the synthesis and release of proinflammatory cytokines such as interleukin (IL)-1β, IL-6, IL-8 and tumour necrosis factor (TNF)^{(Reference Itsiopoulos, Mayr and Thomas88–Reference Zhang and Tsao90)}. These positive effects of polyphenols have been demonstrated in other low-grade inflammatory diseases such as cardiovascular and endocrine diseases as well as metabolic and immune disorders^{(Reference Billingsley and Carbone91,Reference Scalbert and Williamson92)} . In addition to their anticancerogenic effect, phytochemicals that are involved in cellular differentiation and proliferation are also involved in the synthesis and repair of DNA and in the inhibition of the formation of carcinogenic chemicals in inflammatory responses^{(Reference Billingsley and Carbone91,Reference Medina-Remón, Tresserra-Rimbau, Pons, Tur, Martorell and Ros93–Reference Mentella, Scaldaferri, Ricci, Gasbarrini and Miggiano95)} . High adherence to MDi has been associated with a lower risk of pancreatic, colorectum, breast, aerodigestive tract, prostate and liver cancer^{(Reference Ciancarelli, Massimo, Amicis and Ciancarelli96,Reference Bosetti, Turati, Dal Pont, Ferraroni, Polesel and Negri97)} . Besides polyphenols, omega-3 fatty acids from fish and nuts can affect cancer cell proliferation, angiogenesis and metastasis, slowing down cancer development⁽⁹⁸⁾. Also, animal studies have shown that extra virgin olive oil may induce cancer cell apoptosis and minimise DNA damage^{(Reference Castelló, Boldo, Pérez-Gómez, Lope, Altzibar and Martín99)}.

Machowicz et al.^{(Reference Machowicz, Hall, de Pablo, Rauz, Richards and Higham61)} concluded that adherence to the MDi was associated with a lower likelihood of having primary Sjögren syndrome (pSS). Increasing the MDi score by just one unit was associated with a 19% decrease in the odds of having pSS. This positive effect was explained in terms of the fish intake since the MDS fish domain was inversely associated with pSS in both univariate and multivariate analysis. Fish intake has also been previously reported to reduce the risk of other autoimmune disorders such as rheumatoid arthritis^{(Reference Escrich, Moral and Solanas100,Reference De Pablo, Romaguera, Fisk, Calder, Quirke and Cartwright101)} .

Clarification of the association between oral health and adherence to MDi may lead to large public health benefits. The World Health Organization (WHO) has raised awareness of the importance of good oral health in essential functions such as eating, breathing and speaking, and its contribution to overall health and quality of life, and developed the Global Strategy and Action Plan on Oral Health (2023–2030) stressing the need for a life-long, multi-sectoral approach (WHO 2024)⁽¹⁰²⁾. The high rates of oral disease worldwide, particularly among the most vulnerable members of society, pose major challenges to health and social care systems⁽¹⁰³⁾. PD, a major cause of tooth loss in middle and older age groups, peaks around 55 years of age and remains highly prevalent among older dentate people. Higher prevalence is expected in the near future owing to larger numbers of older individuals and longer lives⁽¹⁰³⁾. Oral cancer is closely associated with tobacco use and still has high mortality and high prevalence with large variation in relation to region, countries, sex and age⁽¹⁰³⁾.

It should be noticed that most oral diseases are largely preventable, if early diagnosed, with unhealthy diet, rich in free sugars and poor in fruits and vegetables, being a significant risk factor. Oral health shares common risk factors with other non-communicable diseases (NCD) and may benefit from common preventive strategies in research agendas and policy development. Based on WHO recommendations, enabling actions on the prevention and control of NCD, such as oral health, include the development and implementation of national nutrient-and food-based dietary guidelines and nutrient profile models for different applications⁽¹⁰⁴⁾. A healthy lifestyle requires a reduction in the intake of free sugars and increase in the consumption of legumes, fruits and vegetables, which are basic components of MDi⁽¹⁰⁴⁾. It is a significant opportunity that MDi has progressively become globally well known even in non-Mediterranean countries, because of wider availability of olive oil, fresh fruits and vegetables, whole grains, legumes, seeds and nuts in many world regions^{(Reference Zupo, Castellana, Piscitelli, Crupi, Desantis and Greco3,Reference Yang, Farioli, Korre and Kales6)} . However, a decrease in MDi adherence has recently been observed in Mediterranean countries, due to modern stressful lifestyles prompting people to consume fast and sugary foods^{(Reference Mazza, Ferro, Pujia, Mare, Maurotti, Montalcini and Pujia30)}.

Therefore, effective strategies need to be developed and implemented at national levels to promote diet literacy and encourage adoption of MDi. Food education campaigns may play an important role in the nutritional behaviour change, and MDi adherence should be encouraged worldwide, aiming to promote healthy ageing. Mass media and targeted client communication messaging services with mobile phones such as the BeHe@lthy BeMobile WHO applications may promote healthy behaviours through propagating balanced information. Exposure to information delivered by mass media was associated with a greater adherence to both Mediterranean diet and Mediterranean diet-like eating pattern in a representative large sample of a general adult Italian population^{(Reference Hernández-Ruiz, García-Villanova, Guerra Hernández, Amiano, Azpiri and Molina-Montes105)}.

Nutrition education for all healthcare providers, including dental professionals, and multidisciplinary collaboration may improve both oral and general health as studies have shown improvement in nutritional status of dental patients when accompanying dental rehabilitation with nutritional advice^{(Reference Bradbury, Thomason, Jepson, Walls, Allen and Moynihan106)}.