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Published in final edited form as:

Oral Dis. 2009 September ; 15(6): 369–381. doi:10.1111/j.1601-0825.2009.01571.x.

Nutrition and health: guidelines for dental practitioners

C Palacios1, KJ Joshipura2,3, and WC Willett3,4
1Nutrition
Program, School of Public Health, Medical Sciences Campus, University of Puerto
Rico, San Juan, PR
2Centerfor Clinical Research and Health Promotion, School of Dental Medicine, Medical
Sciences Campus, University of Puerto Rico, San Juan, PR
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3Department of Epidemiology, Harvard School of Public Health, Boston, MA

4Department of Nutrition, Harvard School of Public Health, Boston, MA, USA

Abstract
Good nutrition is vital to overall health, and poor diet and a sedentary lifestyle are major causes of
morbidity and mortality worldwide. Nutritional factors are implicated in many oral and systemic
diseases and conditions, including obesity, hypertension, dyslipidemia, type II diabetes,
cardiovascular disease, osteoporosis, dental caries and some cancers including oral cancers. This
review focuses on the evidence for the relations between key nutritional factors and health. Energy
intake is related to body weight and obesity, highlighting the importance of lower-energy diets and
regular physical activity for body weight maintenance and for preventing obesity. Evidence is
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presented for the health benefits of high quality carbohydrates, such as whole grain products, and
fruits and vegetables, in reducing the risk of cardiovascular disease and cancer. The adverse effects
of sugar, sweetened beverages, and trans and saturated fats on several diseases including caries,
diabetes and cardiovascular disease are described. The health benefits of unsaturated fats,
antioxidants, B vitamins and vitamin D in cardiovascular disease, periodontitis, cancer, and other
conditions are documented. Both benefits and harmful effects of dairy product intake on health are
discussed. Based on the evidence, nutritional guidelines are provided, as well as key
recommendations for preventing obesity. Dentists can play a critical role in motivating and
enabling healthy food choices.

Keywords
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nutrients; chronic diseases; obesity; nutritional guidelines

Introduction
Good nutrition is vital to good health. Poor diet and a sedentary lifestyle are major causes of
morbidity and mortality worldwide. Nutritional factors are implicated in several oral and

Correspondence: Cristina Palacios, PhD, Nutrition Program, Graduate School of Public Health, Medical Sciences Campus, University
of Puerto Rico, San Juan, PR 00935, USA. Tel: +1 787 758 2525; ext 1460, Fax: +1 787 759 6719, cristina.palacios@upr.edu.
Author contributions
All authors drafted and revised this review.
 Palacios et al. Page 2

systemic diseases and conditions, including overweight and obesity, hypertension,

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dyslipidemia, type 2 diabetes, cardiovascular disease, osteoporosis, dental caries,

gastrointestinal disorders and most cancers including oral cancers.

One of the main challenges in the prevention of most chronic diseases is reducing obesity,
which is now recognized as one of the major public health problems worldwide. It is
estimated that one billion individuals in the world are overweight and at least 300 millions
are obese (World Health Organization (WHO) (2003). Obesity is the leading cause of many
chronic conditions (National Institute of Health, National Heart, Lung, and Blood Institute,
1998), and the mortality rate is 2–3 times higher in the obese individuals compared with
normal weight adults (Adams et al, 2006). A healthy diet is crucial for preventing and
reducing obesity. Lack of physical activity is a major determinant of obesity and also a risk
factor for many conditions.
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This manuscript summarizes the evidence for the role of physical activity and intake of total
energy (calories), specific foods and micronutrients in promoting oral as well as overall
health and in preventing chronic diseases.

Key relations between nutrition and health

Most people consume a wide variety of foods, with a combination of many nutrients and the
dietary patterns often change over time. This makes it challenging to ascertain the health
impact of any one nutrient or food. However, several foods and nutrients have well-
established relationships to specific conditions as described below.

Energy intake, physical activity and obesity

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Maintaining body weight within normal ranges is important for well being, as obesity is a
risk factor for hypertension, type 2 diabetes, coronary heart disease (CHD), stroke,
gallbladder disease, osteoarthritis, sleep apnea, respiratory problems and some types of
cancer (including endometrial, breast, prostate, pancreatic, kidney and colon) (National
Institute of Health, National Heart, Lung, and Blood Institute, 1998). Obesity is also related
to several aspects of oral health, such as xerostomia, caries and periodontitis (Mathus-
Vliegen et al, 2007). Adipose tissue is also a source of inflammatory cytokines. Hence,
increasing body fat may increase the likelihood of an active host inflammatory response in
periodontitis (Shuldiner et al, 2001). Several cross-sectional studies have shown associations
between obesity and periodontitis (Saito et al, 1998; Ritchie et al, 2002; Pischon et al, 2007).

Physical activity also independently reduces the risk of several diseases including
cardiovascular disease, type 2 diabetes mellitus, osteoporosis, and colon and breast cancer
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(Haskell et al, 2007b), even among normal weight individuals. Increased physical activity
has been also associated with lower levels of periodontal disease in two recent longitudinal
studies, independent of obesity (Merchant et al, 2003; Al-Zahrani et al, 2005).

Body weight is determined primarily by the balance between energy (calorie) consumption
and expenditure (activity); for weight maintenance, energy consumption should equal
expenditure. Weight reduction can be achieved by decreasing energy intake and/or

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increasing physical activity, while the reverse would lead to weight gain. Most studies show
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that to maintain a healthy body weight (within normal ranges) and for weight-loss,
individuals should consume low-energy diets and engage regularly in physical activity
(Anderson et al, 2001; Wing and Phelan, 2005; Galani and Schneider, 2007; Haskell et al,
2007b). In a recent large randomized trial, differences in the percentage of energy from fat,
carbohydrate and protein did not affect body weight over a 2-year period (Sacks et al, 2009).
Recommendations for energy intake are based on each individual’s weight, height and
activity level [for calculating energy requirements, refer to the Dietary Reference Intakes
report from the Institute of Medicine (Standing Committee on the Scientific Evaluation of
Dietary Reference Intakes, Food and Nutrition board, Institute of Medicine, 2005)]. The
American College of Sports Medicine and the American Heart Association’s
recommendation for healthy adults is to engage in at least 30 min of moderate-intensity
aerobic activity on 5 days of every week or at least 20 min of vigorous-intensity aerobic
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activity on 3 days of the week (Haskell et al, 2007a). Even though this level of physical
activity has clear benefits for disease prevention, some individuals will need greater amounts
for weight control.

Carbohydrate intake
The specific percentage of calories from carbohydrate in the diet does not appear to be an
important determinant of weight gain or risk of disease, but the quality of carbohydrates is
important. High quality carbohydrates, such as whole grain products and fruits and
vegetables, have positive health benefits. These foods are good source of fiber, minerals such
as potassium, magnesium, zinc and selenium, and vitamins such as vitamin A, K, C and the
B vitamins. Studies have found that diets rich in whole grain products reduce the risk for
diabetes (Haskell et al, 2007b; de Munter et al, 2007; Barclay et al, 2008) and heart disease
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(Anderson et al, 2000; Barclay et al, 2008). In addition, whole grain products, especially if
not milled into fine flour, and fruits and vegetables tend to have low glycemic indexes,
which prevent a quick rise in blood sugar. Diets rich in high-glycemic-index foods, such as
white bread and potatoes, lead to a quick and strong increase in blood sugar levels, which
then stimulates a large release of insulin, which in turn signals cells to absorb blood sugar
for energy or storage. As a result, blood sugar declines suddenly and steeply and may lead to
an increase in food intake. Meta-analyses of clinical trials also show that diets high in
refined carbohydrates and sugar increase the levels of triglycerides and decrease the levels of
HDL cholesterol (Anderson et al, 2004; Thomas et al, 2007). Several studies now show that
such diets increase the risk for overweight (Maki et al, 2007; Thomas et al, 2007; Livesey et
al, 2008), diabetes (Barclay et al, 2008) and heart disease (Beulens et al, 2007; Barclay et al,
2008). Some foods, low in glycemic index, include coarsely ground whole grain bread,
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beans and legumes, nuts, and high-fiber fruits and vegetables.

Total carbohydrate intake has not been related to periodontitis. However, one large cohort
study of male US health professionals showed an inverse association between whole-grain
intake and periodontitis (Merchant et al, 2006).

Fermentable carbohydrates result in acid production by cariogenic plaque bacteria and

lowering of the plaque pH leads to demineralization. Sucrose is the most cariogenic sugar

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because it can form glucan that enables firm bacterial adhesion to teeth (Tinanoff and
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Palmer, 2003). The frequency of sugar intake is a major determinant of caries risk
(Gustafsson et al, 1954). Caries risk is the greatest if sugar is consumed at high frequency,
more so when the sugar is in a form that is retained in the mouth for long periods of time.
The effect of sugar or other carbohydrates on caries could be reduced by fluoride (ingested
or topical) and good oral hygiene, but a reduction in sugar should be the primary approach
as this has many health benefits.

Sugar and sweetened beverages intake—Regular consumption of sugar-sweetened

beverages has been associated with increased energy consumption in children (O’Connor et
al, 2006) and with the risk of obesity in children and adults (Ludwig et al, 2001; Malik et al,
2006, 2009; Wolff and Dansinger, 2008). Short intervention trials in children and
adolescents to decrease sugar-sweetened consumption resulted in decreases in BMI in those
with higher BMI at baseline (Ebbeling et al, 2006; Sichieri et al, 2009) and increases in lean
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body mass (Albala et al, 2008). Regular consumption of sugar-sweetened beverages has also
been associated with increased risk of type II diabetes (Schulze et al, 2005; Palmer et al,
2008) and CHD (Fung et al, 2004, 2009). Consumption of soft drinks containing sugar is
also related to increased caries prevalence and incidence (Lim et al, 2008).

Fiber intake—Several large, longitudinal epidemiological studies have found an inverse

relation between dietary cereal fiber intake and risk of cardiovascular disease (Rimm et al,
1996; Pereira et al, 2004). In clinical trials, increased dietary fiber intake also reduces blood
pressure (Streppel et al, 2005; Whelton et al, 2005) and total and LDL cholesterol levels
(Brown et al, 1999). Also, in several large longitudinal studies, fiber intake from whole grain
products has been associated with the risk of diabetes (Krishnan et al, 2007; de Munter et al,
2007; Schulze et al, 2007). Furthermore, clinical trials show that diets rich in whole grains
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result in improved insulin sensitivity in obese subjects (Rave et al, 2007). In addition, fiber
consumption can reduce the occurrence of diverticular disease (Aldoori et al, 1998; Aldoori
and Ryan-Harshman, 2002) and constipation (Hongisto et al, 2006). A pooled analysis of
case–control studies supports an inverse association between dietary fiber and endometrial
cancer (Bandera et al, 2007). However, for colon cancer, the evidence is not clear. Large
epidemiological studies do not show any association of dietary fiber and colon cancer (Fuchs
et al, 1999; Park et al, 2005; Schatzkin et al, 2007). Also, in clinical trials, higher intake of
fiber has not reduced the occurrence of colorectal adenomas (Jacobs et al, 2006).

Fruits and vegetables intake—A diet rich in fruits and vegetables is associated with
reduced risk of cardiovascular disease. Results from several large longitudinal studies show
that individuals consuming five or more servings per day of fruits and vegetables
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significantly reduce their risk of cardiovascular disease (Hung et al, 2004; Dauchet et al,
2006; He et al, 2006, 2007). Clinical trials also show that diets rich in fruits and vegetables
significantly reduced blood pressure (Appel et al, 1997).

With respect to cancer risk, the evidence is inconsistent. Case–control studies show an
inverse association between fruits, vegetables and several other cancers (esophagus, lung,
stomach and colorectum). Cohort studies have suggested a protective effect of fruits on
bladder cancer (Riboli and Norat, 2003), while a very large cohort study did not find a

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protective effect of five or more servings of fruits and vegetables on total cancer risk (Hung
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et al, 2004). Both case–control and cohort studies show that high intake of fruits and
vegetables are inversely associated with oral precancer (Gupta et al, 1998; Morse et al, 2000;
Maserejian et al, 2006) and cancer (Gridley et al, 1990; Levi et al, 1998; Boeing et al, 2006;
Pavia et al, 2006). Fruits show a stronger and more consistent inverse association with oral
cancer; for vegetables, the strongest inverse association is seen for tomatoes (De Stefani et
al, 2000). A meta-analysis of cohort studies on gastric cancer showed that fruits and
vegetable intake was associated with lower incidence, but it was not associated with
mortality (Lunet et al, 2005). These differences in results may be explained by the diversity
of compounds, such as vitamins and minerals, present in different fruits and vegetables and
their differential effects on certain types of cancer. This is discussed further in the Vitamins
and minerals intake section.

Fat intake
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Diets high in fats have been believed to be linked to obesity and chronic diseases (Bray and
Popkin, 1998; Drewnowski, 2007; Mendoza et al, 2007), but the overall evidence does not
support a relation between the percentage of fat in the diet and body weight or risks of
cardiovascular disease or cancer (Hu and Willett, 2002; World Cancer Research Fund
(WCRF)/American Institute for Cancer Research, 2007). A large randomized trial showed
that total fat intake was unrelated to long-term control of body weight (Howard et al, 2006a),
risk of cardiovascular disease (Howard et al, 2006b) or risk of cancer (Beresford et al, 2006;
Prentice et al, 2006). Also, as noted above, in a large randomized trial, the percentage of fat
was not related to body weight (Sacks et al, 2009). As with carbohydrates, the quality of fat
is more important than the total amount of fat consumption.

Trans and saturated fat intake—Epidemiological studies show that the consumption of
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unsaturated fat decreases the risk of heart disease, whereas the consumption of trans fat
increases the risk (Willett, 1993; Hu et al, 2001). The magnitude of this association is
considerably stronger for trans fat compared with saturated fat consumption (Willett, 2006),
and when saturated fat is compared with the same level of calories from carbohydrate, the
difference in risk of heart disease is minimal. In controlled feeding studies, diets high in
trans fat significantly increase LDL and VLDL cholesterol and significantly decrease HDL
cholesterol compared with mono- and poly-unsaturated fats. Compared with carbohydrate,
saturated fat increases both LDL and HDL cholesterol (Mensink et al, 2003). High levels of
LDL and VLDL cholesterol and low levels of HDL cholesterol are associated with increased
risk of cardiovascular disease (Stamler et al, 2000; Anum and Adera, 2004). Furthermore,
trans fat intake is positively associated with markers of systemic inflammation in women
(Mozaffarian et al, 2004), suggesting a uniquely adverse cardiometabolic effect via
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pathways linked to insulin resistance (Mozaffarian and Willett, 2007). Red and processed
meats are associated with an increased risk of hypertension (Steffen et al, 2005), CHD (Hu
et al, 1999), and type 2 diabetes (Fung et al, 2004). It was estimated from the Nurses’ Health
Study that replacing only 5% of the energy from saturated fats and 2% of trans fat with
unsaturated fats would reduce the risk of coronary disease by 42% and 53%, respectively
(Hu et al, 1997).

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There is not enough evidence to relate total fat, trans or saturated fat consumption with
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increased risk for most cancer. However, epidemiological evidence suggests that diets rich in
animal fat increase the risk of breast cancer in young women (Cho et al, 2003), while diets
rich in monounsaturated fats (mainly in the form of olive oil) may reduce this risk (Sieri et
al, 2004). Similar results have been found with some other cancers. Red meat consumption
has been associated with an increased risk of colorectal cancer (Larsson and Wolk, 2006;
Sandhu et al, 2001; WCRF, 2007).

Unsaturated fat intake—While the consumption of trans and saturated fat may increase
the risk of many chronic diseases, the opposite is true for the consumption of mono- and
poly-unsaturated fat. Epidemiological and clinical studies show that unsaturated fat
consumption can lower blood pressure, improve lipid levels (reduce LDL and total
cholesterol and increase HDL cholesterol), and reduce cardiovascular risk (Willett, 1993,
2006; Ascherio et al, 1996; Hu et al, 2001, 2002, 2003; Mensink et al, 2003; Appel et al,
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2005).

Several epidemiological studies also relate the consumption of fish to a lower risk of heart
disease, especially sudden cardiac death (Albert et al, 2002; He et al, 2002). Fish is rich in
the essential omega-3 fatty acids. Meta-analysis of observational studies showed that
individuals consuming fish have a reduction of about 20% in the risk of fatal CHD and 10%
in total CHD compared with those consuming little or no fish (Whelton et al, 2004), and
eating fish once per week appears to reduce death from CHD by about 15% (He et al, 2004).
Clinical trials using fish oil have also shown a reduction in fatal CHD and sudden death
(Harper and Jacobson, 2005). Omega-3 fatty acids could also alter the inflammatory process
in periodontitis (Kesavalu et al, 2006).
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Nuts are also rich in mono- and poly-unsaturated fatty acids as well as fiber and
micronutrients. Several epidemiological studies show that regular nut consumption is
associated with lower risk of CHD (Hu and Stampfer, 1999). Based on the data from the
Nurses’ Health Study, substituting saturated fat with nuts would result in 45% reduction in
the risk of CHD (Hu and Stampfer, 1999). Clinical trials have also shown that various forms
of nuts decrease LDL cholesterol (Gebauer et al, 2008) and triglycerides (Alper and Mattes,
2003), and increase HDL cholesterol (Sheridan et al, 2007), with no effect on body weight if
total calories are kept the same (Hollis and Mattes, 2007; Mattes et al, 2008).

Antioxidant intake
Antioxidants are substances that prevent or reduce damage caused by reactive oxygen
species (ROS) or reactive nitrogen species. Certain vitamins (especially vitamins C and E)
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and minerals (selenium) act as antioxidants and may protect against tissue damage, thus,
reducing the risk of heart disease and cancer. Many of these antioxidants are present in fruits
and vegetables; therefore, the role of individual antioxidants on preventing chronic diseases
is not very clear.

A pooled analysis of nine cohort studies that included information on intake of vitamin E,
carotenoids and vitamin C found that only a high consumption of vitamin C (>700 mg
day−1) was associated with lower risk of CHD (Knekt et al, 2004). A meta-analysis that

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included 11 randomized control trials of supplementation with vitamins E and C, beta-

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carotene, selenium, folate, vitamin B-6 or vitamin B-12 did not show a protective effect of
any of these antioxidants on the progression of atherosclerosis (Bleys et al, 2006). The
epidemiologic studies differ from the randomized trials in many ways because in the former,
subjects with known CHD were excluded, whereas the randomized trials were almost all
conducted among subjects with known CHD and on many medications. The Women’s
Health Study was conducted among primarily healthy people; although there was no overall
effect of vitamin E supplements on the risk of CHD, the risk of total cardiovascular
mortality was significantly reduced by 24% (Buring, 2006). Thus, the use of antioxidant
supplements does not appear to be beneficial among patients with existing CHD, but the
effects among apparently healthy people remain unclear.

Antioxidants could also alter the inflammatory process in periodontitis (Chapple et al,
2007). Vitamin C is clearly effective in preventing scurvy. Recent data from the NHANES
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III show an inverse association between dietary vitamin C and periodontal disease (Nishida
et al, 2000b). In another study, serum levels of vitamin C were inversely associated with
periodontitis prevalence, even among never smokers (Chapple et al, 2007). ROS have been
associated with periodontitis, which if not buffered by sufficient antioxidants, could increase
the damage to the periodontal tissue (Moynihan, 2005).

Antioxidants may also prevent certain cancer, by protecting cells from oxidative damage.
However, the evidence from epidemiological and clinical studies is not clear. Several meta-
analyses of prospective cohorts studies in North America and Europe have not found
associations between carotenoid intake and risk of colorectal cancer (Mannisto et al, 2007),
nor between vitamins A, C, E, and folate supplements and the risk of lung cancer (Cho et al,
2006), nor between alpha-carotene, beta-carotene, beta-cryptoxanthin, lutein/zeaxanthin, and
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lycopene and the risk of invasive epithelial ovarian cancer (Koushik et al, 2006). However,
epidemiological studies seem to support a role of lycopene in reducing the risk of prostate
cancer (Giovannucci et al, 2002; Etminan et al, 2004). Similarly, several meta-analyses of
clinical trials have not found a protective effect of vitamin C and E supplements on the
treatment and prevention of cancer in the doses evaluated (Coulter et al, 2006) nor in the
consumption of antioxidant supplements in preventing colorectal adenoma (Bjelakovic et al,
2006) or gastrointestinal cancers (Bjelakovic et al, 2008). Furthermore, a recent meta-
analysis of 12 randomized clinical trials found that beta-carotene supplementation appeared
to increase cancer incidence and cancer mortality among smokers, whereas vitamin E
supplementation had no effect (Bardia et al, 2008). However, trials using β-carotene
supplements showed reduced risk of oral cancers and remission of precancers with an
improvement of at least one grade dysplasia in 39% and no change in 61% of patients
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(Garewal et al, 1999). Cohort and case control studies also suggest reduced risk of oral
cancer among people who consumed different carotenoids (WCRF, 2007).

Selenium, a mineral antioxidant, may have a preventive role on cancer. Several meta-
analyses of case–control and cohort studies suggest that selenium intake may reduce the risk
of prostate cancer (Etminan et al, 2005) and lung cancer (Zhuo et al, 2004). Clinical trials
also suggest a protective role of selenium supplementation in primary cancer incidence in
men (Bardia et al, 2008) and in gastrointestinal cancer occurrence (Bjelakovic et al, 2008).

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However, a recent report from the SELECT trial on more than 35 000 individuals with
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vitamin E and /or selenium supplementation followed for 5.5 years did not reduce prostate
cancer risk (Lippman et al, 2009).

Vitamins and minerals intake

B-vitamins intake—B-vitamins may reduce the risk of cardiovascular disease by ways of
reducing homocysteine levels. A meta-analysis of randomized clinical trial showed clear
evidence that folate and vitamin B-12 supplementation reduce blood levels of homocysteine
(Homocysteine Lowering Trialists’ Collaboration, 2005). Observational studies also show a
reduction in the risk of cardiovascular disease in individuals with high folate and B6 intake
(Rimm et al, 1998; Bazzano et al, 2006). Recent randomized trials show little benefit of
folate or B-12 on risks of cardiovascular disease (Bazzano et al, 2006). However, these
recent trials have been performed primarily in patients with existing cardiovascular disease,
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of relatively short duration, and some were in populations where the food supply was
fortified with folate. A meta-analysis published in Lancet 2 years ago showed a clear benefit
of folic acid supplementation in reducing the risk of stroke, especially in populations with
lower folate intake (Wang et al, 2007). In addition to the effects on cardiovascular health,
folic acid supplementation reduces the risk of neural tube defects and other congenital
anomalies (Goh et al, 2006).

Calcium and vitamin D intake—Calcium and vitamin D intakes are essential for
maintaining bone mass. A meta-analysis of 33 clinical studies showed a positive effect of
1000 mg of calcium supplementation on bone mass in young and premenopausal women
(Welten et al, 1995), while another meta-analysis showed that dairy products were only
beneficial in young white women (Weinsier and Krumdieck, 2000). Around menopause,
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when bone resorption is greater than formation, calcium supplementation does not prevent
bone loss (Dawson-Hughes et al, 1990). However, after about 5 years postmenopause,
calcium supplementation prevents further bone loss and may increase bone mass by 1.6–2%
(Shea et al, 2004). More recently, a large, randomized-control clinical trial in 36 282 healthy
postmenopausal women, the Women’s Health Initiative (WHI) study, indicated that
prolonged calcium and vitamin D supplementation significantly reduced bone loss at the hip
(Jackson et al, 2006). Despite these apparent benefits of calcium intake on bone mineral
density, these studies can be misleading because the effects are small and temporary; once
calcium supplementation is stopped, bone mineral density typically returns to that of the
placebo group.

Calcium and vitamin D supplementation may prevent fracture risk. A meta-analysis of 15

clinical trials with calcium supplementation observed a 23% reduction in vertebral fractures
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and 14% in non-vertebral fractures (Shea et al, 2004). Two meta-analyses of calcium and
vitamin D supplementation trials in 45 000 to 64 000 individuals 50 years and older found a
25% reduction in hip fracture risk (Tang et al, 2007), a 12% reduction of all fractures and
24% reduction of all fractures in those with high compliance to the treatment (Boonen et al,
2007). The WHI trial found a significant 29% decrease in the risk of hip fracture with 1000
mg day−1 of calcium and 400 IU day−1 of vitamin D supplementation among participants
with good compliance to the treatment (Jackson et al, 2006). One of the difficulties in

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evaluating the effects of calcium on fracture risk is that in many studies it has been
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combined with vitamin D. In a meta-analysis of intervention trials using vitamin D

supplementation, doses less than 700 IU day−1 had no effect on risk of fractures, but higher
doses of 700–800 IU - day−1 significantly reduced the risk of hip fractures by 26%, and
reduced non-vertebral fractures by 23% (Bischoff-Ferrari et al, 2005). However, a recent
meta-analysis found no relation between calcium intake and risk of hip fractures in
prospective cohort studies, and no significant reduction in the risk of non-vertebral fractures
in randomized trial of calcium supplements that did not include vitamin D, with a possible
increase in risk (Bischoff-Ferrari et al, 2007). Thus, most people appear to be consuming
sufficient calcium for bone health, and increases in vitamin D are likely to reduce risk of
fractures, either by effects on bone health or reductions of falls.

Calcium intake has been hypothesized to reduce the risk of cardiovascular conditions,
possibly by decreases in blood pressure. In the Nurses’ Health Study, low calcium intake
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was associated with greater risk of ischemic stroke in middle-aged American women (Iso et
al, 1999); intake above 600 mg day−1 did not appear to further reduce the risk. In the same
population, calcium intake was not related to the risk of CHD (Al-Delaimy et al, 2003).
Several meta-analyses of clinical trials suggest that calcium supplementation may reduce the
risk for high blood pressure (Allender et al, 1996; Griffith et al, 1999; Hajjar et al, 2003;
Dickinson et al, 2006; van Mierlo et al, 2006), but the effect appears to be small and may
only benefit those with low dietary intakes. Although the evidence has been inconsistent, in
some circumstances, higher calcium intake may reduce the risk of pre-eclampsia (Hofmeyr
et al, 2006).

Vitamin D may also be related to systemic and local inflammation. A meta-analysis of 19

cross-sectional, 13 case–control and 12 prospective studies suggests that low serum 25-
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hydroxyvitamin D [25(OH)D] levels or vitamin D intake is associated with glucose

intolerance, β cell function and insulin resistance, and with the risk of diabetes and
metabolic syndrome in individuals from different populations and age groups (Pittas et al,
2007). The Nurses’ Health Study also found that a high intake of calcium and vitamin D was
associated with a reduce risk of type 2 diabetes compared with a low intake (Pittas et al,
2006). Furthermore, vitamin D and calcium deficiencies result in bone loss and increased
inflammation, which are both components of periodontal disease (Hildebolt, 2005). Vitamin
D also has immune-modulatory functions by which it may reduce periodontitis susceptibility
(Dietrich et al, 2005). Serum levels of 25(OH)D have been associated with gingivitis
(Dietrich et al, 2005) and periodontal disease (Dietrich et al, 2004). Low dietary calcium and
dairy products intake are associated with increased levels of periodontal disease (Nishida et
al, 2000a; Al-Zahrani, 2006). A clinical trial of calcium and vitamin D supplementation
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showed increased tooth retention after 3 years in the elderly people (Krall et al, 2001).

Few studies have assessed the protective effects of foods on caries. Recent studies have
suggested that milk and cheese are related to reduced risk of caries; however, this is still not
well established. Postulated mechanisms may involve buffering of acids, salivary
stimulation, reduction of bacterial adhesion, reduction of enamel demineralization, and /or
promotion of remineralization by casein and ionizable calcium and phosphorous (Moynihan
et al, 1999; Kashket and DePaola, 2002).

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Calcium and vitamin D intake may also be related to lower colon cancer risk. In a pooled
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analysis of 10 cohort studies, with more than 500 000 subjects followed for up to 16 years,
those with the highest intake of milk and calcium had significantly reduced risk of colon
cancer (Cho et al, 2004). This effect was stronger for calcium from foods compared with
calcium from supplements (Hartman et al, 2005). Evidence from large cohort trials (the
Cancer Prevention Study II Nutrition Cohort and the Multiethnic Cohort Study) also favors a
protective effect among men (McCullough et al, 2003; Park et al, 2007) but not among
women (Lin et al, 2005; Wactawski-Wende et al, 2006). Meta-analyses of clinical trials also
indicate that calcium supplementation may prevent colorectal adenomatous polyps
(Weingarten et al, 2004) and recurrent colorectal adenomas (Shaukat et al, 2005). In
addition, higher blood levels of vitamin D (25-OH D) have been consistently associated with
reduced risk of colorectal cancer and higher intakes of vitamin D have also been related to
lower risk (Gorham et al, 2005; Wei et al, 2008). Some evidences suggest that higher
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vitamin D levels may reduce the risk of breast cancer (Autier and Gandini, 2007; Garland et
al, 2007; Gissel et al, 2008) and decrease total mortality rates (Autier and Gandini, 2007).

On the other hand, calcium and dairy product intake may be related to higher risk of prostate
cancer. Meta-analyses of prospective studies indicate that high consumption of milk and
dairy products (about >3 servings per day) increases the risk of prostate cancer (Gao et al,
2005; Qin et al, 2007; WCRF, 2007). A large prospective study found >2.75 servings per
day of dairy products, particularly low-fat types and >2000 mg day−1 of calcium were
modestly associated with increased risks only for non-aggressive prostate cancer (Ahn et al,
2007), but in most studies the associations have been primarily with metastatic or fatal
prostate cancer. Although consumption of dairy products has been associated with the risk of
ovarian cancer in some studies, in a large pooled analysis, the association with total dairy
products and calcium intake was not significantly associated with the risk of this cancer
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(Genkinger et al, 2006). However, when expressed as lactose intake, a modest increase in
risk was seen at levels equivalent to about three glasses of milk per day. Milk or dairy
product consumption has not been associated with increased risk of breast cancer (Missmer
et al, 2002; Shin et al, 2002; McCullough et al, 2005).

Impact of tooth loss on nutrition

Several cross-sectional studies have shown associations between tooth loss and
compromised diet (Joshipura et al, 1996; Krall et al, 1998; Walls and Steele, 2004). There
are limited longitudinal studies investigating whether tooth loss leads to dietary changes.
The association between self-reported tooth loss and concomitant dietary changes was
investigated over a period of 8 years among 31 813 male US health professionals. Men who
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lost five or more teeth during the follow-up had significant reduction in intake of dietary
fiber, whole fruit, increase in dietary cholesterol, and polyunsaturated fat than those who did
not lose teeth (Hung et al, 2003). Subsequent to incident tooth loss, results from the Nurses’
Health Study showed detrimental dietary changes over a 2-year period with a tendency for
women who lost teeth to avoid hard foods such as raw carrot, fresh apple or pear (Hung et
al, 2005). However, these differences were relatively small and their significance with
respect to chronic disease risks uncertain (Hung et al, 2005). Nevertheless, a small impact on
several foods and nutrients could still contribute to a modest overall impact on health.

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 Palacios et al. Page 11

Guidelines for nutrition

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To maintain and promote good health, individuals should consume a variety of healthy foods
as described below.

Folic acid
Women in the reproductive age should be taking multiple vitamins that include folic acid if
there is any possibility that they might become pregnant. Folic acid has been shown to
reduce the risk of birth defects if taken before or during the first few weeks of pregnancy.

Sugar and beverages

Pregnant women and mothers of infants should be given advice on preventing baby bottle
tooth decay. They should be discouraged from giving their infants a bottle containing
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beverages with sugar. Milk should be consumed without sugar. It is extremely important for
the prevention of baby bottle tooth decay to not allow infants to continue keeping bottles
containing milk or other beverages in the mouth when sleeping, especially if these beverages
contain added sugar.

Guidelines to reduce the exposure of children to sugar include avoidance of sodas, ‘fruit
drinks’ or other high sugar beverages, limiting the consumption of fruit juice to one small
glass (6 oz) per day, and avoiding sugar containing cough drops, chewing gum and snacks
such as candy. Furthermore, good dental care should include appropriate use of fluorides,
access to preventive and restorative dental care, limiting cariogenic foods during mealtimes,
and rapidly clearing cariogenic foods from the child’s oral cavity by tooth brushing.

Fruits and vegetables

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Fruits and vegetables provide a variety of micronutrients such as vitamins A, K, C, folate,

potassium, magnesium, calcium, iron and fiber. Therefore, individuals should consume a
wide variety of these on each meal. The US Dietary Guidelines recommend 4½ cups (nine
servings) of fruits and vegetables (not counting starchy vegetables such as potato) for the
reference 2000 calorie level (U.S. Department of Health and Human Services and U.S.
Department of Agriculture, 2005). This level of intake may be challenging for many people;
however, it is important to reassure individuals that even increases in one or two servings a
day can have important benefits (Hung et al, 2004). Consumption of dark green, yellow and
red vegetables should be emphasized to receive the health benefits described in the previous
sections.

Whole grains
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Whole grains provide plenty of fiber as wells as micronutrients such as vitamin E, folate,
some B vitamins, magnesium, copper, selenium and proteins. To increase the consumption
of whole grains, individuals should replace white rice, bread and pasta with brown rice and
whole grain products, as well as choose whole grain or high fiber cereals for breakfast. This
has a double benefit because refined starches have adverse metabolic effects and increase the
risks of obesity, diabetes and heart disease, whereas whole grains have positive health
benefits. The Dietary Reference Intake in the US for fiber is 25 g in women and 38 g in men

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 Palacios et al. Page 12

(U.S. Department of Health and Human Services and U.S. Department of Agriculture,
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2005). To obtain the recommended amount of fiber, individuals should consume whole grain
products in most meals.

Nuts
Nuts provide plenty of mono- and poly-unsaturated fatty acids, vitamin E, magnesium and
copper, and protein. Individuals should include nuts in their daily diet. Although nuts are
often considered as a snack and they are a healthy snack, they can also be considered as a
protein source and replace meat in a mixed dish or with a salad. It is recommended that
individuals consume 1–2 oz nuts per day (42 g day−1).

Fish
Fish and other seafood are rich sources of omega 3 fatty acids. Individuals should consume a
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variety of fish two or more times a week. Part of the benefit of fish can be due to
replacement of foods high in saturated fat, such as red meats. Pregnant women should avoid
the consumption of big fish, such as shark, swordfish, king mackerel or tilefish and tuna due
to their high mercury content. Salmon and small fish, such as catfish, snapper, tilapia,
sardines and others, are generally safe during pregnancy because they accumulate less
mercury.

Unsaturated oils
Some fats are good. Vegetable oils are rich in mono- and poly-unsaturated fatty acids,
vitamins A, E and K. Double benefits are achieved by replacing butter and other animal fats
with vegetable oils, such as canola, soybean olive, corn and sunflower for cooking, baking
and for salads. Although margarines were high in trans fat, at this time, almost all
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margarines in the US contain zero grams of trans fat; although these usually have slightly
more saturated fat than liquid oils, they are substantially superior to butter in their fatty acid
composition. Until recently, there were concerns about fried foods as fats used for deep
frying commercially were universally high in trans fats, but most restaurants are now using
trans free oils that are high in unsaturated fats. There is no evidence that fried foods are
inherently harmful; their health effects are related to the type of fat and their potential
contribution to excessive caloric intake.

Low-fat dairy products

Dairy products are rich in calcium, phosphorus, potassium, vitamins A and D, some B
vitamins and protein. However, dairy products also provide saturated fat. Therefore,
individuals should substitute whole-fat products with lower fat products. The US Dietary
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Guidelines recommend three daily servings of low fat dairy products to achieve calcium
requirements for preventing bone loss later in life (U.S. Department of Health and Human
Services and U.S. Department of Agriculture, 2005). However, as the evidence suggests both
benefits and harmful effects of dairy products intake on health, limiting dairy products to
about two servings a day seems desirable. Other foods, such as cruciferous (brassica)
vegetables (broccoli, spinach, cabbage, cauliflower, brussels sprouts, kale, collard greens,
bok choi and kohlrabi) and tofu also provide absorbable calcium (2–5 servings of these

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 Palacios et al. Page 13

products could substitute one serving of dairy product), as well as supplements. As the
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overall evidence suggests that vitamin D supplementation prevents bone loss, falls, fractures
and other chronic diseases, most individuals would probably benefit by using a vitamin D
supplement daily. The optimal dose is being actively investigated and is not yet established;
1000 IU day−1 provides benefits, but optimal intakes may be several times this amount.

The revised USDA Pyramid 2005 recommends that individuals consume low amounts of fat
and eat large amounts of carbohydrate-rich foods, but pays insufficient attention to the
adverse effects of refined starches, and gives inadequate attention to the benefits of healthier
oils. A food guide pyramid should encourage the consumption of healthy fats and whole
grain foods, minimizing the refined carbohydrates, sugar, butter, and red meat.

Key recommendations for preventing obesity

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As stated above, obesity is a major growing problem with many health implications. Some
key recommendations include:

1. pay attention to portion sizes and total caloric intake;

2. be physically active;

3. consume whole grain, high fiber carbohydrates as opposed to rapidly absorbed

carbohydrates;

4. consume more fruits and vegetables;

5. reduce sugar consumption including beverages such as regular carbonated

beverages and fruit drinks with added sugar;

6. limit fast foods.

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Role of dentists in influencing nutrition

Dentists should play a more active role in preventing and controlling dental caries and
periodontal diseases, which are the major indicators for tooth loss. Advice on good dietary
habits that help maintain both oral and general health could be included as part of routine
preventive care. The importance of retaining teeth and the consequences of tooth loss should
be stressed to patients before problems develop, and maintaining good nutrition should be
emphasized before extractions are preformed. When dentists recommend extractions, they
should inform the patient of the possible consequences of tooth loss on chewing, nutrition,
and subsequently on systemic health (Joshipura, 2005). The visit during which the
extractions are performed is an additional opportunity to inform the patient about the value
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of maintaining a healthy diet, for both dental and systemic health. If major chronic diseases
are already present, referral to a dietitian may be needed. The need for a good prosthesis
should be emphasized to enable patients to chew more efficiently after tooth loss. Follow-up
visits for patients with new prosthesis should be scheduled to check its fit and comfort
levels, but specifically to inquire about any difficulty encountered while eating when using
the prosthesis, and to address this as soon as possible by adjusting the dentures. Even with a
good prosthesis, it may be necessary to adjust the preparation of some foods by having hard-

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 Palacios et al. Page 14

to-chew items processed in a way that makes them easier to eat with a compromised
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dentition, while retaining their nutritional value.

Conclusions
There is strong evidence that a diet rich in fruits, vegetables, whole grains, nuts, fish and
unsaturated fats together with regular physical activity contributes greatly to overall health,
including dental health. The appropriate role of dairy products in a healthy diet remains
unsettled as both beneficial and harmful effects have been observed. At this point, prudence
suggests an emphasis on low fat products and limiting intake to about two servings per day.
Overweight and obesity is a huge and growing problem; low fat diets have little benefit, but
elimination of sugar-sweetened beverages, attention to overall caloric intake, and regular
physical activity will contribute to weight control.
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Dentists contribute to knowledge about nutrition and health

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Over 29,000 dentists have been directly contributing to research on the relation of diet to
health since 1986, through their participation in the Health Professional’s Follow-up
Study (HPFS) conducted at Harvard School of Public Health. Participants have
completed detailed dietary questionnaires every four years along with other
questionnaires about lifestyle and medical and oral health history, and many have
contributed blood samples. This research has provided unique information on the
prevention of heart disease, many cancers, oral precancer, periodontal disease, and other
important illness. Several manuscripts using the HPFS data are referenced in this review
article. More details of the study and description of the research findings can be found at
the Health Professional’s Follow-up Study website: http://www.hsph.harvard.edu/hpfs
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