Anemia due to iron deficiency was defined in a study on children as Hb < 11 g/dl and ferritin < 15 µg/L (79), and in a study on pregnant women, anemia was defined as Hb < 11 g/dl, and low ferritin level as values <12 µg/L (80).

The study on pregnant immigrant women indicates a higher risk of developing iron deficiency compared to indigenous women (Table 5), while studies on immigrant children showed no definite results.

Besides these studies, one study excluded in the table only included children at one hospital with severe anemia due to iron deficiency, defined as Hb < 9 g/dl and ferritin < 15 µg/L (81). In addition, one study on pregnant Pakistani women (n=66) compared to Norwegian women (n=71) found that anemia (without specifying type of anemia or hemoglobin level) was more common among Pakistanis (OR 10.2; 95% CI 3.3–31.4) (82).

Altogether, seven articles of dental caries among children were found, one Danish (83), and six Swedish (84–89).

High rates of caries were seen among the younger immigrant children (i.e. <7 years, or the pre-school age in the Nordic countries) (Table 6), and among children of early school age (i.e. 7 years), while no conclusion could be drawn for teenagers aged 15 years.

Overweight was in general defined as body mass index (BMI) 25–29.9 kg/m², and obesity as BMI ≥ 30 kg/m². However, one study used the recommended Asian-specific cutoff for high health risk, that is, BMI≥ 27.5 kg/m² (90). Recommended cutoff for waist circumference is 80 cm for women and 94 cm for men. Altogether, 14 articles were found on overweight or obesity, including four Norwegian, nine Swedish, and a Danish one.

One Norwegian study examined children aged 4 years and found that 26% of the immigrant children (n=33) had a weight equal to or above the 90th percentile compared to 6% of the Norwegian children (n=37) (48).

A Norwegian study on Pakistani women aged 25–63 years (n=198) found a mean BMI of 29.6 kg/m², with a prevalence of overweight (BMI > 25 kg/m²) of 80%, and a rate above the Asian-specific cutoff for high health risk (BMI≥27.5 kg/m²) of 61% (90). Another study of Pakistani women showed a mean BMI of 29.5 kg/m², and a mean waist circumference of 96.0 cm (91). In total, 40% were regarded as obese, and 95% had a waist circumference ≥80 cm (91). Yet another study used data from the Oslo Immigrant Health Study (Immigrant-HUBRO) performed in 2002 on immigrants from Pakistan or Sri Lanka aged 30–60 years (n=629), including a main questionnaire with food frequency questions, and an additional, more detailed questionnaire with questions related to life conditions as immigrants (52). BMI was positively associated with those of Pakistani origin, and inversely correlated with eating more hot meals, while waist–hip ratio (WHR) was positively associated with a dietary pattern with high-fat foods, and inversely associated with a degree of integration.

Altogether, nine Swedish studies on obesity were found, using data from different sources. Two studies were based on the Swedish Annual Level-of-Living Survey (SALLS) Immigrant Survey in 1996 on immigrants aged 27–60 years (n=1,957) from Poland, Chile, Turkey, and Iran. The first of these compared the immigrant groups with Swedish-born subjects from SALLS 1996–97 (n=2,975) and found a higher BMI in men from Poland and Chile, 0.77 kg/m² (95% CI 0.23–1.31) and 0.72 kg/m² (95% CI 0.29–1.15), respectively, and in women from Chile and Turkey, 1.88 kg/m² (95% CI 1.40–2.36) and 1.49 kg/m² (95% CI 0.92–2.07), respectively, when adjusting for education, physical activity, and smoking habits, using Swedish men and women, respectively, as reference groups (92). The second study used data both from SALLS Immigrant Survey 1996 and from the SALLS 1996–2002 on subjects aged 27–60 years (n=24,196), and found higher rates of obesity (BMI ≥ 30 kg/m²) among men from Turkey and Chile, and among women from Southern Europe, Turkey, and Chile (93).

Four regional Swedish studies were found. Two were based on data from Stockholm County, the first on 60-year-old men and women (N=4,228) in 1997–99, with data on Swedish-born subjects (n=3,329), and immigrants from Finland (n=327), OECD countries (n=335), and non-European countries (n=115). Among men, a higher mean BMI was found in the non-European group (28.1 kg/m² vs. 26.8 kg/m²) as compared to the Swedish-born group, and among women, the non-European group showed a higher mean BMI (30.8 kg/m² vs. 26.4 kg/m²) and waist circumference (94.5 cm vs. 86.0 cm) (54). Another study (94) on residents from two deprived neighborhood areas in a town in the southern part of Stockholm County (aged 18–65 years; n=289) found a higher risk of obesity (BMI ≥ 30 kg/m²) among immigrants of European origin (OR 2.79; 95% CI 1.06–7.36) and those of Middle Eastern origin (OR 3.10; 95% CI 1.51–6.40). A third study (i.e. the Swedish MONICA study of cardiovascular risk factors) was performed in Gothenburg on inhabitants aged 25–64 years (N=1,618), and an increased BMI and waist circumference was found among female immigrants (95). The fourth study (the Malmö Diet and Cancer Study) was performed in 1991–96 on 27,808 adults aged 45–73 years, including 3,110 European immigrants, and concluded that obesity was 40% more prevalent in non-Swedish Europeans compared to Swedes (51). Controlling for age, height, smoking, physical activity, and occupation, it was found that women born in the former Yugoslavia, southern Europe, Hungary, and Finland had a significantly higher percentage of body fat, and those from Hungary, Poland, and Germany had more centralized adiposity compared to Swedish women. Men born in the former Yugoslavia, Hungary, and Denmark had a significantly higher mean percentage of body fat compared to Swedish-born men, whereas Yugoslavian, Finnish, and German men differed significantly in mean WHR. Length of residence in Sweden was inversely associated with central adiposity in immigrants.

Three Swedish studies have been performed on specific immigrant groups. The first of these analyzed data on women from Iran (n=71), Turkey (n=36), or Sweden (n=50) (55) and found that Turkish-born women had higher BMI (28.4 kg/m² vs. 24.7 kg/m²) and waist circumference (86.3 cm vs. 80.3 cm) compared to Swedish-born women. Another study was performed on immigrants from Turkey (n=238), aged ≥20 years, and it was found that BMI was higher among migrant men as compared to those in the area of origin in Turkey, 27.0 kg/m² vs. 25.6 kg/m², but not significantly so among women, 29.1 kg/m² vs. 28.1 kg/m² (96). A third study compared female Bosnian refugees aged 18–59 years (n=98) to Swedish-born women (n=95) and found a higher BMI among Bosnian women aged 42–59 years, 1.85 kg/m², when adjusting for age, sex, and relationship between measured and self-reported BMI, using Swedish women aged 18–41 years as a reference group (97).

In a study on Inuit migrants in Denmark versus Inuits in Greenland, migrant women showed lower BMI and waist circumference than Inuits in Greenland, after adjusting for age, smoking, diet, and alcohol, 25.5 kg/m² vs. 26.5 kg/m² (p=0.02) and 83.3 cm vs. 88.3 cm (p<0.001), respectively (34).

Overall, the included articles show a risk of overweight and obesity in many, but not all, immigrant groups, especially among immigrants from non-Western countries.

Blood lipid disturbances have been analyzed in three Swedish studies, and in a study of Inuit immigrants in Denmark. The first study investigated 60-year-old men and women (N=4,228) in Stockholm County in 1997–99, with data on Swedish-born subjects (n=3,329), and three immigrant groups, that is, from Finland (n=327), OECD countries (n=335), and non-European countries (n=115) (54). Risk of showing dyslipidemic values (HDL-cholesterol <1.03 for men and <1.30 for women) was higher in the non-European group as compared to the Swedish-born group (OR 2.06; 95% CI 1.35–3.159) when adjusting for sex, anthropometric values, hypertension, diabetes, lipid-lowering drugs, smoking habits, alcohol intake, socioeconomic factors, and diet. For high triglycerides (1.7 mmol/L), risk of showing this was only found in the sex-adjusted model for Finns (OR 1.31; 95% CI 1.01–1.71) and non-European immigrants (OR 1.98; 95% CI 1.34–2.93), and for apoB/apoA-I ratio (>0.90 for men and >0.80 for women) for Finns (OR 1.29; 95% CI 1.00–1.66) and non-European immigrants (OR 1.57; 95% CI 1.06–2.33). Concerning more specific immigrant groups, one study compared female Bosnian refugees aged 18–59 years (n=98) to Swedish-born women (n=95) and found higher values of triglycerides in Bosnian women aged 42–59 years (+0.92 mmol/L) and lower values of HDL-cholesterol in Bosnian women aged 18–41 years (−0.22 mmol/L) and 42–59 years (−0.26 mmol/L), when using Swedish women aged 18–41 years as reference group (97). Another study compared women from Iran (n=71), Turkey (n=36), and Sweden (n=50) (55) and found higher triglycerides (Iranians 1.39, Turkish 1.37 vs. 0.96 among Swedes) and lower HDL-cholesterol (Iranians 1.32, Turkish 1.33 vs. 1.68 among Swedes) among immigrant women.

A Danish study on Inuit migrants in Denmark and Inuits in Greenland (n=2,311) found that migrant men and women showed higher triglyceride levels compared to Inuits in Greenland in the general linear model when adjusting for BMI, age, diet, and other lifestyle factors, 1.66 mmol/L versus 1.21 mmol/L (p=0.01) and 1.33 mmol/L versus 1.10 mmol/L (p<0.0001), respectively, and migrant women showed higher levels of HDL-cholesterol (1.73 mmol/L vs. 1.56 mmol/L; p<0.001) (33).

In general, results show trends toward higher triglycerides and lower HDL-cholesterol among immigrants.

Two review articles were found, one on diabetes prevalence in general among immigrants, also including twelve of the original articles found in the search, and one on gestational diabetes. Another two original articles, not included in the reviews, were also found.

A higher diabetes prevalence was found in immigrants from non-European countries according to the general review citing 17 articles (15). Excess risks were found among the following immigrant groups compared to indigenous populations in the Nordic countries, with relative risks (RRs) shown in immigrants from the Middle East, 1.0–3.7 among men, and 2.2–7.8 among women; and in immigrants from South Asia, 2.4–5.5 among men, and 2.3–11.7 among women. Diabetes during pregnancy in immigrant women compared to indigenous women showed RRs of 2.3–7 according to the mentioned review (15), and were 5–10 times higher among women from South Asia in another review (98). A Swedish study on immigrants from Turkey (n=238, ≥20 years) found higher prevalence of diabetes in general (11.8% vs. 7.1%), and of diabetes among women (12.8% vs. 7.6%) and of impaired glucose tolerance (IGT) among men (17.8% vs. 4.9%) compared to subjects in the area of origin (n=1,549) (96). Among Inuit immigrants, the prevalence of diabetes (10.2%) and IGT (10.9%) was higher than ethnic Danes but not significantly higher than in the population of origin (99).

In general, a high risk of diabetes among immigrants from the Middle East and South Asia was found.

A total of three related articles were found. One Swedish study on hypertension in 60-year-old men and women (n=4,228) found a higher risk among immigrants from Finland when adjusting for metabolic, lifestyle, and socioeconomic factors (adjusted OR 2.02; 95% CI 1.56–2.61), but a lower risk among immigrants from non-European countries (adjusted OR 0.52; 95% 0.34–0.80) (100). Also, in another Swedish study (n=24,196) based on data from the SALLS and the SALLS Immigrant Survey, a higher prevalence of hypertension was found in women from Finland (OR 1.83; 95% 1.25–2.67) compared to ethnic Swedes (93).

A Danish study on Inuit migrants in Denmark versus Inuits in Greenland (n=2,311) found systolic BP to be higher in migrants after adjusting for BMI, age, diet, and life-style factors (males 129.8 mm Hg vs. 121.9 mm Hg, females 124.4 mm Hg vs. 116.6 mm Hg) (41).

In general, high BP was only found in Finnish immigrants to Sweden, and Inuit immigrants in Denmark, while the risk seemed to be lower among non-Western immigrants.

CHD incidence in immigrants has been studied using national or regional data in six studies (95, 101–105), and CHD prevalence in one twin study on Finnish immigrants (106). The first study included data on subjects aged 35–64 years from national Swedish registers (n=3,353,832, including 467,983 foreign-born) and found significantly higher RRs [adjusted for age, and socioeconomic status (SES)] in 10 out of 12 male (including European and other OECD countries, as well a Middle East and Asian countries) and six out of 12 female (including Finland, Poland, Bosnia and Middle East countries) studied immigrant groups (101). Another national study compared incidence rates over time in subjects aged 35–74 years between 1991 and 93 (n=4,042,690, including 459,125 foreign-born subjects) and between 1997 and 99 (n=4,152,620, including 561,991 foreign-born subjects), and found that CHD incidence decreased among men from Sweden, Finland, and OECD countries, RRs 0.88–0.90, while it increased in women from Sweden, RR 1.03, Southern Europe, RR 1.29, Iran, RR 1.40, and Turkey, RR 1.52 (102). The third national Swedish study used data on subjects aged 25–69 years between 1987 and 2001 and found that ‘first-generation immigrants from Finland, central European countries, other eastern European countries and Turkey had higher rates of CHD than men or women in the reference group. First-generation immigrant women born in southern Europe, other western European countries and Baltic countries had lower CHD risks than the reference group. Sons of both male and female first-generation immigrants showed CHD risks similar to or slightly higher than those of their parents. Amongst second-generation women, only subjects with Finnish fathers or mothers had higher risks of developing CHD than the reference’ (105). A fourth national Swedish study compared CHD mortality in immigrants aged 45–74 years in Sweden to CHD mortality in the country of origin, also using WHO data. Lower incidence density ratios were found for male immigrants from Norway, Finland, Germany, and Hungary, and for female immigrants from Germany and Hungary, and higher incidence ratios were found among male immigrants from Southern Europe as compared to in their country of origin (103).

Among regional Swedish Study, the MONICA study in Gothenburg (n=1,618), found an equal incidence of myocardial infarction among immigrants and Swedes (95), and a study from Stockholm County of persons aged 30–74 years (follow-up period 1977–96) found an increased risk for acute myocardial infarction among male and female immigrants (RRs 1.17 and 1.15, respectively) with an increased incidence primarily in subjects born in Finland, other Nordic countries, Poland, Turkey, Syria, and South Asia in both genders, from the Netherlands among men and from Iraq among women. The difference was still present after having spent more than 20 years in Sweden (104).

In the Finnish Twin Cohort study (n=1,534), it was found that Finnish migrant twins in Sweden showed a reduced prevalence of CHD compared to non-migrating twins (106).

The risk of CHD was found to be high in many different immigrant groups in Sweden.

Altogether 10 articles on dietary patterns and nutrient intakes were identified. A Norwegian study was performed in 1994–95 among 4-year-old children with different parentage (i.e. two foreign-born parents n=33, two Norwegian parents n=37, one foreign-born and one Norwegian parent n=10, unknown status of parents n=2). In immigrant children, 41% received candy at least twice a week compared to 5% of the Norwegian children (48). Another Norwegian study among adolescents (aged 15–16 years) reported different dietary patterns across subgroups. The consumption of fruit and vegetables was high in the Middle East/North Africa group compared to the sub-Saharan African and the Indian subcontinent groups, but a higher consumption of sweets/chocolates and soft drinks/cola daily was seen among the African and Asian immigrant groups compared to adolescents of Western countries of origin (107).

Adult immigrants have been examined in two Norwegian studies. The first was an interview study of 25 Pakistani immigrant women, recruited through the Oslo Health Study 2000–2001.These women reported several changes in meal patterns, meal composition, and intake of different foods after migration to Norway (108). The second one, the Oslo Immigrant Health Study, used data on immigrants aged 30–60 years from Sri Lanka and Pakistan (n=629), including a main food frequency questionnaire (FFQ) supplemented by a more detailed FFQ on specific dietary habits in these groups (53). A majority of the Sri Lankans reported an increase in the consumption of meat, milk, butter margarine, and potatoes after settling in Norway. Around half of those from Pakistan reported increased consumption of oil, meat, fish, and potatoes. Multivariate regression showed that age was negatively related to increases in butter and margarine consumption, and a good command of the Norwegian language reduced the likelihood of increased consumption of oil and butter. The likelihood of having fat- and sugar-rich food patterns were reduced with age and years of education, whereas scoring high on an index of integration increased the likelihood of a fat-rich food pattern.

Four Swedish studies on dietary habits were found. The first study compared 60-year-old men and women (N=4,228) in Stockholm County in 1997–99 with immigrants from Finland (n=327), OECD countries (n=335), and non-European countries (n=115), using Swedish-born subjects as a reference group (n=3,329). Results from a FFQ indicated different dietary patterns regarding intake of non-oily fish, with lowest intake among non-European immigrants, of bacon and sausages, with lowest intake among men in the non-European group, and of fried potatoes, with highest intake among women in the non-European group (54). Another Swedish study was based on focus-group interviews with 20 female refugees from Bosnia-Herzegovina in 1993 (109). For breast-feeding, a period of 6–8 months was most common in this group of immigrants. Otherwise the ‘data analysis identified a large consumption of bread as staple food, with meat, vegetables, milk, cheese, legumes, egg and fish as complements. Self-sufficiency was noted with milk souring, jam making and the production of sweet fruit drinks. Homemade cheese and drying or smoking of meat were common methods of food storage’. Another Swedish study among women (n=157) from Iran (n=71), Turkey (n=36), and native Swedes (n=50), based on a standardized 24-dietary recall within a one-year sampling period, found that the immigrant groups had lower mean energy-adjusted intakes of magnesium and selenium than the Swedish group, whereas the mean intake of α-tocopherol, ascorbic acid, and folate was higher (55). The fourth Swedish study was performed on same-sexed twin pairs born in Finland (<75 years), with at least one twin migrating to Sweden (N=1,083 twin pairs). Dietary habits were assessed by a FFQ (response rate 71%), and in a subgroup of 76 male twin pairs also by a dietary history covering the previous year (49). Migrants in Sweden had a lower intake of typical Finnish foods like dark rye bread and berries, and an increased consumption of fresh food compared to co-twins living in Finland. The migrants consumed less potatoes and more rice and pasta. Migrants consumed sweet pastries less often and they also tended to cut visible fat off meat but on the other hand added salt to dishes.

Two Danish studies were identified on dietary habits. The first was based on the National Health Interview Survey 2005, including 136 non-western immigrants with Danish citizenship and 9,091 ethnic Danes aged 25–64 years. Odds ratios were higher among immigrants for reporting daily consumption of boiled vegetables (OR 2.50, 95% 1.77–3.53) and daily consumption of salad/raw vegetables (OR 2.84, 95% 2.02–3.99) (50). In the second study, Inuit migrants to Denmark were compared with Inuits in Greenland (n= 2,311). Migrants were more often found to consume fresh fruit daily (67% vs. 30%) and seal and fish less often than weekly (47% vs. 72%) compared to Inuits living in Greenland (41).

In general, the food patterns among immigrants were heterogeneous; to some extent adopting non-favorable Western food habits (i.e. with more sugar-rich food and beverages, and fat-rich food), but also to some degree preserving dietary habits rich in fruit and vegetables.