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Calvo et al. BMC Public Health         (2023) 23:1212 
https://doi.org/10.1186/s12889-023-16109-5

BMC Public Health

*Correspondence:
Fran Calvo
fran.calvo@udg.edu

Full list of author information is available at the end of the article

Abstract
Background  Individuals experiencing homelessness (IEHs) suffer from severe health inequities. Place of origin is 
linked to health and mortality of IEHs. In the general population the “healthy immigrant effect” provides a health 
advantage to foreign-born people. This phenomenon has not been sufficiently studied among the IEH population. 
The objectives are to study morbidity, mortality, and age at death among IEHs in Spain, paying special attention to 
their origin (Spanish-born or foreign-born) and to examine correlates and predictors of age at death.

Methods  Retrospective cohort study (observational study) of a 15-year period (2006–2020). We included 391 
IEHs who had been attended at one of the city’s public mental health, substance use disorder, primary health, or 
specialized social services. Subsequently, we noted which subjects died during the study period and analyzed the 
variables related to their age at death. We compared the results based on origin (Spanish-born vs. foreign-born) and 
fitted a multiple linear regression model to the data to establish predictors of an earlier age at death.

Results  The mean age at death was 52.38 years. Spanish-born IEHs died on average almost nine years younger. The 
leading causes of death overall were suicide and drug-related disorders (cirrhosis, overdose, and chronic obstructive 
pulmonary disease [COPD]). The results of the linear regression showed that earlier death was linked to COPD 
(b = − 0.348), being Spanish-born (b = 0.324), substance use disorder [cocaine (b =-0.169), opiates (b =.-243), and 
alcohol (b =-0.199)], cardiovascular diseases (b = − 0.223), tuberculosis (b = − 0.163), high blood pressure (b =-0.203), 
criminal record (b =-0.167), and hepatitis C (b =-0.129). When we separated the causes of death for Spanish-born and 
foreign-born subjects, we found that the main predictors of death among Spanish-born IEHs were opiate use disorder 
(b =-0.675), COPD (b =-0.479), cocaine use disorder (b =-0.208), high blood pressure (b =-0.358), multiple drug 
use disorder (b =-0.365), cardiovascular disease (b =-0.306), dual pathology (b =-0.286), female gender (b =-0.181), 

“Healthy immigrant effect” among individuals 
experiencing homelessness in Spain?: 
Foreign-born individuals had higher average 
age at death in 15-year retrospective cohort 
study
Fran Calvo1*, Ana Guillén2, Xavier Carbonell3, Rebeca Alfranca4, Marta Beranuy5,6, Alícia Parés-Bayerri7 and  
Sílvia Font-Mayolas7

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Page 2 of 11Calvo et al. BMC Public Health         (2023) 23:1212 

Individuals experiencing homelessness (IEHs) suffer from 
severe inequities in a wide range of biological, psychologi-
cal, and social conditions [1]. As a result, IEHs have a lower 
life expectancy [2]. One of the most accepted explanations 
for the high mortality of IEHs is that they are subject to an 
accumulation of risk factors such as drug use (including 
tobacco and alcohol) and mental health problems [3]. In 
addition, IEHs are particularly vulnerable to death from 
injury, overdose, and other external causes [4, 5], and from 
cardiovascular and respiratory conditions [1]. Moreover, 
they are more likely to suffer from infections (especially 
hepatitis and tuberculosis). Treatment of active tubercu-
losis in IEHs can be complicated by nonadherence to ther-
apy, prolonged infectivity, and the development of drug 
resistance [6]. Human immunodeficiency virus (HIV) 
infection is also more prevalent in this population. Com-
mon risk factors for HIV infection among IEHs include 
prostitution, multiple sexual partners, inconsistent use of 
condoms, and injection drug use [7].

There are subgroups of IEHs whose specific charac-
teristics imply differentiated risk factors and causes of 
mortality. The death of young IEHs is associated with 
external causes, especially suicide and overdose [8], while 
death in adult IEHs is associated with diseases typical of 
the general population. However, the age at death among 
IEH adults is between 10 and 15 years lower than that of 
the general adult population, according to the study by 
Baggett et al. [2] or 20 years lower, according to that by 
Termorshuizen et al. [9].

Another specific population to consider when estab-
lishing differences in health, especially in mental health, 
is the foreign-born population. Studies on foreign-born 
IEHs have reported a health advantage for immigrants 
experiencing homelessness compared to people born 
in the country [10–12]. This advantage has to do with 
greater youth, a better state of general health (since, given 
the difficulties of migration, people who migrate tend to 
be healthier than the general population in their home 
country) and that the causes of homelessness differ from 
that of locally born populations and are more related to 
poverty and migration [13]. Foreign-born people—espe-
cially recent immigrants—are less likely to suffer from 
chronic health problems, mental health problems and/or 
substance use disorder [14].

Studies carried out with the general population show 
that migration increases the risk of homelessness and has 
a negative impact on health. In the general population, 
worse mental health has been reported in people who 
have migrated, as a result of the associated stress [15]. In 
contrast, migration is associated with better health dur-
ing the first ten years of residence in the receiving coun-
try compared to locally born people [16]. Studies carried 
out in Canada show a higher age at death among foreign-
born people compared to those born in the country. This 
advantage is less clear for morbidity, especially if migra-
tion occurs during adulthood and not in the perinatal 
period, childhood/adolescence or at the end of life [17, 
18]. In Europe, there are North-South differences in the 
health status of immigrants compared to those born in 
the receiving country, which are partly explained by the 
poorer economic and social conditions of immigrants 
in some countries. Their state of health is better in Italy 
and Spain than in France and Belgium, where there are 
greater difficulties surrounding integration [19].

In Spain, the differences in the health of foreign-born 
individuals with respect to Spanish-born individuals 
depend on socioeconomic factors such as poverty and 
socioeconomic status. Gotsens et al. found that foreign-
born born people who arrived before 2006 had worse 
self-rated health than locally born people, despite the 
fact that the latter group had a higher prevalence of dis-
ability, illness, and mental disorders. On the other hand, 
foreign-born people who arrived after 2006 had better 
mental health than Spanish-born people. These advan-
tages tended to be diluted by the effect of the economic 
crisis that began in 2008 [20]. The health advantages in 
foreign-born people can occur even a generation later, 
with children born in the receiving country to foreign-
born parents experiencing better health than the children 
of locally born parents [21].

There is a gap in the scientific literature on the effect of 
migration on the health of IEHs. In Spain, we especially 
need studies to analyze this effect, as well as its relation-
ship with health and mortality since in some areas the 
foreign-born IEH population represents more than half 
of the total IEH population [22]. Such a study in Spain is 
also important because, due to its geographical location, 
Spain is a point of entry for thousands of people who 

personality disorder (b =-0.201), obesity (b =-0.123), tuberculosis (b =-0.120) and having a criminal record (b =-0.153). 
In contrast, the predictors of death among foreign-born IEHs were psychotic disorder (b =-0.134), tuberculosis (b 
=-0.132), and opiate (b =-0.119) or alcohol use disorder (b =-0.098).

Conclusions  IEHs die younger than the general population, often due to suicide and drug use. The healthy 
immigrant effect seems to hold in IEHs as well as in the general population.

Keywords  Homelessness, Immigration, Mortality, Health, Immigrant advantage, Substance use, Substance use 
disorder, COPD



Page 3 of 11Calvo et al. BMC Public Health         (2023) 23:1212 

migrate to other European countries. The few studies 
carried out in Spain confirm an advantage in the health 
of immigrant IEHs [23], especially newcomers [10], but 
this phenomenon has still not been sufficiently studied. 
Thus, the objectives of this study were: (1) To study the 
mortality and age at death among IEHs in Spain; (2) To 
compare the age at death and its characteristics among 
people of IEHs in relation to their origin (Spanish-born 
or foreign-born); (3) To examine correlates and predic-
tors of age at death.

Method
Design
A retrospective cohort study (observational study) of a 
15-year period.

Population under study
We included the 391 IEHs that died between 2006 and 
2020 (both included) and that had been attended by one 
of the city of Girona (Spain)’s public mental health, sub-
stance use disorder, primary health, or specialized social 
services (day center, overnight shelter, or street team). 
All of the subjects met the criteria for literal homeless-
ness, i.e., people living in public space or whose overnight 
housing situation forces them to spend the day on the 
streets or in situations of extreme substandard housing 
(European Homelessness Observatory categories 1, 2, 
3d, 3e, 3f and 3 h of homelessness and residential exclu-
sion) (Busch-Geertsema et al., 2016). These categories 
refer to: (i) people without accommodation, sleeping on 
the streets, in public space, in vehicles or under some 
form of makeshift cover; (ii) persons living in any type 
of temporary or crisis accommodation; (iii) persons ille-
gally occupying conventional housing; (iv) persons living 
in conventional dwellings unfit for human habitation; (v) 
persons living in trailers, tents or caravans; and (vi) per-
sons living in non-conventional buildings and temporary 
structures or settlements.

Procedure
Some members of the research team in this study were 
clinicians from mental health and addiction services in 
Girona and also from social services at the time of data 
recruitment. They were part of a multidisciplinary com-
munity team coordinated to address the needs of home-
less patients in a comprehensive manner. The patients, 
before being attended in any of these services, signed an 
informed consent form in which they accepted the coor-
dination of the professionals of the different services for 
better social and health care. The professionals of this 
team, between 2006 and 2020, attended 3,854 homeless 
people. Thanks to the coordination of health and social 
services, a shared list of cases with social, mental health, 

addictions and mortality data was obtained, which iden-
tified 391 people who had died during these years.

The research team obtained permission from the Eth-
ics Committee of the Institut d’Assistència Sanitària 
(CIEC-IAS), Catalan Institute of Health, with the code 
Estudi_homeless_2008 on December 12, 2014. And also 
that of the Research Ethics Committee CEI GIRONA that 
renewed the permission on October 28, 2016 with the 
project name Evolució homeless de Girona: Seguiment 
longitudinal Cohort 2006/2016 (Code COHORT2006). 
As it was not possible to obtain informed consent for 
research purposes, the Ethics Committee approved the 
permission for the study in accordance with the excep-
tions included In articles 7 and 11 of the Organic Law 
15/1999 on the Protection of Personal Data. The eth-
ics committee approved the study while this law was in 
force. In 2018, Organic Law 3/2018, of December 5, on 
the Protection of Personal Data and Guarantee of Digital 
Rights, came into force, which modified the previous law 
authorizing the present study. The new law, in its sixth 
transitory provision on the reuse for health and biomedi-
cal research purposes of personal data collected prior to 
the entry into force of this organic law states: The reuse 
for health and biomedical research purposes of personal 
data lawfully collected prior to the entry into force of this 
organic law shall be considered lawful and compatible 
when any of the following circumstances concur: (a) That 
such personal data are used for the specific purpose for 
which consent had been given. (b) That, having obtained 
consent for a specific purpose, such data are used for 
purposes or areas of research related to the medical or 
research specialty in which the initial study was scientifi-
cally integrated.

The same ethics committee, which is the reference 
ethics committee of the public health services of the 
province of Girona, annually renews the permission to 
continue analyzing the data of the cohort on which this 
study is based according to the Spanish legality reflected 
in this text. Therefore, the permission to proceed with 
research using this database is currently in force, in 
compliance with Spanish law. The renewal code of the 
permit is dated January 10, 2023 with the renewal code 
COHORT_2016.133.

Additional Provision 17.2.d LOPD-GDD on pseudo-
anonymization of personal data was also followed. 
To meet this criterion, the research team provided an 
administrative team with the list of homeless people 
with their health data (data used in the clinical follow-up 
of the patients) and the administrative team rearranged 
the database and assigned a random, anonymous code 
to each person so that the research team had no record 
of the person’s identity. The data were then analyzed 
and used in an aggregated, anonymous and confidential 
manner.



Page 4 of 11Calvo et al. BMC Public Health         (2023) 23:1212 

We included these basic sociodemographic variables: 
age, gender, marital status, criminal record or prison sen-
tence, and origin. For origin, subjects were identified as 
Spanish-born or foreign-born, where the former were 
people born within the national territory of the Spanish 
state and the latter were people born outside the Span-
ish state. We define origin is an invariable status that is 
determined by the individual’s country of birth, regard-
less of the individual’s citizenship or the immigration sta-
tus of the individual’s parents or grandparents [24, 25].

We studied variables related to (a) mental health and 
addiction: having an open medical record in the mental 
health and addiction network, main diagnosis of sub-
stance use disorder, main diagnosis of other mental dis-
order (eating disorder, attention deficit hyperactivity 
disorder, autism spectrum disorder, sleep disorder, pho-
bia, behavioral disorder and nonspecific disorder) and 
dual pathology; (b) clinical diagnosis of infection: hepa-
titis C virus, HIV and tuberculosis; (c) clinical diagnosis 
of chronic physical disease: arterial hypertension, type 2 
diabetes mellitus (T2D), COPD, cardiovascular disease, 
obesity, and cancer; and (d) clinical and diagnostic mor-
tality: living/deceased, age at death and cause of death. 
We composed a list of the people who died during the 
analysis period and analyzed the variables related to the 
age at death.

Statistical analysis
Measures of central tendency and dispersion were used 
to describe the numerical variables and the absolute 
and relative frequencies were calculated in the case of 
categorical variables. We used a Student’s t-test to com-
pare means and a chi-square test to analyze categorical 
variables. A multiple linear regression model was fitted 
to the data to establish the predictors of an earlier age 
at death, after checking the assumption of normality in 
the distribution of the data (Kolmogorov-Smirnov test), 
independence of residual values (Durbin-Watson test), 
collinearity (tolerance and variance inflation factor) and 
homogeneity of the variance between Spanish-born and 
foreign-born IEHs (Levene’s test). We included variables 
related to a lower age at death in the bivariate analysis.

Results
The cause of death for eight IEHs could not be estab-
lished, and therefore they were eliminated from the mor-
tality analysis. Thus, the analysis was carried out on 383 
people, of which 281 were Spanish-born and 102 foreign-
born. The leading cause of death was suicide (n = 92), fol-
lowed by cirrhosis of the liver (n = 70), overdose (n = 58), 
COPD (n = 42), heart disease/infarction (n = 36), acquired 
immune deficiency syndrome (AIDS) (n = 36), cancer 
(n = 36), meningitis (n = 31) and sepsis (n = 18).

Variables associated with age at death
The mean age at death of the 383 people was 52.38 
years (SD = 13.23; range 22–89). Table  1 shows that the 
Spanish-born IEHs died younger (M = 48.65 years) than 
the foreign-born IEHs (M = 57.82 years, t(382) = 1.476, 
p < .001). People with a criminal record also died earlier 
than people who had no criminal record (50.87 years vs. 
59.00 years, t(124) = -2.655, p = .009).

With respect to mental health diagnoses related to 
substance use disorder, people with alcohol use disor-
der died earlier (51.20 years vs. 56.80 years, t(129) = 
-3.505, p = .001), as did people with opiate use disorder 
(44.87 years vs. 53.01 years, t(382) = -3.277, p = .001) and 
cocaine use disorder (44.50 years vs. 52.46 years, t(382) = 
-1.198, p < .001) (see Table  1). No significant differences 
were found in the age at death for the rest of the mental 
health disorders, whether related to substance use disor-
der or not.

In terms of infections, mean differences in the age at 
death were found in all of infection variables: hepatitis C 
(48.32 years vs. 52.97 years, t(382)= -2.911, p = .009), HIV 
(49.88 years vs. 53.39 years, t(382)= -2.9387, p = .017) and 
tuberculosis (49.12 years vs. 53.91 years, t(382)= -2.077, 
p = .021) (see Table 1). Finally, regarding chronic organic 
diseases (see Table 1), differences were found in the age 
at death in people diagnosed with arterial hypertension 
(50.73 years vs. 61.43 years, t(75.4)= -5.391, p < .001), T2D 
(51.67 years vs. 57.42 years, t(63.8) = -3.037, p = .003), car-
diovascular disease (51.54 years vs. 58.12 years, t(58.7)= 
-2.841, p = .006), COPD (51.41 years vs. 61.32 years, 
t(382) = -4.489, p < .001) and cancer (51.95 years vs. 56.78 
years, t(43.4) = -2.168, p = .036).

Predictors of a lower age at death
Before performing the multiple linear regression, we 
tested for normal distribution of the variable age at death 
(Kolmogorov-Smirnov = 1.171, p = .129), independence of 
the residual values (Durbin-Watson = 1.877), and collin-
earity (tolerance = 0.894, variance inflation factor = 1.231). 
The results of the linear regression with deceased per-
sons (see Table 2) showed a link to age at death for COPD 
(b = − 0.348), not being foreign-born (b = 0.324), cocaine 
use disorder (b = − 0.169), opiate use disorder (b = − 0.243), 
cardiovascular disease (b = − 0.223), alcohol use disorder 
(b = − 0.199), tuberculosis (b = − 0.163), HA (b = − 0.203), 
criminal record (b = − 0.167) and hepatitis C (b = − 0.129). 
The variables included in the model explained 89% of the 
variance in the age at death.

Given the weight of the Spanish-born/foreign-born 
variable, two separate linear regression models were fit-
ted to the data to observe the differences in the age at 
death in relation to the predicting variables, one for the 
Spanish-born IEH subjects and the other for the for-
eign-born IEH subjects. Regarding the Spanish-born 



Page 5 of 11Calvo et al. BMC Public Health         (2023) 23:1212 

IEHs (see Table  3), the regression showed the follow-
ing predictors of the age at death: opiate use disorder 
(b = − 0.675), COPD (b = − 0.479), cocaine use disorder 
(b = − 0.208), arterial hypertension (b = − 0.358), multiple 
drug use disorder (b = − 0.365), cardiovascular disease 
(b = − 0.306), dual pathology (b = − 0.286), female gen-
der (b = − 0.181), personality disorder (b = − 0.201), obe-
sity (b = − 0.123), tuberculosis (b = − 0.120), and criminal 
record (b = − 0.153). The variables included in this model 
explained 87% of the variance in the age at death of 
Spanish-born people. Regarding the foreign-born IEHs, 
linear regression showed the following predictors of age 
at death: psychotic disorder (b = − 0.134), tuberculosis 
(b = − 0.132), opiate use disorder (b = − 0.119) and alco-
hol use disorder (b = − 0.098) (see Table  4). In this case, 
the variables included in the model explained 78% of the 
variance in the age at death of foreign-born people.

Discussion
We analyzed mortality and age at death among IEHs in 
Spain, comparing Spanish-born individuals and foreign-
born individuals. The leading cause of death among the 
sample was suicide, but cirrhosis, overdose, and COPD 
were also major causes of death. Notably, one in four 
deaths was by suicide. Suicide is a serious, global pub-
lic health issue worldwide and its prevention has been 
included in the United Nations Sustainable Develop-
ment Goals [26]. Given that suicide is markedly prevalent 
among IEHs [27, 28], the reduction of suicide mortality 
should be a priority in this population. Care should be 
taken to ensure that suicide prevention programs reach 
IEHs. In this sense, providing a telephone and Wi-Fi ser-
vice to IEHs could help them access basic and specialized 
health services [29, 30], considering the good results of 
self-harm prevention lines [31] and the existence of this 
type of program in Spain [32].

Table 1  Comparison of the mean age at death according to sociodemographics, mental health, infectious diseases, and chronic 
diseases.

Age at death M (SD) Values
Variables Presence of the variable Absence of the variable t gl p
Sociodemographics

  Gender (Male) 52.30 (13.58) 52.74 (11.58) -0.281 114.50 .780

  Foreign-born 57.82 (13.67) 48.65 (13.42) 1.476 382.00 < .001

  Marital status (married) 52.69 (12.96) 52.88 (13.52) -0.135 328.84 .892

  Criminal record 50.87 (13.16) 59.00 (8.550) -2.655 124.00 .009

  Prison sentence 53.92 (14.87) 51.08 (11.42) 1.133 80.790 .261

Mental health disorders

  Substance use disorder

    Alcohol 51.20 (13.11) 56.80 (12.81) -3.505 129.90 .001

    Opiates 44.87 (10.53) 53.01 (13.25) -3.277 382.00 .001

    Cocaine 44.50 (1.732) 52.46 (13.27) -1.198 382.00 < .001

    Cannabis 53.83 (12.23) 52.91 (11.54) 2.028 92.340 .211

    Multiple drug use disorder 52.61 (12.32) 55.94 (16.31) -1.077 48.250 .287

  Other mental disorders

    Psychotic 51.74 (14.98) 52.45 (13.05) -0.282 43.280 .780

    Personality 52.05 (13.11) 57.00 (14.42) -1.701 28.030 .100

    Mood 52.12 (13.24) 56.33 (12.64) -1.577 26.420 .127

    Adaptive 52.28 (13.38) 55.50 (6.510) -0.830 382.00 .407

    Dual pathology 49.18 (10.87) 52.69 (13.41) -1.759 43.210 .086

Infectious diseases

  Hepatitis C 48.32 (12.42) 52.97 (11.87) -2.911 382.00 .009

  HIV 49.88 (10.22) 53.39 (14.16) -2.387 382.00 .017

  Tuberculosis 49.12 (10.22) 53.91 (14.16) -2.077 382.00 .021

Chronic diseases

  Arterial hypertension 50.73 (12.32) 61.43 (14.47) -5.391 75.410 < .001

  Obesity 53.87 (10.04) 52.26 (13.50) 0.815 38.390 .420

  T2D 51.67 (13.24) 57.42 (12.13) -3.037 63.810 .003

  Cardiovascular disease 51.54 (12.64) 58.12 (15.65) -2.841 58.780 .006

  COPD 51.41 (12.64) 61.32 (15.27) -4.489 382.00 < .001

  Cancer 51.95 (13.31) 56.78 (12.64) -2.168 43.430 .036
Note: SD = standard deviation, HIV = human immunodeficiency virus, T2D = type 2 diabetes mellitus, COPD = coronary obstructive pulmonary disease



Page 6 of 11Calvo et al. BMC Public Health         (2023) 23:1212 

Cirrhosis was the second leading cause of death. Sev-
eral studies show the high prevalence of chronic liver dis-
ease in IEHs, compared to the general population, mainly 
due to chronic hepatitis C infection and alcohol abuse 
[33]. Hepatitis C is almost five times more prevalent in 
IEHs. The effectiveness of new treatments has dramati-
cally reduced the incidence and complications of chronic 
hepatitis C infection in developed countries and today, 
hepatitis C is concentrated in hard-to-treat populations, 
such as IEHs. Homelessness or unstable housing hinders 
the success of hepatitis C treatment. Adherence could 
be improved by dispensing antivirals in health facilities 
and observing patients as they take them, either in facili-
ties or on the street (in the latter case, by teams of street 
social workers/educators) [34].

Another striking finding was that the mean age at 
death was 52 years. This age is drastically lower than that 
recorded for the Spanish general population, which is 
estimated at 83 years [35]. Disorders related to alcohol, 
opiates, and cocaine use clearly influenced earlier age 
of death, as did hepatitis C, HIV, tuberculosis, and sev-
eral chronic conditions (e.g., arterial hypertension, T2D, 
COPD, cardiovascular disease, etc.). These results are in 
accordance with previous studies indicating that IEHs 
experience high rates of morbidity, mortality, and prema-
ture death [2, 23, 36, 37].

Concerning predictors of age at death, and in line with 
other studies, the largest differences in mortality rates 
were for smoking-related diseases: respiratory diseases 
and ischemic heart disease [38]. The strongest predictor 
across the whole sample was the occurrence of COPD. 
COPD is particularly prevalent among IEH adults, and 
respiratory tract infections are common in this group [7, 
36]. The prevalence of COPD in IEHs is probably under-
estimated, given the difficulty of these patients to receive 
complementary tests, such as spirometry, to confirm the 

Table 2  Multiple linear regression with dependent variable as 
age at death for IEHs (R2 = 0.895).

Non-stan-
dardized 
coefficients

Standardized 
coefficients

Model B SE Beta t Sig.
(Constant) 21.47 5.293 6.513 < 0.001

COPD -7.714 1.705 -0.348 -5.284 < 0.001

Foreign-born 6.626 5.748 0.324 1.849 0.05

Cocaine use 
disorder

-6.046 2.930 -0.169 -2.271 0.002

Opiate use 
disorder

-5.580 1.681 -0.243 -2.915 < 0.001

Cardiovascular -5.539 1.952 -0.223 -2.349 0.001

Alcohol use 
disorder

-5.132 1.671 -0.199 -2.669 0.001

Tuberculosis -4.769 1.845 -0.163 -2.126 0.003

Arterial 
hypertension

-4.501 1.768 -0.203 -2.112 0.003

Criminal record -3.687 1.275 -0.167 -2.677 0.001

Hepatitis C -3.240 1.365 -0.129 -1.373 0.021
Note: SE = standard error, COPD = coronary obstructive pulmonary disease. 
Variables in the model: COPD, foreign-born, cocaine use disorder, opiate 
use disorder, cardiovascular, alcohol use disorder, tuberculosis, arterial 
hypertension, criminal record, hepatitis C, opiate use disorder, multiple drug 
use disorder, dual pathology, gender, personality disorder, obesity

Table 3  Multiple linear regression with dependent variable as 
age at death for Spanish-born IEHs (R2 = 0.869)

Non-standard-
ized coefficients

Standardized 
coefficients

Model B SE Beta t Sig.
(Constant) 29.35 3.233 19.07 < 0.001

Opiate use 
disorder

-9.472 2.300 -0.675 -6.465 < 0.001

COPD -7.364 1.972 -0.479 -5.282 < 0.001

Cocaine use 
disorder

-6.195 3.677 -0.208 -5.044 0.004

Arterial 
hypertension

-6.012 2.578 -0.358 -4.885 < 0.001

Multiple drug 
use disorder

-5.591 2.478 -0.365 -4.870 < 0.001

Cardiovascular 
diseases

-4.919 2.277 -0.306 -4.037 < 0.001

Dual pathology -4.795 1.770 -0.286 -4.177 < 0.001

Gender (female) -4.493 2.841 -0.181 − .3285 0.027

Personality 
disorder

-4.326 2.789 -0.201 -2.268 0.028

Obesity -3.490 2.757 -0.123 -2.991 0.052

Tuberculosis -3.713 2.283 -0.120 -2.064 0.044

Criminal record -2.596 1.832 -0.153 -1.509 0.015
Note: SE = standard error, COPD = coronary obstructive pulmonary disease. 
Variables in the model: COPD, foreign-born, cocaine use disorder, opiate 
use disorder, cardiovascular, alcohol use disorder, tuberculosis, arterial 
hypertension, criminal record, hepatitis C, opiate use disorder, multiple drug 
use disorder, dual pathology, gender, personality disorder, obesity

Table 4  Multiple linear regression with dependent variable as 
age at death for foreign-born IEHs (R2 = 0.781)

Non-stan-
dardized 
coefficients

Standardized 
coefficients

Model B SE Beta t Sig.
(Constant) -10.86 3.484 -2.294 0.045

Psychotic 
disorder

-3.703 0.111 -0.134 -33.33 < 0.001

Tuberculosis -3.653 0.103 -0.132 -35.54 < 0.001

Opiate use 
disorder

-3.291 0.125 -0.119 -26.33 < 0.001

Alcohol use 
disorder

-2.109 0.146 -0.098 -22.12 < 0.001

Note: SE = standard error, COPD = coronary obstructive pulmonary disease. 
Variables in the model: COPD, foreign-born, cocaine use disorder, opiate 
use disorder, cardiovascular, alcohol use disorder, tuberculosis, arterial 
hypertension, criminal record, hepatitis C, opiate use disorder, multiple drug 
use disorder, dual pathology, gender, personality disorder, obesity



Page 7 of 11Calvo et al. BMC Public Health         (2023) 23:1212 

diagnosis. The handling and proper use of inhalers is also 
complex, hampered by the sometimes high price of inhal-
ers and the frequent loss of both medicines and inhala-
tion chambers. IEHs’ poor oral health and missing teeth 
can cause an improper fit of the chamber and therefore a 
loss of effectiveness. The use of Beta 2 adrenergic drugs, 
such as salbutamol, can create substance use disorder in 
these patients, and tachycardia, produced as a side effect, 
can worsen previous cardiovascular disease.

The approach to smoking in this population deserves 
a special attention. In clinical practice, we often find 
IEHs who have smoked since childhood or adolescence 
and who consume more than one pack a day. IEHs use 
the cheapest cigarette brands, which are especially rich 
in tar and nicotine. They may reuse cigarettes by collect-
ing cigarette butts and use newspaper as rolling paper, 
thus increasing their exposure to infection and toxins 
[39]. Tobacco is not the only substance they may con-
sume in this way. Marijuana, smoked or snorted cocaine, 
and volatile substances also affect the lungs over time 
[40]. Traditionally, professionals from health and mental 
health services have tended to tolerate tobacco consump-
tion in IEHs, considering it a lesser evil among the sub-
stance use disorders and pathologies they present [41]. In 
fact, some professionals have been reported to offer IEHs 
cigarettes as a way of establishing rapport [42]. These 
actions should be abandoned and, given the high mortal-
ity and years of life lost due to smoking in the IEH popu-
lation, specific programs should be designed to support 
IEH smokers who want to quit. In fact, there are no dif-
ferences between IEHs and the general population when 
it comes to quitting smoking [43], and IEHs can benefit 
from the usual strategies aimed at smokers in the general 
population, such as helping them to increase their per-
ception of self-efficacy and their social support [44]. IEHs 
face substantial barriers to quitting smoking, and there is 
still insufficient evidence to assess the effects of tobacco 
cessation interventions in the IEH population [45]. 
Although tobacco use disorder disproportionately affects 
disadvantaged groups, they are often underrepresented 
in medical research and treatments [46]. It is essential to 
maximize enrollment and retention strategies adapted to 
IEHs.

The presence of cardiovascular disease was another 
predictor of death. IEHs have an approximately three 
times greater risk of cardiovascular disease and an 
increased cardiovascular mortality than the general pop-
ulation [47]. Several factors contribute to this disparity. 
In addition to the high prevalence of smoking, there is 
poor monitoring of cardiovascular risk factors such as 
hypertension and diabetes. Psychosocial factors such as 
chronic stress, depression and substance use disorder use 
confer an additional risk of poor monitoring and adverse 
effects. Poor access to medical care leads to delays in 

diagnosis and treatment. Multidisciplinary collaboration 
between healthcare professionals and social workers is 
necessary for success in managing IEHs with chronic car-
diovascular disease [48].

Additionally, separate regression models for Span-
ish-born individuals and for foreign-born individu-
als revealed differential predictors of age at death. For 
instance, opiate use disorder was the best predictor 
specifically for Spanish-born individuals, but psychotic 
disorder and tuberculosis were the best predictors for 
foreign-born individuals. These results suggest the use-
fulness of implementing specific prevention programs 
tailored to the features and needs of each subgroup.

Another important finding was that the mean age at 
death was nine years earlier for Spanish-born individu-
als in comparison with foreign-born individuals (49 years 
vs. 58 years, respectively). Our results are consistent with 
those of other studies that have revealed that non-immi-
grant background is a predictor of death among IEHs [37, 
49]. Moreover, Spanish-born individuals showed worse 
overall health, e.g., higher prevalence of substance use 
disorders, multiple drug use, serious mental health dis-
orders, and several chronic physical illnesses. Notably, 
health problems and mortality among foreign-born IEHs 
were also troublingly prevalent, but to a lesser extent 
compared to Spanish-born individuals.

A possible explanation for these results is the healthy 
immigrant effect, according to which foreign-born indi-
viduals are healthier and live longer than native-born 
individuals [19]. Likewise, the children of foreign-born 
parents are healthier and live longer than the children 
of locally born parents (although the outcomes vary 
depending on the mother’s country of origin) [21]. Our 
results suggest that this effect holds for the IEH popula-
tion. As noted by Oliva-Arocas et al. [50], there may be 
protective cultural elements whereby the immigrant 
population would maintain more favorable mortality out-
comes due to healthier habits related to diet or substance 
use. Specifically, it would be interesting to study why 
COPD affects foreigners less. Could it be due to lower 
tobacco consumption?

This hypothesis would fit with our data, as alcohol and 
drug use, obesity, hypertension, and respiratory diseases 
were substantially less prevalent among foreign-born 
individuals. However, the literature is not consistent on 
the existence of this healthy immigrant effect and both 
methodological aspects as well as certain variables may 
modulate the effect [19, 51]. In this line, a study in the 
Spanish general population found that mortality was 
lower in foreign-born individuals, compared with Span-
ish-born individuals [24]. However, nationality, country 
of origin, and length of stay in the host country influ-
enced this effect. For instance, no significant differences 



Page 8 of 11Calvo et al. BMC Public Health         (2023) 23:1212 

in mortality were found when the length of stay in Spain 
was over 10 years.

Regardless of the healthy immigrant effect, the causes 
of death among foreign and native IEHs are different, as 
are the reasons why they reach a state of literal homeless-
ness. These differences may have implications for the pro-
vision of services, highlighting the need to develop health 
and social care programs adapted to newcomers, in order 
to avoid more risk factors associated with homelessness 
and the concomitant deterioration of health [10]. Poli-
cies to protect the unemployed from poverty, increase 
employability and restore employment opportunities are 
needed to prevent the deterioration of the health of the 
population. The immigrant population must be protected 
by such policies, given that this group is especially vul-
nerable to the effects of economic and social crises [20].

Our results are subject to certain limitations. First, our 
sample was not designed to be representative of all IEHs 
in Spain, which could limit the generalizability of our 
results. Second, foreign-born IEHs may have migrated to 
other regions of Spain or other European countries, thus 
disappearing from Girona’s records. Third, this study 
only included data from people living literally home-
less; unfortunately, it does not consider mortality among 
people who experience other forms of homelessness and 
housing exclusion. Lastly, we classified all foreigners in 
the same category, using country of birth as a segrega-
tion variable, without considering other variables related 
to the migration process, such as length of residence, 
administrative status, or belonging to an ethnic minority. 
Future research should take these elements into account 
in order to outline more precisely the variables of migra-
tion related to mortality and health.

Notwithstanding these limitations, the study suggests 
an alarming pattern of morbidity, mortality, and pre-
mature death among IEHs in Spain, especially among 
Spanish-born individuals. Our results show that most 
deaths were due to medical causes, especially cirrhosis, 
COPD, cardiovascular disease, and AIDS. Future stud-
ies should consider tobacco use in IEHs. While taken as 
a group, medical causes were the most prevalent, certain 
external causes of death (suicide, overdose) should be 
highlighted as they accounted for almost 40 per cent of 
overall deaths. Urgent efforts are needed to address the 
complex healthcare needs of IEHs and to reduce morbid-
ity and mortality rates in this population.

Acknowledgements
To people who have contributed to data collection: Mercè Salvans, Anna 
Julià, Carles Fàbregas, Sandra Castillejos, Anna Calvet, Cristina Giralt, Marissa 
Ramírez, Laura Masferrer. Susan Frekko provided feedback on the manuscript 
and translated it from the original Spanish.

Authors’ contributions
FC, AG and RA were responsible for the conceptualisation and design of 
thestudy. FC and AP collected the data. FC, RA, XC and SF analysed and 

interpreted the data. All authors contributed to drafting the manuscript; and 
all authors approved of the final manuscript submitted for publication.

Funding
This research received no external funding.

Data Availability
Complete raw data are not publicly available to preserve participants’ 
anonymity in line with the obtained ethical approval for this study. However, 
further de-identifed data can be made available upon reasonable request 
from the corresponding author.

Declarations

Competing interests
The authors declare no competing interests.

Ethics approval and consent to participate
All methods were carried out in accordance with relevant guidelines and 
regulations.
This study was approved by the Ethics Committee of the Institut d’Assistència 
Sanitària (CIEC-IAS), Catalan Institute of Health, with the code Estudi_
homeless_2008 on December 12, 2014. On October 28, 2016 the same project 
was again supervised by the Research Ethics Committee CEI GIRONA with the 
name Evolució homeless de Girona: Seguiment longitudinal Cohort 2006/2016 
(Code COHORT2006).
The ethical committee approved the study authorizing the analysis of health 
and mortality data of homeless people considering the exceptions for the 
signature of the informed consent by the patients. Informed consent was 
waived after approval by the ethics committee, taking into account the 
international and Spanish legal framework argued below:
Article 3. of Law 14/2007, on biomedical research, defines an observational 
study as one “conducted on individuals with respect to whom the treatment 
or intervention to which they might be subjected is not modified, nor are they 
prescribed any other guideline that could affect their personal integrity.“
Article 25 of the Declaration of Helsinki states: “For medical research involving 
identifiable human material or data, the physician should normally seek 
consent for collection, analysis, storage and reuse. There may be situations 
in which it will be impossible or impracticable to obtain consent for such 
research or could be a threat to its validity. In this situation, the research may 
only be conducted after consideration and approval by a research ethics 
committee.“
The Medical Research Council guidelines consider that exceptions to the need 
for informed consent for the use of personal data can be made when these 
five issues are adequately analyzed and justified:
Necessity (Are there valid alternatives for doing the study? Could anonymized 
information be used? Why is it not possible to seek authorization from 
patients?); Sensitivity (What and how sensitive is the information required 
by the research?); Significance (Will the research contribute to increasing 
knowledge in a substantive way?). Safeguards (Are security measures in 
place to prevent leaks and avoid harm to patients?); Independent review 
(Has a Research Ethics Committee evaluated the proposal and endorses the 
exception?).
The Spanish legal system, at the time the study approval was requested, 
established that access to the clinical history for research purposes (Law 
41/2002) or the collection and processing of personal data (Law 15/1999) 
requires the express authorization of the interested party:
Article 6. 3 of the basic Law 41/2002 regulating patient autonomy and rights 
and obligations regarding clinical information and documentation, states, 
after the amendment to which it was subject by Law 33/2011 General Law 
on Public Health): “Access to the clinical history for judicial, epidemiological, 
public health, research or teaching purposes is governed by the provisions 
of Organic Law 15/1999, of 13 December, on the Protection of Personal Data, 
and Law 14/1986, of 25 April, General Health, and other regulations applicable 
in each case. Access to the clinical history for these purposes requires the 
preservation of the patient’s personal identification data, separate from those 
of a clinical-healthcare nature, so that, as a general rule, anonymity is assured, 
unless the patient himself has given his consent not to separate them”.
Article 7.3 of Organic Law 15/1999 on the Protection of Personal Data. As a 
general rule, it provided that “Personal data referring to racial origin, health 
and sex life may only be collected, processed and transferred when, for 



Page 9 of 11Calvo et al. BMC Public Health         (2023) 23:1212 

reasons of general interest, a law so provides or the affected party expressly 
consents.“
And Article 7.6 of this same Organic Law 15/1999 on Data Protection 
established the following as exceptions to the aforementioned article: 
“Notwithstanding the provisions of the preceding paragraphs, the personal 
data referred to in paragraphs 2 and 3 of this article may be processed 
when such processing is necessary for medical prevention or diagnosis, 
the provision of health care or medical treatment or the management of 
health services, provided that such data processing is carried out by a health 
professional subject to professional secrecy or by another person also subject 
to an equivalent obligation of secrecy.“
Article 11 of Organic Law 15/1999 on data protection stated “1. Personal 
data subject to processing may only be communicated to a third party for 
the fulfillment of purposes directly related to the legitimate functions of 
the transferor and transferee with the prior consent of the data subject. [3. 
Consent for the communication of personal data to a third party is null and 
void when the information provided to the data subject does not enable 
him/her to know the purpose for which the data whose communication is 
authorized or the type of activity of the recipient of the communication is 
intended. 4. Consent for the communication of personal data shall also be 
revocable. 5. The recipient of the communication of personal data undertakes, 
by the mere fact of communication, to comply with the provisions of this 
law. 6. If the communication is made after a disassociation procedure, the 
provisions of the previous paragraphs shall not apply.
In view of the fact that strict compliance with these Spanish legislative 
prescriptions would make many retrospective observational studies 
impossible or very costly, most authors in our country defend the possibility 
of making exceptions when certain requirements are met. Let us look at 
some of these proposals: “12. Only in exceptional circumstances may consent 
for the creation and/or use of records containing personal data for research 
purposes be dispensed with. The exception will have to be justified by the 
principal investigator for the specific case to be applied, and be discussed and 
approved by a Research Ethics Committee. When the information necessary 
to carry out the clinical or epidemiological research is to be obtained from 
the clinical history, the explicit consent of the subject will not be required if 
the researcher is part of the medical team attending him/her, although once 
the necessary information has been extracted and incorporated into the data 
collection notebook, it should be coded or anonymized appropriately to avoid 
a breach of confidentiality. In any case, the research and the procedure for 
obtaining the information must be approved by a Research Ethics Committee.“ 
And, “The collection of data from the clinical history for research requires the 
express consent of the patient. When the subject’s consent has not been 
obtained, it is recommended that access to the medical record be provided by 
a member of the health care team. Although this does not obviate the need 
for consent, given that the Law on Patient Autonomy guarantees access to the 
history for care and not for research, the fact that the healthcare professional 
has participated in obtaining the care data and is bound by professional 
secrecy offers an additional guarantee of confidentiality. It is recommended 
that the information should always be obtained in a dissociated form, to the 
extent possible for the development of the research.
In view of this, and in accordance with the recommendations of the Medical 
Research Council, the ethics committee considered that access to patients’ 
clinical records for clinical research purposes could be authorized without 
their consent, when the following requirements are met: (1) Necessity. It 
is not possible to seek patients’ authorization or to do so would involve 
unreasonable effort, (2) Sensitivity. The information to be collected is not 
exceptionally sensitive. (3) Importance. The results of the research will 
contribute significant knowledge to science.
Safeguards: (a) The collection of personal data from the clinical history will be 
carried out by healthcare professionals who are part of the team attending 
the patient. Health professionals, therefore, who collect the information or 
who have access to the patient’s clinical history. b) The collection of personal 
data from the clinical history will be collected in an anonymized form. In 
other words, once the clinical history has been collected, it will no longer be 
possible to find out in any way who it belongs to. The result will therefore not 
be a coded or dissociated personal data file, but a strictly epidemiological 
documentation.
In 2018, Organic Law 3/2018, of December 5, on the Protection of Personal 
Data and Guarantee of Digital Rights came into force, which amended the 
previous law authorizing the present study. The new law, in its sixth transitory 
provision on reuse for health and biomedical research purposes of personal 
data collected prior to the entry into force of this organic law says: The 

reuse for health and biomedical research purposes of personal data lawfully 
collected prior to the entry into force of this organic law will be considered 
lawful and compatible when any of the following circumstances concur: (a) 
That such personal data are used for the specific purpose for which consent 
was given. (b) That, having obtained consent for a specific purpose, such data 
are used for purposes or areas of research related to the medical or research 
specialty in which the initial study was scientifically integrated.
Furthermore, the study also complies with Additional Provision 17.2 of 
Organic Law 3/2018, of 5 December, on the Protection of Personal Data and 
guarantee of digital rights under Spanish law. As this was a retrospective 
observational study on mortality, it was not possible to access the participants 
to obtain informed consent. Given that the participants were homeless, 
many of whom came from other countries of origin, it was not possible to 
request informed consent from their relatives. Informed consent was obviated 
by Additional Provision 17.2.d LOPD-GDD on pseudo-anonymization of 
personal data. A personal data obtained from a process (pseudonymization), 
consists of the replacement of an attribute of a dataset by a pseudonym 
using a pseudonymization technique, so that its identification is not allowed 
without additional information (matching table). Additional Provision 17.2. 
d of the Organic Law 3/2018, of December 5, on the Protection of Personal 
Data and guarantee of digital rights of the Spanish legal system establishes 
that pseudonymized data may be used for research purposes, without the 
need to obtain the consent of the data subjects, provided that there is a 
technical and functional separation between the team conducting the 
research and the one performing the pseudonymization, and that the data 
are only accessible within the research team that has signed a commitment 
of confidentiality and non-reidentification, and that technical measures have 
been adopted to prevent this re-identification and access by third parties. 
Thus, pseudonymization means “the processing of personal data in such a 
way that they can no longer be attributed to a data subject without the use of 
additional information, provided that this information is recorded separately 
and is subject to technical and organizational measures designed to ensure 
that the personal data are not attributed to an identified or identifiable natural 
person”.
Following the recommendations of the Research Ethics Committee CEI 
GIRONA, the researchers, who were themselves clinicians caring for people 
experiencing homelessness in the mental health and addictions and 
primary care services of the public health services, provided the database 
to an administrative team of the same institution. This administrative team 
proceeded to perform the pseudo-anonymization by reordering the database 
and attributing to each person a numerical code, complying with the criteria 
established in the Additional Provision 17.2.d of the Organic Law 3/2018, of 
December 5, on Personal Data Protection and guarantee of digital rights of 
the Spanish legislation.
Finally, it is worth mentioning that the same ethics committee, which is the 
reference ethics committee of the province of Girona public health services, 
annually renews the permission to continue analyzing the data of the cohort 
on which this study is based according to the Spanish legality reflected in this 
text. Therefore, the permission to proceed with research using this database 
is currently in force, in compliance with Spanish law. The renewal code of the 
permit is dated January 10, 2023 with the renewal code COHORT_2016.133.

Consent for publication
Not applicable.

Author details
1Serra Húnter Fellow, Department of Pedagogy, Quality of Life Research 
Institute, Universitat de Girona, Girona, Spain
2Department of Personality, Evaluation and Clinical Psychology, 
Universidad Complutense, Madrid, Spain
3FPCEE, Universitat Ramon Llull, Blanquerna, Barcelona, Spain
4Primary Care Centre Santa Clara, Catalan Institute of Health, Girona, Spain
5Department of Health Sciences, Faculty of Health Sciences, Universidad 
Pública de Navarra (UPNA), Pamplona, Spain
6Cyberpsychology research group, Universidad Internacional de La Rioja, 
Logroño, Spain
7Department of Psychology, Quality of Life Research Institute, Universitat 
de Girona, Girona, Spain

Received: 29 December 2022 / Accepted: 12 June 2023



Page 10 of 11Calvo et al. BMC Public Health         (2023) 23:1212 

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http://dx.doi.org/10.1177/0197918321996347

	“Healthy immigrant effect” among individuals experiencing homelessness in Spain?: Foreign-born individuals had higher average age at death in 15-year retrospective cohort study
	Abstract
	Method
	Design
	Population under study
	Procedure
	Statistical analysis

	Results
	Variables associated with age at death
	Predictors of a lower age at death

	Discussion
	References