Journal of
Fungi
Article
Burden of Fungal Infections in Colombia
Carlos Arturo Alvarez-Moreno 1,2,†
1
2
3
*
†
ID
, Jorge Alberto Cortes 1, *,† and David W. Denning 3
ID
Internal Medicine Department, School of Medicine, Universidad Nacional de Colombia, Bogotá 111321,
Colombia;
[email protected]
Clínica Universitaria Colombia, Bogota 111321, Colombia
The University of Manchester and National Aspergillosis Centre, Wythenshawe Hospital Manchester,
Manchester M13 9PL, UK;
[email protected]
Correspondence:
[email protected]; Tel.: +57-1-316-5000 (ext. 15011)
Authors contributed equally to this work.
Received: 30 January 2018; Accepted: 19 March 2018; Published: 21 March 2018
Abstract: Data with respect to the epidemiological situation of fungal diseases in Colombia is
scarce. Thus, the aim of this study is to estimate the burden of fungal infections. A population
projection for 2017 from the Colombian Department for National Statistics was used, as well as
official information from the Ministry of Health and National Institute of Health. A bibliographical
search for Colombian data on mycotic diseases and population at risk (chronic obstructive pulmonary
disease, HIV infection/AIDS, cancer, and transplant patients) was done. The Colombian population
for 2017 was estimated at 49,291,609 inhabitants, and the estimated number of fungal infections
for Colombia in 2017 was between 753,523 and 757,928, with nearly 600,000 cases of candidiasis,
130,000 cases of aspergillosis, and 16,000 cases of opportunistic infection in HIV, affecting around
1.5% of the population. In conclusion, fungal infections represent an important burden of disease for
the Colombian population. Different clinical, epidemiological, and developmental scenarios can be
observed in which fungal infections occur in Colombia.
Keywords: mycoses; invasive fungal mycoses; lung diseases fungal; candidiasis; aspergillosis;
invasive fungal infections; dermatomycoses; Colombia
1. Introduction
Access to data on the burden of disease is critical for public health actions. Globally, fungal
infectious diseases of the lung have been estimated to affect tens of millions and lead to over
a million deaths annually [1]. The total number of fungal infections affecting the human race is
still unknown, especially in poorly developed countries. Identification of the burden of disease aids in
establishing public health measures as well as in determining the diagnostic and therapeutic needs of
the population.
Colombia is situated in the north part of South America. It has a unique environment, with part
of the Amazon basin situated in the south part of the country. The Andes mountains cross the
country alongside two big rivers (Magdalena and Cauca), creating almost every type of weather niche,
from deserts in the north part, to jungle in the Amazon basin and the Pacific coast, and even snow
peaks, together with extensive areas of coffee and other plantations. In this scenario, large cities with
corresponding pollution problems have developed (for example Bogota, 2600 m above sea level with
an estimated population of 8 million) with severe inequities between the rural and urban populations.
There are certain fungal infections related to advanced healthcare (intensive care units, transplant
procedures, immunosuppression) and an important but difficult to define burden of endemic mycoses.
The country has a long tradition of research on endemic fungal infections, such as
paracoccidiodomycosis, but a figure on the annual incidence and prevalence fungal diseases is lacking.
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It is reported that Colombia comes second to Brazil and Venezuela in terms of number of cases of
paracoccidioidomycosis [2]. Histoplasmosis is endemic in the western areas of the country, while it is
endemic in Central America and some areas of Brazil [3]. There is also information showing a higher
incidence of candidemia in Colombia in relation to Brazil and other Latin American countries [4].
Cryptococcus infections are endemic among patients with a similar serotype of AIDS in the region [5].
The objective of this study is thus to estimate the burden of serious fungal diseases in Colombia.
2. Materials and Methods
2.1. Literature and Data Search
The burden of serious fungal infections in the country was estimated using the methodology
established by Leading International Fungal Education (LIFE), which has been used previously for
different countries in the world [6]. A search for literature about fungal infections in Colombia
was done to identify the key epidemiology papers in English or Spanish, as well as grey literature
and official reports by governmental offices. The electronic database Medline, LILACS (Literatura
Latinoamericana de Información en Ciencias de la Salud), Google, Google Scholar, and Embase were
used with the terms “Cryptococcus”, “Pneumocystis”, “Aspergillus”, “Candida”, “Mucor”, “Histoplasma”.
“Sporothrix”, “fungal keratitis”, “tinea”, “lobomycoses”, “Paracoccidiodes”, and “Colombia”.
2.2. Frequency Estimates
Incidence rates were estimated per 100,000 habitants, taking into account the projection of the
Colombian Census. Prevalence was calculated for the chronic forms of aspergillosis and the cases
of tinea.
2.3. Data Estimation Sources
We estimated the burden of serious fungal infections based on the specific data available for the
country, as well as extrapolation of data on people at risk in the country. Colombia demographics
for 2017 were obtained from the National Department for Statistics (Departamento Administrativo
Nacional de Estadística (DANE) as per its acronym in Spanish), and the official projections on
population based on the last census (carried out in 2005).
The number of cases of HIV infection was obtained from national data, itself based on insurance
claims and HIV programs from around the country [7], since reporting is mandatory for cases of HIV
infection. For fungal infections among AIDS patients, new patients with AIDS were considered at
risk of these fungal infections [7], and 2000 cases were added to the risk population to compensate
for missing data. Cases of Pneumocystis infection were calculated based on international data on the
incidence of these fungal infection among AIDS patients [8,9].
Candidemia cases were calculated by estimating the number of cases in intensive care unit based
on the observed epidemiology in patients hospitalized in such wards in Colombia [10,11], assuming
a mean stay in the ICU of five days and an occupancy of 80%. For Candida peritonitis, we assumed
that the rate was the half of the ICU candidemia rate [12]. To establish the prevalence of recurrent
vulvovaginal candidiasis (VVC), an estimate of 5% of women between the ages of 18 and 50 years
(for the 2017 national projection) was used [13]. To estimate the number of cases of oral candidiasis,
we assumed that 90% of untreated HIV patients presenting with AIDS [9] would have this condition,
and for the number of esophageal cases, we assumed 20% of new AIDS cases and 0.5% of those on
treatment with anti-retroviral therapy [14].
To estimate the impact of aspergillosis, we calculated the number of cases of chronic pulmonary
aspergillosis (CPA) after pulmonary TB according to methodology previously described [15,16]. Briefly,
we used the 2016 number of annual new pulmonary TB cases [17]. The number of cases of CPA
in cavities was calculated by applying 12% as the proportion of patients that developed cavities,
and then calculating 22% of this figure, which represents the incidence of CPA in cavities. In addition,
we included a proportion of 2% of TB patients that did not develop cavities (78%) as having CPA. Then,
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we estimated a five-year period of prevalence of CPA, assuming a 15% annual mortality or surgical
cure rate. Finally, assuming TB is the underlying diagnosis in 33% of cases, we estimated the total
number of CPA cases [18]. In addition, the number of invasive aspergillosis (IA) cases was considered
for different populations at risk (10% of patients with acute myeloid leukemia; 0.5%, 4%, and 6%
of renal, lung, and heart solid transplant patients, respectively). The annual number of transplant
recipients was taken from official data [19] and the number of acute leukemia patients was estimated
from reports of the National Cancer Institute in Colombia, which reported an incidence of 2.21 cases
per 100,000 persons [20,21].
The number of chronic obstructive pulmonary disease (COPD) cases was estimated using the
figure of 8.9% in terms of prevalence among the Colombian population aged 40 years or more [22],
the proportion admitted to hospital each year (20.3% after United Arab Emirates), and considering
that IA occurred in 1.3% of these patients [23]. Finally, the number of IA cases among lung cancer
patients was estimated from data extrapolated from a large dataset from China (2.6%) [21,24].
For our analysis of adult asthmatics, we used an asthma rate of 6.5% [25]. Estimation of allergic
bronchopulmonary aspergillosis (ABPA) prevalence assumes that 2.5% of adult asthmatics develop
this complication, and 15% of adults with cystic fibrosis [26,27], while estimation of severe asthma with
fungal sensitization (SAFS) prevalence assumes that 33% of the worst-affected 10% of adult asthmatics
or 3.3% of the total number of adults with asthma are affected [28].
Cases of cryptococcal infections were estimated using HIV information and data published from
national surveys on cryptococcal infection in the country [29,30]. According to a recent global estimate,
cryptococcal antigenemia is found in 6% of patients with a CD4 count of less than 100 cells per
µL [31]. According to Colombian national surveys, between 78.1% and 83.5% of the cases were related
to HIV infection [29,30]. Histoplasmosis cases were estimated using the national data on HIV and
a published Colombian survey [32]. The relative frequency of histoplasmosis among HIV-infected
patients in relation to the cryptococcosis infection was 3:1 (that is 1 case of histoplasmosis per every
3 cases of cryptococosis). According to the national survey, 80% of the reported cases occurred
in HIV-infected patients [32]. Among patients with HIV and lymphadenopathy in endemic areas,
the ratio of tuberculosis to histoplasmosis was 4:1 [33]. The number of cases of immunosuppression was
estimated from a Colombian survey [32]. Mortality for opportunistic fungal infections was calculated
using Colombian data for cryptococcosis and histoplasmosis [34,35] and international figures for
Pneumocystis pneumonia [36].
Sporotrichosis cases were estimated according to the relative frequency found in a reference center
with data from some areas of the country [37]. Paracoccidiodomycosis cases were estimated using
a study defining the observed incidence over a 50-year period up to 1999 [38].
Cases of fungal keratitis were calculated using a study on infectious keratitis in a reference
center covering a population of nearly 2 million inhabitants [39]. In this case series, 5% of the cases
were fungal. The incidence in that population was eight cases per year. Tinea capitis cases were
seen in children adopted from Colombia [40] and no Colombian publication was found on the issue.
The population with the lowest socioeconomic level according to the national statistics was used to
estimate the number of cases in children aged from 1 to 5 years old.
An estimate of the number of cases of rare fungal infections such as mucormycosis and
lobomycosis, both using reported cases in the country [41–43], was done based on the population at
risk. Although older descriptions of chromoblastomycosis or mycetoma could be found, there is no
recent data on these conditions.
3. Results
3.1. Population and Risk Factors
Colombia is situated in the north coast of South America. With coasts over the Caribbean (Atlantic)
and the Pacific oceans, the country contains various climate environments including the jungle of
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the Amazon basin, jungle that extends from the Pacific rim up to the Atlantic coast, mountains and
valleys from the Andean mountain system (that extends from Argentina and Chile to Venezuela),
and even deserts in the north and extended plains in the east. Over 70% of the population inhabits
the crowded big cities. The last population census in the country was performed in 2005 and we used
the 2017 projections for our estimates. Table 1 shows the demographic data from the country as well
as the estimated numbers for population and patients at risk for several pathologies or interventions.
Children (under 18 years old) correspond to 31.3% of the population.
Table 1. Demographic and health data from Colombia (2013–2017) from groups of patients at risk for
fungal infections. COPD: chronic obstructive pulmonary disease.
Population
Number
Total population, 2017
Total adults, 2017
Adult women, 2017
Women 18–50 years-old, 2017
HIV population
HIV population receiving ART
Pulmonary tuberculosis, 2016
Asthma in adults
COPD in adults over 40 years
COPD patients admitted to hospital
Lung cancer, 2011
Acute leukemia, 2017
Renal transplant recipients, 2014
Liver transplant recipients, 2014
Allogeneic stem cell transplant, recipients, 2014
Heart transplant recipients, 2014
Lung transplant recipients, 2014
Critical care beds, 2013
49,291,609
33,843,324
17,403,058
11,832,865
73,465
65,044
10,442
2,090,506
921,260
189,117
3985
1089
732
211
172
72
10
2310
ART: Anti-retroviral tereatment.
In Colombia, HIV-infected patients have access to antiretroviral treatments supplied by insurers
(public or private). HIV infection is subject to mandatory reporting, and the costs of medical care are
covered by a public account (Account for High Cost—Cuenta de Alto Costo in Spanish) that also includes
chronic renal failure patients with dialysis. In the last report [7], for 2016, there were 73,465 known
patients infected with HIV in the country, but only 65,044 of them were retained in the health care
system and receiving antiretroviral treatment. These gaps in the health care system may be aggravated
by major underreporting of HIV diagnosis. The estimated country prevalence for HIV as reported by
insurers is 0.15% [7], while the figure obtained by UNAIDS is 0.5% which allows us to conclude that
close to 30% of people are unaware of their HIV-positive status. Women represent 25.9% of the HIV
population [7]. The main form of HIV transmission is through sexual intercourse, especially among
men having sex with men. Overall, 75% of the HIV population is concentrated in the cities, while the
prevalence is lower in rural areas, eastern plains near the Venezuelan border, and in the Amazon
basin. In 2016, 8209 new cases of HIV were reported, and 34% of the newly diagnosed patients had
a CD4 count of less than 200 cells/µL or AIDS-defining opportunistic illnesses, while only 25.1% had
a CD4 count over 500 cells/µL. Using the above data as a basis, we calculated the risk of developing
an opportunistic infection due to a low CD4 count at the time of diagnosis (AIDS) from the new cases
(36%), and added to that figure the possible cases due to lack of healthcare.
Other risk factors evaluated in the Colombian population included the incidence of
tuberculosis [17] as reported in the health care system, COPD [22], asthma [25], and solid organ
or hematological transplants. Estimates from the Colombian Institute of Health suggest a donation
rate between 20 and 30 cases per 1,000,000 inhabitants per year.
Table 2 shows the estimated number of cases for the different fungal infections, categorized by
risk groups, while Table 3 shows the comparison with the global incidence.
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Table 2. Estimated burden of fungal infections.
Fungal Infection
None
HIV/AIDS
Respiratory
Disease
Candidemia
Cancer and
Immunodeficiency
Critical Care
and Surgery
Total
Rate/100,000
Inhabitants
4407
1889
6296
12.8
944
944
1.9
9150
18.6
Candida peritonitis
Oral candidiasis
9150
Oesophageal candidiasis
Recurrent Candida vaginitis (>4×/year)
4269
638
591,643
Invasive aspergillosis
361
2459
4907
10
591,643
2401
2820
5.7
Chronic pulmonary aspergillosis post TB *
2106
2106
4.3
Chronic pulmonary aspergillosis—all
8426
8426
49
Allergic bronchopulmonary aspergillosis (ABPA)
52,268
52,268
106
Severe asthma with fungal sensitisation (SAFS)
68,987
68,987
140
838
1.7
1525
3.1
99
99
0.2
22
286
0.6
Cryptococcal meningitis
65
Pneumocystis pneumonia
719
54
1525
Mucormycosis
Histoplasmosis
39
225
Sporothricosis
55
55
0.1
Fungal keratitis
182
182
0.4
Tinea capitis
12,134
12,134
25
Lobomycoses
2
2
0.01
Paracoccidiodomycoses
246
246
0.5
Total fungal infection burden
604,366
760,808
1543
15,888
129,681
5581
5292
* Note that the total fungal infection burden does not include the number of estimated cases of chronic pulmonary aspergillosis after TB, because those cases were already accounted for in
the total for all chronic pulmonary aspergillosis cases.
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Table 3. Annual incidence of selected fungal infections in Colombia in comparison with the
global incidence.
Fungal Infection
Colombian Incidence
Global Incidence
Rate/100,000
Histoplasma infection
Invasive candidiasis
Invasive aspergillosis
P. jirovecii pneumonia
Cryptococcosis in AIDS
Mucormycosis
286
6296
2820
1525
719
99
500,000
750,000
300,000
500,000
223,000
>10,000
0.6
12.8
5.7
3.1
1.5
0.2
3.2. Candidiasis
The number of ICU beds in the country has been estimated at around 2310 [44]. In Colombia,
the overall incidence of candidemia in the ICU was reported to be 1.4% [10]. Incidence was estimated
in two studies as 2.3 cases per 1000 ICU-days and 1.96 cases per 1000 hospital admissions [4,10].
A significant trend towards an increased number of cases of candidemia has been noted [10]. There
has been also a shift in the number or cases caused by Candida albicans in contrast to non-C. albicans
cases, with more recent studies showing an increase in the cases of C. tropicalis, C. parapsillopsis,
and C. glabrata [4,45–47]. A low frequency of fluconazole resistance has been observed among the three
main identified species [4].
3.3. Aspergillosis
The estimated number of cases of different forms of aspergillosis is probably about 130,000,
with a high burden of disease in patients with respiratory diseases due to the incidence of both
asthma and COPD in Colombia, only exceeded by the population affected by vulvovaginal candidiasis
(Table 2). The presence of chronic pulmonary aspergillosis post TB is also estimated in about 2000
people, with an annual incidence after TB of 458 cases (1/100,000). Asthma in adults is relatively
common, with over 2 million affected, so both ABPA and SAFS prevalence figures are high at 106 and
140 per 100,000, respectively. These estimates lack confirmatory data from Latin America of ABPA
prevalence and need validation with local studies. Finally, the number of cases of invasive aspergillosis
calculated was 2820, of which 361 cases were related to recipients of organ transplantation, especially
stem cell transplantations.
3.4. Opportunistic Infections Related to HIV and Other Conditions Involving Immunosuppression
Solid organ and bone marrow transplants are recorded in a central register by the Colombian
National Institute of Health [48]. The annual number of renal transplants has been stable, while the
number of transplants of other solid organs has slightly increased. There is no formal data on the
number of cases of lupus or on the frequency of the use of immunosuppressant drugs, but information
on the use of all kind of these medications, as well as tumor necrosis factor inhibitors, is available in
the Colombian health market. The numbers of patients with cancer are registered centrally by the
National Institute of Cancer. Some data on the number of new cases of leukemia and other tumors
are available for some years [20,21]. The number of annual cases of systemic fungal opportunistic
infections in HIV patients in Colombia (histoplasmosis, cryptococcosis, and pneumocystis cases) was
estimated at around 2468, with 398 deaths (16%).
3.5. Endemic Mycoses and Other Fungal Infections
The geographic distribution of the cases varies according to the risk factors and the
ecoepidemiological conditions for the different diseases. Histoplasmosis and paraccocidiodomycosis
have a regional distribution. Histoplasmosis is confined to the two main river valleys across the Andean
divisions in the country (Figure 1): The Magdalena River and the Cauca River. Paracoccidiodomycosis
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has been localized to the coffee region in the central area. While the rural population has diminished
because of migration, economic development of the cities, and the civil war that took over 50 years
in the country (1960–2017), it is now affected by formerly uncommon diseases like mycetoma. There
are local reports of sprotrichosis, fungal keratitis, and lobomycoses [37,39,41], the latter in indigenous
Amerindian population in the plains in the eastern part of the country on the border of Venezuela and
the Amazon jungle.
Figure 1. Schematic map of Colombia showing geographical and ecological areas for endemic mycoses.
4. Discussion
This is the first systematic approach to estimating the number of common and serious fungal
infections in the country. It is based on a proposed methodology that has been widely used, including
in neighboring countries [49–51]. This is a challenging task due to the lack of a mandatory surveillance
system for the majority of fungal diseases. While some official information is present for some risk
groups, such as HIV and transplant patients, there is a general lack of data about some uncomplicated
fungal infections, and also about some that are more serious or even lethal.
In Colombia, there are certain scenarios with respect to fungal infections, which differ in
comparison to more developed countries. One is related to healthcare, as there is an increased
number of patients with chronic diseases involving immunosuppression (because of the disease itself
or because of the immunosuppressant medications used). The majority of cases of systemic candidiasis
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in transplanted patients form a part of this scenario. Significant efforts have been made to develop
the health care system, allowing the population to access critical care units, high complexity hospitals,
new and expensive medications, and transplant procedures, etc., with an ever-increasing number
of cases. In this context, a relatively higher frequency of candidemia among patients in the ICU has
been noted, as compared with the frequency seen in more developed hospitals [4,52]. Most likely,
the lack of adequate hygiene control measures in hospitals, which is reflected in a higher frequency
of hospital-acquired infections, might explain this phenomenon [53]. In addition, a new challenge
has arisen with the appearance of Candida auris, a multidrug-resistant pathogen which is a notorious
healthcare-associated yeast causing invasive infections with high rates of clinical treatment failure,
which has already been described in hospitals in Colombia [54].
Another important scenario in the country is the situation of endemic mycoses. While it is
commonly referred to in infectious disease and travel medicine textbooks, the number of cases and the
risk factors have changed. Histoplasmosis is a good example of this situation. Previously related to
agricultural activities and speleology, nowadays more than 70% of the patients have HIV infection
as a comorbidity [32,55]. Old studies with histoplasmin defined the geographical areas where the
infection might be found around the main two rivers of the country [56] and calculated a population
at risk of near 6 million inhabitants 40 years ago (Figure 1). Although the endemic areas have probably
not changed, the main risk factor is HIV infection and the rural population has clearly declined.
Paraccocidioidomycosis has steadily declined in incidence. While serologic studies identified similar
areas at risk [38], the lack of association with HIV has not changed the clinical scenarios where
the disease is identified. Two challenges may appear, affecting the incidence of these diseases in
the near future. First, there may be an increase in cases related to reactivations resulting from the
greater number of immunosuppressed patients due to the use of immunosuppressive drugs such as
steroids, tumor necrosis factor inhibitors, and new biologic therapies [57]. Second, the armed conflict in
Colombia has ceased, allowing the general population to access endemic geographical areas including
the Amazon jungle, which will facilitate the appearance of new infections.
The other major clinical risk scenario is related to the incidence of HIV infection. Our estimates
depend deeply on the quality of the mandatory reporting. The actual number of HIV cases might
be underestimated, and the fact that the majority of cases appear in late clinical stages suggest that
our numbers might be very conservative. Furthermore, in rural areas HIV infection continues to
be stigmatized and therefore patients do not access the health system or do so late, increasing the
risk of occurrence of mycotic opportunistic infections. Unfortunately, in the same areas diagnostic
tools are limited, making it difficult to know with certainty the true burden of fungal diseases. It is
necessary for the endemic areas to stimulate the use of diagnostic tests not only for endemic fungi but
also opportunistic fungal infections in this population at risk. Our data suggest the need for earlier
identification of HIV patients with implementation of measures to identify serious infections (like
cryptococcosis, histoplasmosis and Pneumocystis pneumonia) which should result in the prevention of
a substantial number of HIV-related deaths in the country [58].
In Colombia, there is only one publication that describes the presence of cases of APBA in patients
with cystic fibrosis [59]. There is no local data addressing any potential role of Aspergillus spp. in COPD
patients, despite the frequency of this disease (8.9%). Currently, we are evaluating the incidence of
Aspergillus fumigatus during exacerbation episodes in chronic obstructive pulmonary disease patients
from Colombia. In the same way, few studies have evaluated the role of Aspergillus causing allergic
reactions in the Colombian population with asthma, despite its prevalence (6.9%). A study in Medellin
with fungi sensitization in a prick test population under 70 years old found that a multisystemic
pattern defined as the simultaneous coexistence of asthma, rhinitis, and dermatitis was associated with
Aspergillus fumigatus sensitivity, with a risk ratio of 4.38 (95% CI: 1.12–17.2) [60]. Given the prevalence
of COPD and asthma in the Colombian population, it is necessary to optimize early diagnosis and
avoid complications of invasive presentations or pulmonary complications of SAFS or APBA. Finally,
the estimations of both IA and CPA cases are greater than what is currently observed, probably related
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to the absence of a compulsory register of this disease, the absence of adequate diagnostic methods
around the country (especially in areas with higher incidence of tuberculosis), and lack of clinical
awareness, among other factors. The impacts of these invasive and chronic forms may worsen if one
considers the recent description of azole-resistant Aspergillus fumigatus in the environment, which limits
therapeutic options to intravenous therapy in most cases [61].
There is an important lack on information on common but insidious fungal skin and vaginal
infections. No local reports on the incidence, prevalence, or burden of the problem have been found,
despite the fact that according to worldwide epidemiology, these are the most frequently found fungal
infections [62].
It is interesting to compare the Colombian situation with that of some neighboring countries
like Ecuador and Peru [49,50]. For example, the number of HIV patients not receiving antiretroviral
treatment in Peru is higher than in Colombia, while the number of cases in Ecuador is not known.
While Peru has a smaller population, there are important differences in the access to health care.
Colombia has a bigger health care system with better access. This is reflected in the number of solid
organ transplants, which is eight times higher in Colombia. In the case of tuberculosis there is a similar
situation: the number of cases in Peru is almost double that of Colombia, and Ecuador has half the
number of notified cases (with a population one-third that of Colombia). In addition, Colombia,
Peru, and Ecuador share the Andean mountains and the Amazon basin environment, which provide
ecological areas for some endemic diseases. It is also interesting to compare local estimates on systemic
candidiasis with worldwide figures (Figure 2) [62–65]. Brazil, another neighboring country, probably
has the highest incidence (14.9/100,000), but Colombia is close behind (12.8/100,000). As mentioned,
these high rates could be related to infection control problems in both countries. Pakistan is rated
first in the incidence of Candida infections (21/100,000) and has also problems with C. auris [66] like
Colombia. Other opportunistic fungal infections such as invasive aspergillosis are found in Colombia,
with an incidence similar to that of other South American countries [62], and not too distinct from the
incidence in Europe. This could be related to better access to cancer treatment, an increasing number
of patients receiving immunosuppressant drugs, and the large number of patients with COPD.
Figure 2. Country estimates of candidemia per 100,000 habitants. Data from references [62–65] and
this study.
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There are several limitations to our estimates. The first (already mentioned) is the lack of
information on several of the diseases mentioned here, especially those that are more prevalent,
including recurrent vulvovaginal candidiasis and tinea capitis. Another important limitation is the lack
of any mandatory reporting for serious fungal infections, such as cryptococcosis and histoplasmosis.
Since several non-culture diagnostic tests are not widely available, the reported incidence or prevalence
might be underestimated. This may also be the case for candidiasis, in which the standard diagnostic
test (i.e., blood culture) has low sensitivity. Additionally, fungal infections may be underdiagnosed
because of low clinical awareness, as may be the case with respect to the relationship between
Aspergillus and asthma. As mentioned, there is little information on the subject in the country.
In conclusion, fungal infections represent an important burden of disease for the Colombian
population. However, to better understand the impact of fungal diseases and therefore optimize their
management, it is necessary to improve the diagnostic tools throughout the country and improve
clinical awareness in special populations not only for early detection but also for accurate treatment.
Acknowledgments: There is no direct financial support for this study.
Author Contributions: For David W. Denning conceived the paper. Carlos Arturo Alvarez-Moreno
and Jorge Alberto Cortes performed the research of Colombian data and wrote the first draft.
Carlos Arturo Alvarez-Moreno, Jorge Alberto Cortes and David W. Denning analyzed the data and approved the
final manuscript. Carlos Arturo Alvarez-Moreno and Jorge Alberto Cortes contributed equally.
Conflicts of Interest: The authors declare no conflict of interest.
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