Intestinal apicomplexan protozoa (Cyclospora cayetanensis, Cryptosporidium spp., and Cystoisospora belli) are an important cause of gastroenteritis in the world, especially in low-income countries (LIC). Cyclospora cayetanensis infects subjects of all ages and its presence is associated with the rainy season and outbreaks where the transmission occurs through raw food and contaminated water 1. On the other hand, Cryptosporidium spp. is common among children less than five years old and is one of the main causes of diarrhea 2,3; in the adult population, the infection is associated with immunosuppression 4. Risk factors such as poverty, lack of sanitation, contact with animals, and poor-quality water have been described 5. In most cases, C. belli is detected among immunosuppressed populations with HIV infection and is considered an opportunistic pathogen, although cases have also been described among immunocompetent subjects, as well as some risk factors such as lack of sanitation and poor-quality water 6.
These parasitoses are endemic in Honduras where the first reports go back to 1986 7. Since then, they have been described several times among patients hospitalized in Hospital Escuela in Tegucigalpa 8-11, which has taken to the systematic search of the parasites in stool samples, but analytical studies are needed to better understand their local epidemiology.
We conducted the present study to identify risk factors associated with intestinal apicomplexan parasitoses and describe their distribution by age and sex, their clinical presentation, and the laboratory data among the patients from a public hospital in Honduras.
Materials and methods
We conducted a case-control study among patients attending the parasitology service at Hospital Escuela clinical laboratory in Tegucigalpa, Honduras, for six years from January, 2013, to December, 2019. Intestinal apicomplexan protozoa oocysts were identified in stool samples using the modified Ziehl-Neelsen staining technique; then, they were measured with a microscope with a micrometer eyepiece 12. Additionally, we analyzed all stool samples by direct wet smear with saline and iodine solution. The Parasitology Service has laboratory technicians, a laboratory technologist, and a parasitologist (Ph.D.) as permanent staff to carry out and supervise the parasitological diagnoses, and textbooks, bench aids, and positive samples/ slides are available for reference. The search was done in all ambulatory or hospitalized patients five or under five years of age, as well as in five-year- olds and older individuals with watery or loose stools and/or by medical request. Study subjects were also retrospectively identified from laboratory records. One stool sample was analyzed for each subject.
Cases were defined as those patients with oocysts and single apicomplexa infection whose clinical records were available at Hospital Escuela. Controls were subjects with no intestinal apicomplexa oocysts. The controls were matched by age (± 2 years) and sex with the cases in a 2:1 ratio. We established three groups according to the parasite identified: Cyclospora, Cryptosporidium, or Cystoisospora.
To determine the strength of the association with possible exposure factors, we calculated odds ratios (OR) and their 95% confidence intervals (95% CI). To evaluate the statistical significance, we used chi-square and Fisher tests while the Mann-Whitney U test was used for median comparison. Microsoft Excel and the OpenEpi online statistical calculator were used to perform these analyzes (http://www.openepi.com/Menu/OE_Menu.htm).
The study protocol was approved by the ethics committee from the medical sciences school at Universidad Nacional Autónoma de Honduras (UNAH), (IRB 00003070 Office of Human Research Protection, https://ohrp.cit.nih gov/search/IrbDtl.aspx.). We also obtained authorization from the Registration Department and the Directorate of Teaching and Research at Hospital Escuela to access the clinical records.
Our study was based on the review of laboratory records and clinical charts. There was no direct interaction with the patients and, therefore, it was not necessary to obtain informed consent or assent. Contact information (names, telephone, ID number, etc.) were not recorded to minimize a potential loss of confidentiality and each data collection instrument was assigned an identification code.
Results
From 2013 to 2019, we searched for the presence of apicomplexan protozoa in 10,938 patients; we identified 131 (1,2 %) cases of Cyclospora cayetanensis infection, 94 (0.9%) of Cryptosporidium spp., and 50 (0.5%) of C. belli. Using the data from the clinical charts available, we distributed 61 cases and 121 controls in the Cyclospora group; 53 cases and 86 controls in the Cryptosporidium group, and 27 cases and 52 controls in the Cystoisospora group. Table 1 shows the age and sex proportion between cases and controls in each group; 51.6% of cases in the Cyclospora group were male with a median age of 9.5 years; 54.7% of cases in the Cryptosporidium group were males with a median age of 4 years, and 51.9% cases in Cystoisospora group were male and the median age was 32 years. We found no statistically significant differences by sex or age among cases and controls within each group, which was expected given the study design.
Variable | Cyclospora | Cryptosporidium | Cystoisospora | ||||
---|---|---|---|---|---|---|---|
Cases (n=64) % | Controls (n=121) % | Cases (n=53) % | Controls (n=86) % | Cases (n=27) % | Controls (n=52) % | ||
Sex | |||||||
Male | 51.6 | 48.8 | 54.7 | 65.1 | 51.9 | 57.7 | |
Female | 48.4 | 51.2 | 45.3 | 34.9 | 48.1 | 42.3 | |
Chi square | p=0.8352 | p=0.2988 | >p=0.7973 | ||||
Age (years) | |||||||
< 1 | 1.5 | 5.8 | 18.9 | 26.7 | 3.7 | 5.8 | |
1 - 5 | 43.8 | 41.3 | 37.7 | 43.0 | 3.7 | 1.9 | |
6 - 15 | 9.4 | 14.0 | 5.7 | 3.6 | 0.0 | 1.9 | |
> 15 | 45.3 | 38.8 | 37.7 | 26.7 | 92.6 | 90.4 | |
Median | 9.5 | 8.0 | 4 | 2.5 | 32.0 | 36 | |
(IR) | (3.0 - 23.5) | (2.0 - 24.0) | (1.0 - 34.0) | (0.8 - 20.7) | (27.0 - 45.0) | (30 - 47.2) | |
Mann- Whitney U | p= 0.6213 | p=0.7840 | p=0.6423 |
IR: Interquartile range
Table 2 describes the variables in the Cyclospora group. The main differences observed between cases and controls were living in a house with concrete floors (55.2% vs. 30.8%), adobe walls (44.8% vs. 10.3%), block or brick walls (51.7% vs.71.8%), metal roof (62.1% vs.72.2%), piped water service (77.8% vs. 83.8%), sewerage service (53.6% vs. 71.8%), and having a dog in the house (54.2% vs. 38.9%). The main differences in the clinical presentation were diarrhea (75.5% vs. 57.4%), abdominal pain (42.9% vs. 34.7%), weight loss (20.4% vs. 2.0%), HIV infection (14.0% vs. 4.6%), leukocytosis (18.9% vs. 30.5%), neutrophilia (16.7% vs. 32.5%), thrombocytosis (30.6% vs. 13.4%), watery stools (42.2% vs. 23.1%), fat visible under the microscope (14.1% vs. 4.9%), and infection with other protozoa (53.1% vs. 26.4%).
Variable | Cases N=64 n (%) | Controls N=121 n (%) | OR | CI95% | p | ||
---|---|---|---|---|---|---|---|
House building materials | |||||||
Floor | n=29 | n=39 | |||||
Concrete | 16 (55.2) | 12 (30.8) | 2.77 | 1.02 - 7.52 | 0.0762 | ||
Brick | 9 (31.0) | 23 (59.0) | 0.31 | 0.11 - 0.86 | 0.0416 | ||
Soil | 4 (13.8) | 4 (10.3) | 1.40 | 0.23 - 8.24 | 0.9355* | ||
Walls | n=29 | n=39 | |||||
Block/Brick | 15 (51.7) | 28 (71.8) | 0.42 | 0.15 - 1.15 | 0.1490 | ||
Adobe | 13 (44.8) | 4 (10.3) | 7.10 | 2.0 - 25.24 | 0.0029 | ||
Roof | n=29 | n=36 | |||||
Metal | 18 (62.1) | 26 (72.2) | 0.63 | 0.22 - 1.79 | 0.5463 | ||
Tile | 9 (31.0) | 7 (19.4) | 1.80 | 0.59 - 5.83 | 0.4303 | ||
Water source | n=27 | n=37 | |||||
Pipe service | 21 (77.8) | 31 (83.8) | 0.67 | 0.19 - 2.38 | 0.7766 | ||
Others (well, river, etc.) | 6 (22.2) | 6 (16.2) | 1.47 | 0.42 - 5.20 | 0.7766 | ||
Sewerage | n=28 | n=39 | |||||
Sewerage | 15 (53.6) | 28 (71.8) | 0.45 | 0.16 - 1.25 | 0.1547 | ||
Latrine | 12 (42.9) | 10 (25.6) | 2.10 | 0.77 - 6.13 | 0.2023 | ||
None | 1 (3.6) | 1 (2.6) | 1.40 | 0.02 - 113.3 | >0.999* | ||
Origin | n=61 | n=116 | |||||
Tegucigalpa city | 39 (63.9) | 74 (63.8) | 1.00 | 0.53 - 1.92 | 0.8839 | ||
Francisco Morazán | 7 (11.5) | 15 (12.9) | 0.87 | 0.33 - 2.27 | 0.9687 | ||
Other departments | 15 (24.6) | 27 (23.3) | 1.07 | 0.52 - 2.21 | 0.9925 | ||
Animal contact | n=24 | n=36 | |||||
Dog | 13 (54.2) | 14 (38.9) | 1.85 | 0.65 - 5.28 | 0.3679 | ||
Chicken | 5 (20.8) | 6 (16.7) | 1.30 | 0.27 - 5.98 | 0.9341* | ||
Cat | 5 (20.8) | 6 (16.7) | 1.30 | 0.27 - 5.98 | 0.9341* | ||
Clinical presentation | n=49 | n=101 | |||||
Diarrhea | 37 (75.5) | 58 (57.4) | 2.28 | 1.10 - 4.89 | 0.0482 | ||
Fever | 19 (38.8) | 55 (54.5) | 0.52 | 0.26 - 1.06 | 0.1037 | ||
Vomit | 17 (34.7) | 53 (52.5) | 0.48 | 0.23 - 0.97 | 0.0611 | ||
Abdominal pain | 21 (42.9) | 35 (34.7) | 1.41 | 0.70 - 2.84 | 0.4271 | ||
Weight loss | 10 (20.4) | 2 (2.0) | 12.7 | 2.49 - 122.00 | 0.0005* | ||
Immunosuppression | n=57 | n=108 | |||||
HIV | 8 (14.0) | 5 (4.6) | 3.36 | 0.90 - 13.60 | 0.0729* | ||
Cancer | 7 (12.3) | 5 (4.6) | 2.80 | 0.74 - 12.05 | 0.1433* | ||
Hematological malignancy | 8 (14.0) | 9 (8.3) | 1.79 | 0.65 - 4.94 | 0.3808 | ||
Blood cell count | n=38 | n=83 | |||||
Leukocytosis | 7 (18.9) | 25 (30.5) | 0.52 | 0.20 - 1.34 | 0.2584 | ||
Leukopenia | 4 (10.8) | 10 (12.2) | 0.87 | 0.18 - 3.31 | >0.9999* | ||
Neutrophilia | 6 (16.7) | 27 (32.5) | 0.39 | 0.15 - 1.04 | 0.0893 | ||
Neutropenia | 5 (13.9) | 7 (8.4) | 1.75 | 0.40 - 6.94 | 0.5497* | ||
Lymphocytosis | 4 (11.1) | 6 (7.4) | 1.56 | 0.30 - 7.08 | 0.7362* | ||
Lymphopenia | 5 (13.9) | 17 (21.0) | 0.58 | 0.19 - 1.73 | 0.4743 | ||
Anemia | 21 (55.3) | 44 (53.0) | 1.09 | 0.50 - 2.36 | 0.9728 | ||
Thrombocytosis | 11 (30.6) | 11 (13.4) | 2.84 | 1.10 - 7.36 | 0.0518 | ||
Stool characteristics | n=64 | n=121 | |||||
Formed consistency | 9 (14.1) | 25 (20.7) | 0.62 | 0.27 - 1.44 | 0.3667 | ||
Soft consistency | 12 (18.8) | 31 (25.6) | 0.67 | 0.32 - 1.41 | 0.3847 | ||
Loose consistency | 16 (25.0) | 37 (30.6) | 0.75 | 0.38 - 1.50 | 0.5304 | ||
Watery consistency | 27 (42.2) | 28 (23.1) | 2.42 | 1.26 - 4.65 | 0.0115 | ||
Mucus | 14 (21.9) | 39 (32.2) | 0.58 | 0.29 - 1.19 | 0.1901 | ||
Leukocytes | 10 (15.6) | 25 (20.7) | 0.71 | 0.32 - 1.59 | 0.5257 | ||
Fat under the microscope | 9 (14.1) | 6 (4.9) | 3.13 | 1.06 - 9.25 | 0.0608 | ||
Charcot-Leyden crystals | 2 (3.1) | 4 (3.3) | 0.94 | 0.08 - 6.79 | >0.9999* | ||
Other protozoa | 34 (53.1) | 32 (26.4) | 3.15 | 1.66 - 5.95 | 0.0006 |
*Fisher test
Blastocystis spp. was the most frequently identified parasite (37.7% vs 19.8%). The participants with a significant probability of being diagnosed or suffering from cyclosporiasis were those living in houses with concrete floor (OR=2.77; 95%IC: 1.02-7.52) and adobe walls (OR=7.1; 95%CI: 2.025.24), as well as those with diarrhea (OR=2.28; 95%CI: 1.10-4.89), weight loss (OR=12.7; 95%CI: 2.49-122), thrombocytosis (OR=2.84; 95%CI: 1.107.36), watery stools (OR=2.42; 95%CI: 1.26-4.65), and coinfection with other protozoa (OR=3.13; 95%CI: 1.66-5.95). On the contrary, subjects who lived in houses with brick walls (OR=0.31; 95%CI: 0.11-0.86) and had vomiting (OR = 0.48; 95%CI: 0.23-0.97) showed a significantly lower probability of being diagnosed with cyclosporiasis.
In the Cryptosporidium group (table 3), the main differences between cases and controls were living in a house with concrete floors (43.5% vs. 21.9%), block or brick walls (52.2% vs. 58.1%), metal roof (59.1% vs. 65.6%), piped water service (69.9% vs. 90.0%), sewerage service (60.0% vs. 57.1%), and having a dog in the house (39.1% vs. 29.2%). As for the clinical presentation, the main differences between cases and control were diarrhea (80.4% vs. 53.8%), fever (65.2% vs. 51.3%), cough (21.7% vs. 15.4%), HIV infection (30.0% vs. 2.7%), leukopenia (37.5% vs. 9.7%), lymphopenia (35.9% vs. 8.3%), anemia (65.0% vs. 53.2%), green color stools (28.3% vs. 11.6%), loose stools (24.5% vs. 33.7%), watery stools (28.3% vs. 20.9%), stools with mucus (52.8% vs. 30.2%), and the presence of Charcot-Leyden crystals (3.8% vs. 1.2%). Subjects with a significantly higher probability of being diagnosed or suffering from cryptosporidiosis were those with HIV infection (OR=15.43; 95%CI: 3.34-71.22), a history of diarrhea (OR=3.52; 95%CI: 1.40-9.40), leukopenia (OR=5.60; 95%CI: 1.90-16.12), lymphopenia (OR=6.16; 95%CI: 1.99-18.98), green color stools (OR=3.00; 95%CI: 1.23-7.30), and stools with mucus (OR=2.58; 95%CI: 1.27-5.25).
Variable | Cases N=53 n (%) | Controls N=86 n (%) | OR | CI95% | p | ||
---|---|---|---|---|---|---|---|
House materials building | |||||||
Floor | n=23 | n=32 | |||||
Concrete | 10 (43.5) | 7 (21.9) | 2.74 | 0.85 - 8.9 | 0.1574 | ||
Brick | 5 (21.7) | 16 (50.0) | 0.28 | 0.08 - 0.93 | 0.0648 | ||
Soil | 7 (30.4) | 9 (28.1) | 1.10 | 0.34 - 3.62 | 0.9085 | ||
Walls | n=23 | n=31 | |||||
Block/Brick | 12 (52.2) | 18 (58.1) | 0.78 | 0.26 - 2.33 | 0.8777 | ||
Adobe | 8 (34.8) | 10 (32.2) | 1.12 | 0.35 - 3.50 | 0.9225 | ||
Roof | n=22 | n=32 | |||||
Metal | 13 (59.1) | 21 (65.6) | 0.75 | 0.24 - 2.31 | 0.8401 | ||
Tile | 4 (18.2) | 6 (18.7) | 0.96 | 0.17 - 4.76 | >0.9999* | ||
Water source | n=23 | n=30 | |||||
Pipe service | 16 (69.6) | 27 (90.0) | 0.25 | 0.04 - 1.34 | 0.1266* | ||
Others (well, river, etc.) | 7 (30.4) | 3 (10.0) | 3.94 | 0.89 - 17.42 | 0.1266* | ||
Sewerage | n=20 | n=28 | |||||
Sewerage | 12 (60.0) | 16 (57.1) | 1.12 | 0.35 - 3.61 | 0.9212 | ||
Latrine | 6 (30.0) | 12 (42.9) | 0.57 | 0.17 - 1.92 | 0.3453 | ||
Origin | n=49 | n=85 | |||||
Tegucigalpa city | 26 (53.1) | 58 (68.2) | 0.52 | 0.25 - 1.08 | 0.1179 | ||
Francisco Morazán | 8 (16.3) | 10 (11.8) | 1.46 | 0.53 - 3.99 | 0.6292 | ||
Other departments | 15 (30.6) | 17 (20.0) | 1.76 | 0.78 - 3.95 | 0.2397 | ||
Animal contact | n=23 | n=24 | |||||
Dog | 9 (39.1) | 7 (29.2) | 1.50 | 0.46 - 5.26 | 0.6798 | ||
Chicken | 8 (34.8) | 5 (20.8) | 2.00 | 0.54 - 7.48 | 0.4578 | ||
Cat | 1 (4.3) | 4 (16.7) | 0.22 | 0.004 - 2.62 | 0.3741* | ||
Clinical presentation | n=46 | n=78 | |||||
Diarrhea | 37 (80.4) | 42 (53.8) | 3.52 | 1.40 - 9.40 | 0.0054 | ||
Fever | 30 (65.2) | 40 (51.3) | 1.78 | 0.84 - 3.78 | 0.1856 | ||
Vomit | 20 (43.5) | 36 (46.2) | 0.89 | 0.43 - 1.86 | 0.9184 | ||
Abdominal pain | 10 (21.7) | 16 (20.5) | 1.07 | 0.44 - 2.62 | 0.9471 | ||
Cough | 10 (21.7) | 12 (15.4) | 1.50 | 0.60 - 3.80 | 0.5148 | ||
Immunosuppression | n=50 | n=74 | |||||
HIV | 15 (30.0) | 2 (2.7) | 15.43 | 3.34 - 71.22 | 0.00005 | ||
Cancer | 5 (10.0) | 3 (4.1) | 2.63 | 0.48 - 17.62 | 0.3419* | ||
Hematological malignancy | 5 (10.0) | 5 (6.8) | 1.53 | 0.33 - 7.05 | 0.7420* | ||
Blood cell count | n=40 | n=62 | |||||
Leucopenia | 15 (37.5) | 6 (9.7) | 5.60 | 1.9 - 16.12 | 0.0016 | ||
Leukocytosis | 10 (25.0) | 19 (30.6) | 0.75 | 0.31 - 1.84 | 0.6948 | ||
Neutrophilia | 5 (13.2) | 16 (26.7) | 0.42 | 0.14 - 1.25 | 0.1703 | ||
Neutropenia | 5 (13.2) | 7 (11.7) | 1.14 | 0.26 - 4.59 | >0.9999* | ||
Lymphocytosis | 12 (30.8) | 8 (13.3) | 2.89 | 1.05 - 7.90 | 0.0617 | ||
Lymphopenia | 14 (35.9) | 5 (8.3) | 6.16 | 1.99 - 18.98 | 0.0016 | ||
Anemia | 26 (65.0) | 33 (53.2) | 1.60 | 0.71 - 3.70 | 0.3319 | ||
Thrombocytosis | 8 (20.0) | 14 (22.9) | 0.83 | 0.32 - 2.23 | 0.9499 | ||
Stool characteristics | n=53 | n=86 | |||||
Green color | 15 (28.3) | 10 (11.6) | 3.00 | 1.23 - 7.30 | 0.0239 | ||
Formed consistency | 4 (7.5) | 11 (12.8) | 0.55 | 1.16 - 1.84 | 0.4925 | ||
Soft consistency | 21 (39.6) | 28 (32.6) | 1.35 | 0.66 - 2.76 | 0.5067 | ||
Loose consistency | 13 (24.5) | 29 (33.7) | 0.63 | 0.29 - 1.37 | 0.3390 | ||
Watery consistency | 15 (28.3) | 18 (20.9) | 1.49 | 0.67 - 3.29 | 0.5853 | ||
Mucus | 28 (52.8) | 26 (30.2) | 2.58 | 1.27 - 5.25 | 0.0132 | ||
Leukocytes | 11 (20.7) | 20 (23.2) | 0.86 | 0.37 - 1.98 | 0.8932 | ||
Fat under the microscope | 4 (7.5) | 13 (15.1) | 0.45 | 0.14 - 1.48 | 0.2923 | ||
Charcot-Leyden crystals | 2 (3.8) | 1 (1.2) | 3.33 | 0.16 - 198.90 | 0.6481* | ||
Other protozoa | 7 (13.2) | 16 (18.6) | 0.53 | 0.18 - 1.58 | 0.5507 |
*Fisher test
In the Cystoisospora group (table 4), we were not able to collect data about house characteristics. The main differences between cases and controls were diarrhea (87.5% vs. 48.8%), vomit (58.3 vs. 39.0%), abdominal pain (41.7% vs. 19.5%), HIV infection (77.8% vs. 23.8%), leukopenia (43.5% vs. 16.3%), lymphopenia (52.2% vs. 15.7%), and anemia (78.3% vs. 51.2%). Cases presented with stools of green color (18.5% vs. 1.9%), watery stools (44.4% vs. 30.8%), mucus (48.1% vs. 44.2%), fat visible under the microscope (18.5% vs. 1.9%), and Charcot-Leyden crystals (18.5% vs. 1.9%) more frequently than controls. Subjects with the most statistically significant probability of being diagnosed or suffering from cystoisosporiasis were those with HIV infection (OR=11.20; 95%CI: 3.53-35.44), diarrhea (OR=7.30; 95%CI: 1.89-28.52), leukopenia (OR=4.28; 95%CI: 1.33-13.75), anemia (OR=3.43; 95%CI: 1.0810.93), green color stools (OR=11.59; 95%CI: 1.16-558.60), microscopically visible fat (OR=11.59; 95%CI: 1.16-558.60), and the presence of Charcot- Leyden crystals (OR=11.59; 95%CI: 1.16-558.60). Subjects with leukocytosis had a significantly lower probability of suffering cystoisosporiasis (OR=0.12; 95%CI: 0.003-0.92).
Variable | Cases N=27 n (%) | Controls N=52 n (%) | OR | CI95% | p | |
---|---|---|---|---|---|---|
Origin | n=26 | n=49 | ||||
Tegucigalpa city | 17 (65.4) | 23 (46.9) | 2.13 | 0.79 - 5.71 | 0.2006 | |
Francisco Morazán | 2 (7.7) | 7 (14.3) | 0.50 | 0.05 - 2.94 | 0.6640* | |
Other departments | 7 (26.9) | 19 (38.8) | 0.58 | 0.20 - 1.64 | 0.4404 | |
Animal contact | n=6 | n=7 | ||||
Dog | 3 (50.0) | 3 (42.9) | 1.33 | 0.09 - 9.13 | >0.999* | |
Chicken | 1 (16.7) | 3 (42.9) | 0.27 | 0.004 - 5.49 | 0.6853* | |
Cat | 1 (16.7) | 1 (14.3) | 1.20 | 0.012 - 9.70 | >0.999* | |
Clinical presentation | n=24 | n=41 | ||||
Diarrhea | 21 (87.5) | 20 (48.8) | 7.30 | 1.89 - 28.52 | 0.004 | |
Fever | 11 (45.8) | 17 (41.5) | 1.19 | 0.43 - 3.29 | 0.9332 | |
Vomit | 14 (58.3) | 16 (39.0) | 2.20 | 0.78 - 6.10 | 0.2120 | |
Abdominal pain | 10 (41.7) | 8 (19.5) | 2.90 | 0.96 - 9.03 | 0.1012 | |
Immunosuppression | n=27 | n=42 | ||||
HIV | 21 (77.8) | 10 (23.8) | 11.20 | 3.53 - 35.44 | 0.00003 | |
Cancer | 1 (3.7) | 2 (4.7) | 0.76 | 0.02 - 15.64 | >0.9999* | |
Hematological malignancy | 1 (3.7) | 4 (9.5) | 0.37 | 0.007 - 4.02 | 0.6892* | |
Blood cell count | n=23 | n=43 | ||||
Leukocytosis | 1 (4.3) | 12 (27.9) | 0.12 | 0.003 - 0.92 | 0.0380* | |
Leukopenia | 10 (43.5) | 7 (16.3) | 4.28 | 1.33 - 13.75 | 0.0346 | |
Neutrophilia | 2 (9.1) | 13 (32.5) | 0.20 | 0.04 - 1.02 | 0.0927 | |
Neutropenia | 2 (9.1) | 3 (7.5) | 1.23 | 0.09 - 11.68 | 0.9999* | |
Lymphocytosis | 1 (4.3) | 2 (2.4) | 0.86 | 0.01 - 17.53 | 0.99999* | |
Lymphopenia | 12 (52.2) | 13 (15.7) | 2.26 | 0.79 - 6.48 | 0.1377 | |
Anemia | 18 (78.3) | 22 (51.2) | 3.43 | 1.08 - 10.93 | 0.0597 | |
Thrombocytosis | 4 (18.2) | 5 (12.2) | 1.60 | 0.27 - 8.41 | 0.7688* | |
Stool characteristics | n=27 | n=52 | ||||
Green color | 5 (18.5) | 1 (1.9) | 11.59 | 1.16 - 558.60 | 0.0323* | |
Formed consistency | 1 (3.7) | 9 (17.3) | 0.18 | 0.004 - 1.28 | 0.1599* | |
Soft consistency | 8 (29.6) | 6 (11.5) | 3.22 | 0.83 - 12.77 | 0.0960* | |
Loose consistency | 6 (22.2) | 21 (40.4) | 0.42 | 0.14 - 1.22 | 0.1727 | |
Watery consistency | 12 (44.4) | 16 (30.8) | 1.80 | 0.68 - 4.70 | 0.3384 | |
Mucus | 13 (48.1) | 23 (44.2) | 1.17 | 0.46 - 2.97 | 0.9255 | |
Leukocytes | 4 (14.8) | 10 (25.0) | 0.52 | 0.15 - 1.79 | 0.8596 | |
Fat under the microscope | 5 (18.5) | 1 (1.9) | 11.59 | 1.16 - 558.60 | 0.0320* | |
Charcot-Leyden crystals | 5 (18.5) | 1 (1.9) | 11.59 | 1.16 - 558.60 | 0.0323* | |
Other protozoa | 5 (18.5) | 15 (28.8) | 0.56 | 0.17 - 1.75 | 0.4663 |
* Fisher test
Discussion
Some of the risk factors for these parasitoses were poverty and lack of drinking water and sewerage services 5,6,13-15. These conditions are prevalent in Honduras and they may explain our findings. Living in a house with brick floors might protect against cyclosporiasis (and possibly against cryptosporidiosis), which may be a proxy indicator of better socioeconomic status. On the other hand, living in a house with mud walls was associated with cyclosporiasis, which might indicate lower socioeconomic status but was not measured in this study. We observed differences in the frequency of piped water service, sewerage, and the presence of domestic animals between cases and controls in the C. cayetanensis and Cryptosporidium spp. groups. However, these findings were not statistically significant.
We found an association between cyclosporiasis, diarrhea, and weight loss. These results are consistent with the clinical presentations described for cyclosporiasis in other studies including diarrhea, abdominal pain, fatigue, weight loss, and vomiting both in children and adults 16,17. Watery stools and the presence of other protozoans were associated with cyclosporiasis in this study. Similar observations have been made in Honduras relating watery stools to the clinical presentation 11 andthe presence of other protozoa coinfections in other studies 16 probably explained by the similar transmission modes of C. cayetanensis and other commensal protozoans.
Diarrhea was associated with Cryptosporidium cases, which is consistent with other studies 17-19. The proportion of cough was higher among the cases (21.7%) compared to the controls (15.4%) in the Cryptosporidium group while respiratory symptoms were not frequent among cyclosporiasis and cystoisosporiasis cases. Studies in Uganda showed that coughing was present in 78% of immunocompetent children with cryptosporidiosis while oocysts were identified in the sputum of 35.4% of children with cough 20. In adults, respiratory cryptosporidiosis was present in 1.3% of subjects with HIV infection and 4.4% of HIV-negative individuals with suspected tuberculosis 21. In our study, coughing was not statistically associated with cryptosporidiosis but the results could point to a possible respiratory infection. Unfortunately, the systematic search for this parasite was not conducted despite the presence of coughing.
In our study, diarrhea was associated with C. belli cases and we observed that fever, vomiting, and abdominal pain were frequent among cases but with no statistical association, which is consistent with the clinical presentation already described 6: diarrhea with abdominal pain, nausea, fever, and weight loss.
We found that subjects with HIV infection were 15 times more likely to be infected by Cryptosporidium spp. and 11 times by C. belli but HIV infection was not a risk factor for C. cayetanensis. These findings are consistent with observations previously made in Honduras where Cryptosporidium spp. and C. belli were more frequent among HIV-infected populations but was not the case of C. cayetanensis10. Similar observations have been reported in other countries where Cryptosporidium spp. and C. belli were associated with immunosuppressed people due to HIV, organ transplants, or leukemia 22-25. Our results confirmed that these parasitoses are opportunistic and endemic in immunosuppressed populations, especially those infected with HIV. Thus, the systematic surveillance of these protozoans is highly recommended. Leukopenia and lymphopenia were associated with cryptosporidiosis. Similarly, we found an association with leukopenia and cystoisosporiasis but not with lymphopenia, although it was more frequent among the cases (43.5%) than the controls (16.3%) probably due to immunosuppression by HIV infection, which was frequent among these cases.
We found no association between cryptosporidiosis and stool consistency. On the other hand, a formed consistency of the stools was present in 47% of cases probably because of asymptomatic oocysts shedding after the episode of diarrhea, which in cryptosporidiosis can occur for up to seven months 26. It is possible that among our participants, the episode of diarrhea resolved while the asymptomatic period of oocyst shedding remained. Charcot-Leyden crystals observed microscopically in the stool examination were associated with cystoisosporiasis but no association with eosinophilia was found, which would have been expected because these crystals are related to the activity of eosinophils. Some studies have reported cystoisosporiasis associated with eosinophilia and Charcot-Leyden crystals 27.
Limitations in our study refer to the diagnostic method. The modified Ziehl- Neelsen staining technique is a cheap and relatively simple laboratory method, although it requires quality reagents, equipment, and human resources, but it is not very sensitive for detecting the infections given the different patterns of parasite excretion or the low density in the stool sample. It has been estimated that this staining technique can detect 78% of cases compared to other more expensive and specialized methods (fluorescence microscopy, immunoenzymatic assays, or molecular biology) 14,27-31. This could have affected the number of cases detected during this period or, more importantly, the selection of controls. Therefore, the inclusion of false negative controls should not be discarded and, thus, selection bias. Ideally, the use of molecular tools with greater sensitivity is required to detect these infections. Secondly, our sample size represented 51.3% of the total cases in the 2013-2019 period. Besides, the information on the variables was not complete, which reflected in the wide 95% confidence intervals estimated for the ORs and indicates low precision and statistical power, which should be considered when interpreting the results. Thirdly, we did not search for other non-parasitic pathogens causing diarrhea, so we do not know if the cases or the controls had infections other than the parasitoses under study. Additionally, we could not determine if the clinical presentation and laboratory data were risk factors since they were not defined as exposure variables occurring before the parasitosis.
In conclusion, HIV infection was an important risk factor for acquiring Cryptosporidium spp. and C. belli, but not C. cayetanensis among this hospital-based population in Honduras. Diarrhea is part of the clinical presentation of the three parasitoses, but it was only associated with cyclosporiasis. We also found associations with other variables but the study’s low statistical power prevents further conclusions. However, such variables may be risk factors for acquiring these parasitoses, and, therefore, it would be convenient to study them using laboratory detection tools with a higher sensitivity in cohort studies. Although these parasites are endemic in Honduras, further studies are required to better understand the local epidemiology, clinical presentation, circulating Cryptosporidium species, and other aspects yet to be explored.