Online veröffentlicht: 12. Dez. 2024
Seitenbereich: 214 - 223
Eingereicht: 24. Mai 2023
Akzeptiert: 25. Juli 2024
DOI: https://doi.org/10.2478/helm-2024-0022
Schlüsselwörter
© 2024 K. Chalabi, published by Sciendo
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Intestinal parasitic infections are caused by intestinal protozoan parasites and helminths, which are widely distributed throughout the world. Infections with intestinal parasites are the most common infections (Haque, 2007) and considered as the significant health problem in developing countries (Jejaw
Protozoan and helminthic infections may cause serious public health problems which may include: malabsorption, abdominal pain, hemorrhage, diarrhea, reduced work ability and negative impact on growth, especially in children (Pino Santos
The study area was the province of Erbil, the capital of Kurdistan Region, in the north of Iraq. The province is located at 36.19° N, 43.99° E, with altitude of 390 m. According to Kurdistan Region Statistics Office, the estimated total population of this province in 2021 was about 2.25 million. Erbil has a Mediterranean climate with hot summer and cold rainy winter. Public healthcare system in Erbil province is consisted of 15 public hospitals and 186 health centers.
This retrospective cross-sectional study was conducted through the analysis of parasitological stool examination records from 614455 individuals aged between less than one year and 90 years old with signs and symptoms indicative of intestinal parasitic infections. The patients attended at public health care facilities in the province of Erbil, Iraq. Sociodemographical data (sex and age), date of infection and laboratory test results of the patients from 2011 to 2021 were collected using a data extraction checklist.
This study of intestinal parasites was carried out by reviewing 11 years laboratory records (between January 1, 2011, and December 31, 2021) of the directorate of preventive health affairs, all records of infection in all public health facilities in Erbil province were collected in the mentioned directorate. In the laboratories of public health facilities, fecal samples were examined through a microscope using saline wet mount for detection of intestinal protozoa and helminths.
All individuals with gastrointestinal symptoms such as diarrhea, flatulence, abdominal cramp, bloating, malabsorption, blood and/or mucus in stools, irritable bowel had been sent to the laboratory by the physician for stool examination. The study involved Iraqi as well as foreign citizens residing in the province. The patients who attended to the facilities of public hospitals and health care centers in Erbil province with full recorded sociodemographic characteristics such as age, sex, month, year and species of intestinal parasites isolated in the registration book within the period from 2011 to 2021, were included in the study. Any data lacking sociodemographic information and date of stool examination were excluded. Also patients on anti-parasitic drugs were excluded from the study. In the end, data of 614455 patients were included in this study.
The data of each patient with intestinal parasitic infection such as age group, gender, as well as the date (month and the year) of the analysis were recorded. In the records of the directorate of preventive health affairs of the province, patients were grouped in five age categories: children (<1 year old), children (1 – 4 years old), children (5 – 14 years old), teenagers and adults (15 – 44 years old) and adults (>45 years old). For this study, formal consent is not required.
Before extracting patient's data from the laboratory records, a data extraction form was developed for capturing patients' data like age, gender, month, and year of infection using Microsoft Excel. These variables are then transferred to the prepared Excel sheet. In order to guarantee data quality and consistency, data collectors were trained on the data collection tools, the variables and the purpose of the study.
The collected data were entered into a Microsoft Excel database and analyzed using Stata 12 statistical software (Stata Corporation, Texas USA). Chi-squared statistics were used to determine the association between the dependent variable (prevalence of intestinal parasites) and the independent variables (age group, gender, month and year). For all statistics,
The current study was reviewed and approved by the Scientific Committee of the Biology Department in Salahaddin University— Erbil. It was conducted in accordance with the Declaration of Helsinki. An official letter was written to the directorate of preventive health affairs in Erbil for permission. No patient names were collected from the data.
The overall prevalence of intestinal parasites among tested patients was 26034 (4.24 %) out of 614455 included individuals. There was an increase in the number of collected stool samples since 2011 until 2015 and then it was followed by a linear decrease until 2018, the number of samples increased again in 2019. The proportion of patients positive for intestinal parasites decreased from 16.72 % in 2011 to 6.64 % in 2018, then increased to 8.60 % and 7.74 % in 2019 and 2021 respectively (Fig. 1). The maximum number of laboratory diagnosed cases of intestinal parasites was reported in 2011 with 4352 infected persons and the minimum was reported in 2020 with only 167 infected persons.
Positive cases for intestinal parasites by year in Erbil province, Iraq.
Source: data from directorate of preventive health affairs in Erbil province, Iraq.
In this study, nine different species of intestinal parasites were identified in the laboratory registries of the stool specimens of the patients, two protozoans (
Only two protozoan parasites had been recorded by the facilities of health care centers in Erbil province,
The overall prevalence of intestinal parasites from 2011 – 2021 in Erbil province, Iraq.
| 61364 | 2181 a (50.11) | 1509 a (34.67) | 617 a (14.18) | 33 a (0.76) | 6 (0.14) | 3 (0.07) | 3 (0.07) | 0 (0) | 0 (0) | 4352 | ||
| 76244 | 1835 b (51.07) | 1342 a (37.35) | 345 b (9.60) | 38 a (1.06) | 24 (0.67) | 3 (0.08) | 5 (0.14) | 1 (0.03) | 0 (0) | 3593 | ||
| 89377 | 1751 b (57.87) | 915 b (30.24) | 332 b (10.97) | 16 b (0.53) | 9 (0.30) | 3 (0.10) | 0 (0) | 0 (0) | 0 (0) | 3026 | ||
| 90487 | 1775 b (63.44) | 743 b (26.55) | 255 b (9.11) | 17 b (0.61) | 1 (0.04) | 2 (0.07) | 3 (0.11) | 1 (0.04) | 1 (0.04) | 2798 | ||
| 90221 | 1726 b (66.62) | 681 b (26.28) | 169 b (6.52) | 14 b (0.54) | 1 (0.04) | 0 (0) | 0 (0) | 0 (0) | 0 (0) | 2591 | ||
| 57214 | 1120 c (63.21) | 542 b (30.59) | 106 b (5.98) | 1 d (0.06) | 0 (0) | 3 (0.17) | 0 (0) | 0 (0) | 0 (0) | 1772 | ||
| 46723 | 1130 c (64.39) | 498 b (28.38) | 109 b (6.21) | 16 b (0.91) | 0 (0) | 2 (0.11) | 0 (0) | 0 (0) | 0 (0) | 1755 | ||
| 35669 | 1196 c (69.21) | 375 b (21.70) | 140 b (8.10) | 15 b (0.87) | 0 (0) | 2 (0.12) | 0 (0) | 0 (0) | 0 (0) | 1728 | ||
| 43533 | 1594 b (71.22) | 502 b (22.43) | 119 b (5.32) | 19 b (0.85) | 0 (0) | 4 (0.18) | 0 (0) | 0 (0) | 0 (0) | 2238 | ||
| 4225 | 132 d (79.04) | 27 c (16.17) | 7 c (4.19) | 1 d (0.60) | 0 (0) | 0 (0) | 0 (0) | 0 (0) | 0 (0) | 167 | ||
| 19398 | 1421 b (70.56) | 557 b (27.66) | 29 c (1.44) | 7 c (0.35) | 0 (0) | 0 (0) | 0 (0) | 0 (0) | 0 (0) | 2014 | ||
Two numbers with the same letter in the same column between the years are not significantly different at α = 0.05.
Source: data from directorate of preventive health affairs in Erbil province, Iraq.
Intestinal helminthic infections were identified as
Intestinal parasites from 2011 – 2021 in Erbil province, Iraq.
Source: data from directorate of preventive health affairs in Erbil province, Iraq.
Furthermore, males had higher overall prevalence rate of infection (65.73 %) compared to Females (34.27 %).
Analyzing the age trends of infection revealed that patients of age group ranging from 15 to 44 years old had the highest prevalence rate at 52.32 % when compared to other age groups, and the lowest (2.78 %) was in infants less than one year of age. The highest prevalence of protozoan infection was found in the 15 to 44 aged group (55.56 %), while prevalence of helminthic infection was higher in the younger age group of 5 – 14 years (48.59 %). One age group was responsible for all the infections with
Distribution of intestinal parasites by gender and age groups in Erbil province from 2011 – 2021.
| 10778 a (67.95) | 4992 a (64.9) | 1176 (52.78) | 119 a (67.23) | 23 (56.10) | 17 a (77.27) | 7 (63.64) a | 1 (50.00) | 0 b (0.00) | ||
| 5083 b (32.05) | 2699 b (35.09) | 1052 (47.22) | 58 b (32.77) | 18 (43.90) | 5 b (22.73) | 4 (36.36) b | 1 (50.00) | 1 a (100.00) | ||
| 487 d (3.07) | 200 c (2.60) | 31 d (1.39) | 5 d (2.82) | 1 b (2.44) | 0 c (0.00) | 0 d (0.00) | 0 b (0.00) | 0 b (0.00) | ||
| 834 d (5.26) | 475 c (6.18) | 288 b (12.93) | 9 c, d (5.08) | 2 b (4.88) | 1 b (4.55) | 1 c (9.09) | 0 b (0.00) | 0 b (0.00) | ||
| 3103 b (19.56) | 2062 b (26.81) | 1148 a (51.53) | 32 b (18.08) | 15 a (36.59) | 9 a (40.91) | 0 d (0.00) | 2 a (100.00) | 0 b (0.00) | ||
| 9269 a (58.44) | 3817 a (49.63) | 387 b (17.37) | 117 a (66.10) | 12 a (29.27) | 11 a (50.00) | 8 a (72.73) | 0 b (0.00) | 1 a (100.00) | ||
| 1730 c (10.91) | 815 c (10.60) | 109 c (4.89) c | 11 c (6.21) | 10 a (24.39) | 2 b (4.55) | 2 b (18.18) | 0 b (0.00) | 0 b (0.00) | ||
Two numbers with the same letter in the same column between sexes are not significantly different at α = 0.05.
Two numbers with the same letter in the same column between age groups are not significantly different at α = 0.05.
Source: data from directorate of preventive health affairs in Erbil province, Iraq.
In terms of seasonality, monthly prevalence of infections increased to the maximum of 2431 and 2485 in January and February, respectively, while the lowest prevalence was registered in March and December (1715 and 1901 respectively) as shown in Figure 3. Monthly accumulated infections with
Cumulative monthly distribution of intestinal parasites cases in Erbil province, Iraq.
Source: data from directorate of preventive health affairs in Erbil province, Iraq.
The overall prevalence of intestinal parasites stratified by cumulative months from 2011 – 2021 in Erbil province.
| 54854 | 1510 a (62.11) | 672 a (27.64) | 224 a (9.21) | 19 b (0.78) | 0 (0) | 1 b (0.04) | 5 a (0.21) | 0 (0) | 0 (0) | 2431 | ||
| 47261 | 1466 a (58.99) | 769 a (30.95) | 213 a (8.57) | 32 a (1.29) | 2 (0.08) | 1 b (0.04) | 2 b (0.08) | 0 (0) | 0 (0) | 2485 | ||
| 47933 | 1017 b (59.30) | 525 a, b (30.61) | 149 b (8.69) | 13 b (0.76) | 6 (0.35) | 5 a (0.29) | 0 c (0) | 0 (0) | 0 (0) | 1715 | ||
| 46604 | 1376 a, b (61.02) | 719 a (31.88) | 134 b (5.94) | 9 b (0.40) | 14 (0.62) | 2 b (0.09) | 0 c (0) | 1 (0.04) | 0 (0) | 2255 | ||
| 60994 | 1477 a (62.01) | 734 a (30.81) | 162 b (6.80) | 6 c (0.25) | 1 (0.04) | 1 b (0.04) | 0 c (0) | 1 (0.04) | 0 (0) | 2382 | ||
| 55718 | 1408 a (59.04) | 716 a (30.02) | 239 a (10.02) | 14 b (0.59) | 6 (0.25) | 1 b (0.04) | 0 c (0) | 0 (0) | 1 (0.04) | 2385 | ||
| 52751 | 1257 b (59.26) | 655 a (30.88) | 187 b (8.82) | 12 b (0.57) | 7 (0.33) | 2 b (0.09) | 1 b (0.05) | 0 (0) | 0 (0) | 2121 | ||
| 49787 | 1456 a (60.69) | 672 a (28.01) | 261 a (10.88) | 7 c (0.29) | 1 (0.04) | 1 b (0.04) | 1 b (0.04) | 0 (0) | 0 (0) | 2399 | ||
| 54943 | 1322 a, b (63.93) | 592 a, b (28.63) | 143 b (6.91) | 10 b (0.48) | 1 (0.05) | 0 c (0) | 0 c (0) | 0 (0) | 0 (0) | 2068 | ||
| 45397 | 1342 a, b (63.66) | 581 a (27.56) | 170 b (8.06) | 14 b (0.66) | 1 (0.05) | 0 c (0) | 0 c (0) | 0 (0) | 0 (0) | 2108 | ||
| 46448 | 1374 a, b (62.97) | 593 a, b (27.18) | 199 a (9.12) | 12 b (0.55) | 2 (0.09) | 2 b (0.09) | 0 c (0) | 0 (0) | 0 (0) | 2182 | ||
| 47965 | 1221 b (64.23) | 477 b (25.09) | 162 b (8.52) | 32 a (1.68) | 0 (0) | 7 a (0.37) | 2 b (0.11) | 0 (0) | 0 (0) | 1901 | ||
Two numbers with the same letter in the same column between months are not significantly different at α = 0.05.
Source: data from directorate of preventive health affairs in Erbil province, Iraq.
Statistically significant relations (
As per our knowledge, this is the first retrospective cross-sectional study in Erbil province analyzing the results of 11 years of intestinal parasitic infections. Infection with Intestinal parasites considered as neglected tropical disease and is a global public health problem (Jejaw
In the current study of data records, the overall prevalence of intestinal parasitism over the last eleven years was 4.24 % in Erbil province in Iraq. This result was lower than those found in other studies in Iraq. In previous studies conducted in the country, prevalence rates of parasitic infections in hospital patients varied from 7.36 % to 84.67 % and 0 % to 18.01 % of the protozoa and helminth infections respectively (Mahdi, 2022). Although our findings were in agreement with studies reported in Istanbul, Turkey (4 %), the prevalence of intestinal parasitic infections contrasts strongly with that reported in northern Jordan, Van province in Turkey and southern district in Tehran, Iran (44 %, 34.1 % and 10.7 % respectively).
From 2011 to 2015, intestinal parasitic infection rates appear to be decreasing. Possible reasons for the decreased rates of infection during this period might include increasing living standards and hygienic practices in Erbil province, which is part of the Kurdistan region in Iraq, because of the economic boom during this period in the region as a result of high crude oil prices in an oil-dependent country's economy with oil prices recorded more than 100 U.S. dollars per barrel. After that, the economic crisis hit the region, leading to reduced GDP growth and increased poverty. Low-income and poverty are considered as an important risk factor for infection with intestinal parasites. Several studies have shown higher prevalence as a result of lower socioeconomic conditions (Östan
For the first time in 11 years, the prevalence of intestinal parasites in Erbil province showed a great decline in 2020. This decline could be related to the absence of data during the quarantine due to the COVID–19 pandemic. People in lockdown also may face difficulties getting public health help to diagnose intestinal parasites. Also, the quarantine period increased people's sensitivity to personal hygiene measures, leading to lower infection rates. These reasons resulted in a decrease in the prevalence of intestinal parasites in 2020.
The results of this study showed the incident of nine intestinal parasites of public health importance among residents of the province. The rate of intestinal parasites varies by age and sex. The 15 – 44 years age group harbored more than the half of the intestinal parasitic infections (52.32 %), followed by those aged 5 – 14 years, while infants >1 year (2.78 %) were the least infected age group. This can be explained by the characteristics of the young and active age group (15 – 44 years), such as eating in restaurants and the difficulties in ensuring hygiene in all restaurants. Infants smaller than one year old recorded the lowest rate of intestinal parasitic infection. This may be due to the fact that during the first six months of life, infants should be exclusively fed on human milk, so there is little chance of eating contaminated raw vegetables and fruits.
The finding of present study is consistent with a previous study carried out in Debre Tabor, Northwest Ethiopia from 2017 to 2021 (Workineh
Regarding protozoan infection, the age group 15 – 44 years showed the highest association of infection than other age groups. The burden of these protozoan parasites in developing countries is mainly due to fecal contamination as a result of poor sewage and poor water quality. In Iraq, the fresh and tap water could be contaminated with pathogenic protozoan parasites like
Prevalence of helminthic infection was higher in the age group 5 – 14 years. The possible reasons might be due to children playing with soil which facilitates the infection with the helminthic parasites including soil–transmitted helminths.
The prevalence of intestinal parasitic infections is higher in males than females in most age groups, especially among adults aged 15 – 44 years, which was 3.45 times higher than in females for this age group. this could be explained by the immunological differences exist between the sexes that may contribute to increased parasitic infection in males compared to females (Klein, 2004). The other reason may be due to fact that these males recorded higher outdoor activities than females in the province, which increases their susceptibility to parasitic infections. The finding of the present study was similar to the findings of previous studies performed across Iraq which reported higher rates of infection in males than females (Mahdi, 2022). These findings that males are more likely to be infected are also found in other countries, such as in N'Djamena in Chad Republic where males recorded higher infection rates with intestinal parasites (Hamit
The protozoan infection rate was 9.58 times greater than that of helminthic infection. Other studies also reported higher infection with protozoa than helminths in Riyadh, the capital of Saudi Arabia and in Sana'a, the capital of Yemen (Abdelkareem
Only two species of protozoan parasites (
The results of our study showed that
In the current study, only 9.53 % of the samples tested positive for helminths, with the pinworm
Regarding seasonality, the maximum peaks of intestinal parasitic infections were recorded during winter (January and February), which are rainy months in Erbil. These results are consistent with those reported by González-Moreno
The standard diagnostic method for intestinal parasitic infections in Erbil province is wet mount for stool samples, which could underestimate the prevalence of infection, compared to Formol–Ether concentration technique (Mengist
In general, the present study showed a significant decrease of overall prevalence of intestinal parasitic infections in the province over the eleven years period. Prevalence of protozoan parasites were higher than helminthic parasites in the studied community. Protozoan parasites were more prevalent in adolescents and adults, while helminthic parasites were most common in children, with predominance of positivity among males.
Further studies are needed to explore molecular epidemiology for a better understanding of the epidemiology and strain identification of intestinal parasites. The combination of microscopic and concentration techniques for routine laboratory and community-based research is recommended for the diagnosis of intestinal parasitic infections. In intestinal parasites, three stool samples must be collected on three consecutive days for the determination of infection. Investigations of other associated risk factors among the population are recommended to improve understanding of infections and improve future prevention strategies.