The effect of opium on severity of COVID-19 infection:An original study from Iran.

Background: The COVID-19 infection is a novel virus without any specific targeted therapies; thus, focusing on primary epidemiologic concerns, preventive strategies, risk factors, exacerbation factors, and mortality-related factors are of great importance to better control this disorder. There are some controversies about the factors associated with COVID-19 in different theories, and addiction is no exception.
Methods: We conducted a large cross-sectional study of 513 hospitalized Iranian patients with COVID-19 infection to evaluate the severity of disease courses in patients with or without history of opium addiction. We recorded these data retrospectively after patients' discharge from the hospital. For the quantitative data, we used independent-samples t and Mann-Whitney tests. The qualitative data were calculated using Fisher exact and chi-square tests in IBM SPSS Statistics Version 22. Also, p<0.05 was considered statistically significant.
Results: There was no significant difference regarding mean days of hospitalization in opium positive and negative groups (7.95±8.39 vs 8.35±5.11, respectively) (p=0.771); however, the need for intensive care unit (ICU) admission was significantly higher in the opium positive group (36% vs 11%) (p=0.005). The mean days of ICU stay was significantly higher in the opium positive group (2.36±3.81 vs 0.86±2.90) (p=0.026). The percentage of febrile patients, anosmia/hyposmia, and dysgeusia at the initiation of hospitalization was significantly lower in the opium positive group (39% vs 66%; 8% vs 23%; 8% vs; 20%, respectively) (p=0.002, 0.018, and.031, respectively). In the laboratory tests, only the white blood cell (WBC) count and the segmented cells were higher in the opium positive group (10.1±6.60 vs 7.38±4.14 and 73±20.47 vs 56.5±32.60, respectively) (p=0.018 and.001, respectively) and lymphocytes were lower in the opium positive (15.60±8.25 vs18.70±10.12) (p=0.048). Opium addicts had a significantly lower rate of azithromycin and lopinavir/ritonavir prescription in their initiation therapy (19% vs 34%, and 47% vs 70%, respectively) (p=0.038 and 0.012, respectively).
Conclusion: Opium addict patients with COVID infection may be more febrile and experience more disease-specific symptoms and more severe disease course. These patients may show more evidence of laboratory inflammation and probable superinfections, so may manage with more caution and somehow different therapeutic regimen.

↑What is “already known” in this topic:

The COVID-19 infection is a novel virus without any specific targeted therapies. There was more evidence against any protective role of addiction on COVID-19 infection or experiencing any better course of disorder in an addicted person, so that most studies have reported addiction as a triggering or worsening factor of COVID-19.

→What this article adds:

Opium-addicted patients with COVID infection may be more febrile and experience more disease-specific symptoms and more severe disease course. These patients may reveal more evidence of laboratory inflammation and probable superinfections.

Introduction

The COVID-19 infection is a novel virus that mainly targets the respiratory system via specific receptors without any targeted therapies; thus, focusing on primary epidemiologic concerns, preventive strategies, risk factors, exacerbation factors, and mortality-related factors are of great importance needing to be evaluated (1). One of the hot topics with somehow controversies is the effect of smoking and addiction on the infection rate and disease consequences of COVID-19 in this pandemic area.

The negative effect of smoking on disease severity and mortality has been shown in several studies in the different viral infections, such as influenza, MERS-CoV, and recently in COVID-19 (2,3). This adverse effect may be due to the impact of smoking on immune system function, more exposure to contagious infections or the direct destructive effect of smoking on lung tissue. On the other hand, this effect has been observed in patients with both current and previous history of smoking (3).

However, there are controversial findings of the effect of opium and other substances on the prevalence, severity, and mortality rate of COVID-19. In a study from Iran, Khoshab et al reported the protective effect of opium addiction against COVID-19 infection, because none of their COVID-19infectedpatients had a history of opium addiction (4).

Another study from Iran showed a higher mortality rate of COVID-19 in opium-addicted patients compared with nonaddicted population (5).

In all relevant studies, the adverse effect of smoking in final outcomes of COVID-19 is evident. Up to September 2020, when we were writing this article, there was more evidence against any protective role of addiction on COVID-19 infection or experiencing any better course of disorder in an addicted person, so that most studies have reported the addiction as a triggering or worsening factor of COVID-19 (2,3,5-8). However, due to some overall controversies, especially about addiction, for more exact and more complete discussion (on the effect of opium addiction in infection risk and disease-consequence), we need more well-designed controlled studies. In this large cross-sectional study from Iran, we aimed to evaluate the effects of opium addiction on the severity of incoming COVID-19 infection.

Methods

This analytical cross-sectional study was conducted on 549 Iranian patients affected by COVID-19 between March to May 2020 who were hospitalized in RasoolAkram Medical Complex affiliated to Iran University of Medical Sciences, Tehran, Iran. Their diagnoses were approved by a positive nasopharynx RT-PCR test;or in the case of negative polymerase chain reaction (PCR) test, based on very suggestive computed tomography (CT) imaging for COVID-19 scored by the CO-RADS classification system (6). Of 549 patients, 36 cases (6.5%) had a positive history of addiction with a focus on opium addiction. This history was taken by an expert specialist who managed the patients and recorded their data. We tried to compare the severity of COVID-19 in patients with or without opium addiction history. However, we did not consider smokers in this comparison. The main outcomes of this study for comparison between the 2 groups (which were considered indirectly to be associated with the overall severity score of the disease) were the mean days of hospitalization, the necessity for intensive care unit (ICU) admission, the average days of staying in the ICU, and the need to take second-line therapeutic options. For both groups, we assessed demographic data of the disease and the patients, laboratory tests, and treatment protocols, completely. Continuous variables were presented as mean and SD, and for the quantitative data, independent samples t and Mann-Whitney tests were used.The qualitative data were calculated using the Fisher exact and chi-square test in IBM SPSS Statistics Version 22; and p<0.05 was considered statistically significant. The ethical code of the large cohort study of RasoolAkram Medical Complex from which the data for this study were extracted was as follows: IR.IUMS.REC.1399.759.

Results

Demographic data of the study participates has is presented in Table 1.There was no significant difference between the groups regarding mean days of hospitalization; however, the need for ICU admission was significantly higher in the opium positive group (36.1% vs 11.3% (p=0.005); the mean days of ICU stay was higher in the opium positive group (2.36±3.81 vs 0.86±2.90) (p=0.026). The percentage of febrile patients, anosmia/hyposmia, and dysgeusia at the initiation of hospitalization was lower in the opium positive group (39% vs 66%; 8% vs 23%; 8% vs 20%, respectively) (p=0.002, 0.018, and, 0.031, respectively) (Table 1).

Table 1

Disease and patients’ characteristics in patients with positive and negative history of opium addiction

Variable	OPIUM (positive)(n=36)	OPIUM (negative)(n=513)	p
Gender (female)	6 (16.7%)	230 (44.8%)	0.001
Age	60±14.18	59.31±16.55	0.793
Hospitalization Days	7.95±8.39	8.35±5.11	0.771
ICU Days	2.36±3.81	0.86±2.90	0.026
ICU ADDMISSION	13 (36.1)	58 (11.3)	0.005
PCR (positive)	4 (11.1%)	53 (10.3%)	0.781
chills (yes)	15 (41.7%)	330 (64.3%)	0.106
Fever (positive)	14 (38.9%)	338 (65.9%)	0.002
Fever length	1.50±2.50	2.45±3.50	0.143
Dyspnea (positive)	22 (66.7%)	347 (68%)	0.870
Fatigue (positive)	22 (75.9%)	368 (72.6%)	0.700
Anorexia (positive)	17 (63%)	310 (63%)	0.996
Body pain (positive)	16 (61.5%)	305 (59.8)	0.861
Diarrhea (positive)	6 (23.1%)	94 (18.7%)	0.582
New Diarrhea (positive)	3 (11.5%)	49 (9.8%)	0.773
Sore through (positive)	3 (11.5%)	113 (22.3%)	0.115
N & V (positive)	10 (27.8%)	181 (35.3%)	0.345
Sputum (positive)	8 (32%)	134 (26.4%)	0.540
Chest discomfort (positive)	7 (26.9%)	161 (31.8%)	0.606
Headache (positive)	8 (29.6%)	175 (34.6%)	0.598
Vertigo (positive)	4 (16%)	122 (24.2%)	0.300
Delusion (positive)	3 (12%)	52 (11.1%)	0.891
LOC (positive)	9 (30%)	84 (17.8%)	0.169
Anosmia or hyposmia (positive)	2 (8%)	108 (22.7%)	0.018
Dysgeusia (positive)	2 (8%)	101 (19.7%)	0.031
Heart Disease (positive)	9 (30%)	129 (25.2%)	0.562
Lung Disease (positive)	5 (13.9%)	56 (10.9%)	0.584
Kidney Disease (positive)	6 (21.4%)	48 (9.5%)	0.146
Dialyzed (positive)	3 (10.7%)	15 (3%)	0.209
Immunodeficiency (positive)	_	_	_
DM (positive)	12 (37.5%)	156 (30.6%)	0.417
HTN (positive)	8 (26.7%)	152 (30.1%)	0.691
Malignancy (positive)	3 (10.7%)	24 (4.7%)	0.328

In the laboratory tests, only the white blood cells (WBC) count was higher in the opium positive group (10.1±6.60 vs 7.38±4.14) (p=0.018). The segmented cells and lymphocyte were higher and lower in the opium positive group, respectively (0.001 and 0.048) (Table 2).

Table 2

Laboratory test results in patients with positive and negative history of positive and negative history of opium addiction

Variable	OPIUM (positive)(n=36)	OPIUM (negative)(n=513)	p
WBC	10.1±6.60	7.38±4.14	0.018
Diff _segment	73±20.47	56.5±32.60	0.001
Diff_ lymphocyte	15.60±8.25	18.70±10.12	0.048
ESR	40±24	49±26.32	0.118
CRP	8.16±15.32	8.60±15.80	0.874
Cr	1.42±1.52	1.15±0.61	0.301
AST	34±22.8	40±28	0.225
ALT	24±19.95	27±31.3	0.659
LDH	618±262	613±260	0.923
CPK	227±343.6	208±318	0.781

In Table 3, the initial therapies of both groups are shown. In the opium positive group, there was a significantly lower rate of azithromycin and lopinavir/ritonavir prescription, with P values of 0.038 and 0.012, respectively.

Table 3

Initial therapies during hospitalization in patients with positive and negative history of opium addiction

Variable	OPIUM (positive)(n=36)	OPIUM (negative)(n=513)	p
Azithromycin	7(19.4%)	178(34.7%)	0.038
Heparin	29(80.6%)	383(74.7%)	0.403
Lopinavir and ritonavir	17(47.2%)	359(70%)	0.012
Linezolid	10(27.8%)	114(22.2%)	0.408
Hydroxyl chloroquin	33(91.7%)	453(88.3%)	0.811

Discussion

There are overall agreements about the adverse and destructive effect of smoking in COVID-19 infected patients and about some of the controversies about opium addiction. Some studies have proposed that opium deregulates the immune system, such as increasing cytokine secretion, especially interleukin-6 (5,7).

Prolonged use of opium,by influencing the respiratory system, predisposes the addicts to structural lung disease, dysfunctional immune system, and failure of respiratory support and compensation (5,8).On the other hand, addicts have more unprotected exposures in more crowded areas and even encounter more viral loads as well as more unknown or uncontrolled underlying disorders that can justify the results of our study about more severe disorders and worse outcomes, although we could not discuss infection risk or mortality rate because of some limitations.

In line with our study, the study of Wang et al showed an increased risk of infection and mortality rate in patients with addiction compared with general COVID-19 patients, and this negative effect was seen more in African-American patients compared to Caucasians; the differences have been proposed for probable underlying disorders in various ethnic groups (8). The results of our study support the results of the latter study regarding disease severity but since we did not evaluate mortality rate, we cannot discuss this entity.

There are some controversies about the effect of addiction on COVID-19 like its protective or triggering role, so that there are few evidences that emphasize the protective role and the other evidences against any protective role and have reported addiction as a triggering or worsening factor of COVID-19 (Khoshab, Saeedi, Wang) (4,5,8).

We found some interesting results, including more febrile patients, anosmia/hyposmia and dysgeusia presentations, and leukocytosis with more segmented cell ratios at the initiation of hospitalization in patients with addiction, which could be related to structural damage of their respiratory system or more susceptibility to additional bacterial superinfections.

The authors of this study have worked with great efforts on various aspects of COVID-19 (9-22), and tried to report the results of this study to evaluate the effects of opium addiction in patients with COVID-19. They also found a significant association between more severe features of COVID-19 and opium addiction.

Limitations and Recommendations

In this study, we did not have a control group to evaluate the probable protective or triggering effect of opium in the infection rate of COVID-19. Also, we did not consider mortality in our outcomes, as we retrospectively collected the data of opium addiction of our discharged patients and did not gather the data of patients who died during hospitalization. In this study, the clinical and imaging severity scores of patients were not calculated based on predefined scores because during the data collection these scores were not as popular as are now, and the main outcomes of this study for comparison between 2 groups, which were considered indirectly to be associated with the overall severity score of the disease, were the mean days of hospitalization, the necessity for ICU admission, the average days of staying in ICU, and the need to take second-line therapeutic options. Unfortunately, we did not find any national study about overall opium addiction prevalence in all age groups of the Iranian population to even theoretically discuss the effect of opium on the infection rate of COVID-19 in Iranian patients. Moreover, we did not focus on positive smoking history or type of substance that the patients with addiction used to abuse, we just took a history of any addiction or opium usage. Certainly, the type of addiction and route of substance abuse may impact the subgroup dada analysis. However, at first, we chose the most accessible, fastest, and simplest data gathering route. Thus, we recommend conducting well-designed controlled studies to obtain more explicit results.

Conclusion

Opium-addicted patients with COVID infection may be more febrile and experience more disease-specific symptoms and more severe disease course. These patients may reveal more evidence of laboratory inflammation and probable superinfections, so they should be managed with more care and with different or additional therapeutic regimen.

Acknowledgement

The authors would like to thank Rasool Akram Medical Complex Clinical Research Development Center (RCRDC) for its technical and editorial assists.

Conflict of Interests

The authors declare that they have no competing interests.