Authors: Natanim Degefu, Abera Jambo, Shambel Nigusse, Mesay Dechasa, Tigist Gashaw, Melaku Getachew
Categories: Original Research, Ethiopia, acute heart failure, cardiogenic pulmonary edema, tertiary hospital
Source: Open Access Emergency Medicine : OAEM
Doi: 10.2147/OAEM.S436352
Authors: Natanim Degefu, Abera Jambo, Shambel Nigusse, Mesay Dechasa, Tigist Gashaw, Melaku Getachew
Despite cardiogenic pulmonary edema is the most common phenotype of acute heart failure (AHF), studies on its burden and associated factors are limited. This study aimed to assess the burden and contributing factors of cardiogenic pulmonary edema in patients with acute heart failure admitted to a tertiary hospital in eastern Ethiopia.
An institution-based cross-sectional study was conducted on the medical records (n = 276) of patients with AHF between February 01, 2018, and January 31, 2023. A simple random sampling technique was used to select participants from the study population. Bivariable and multivariable logistic regression analyses were used to assess factors associated with the development of cardiogenic pulmonary edema. A P-value ≤0.05 was considered as statistically significant.
The prevalence of cardiogenic pulmonary edema was 47.8% in AHF patients. Rural residence (adjusted odds ratio (AOR),9.54), smoking (AOR,3.17), comorbidity (AOR,2.1), and underlying cardiovascular disease (ischemic heart disease, chronic rheumatic valvular heart disease, and hypertensive heart disease with AOR: 6.71, 8.47, and 12.07, respectively) were significantly associated with the development of cardiogenic pulmonary edema in patients with AHF.
Nearly half of the patients with AHF had cardiogenic pulmonary edema. Being a rural dweller, cigarette smoking, comorbidities, and underlying cardiac illness were significantly associated with the development of cardiogenic pulmonary edema in patients with AHF.
Acute heart failure (AHF) is a clinical syndrome characterized by a new onset or progression of signs and symptoms of heart failure, which is the leading cause of hospital admission and mortality.1 Cardiogenic pulmonary edema is most often phenotype of AHF.2
Pulmonary edema can be either cardiogenic pulmonary edema or noncardiogenic pulmonary edema.3 Cardiogenic pulmonary edema is mainly caused by left ventricular failure.4 It is a major cause of emergency department (ED) visits in patients with AHF. The major triggering factors for cardiogenic pulmonary edema are acute ischemia or myocardial infarction, hypertension, arrhythmias (particularly atrial fibrillation), and acute regurgitant valvular heart diseases.5 The major treatment option for the management of cardiogenic pulmonary edema includes oxygen and diuretic.6
Cardiogenic pulmonary edema is a life-threatening condition. It is a major health problem, particularly in developing countries. The prevalence of cardiogenic pulmonary edema in patients with AHF is 80%.7 Worldwide, more than 1 million patients are admitted each year with a diagnosis of pulmonary edema secondary to cardiac causes.8 The prevalence of cardiogenic pulmonary edema in AHF with reduced ejection fraction (REF) trials ranged from 75% to 83% and in combined AHF-REF and AHF-PEF (preserved ejection fraction) trials from 51% to 100%.9 In a study done in Addis Ababa, Ethiopia, the prevalence of pulmonary edema among AHF patients was 64.3%.10
To the best of our knowledge, no study has been conducted on cardiogenic pulmonary edema among patients with AHF in Harar, Eastern Ethiopia, which describes the burden and contributing factors of cardiogenic pulmonary edema among patients with AHF. Therefore, the present study provides valuable information on the burden and contributing factors of cardiogenic pulmonary edema among patients with AHF admitted to a tertiary hospital in eastern Ethiopia.
An institutional-based cross-sectional study was conducted in a tertiary hospital in Harar, Eastern Ethiopia, from April 1 to April 30, 2023. Harar is the capital of the East Hararghe Zone and the capital city of the Harari regional state of Ethiopia. It is located 526 km from the national capital, Addis Ababa. It has a total population of 246,000, of which 124,000 are males.11 Hiwot Fana Comprehensive Specialized Hospital is the only tertiary hospital in Harar City. Hiwot Fana Comprehensive Specialized Hospital serves as a teaching and referral hospital for eastern Ethiopia, including Eastern Oromia, the Dire Dawa City Administration, the Somali Regional State, and the Harari Regional State. It has a catchment population of 5.8 million.12
The medical records of all adult patients with an admission diagnosis of AHF from February 01, 2018, to January 31, 2023, were reviewed and included in this study. Patients with incomplete information regarding the signs and symptoms of AHF were excluded from this study. The sample size was calculated by using single population proportion considering the following where n is the required sample size, Zα/2 = 1.96 at 95% confidence interval (CI), p is the proportion of patients with pulmonary edema among AHF patients, P=64.3%,10 and d is the assumed marginal error (5%), and the sample size was 353. Because the total population was below 10,000, the finite population correction formula was used (n=353 and N=1180), and the sample size was 272. Taking into a 10% contingency, a final sample size of 299 was selected for the present study. A simple random sampling technique was used to select samples from the study population.
The collection checklist has been adapted from a previous study.10 The checklist included sociodemographic characteristics (age, sex and residence), smoking status, comorbidities, clinical characterstics (sign & symptoms, and working diagnosis), laboratory and imaging. . Data were collected by two well-trained BSc nurses and a clinical pharmacist.
Cardiogenic pulmonary The final diagnosis of acute cardiogenic pulmonary edema was made based on a physician’s diagnosis established according to different clinical examination, medical history, electrocardiogram, chest X-ray, echocardiographic examination, brain natriuretic peptide results, and response to therapy.13
Comorbidity: is defined as the co-existence of chronic diseases.
Acute heart Signs and symptoms of new onset of heart failure or decompensation or worsening of chronic stable HF.14,15
Training was provided to the data collectors regarding the contents of the data collection checklist, data collection procedures, and ethical considerations during data collection. The principal investigator supervised the study. A pre-test was performed at Jugal General Hospital on 5% of patients’ medical records to ensure clarity, avoidance of ambiguity, comprehensiveness, and content uniformity. Adjustments were made to the tool for final data collection. The supervisors checked all the collected data for the completeness of the checklist, and incomplete checklists were discarded before data entry.
The collected data were entered into Epi-Data 3.1 and exported to SPSS 27.0. Data were also screened for normality using the Shapiro–Wilk test. Continuous variables are reported as medians (interquartile range (IQR)). Categorical variables were reported as percentages and frequency tables. Bivariable and multivariable logistic regression analyses were used to identify factors associated with the development of pulmonary edema. Variables with p<0.25 in the bivariable stage, were considered for multivariable analysis to control for potential confounders. The variable with a p-value less than 0.05 with the 95% CI in the multivariable analysis was considered significantly associated with the development of cardiogenic pulmonary edema. The goodness of fit of the model was tested using the Hosmer–Lemeshow statistic test. The model was considered a good fit because it was found to be insignificant for the Hosmer–Lemeshow statistic (P = 0.445). A multicollinearity test was performed to determine the correlation between independent variables using correlation coefficients. No variables were observed with a value >0.7, indicating the absence of multicollinearity among the variables in this study.
From the 299 patient medical records, 276 (93.3%) medical records of AHF patients were employed for analysis, and 23 (6.7%) were excluded due to incomplete information regarding the admission records. Of the total participants, more than half (147, 53.3%) of them were males. The median (IQR) age was 45 (35–60) years. Majority (167, 60.5%) of the patients were rural dwellers. Nearly one third (94, 34.1%) of the patients were smoking cigarette. More than one third of the patients (107, 38.8%) had comorbidity and around sixteen percent of the patients (44, 15.9%) were taking medication for heart failure. Chronic rheumatic valvular heart disease (CRVHD) (105, 38.0%) was the commonest underlying cardiovascular disease followed by hypertensive heart disease (HHD) (84, 30.4%). Shortness of breath (175, 63.4%) was the commonest chief compliant with the presentation of the patient to the hospital. Majority of the patients had orthopnea (256, 92.8%), postural nocturnal dyspnea (241, 87.3%), hypoxia (229, 83.0%), peripheral edema (208, 75.4%), and S3 gallop (182, 65.9%) (Table 1).Table 1Socio-Demographic and Clinical Characteristics Among AHF and Cardiogenic Pulmonary Edema Patients Admitted to Tertiary Hospital, Eastern EthiopiaVariableCategoryAHF, n (%)Cardiogenic Pulmonary Edema, n (%)Yes, n (%)No, n (%)SexFemale129 (46.7)54 (40.9)75 (58.1)Male147 (53.3)78 (59.1)69 (46.9)Age (in years)Median (IQR)45 (35–60)45 (35.5–57)45 (35-60)ResidenceRural167 (60.5)110 (83.3)57 (39.6)Urban109 (39.5)22 (16.7)87 (60.4)Cigarette Smoking historyNo182 (65.9)70 (53.0)112 (77.8)Yes94 (34.1)62 (47.0)32 (22.2)ComorbidityNo169 (61.2)70 (53.0)99 (68.8)Yes107 (38.8)62 (47.0)45 (31.3)History of taking medicationNo232 (84.1)104 (78.8)128 (88.9)Yes44 (15.9)28 (21.2)16 (11.1)Underlying cardiovascular diseaseCRVHD105 (38.0)57 (43.2)48 (33.3)IHD34 (12.3)17 (12.9)17 (11.8)HHD84 (30.4)46 (34.8)38 (26.4)VHD15 (5.4)5 (3.8)10 (6.9)Cor pulmonale38 (13.8)7 (5.3)31 (21.5)Chief complimentsChest Pain33 (12.0)19 (14.4)14 (9.7)SOB175 (63.4)92 (69.7)83 (57.6)Cough24 (8.7)2 (1.5)22 (15.3)Body swelling44 (15.9)19 (14.4)25 (17.4)OrthopneaNo20 (7.2)8 (6.1)12 (8.3)Yes256 (92.8)124 (93.9)132 (91.7)Postural nocturnal dyspneaNo35 (12.7)15 (11.4)20 (13.9)Yes241 (87.3)117 (88.6)124 (86.1)SBP (mmHg)Median (IQR)112 (98–131)107 (97–128)113 (99-134)Oxygen saturation (%)Normal47 (17.0)19 (14.4)28 (19.4)Hypoxia229 (83.0)113 (85.6)116 (80.6)Pulse rateNormal137 (49.6)70 (53.0)67 (46.5)Bradycardia11 (4.0)3 (2.3)8 (5.6)Tachycardia128 (46.4)59 (44.7)69 (47.9)S3 gallopNo94 (34.1)47 (35.6)47 (32.6)Yes182 (65.9)85 (64.4)97 (67.4)MurmurNo114 (41.3)59 (44.7)55 (38.2)Yes162 (58.7)73 (55.3)89 (61.8)Peripheral edemaNo68 (24.6)30 (22.7)38 (26.4)Yes208 (75.4)102 (77.3)106 (73.6)Abbreviations: AHF, Acute heart failure; CRVHD, Chronic rheumatic valvular heart disease; IHD, Ischemic heart disease; HHD, Hypertensive heart disease; VHD, Valvular heart disease; NYHA, New York Heart Association; SOB, Shortness of breath.
The prevalence of cardiogenic pulmonary edema was 47.8% (132) among AHF patients. More than half of patients with pulmonary edema had no history of cigarette smoking (70, 53.0%) and comorbidity (70, 53.0%). Similar to AHF, among patients who had cardiogenic pulmonary edema CRVHD (57, 43.2%) was the commonest cause of underlying cardiovascular disease followed by HHD (46, 34.8%) and ischemic heart disease (IHD) (17, 12.9%). Non-rheumatic valvular heart disease (VHD) and cor pulmonale were the less common presentation of AHF, (15,5.4%) and (38, 13.8%), respectively. Shortness of breath was the commonest (92, 69.7%) chief compliant of patients with pulmonary edema for their hospital visit. Orthopnea (124, 93.9%) was the most common symptom among patients with cardiogenic pulmonary edema. Most of the patient with cardiogenic pulmonary edema were hypoxic at the time of presentation (113, 85.6%) (Table 1). The overall in-hospital mortality of patients among AHF was 8.7%, while patients who had cardiogenic pulmonary edema was 11.4%.
More than half of the patients with AHF and pulmonary edema had normal hemoglobin level, (159, 57.6%) and (83, 62.88%), respectively. The median serum creatinine value was 0.9 mg/dl with IQR of 0.68 mg/dl and 1.23 mg/dl among AHF. Out of 201 participants, who had echocardiography, nearly one third of patients were having reduced ejection fraction. Among AHF patients who had chest x ray (227), pulmonary edema (152, 66.9%) was the commonest finding followed by pleural effusion (167, 60.5%). Among patients who had point of care ultrasound (POCUS) of chest (259), multiple B-lines (234, 90.3%) and pleural effusion (232, 84.1%) were commonly seen in bed side POCUS among patients with AHF. Similarly, multiple B-lines were the commonest finding with POCUS among patient with cardiogenic pulmonary edema (122, 96.8%) (Table 2).Table 2Laboratory and Radiologic Characteristics Among AHF and Cardiogenic Pulmonary Edema Patients Admitted to Tertiary Hospital, Eastern EthiopiaVariableCategoryAHF, n (%)Cardiogenic Pulmonary EdemaYess, n (%)No, (%)Hemoglobin (mg/dl)Normal159 (57.6)83 (62.88)76 (52.8)Anemia117 (42.4)49 (37.12)68 (47.2)Serum Creatinine (mg/dl)Median (IQR)0.9 (0.68–1.23)0.89 (0.67–1.13)0.9 (0.7-1.38)Serum Sodium (mmol/l)Median (IQR)136 (132–139)136 (133–138)136 (132-139)Serum Potassium (mmol/l)Median (IQR)4.2 (3.7–4.8)4.2 (3.7–4.8)4.2 (3.75-4.79)Ejection fractionReduced63 (31.3)29 (29.29)34 (33.7)Preserved138 (68.7)70 (70.71)68 (66.7)Chest X-rayPulmonary edema152 (66.9)97 (82.9)55 (31.8)Pleural effusion167 (60.5)91 (77.8)76 (43.9)Cardiomegaly96 (34.8)54 (46.2)42 (24.3)POCUSMultiple B-lines234 (90.3)122 (96.8)112 (49.3)Pleural effusion232 (84.1)117 (92.8)115 (50.7)Abbreviations: AHF, Acute heart failure; POCUS, Point of care ultrasound; IQR, Interquartile range.
Infection, hypertension, and anemia were the common precipitating factors for AHF and cardiogenic pulmonary edema (Figure 1). Figure 1Types of precipitating factors among Acute Heart Failure and Cardiogenic Pulmonary Edema patients admitted to Tertiary Hospital, Eastern Ethiopia.
The variables that had P-value less than 0.25 in bivariable analysis were transformed to multivariable logistic regression. In the final model, sex, residence, cigarette smoking, comorbidity, underlying cardiovascular disease, and systolic blood pressure (SBP) were significantly associated with cardiogenic pulmonary edema as shown in Table 3.Table 3Factors Associated with Cardiogenic Pulmonary Edema Among AHF Patients Admitted to Tertiary Hospital, Eastern EthiopiaVariablesCardiogenic Pulmonary EdemaCOR (95% CI)AOR (95% CI)No n (%)Yes n (%)SexFemale75 (58.1)54 (41.9)11Male69 (46.9)78 (53.1%)1.57 (0.975–2.53)1.09 (0.58–2.07)ResidenceRural57 (34.1)110 (65.9)7.63 (4.33–13.45) **9.25 (4.88–17.52) **Urban87 (79.8)22 (20.2)11Cigarette smokingNo112 (61.5)70 (38.5)11Yes32 (34.0)62 (66.0)3.1 (1.84–5.23) **3.01 (1.52–5.98) *ComorbidityNo99 (58.6)70 (41.4)11Yes45 (42.1)62 (57.9)1.95 (1.19–3.18) *2.09 (1.12–3.88) *Underlying cardiovascular diseaseIHD17 (50.0)17 (50.0)5.26 (2.13–13.01) **6.21 (2.19–17.59) *CRVHD48 (45.7)57 (54.3)4.43 (1.53–12.80) *7.65 (2.14–27.38) *HHD38 (45.2)46 (54.8)5.36 (2.12–13.53) **10.92 (3.69–32.3) **VHD10 (66.7)5 (33.3)2.21 (0.57–8.55)2.59 (0.57–11.80)Cor pulmonale31 (81.6)7 (18.4)11SBP118.33 ± 27.94113.89 ± 23.050.99 (0.98–1.03)0.98 (0.98–1.01)Notes: **P <0.001, *P <0.05.Abbreviations: AHF, Acute heart failure; CRVHD, Chronic rheumatic valvular heart disease; IHD, Ischemic heart disease; HHD, Hypertensive heart disease; VHD, Valvular heart disease; NYHA, New York Heart Association; POCUS, Point of care ultrasound; IQR, Interquartile range; COR, Crude odds ratio, AOR, Adjusted odds ratio, CI, Confidence interval.
The odds of developing cardiogenic pulmonary edema were increased 9.25 times more likely among rural dwellers than urban residents (adjusted odds ratio (AOR): 9.25, 95% CI: 4.88–17.52). Patients who smoke cigarette were 3 times more likely to develop cardiogenic pulmonary edema as compared to those who do not smoke (AOR: 3.01, 95% CI: 1.52–5.98). The odds of cardiogenic pulmonary edema were doubled among patients with comorbidity than those who do not have comorbidity (AOR: 2.09, 95% CI: 1.12–3.88).
The odds of developing cardiogenic pulmonary edema were higher in patients with IHD, CRVHD, and HHD compared to patients who had corpulmonale, (AOR: 6.71, 95% CI: 2.30–19.67), (AOR: 8.47, 95% CI: 2.29–31.33), and (AOR: 12.07, 95% CI: 3.96–36.76), respectively.
This study demonstrated that being rural dweller, cigarette smoking, having comorbidity, and underlying cardiac illness were significantly associated with the development of cardiogenic pulmonary edema among patients with AHF.
In this study, the median age of the patients was similar to the previous study conducted in the tertiary hospital Addis Ababa, Ethiopia.10 In contrast to this study, however, our patients are younger than previously reported in the global study and in developed countries (median age 67 to 79 years).16–18 The discrepancy could be due to difference in underlying cardiac illness and modifiable risk factors for cardiovascular disease.
In this study, CRVHD was the most common (43.2%) underlying cardiovascular disease among patients with cardiogenic pulmonary edema. Similarly, a study conducted in the tertiary center in Addis Ababa, Ethiopia,10 also showed that CRVHD was the most common cause of AHF and cardiogenic pulmonary edema. On the contrary, the study done in Spain,19 the Netherlands,20 and Poland21 showed that IHD was the most common cause. This discrepancy was due to poor health-care access and poor living standards resulting in exposure to group A streptococcus, which resulted in high prevalence of rheumatic heart disease in developing countries, Ethiopia.22 The odds of developing cardiogenic pulmonary edema increased among patients with underlying cardiovascular disease of HHD (11 times), CRVHD (7.6 times), and IHD (6.2 times) compared to patients who had corpulmonale (AOR: 6.71, 95% CI: 2.30–19.67). This result supports that cardiogenic pulmonary edema is the result of left ventricular systolic and/or diastolic impairment resulting in increased capillary hydrostatic pressure secondary to elevated pulmonary venous pressure.7
Point of care ultrasound is widely used in emergency and critical care unit or department for the evaluation of AHF.23,24 In the present study, the majority (96.8%) of patients with cardiogenic pulmonary edema had multiple B lines in POCUS. Similarly, the study done by Dobbe et al, the systematic review demonstrates a correlation between sonographic B-lines and cardiogenic pulmonary edema, and the sensitivity and specificity of POCUS for the identification of pulmonary edema was 94.1% and 92.4%, respectively.25 The previous study by Al Deeb et al and Martindale et al revealed that the pooled sensitivity and specificity of cardiogenic lung edema using POCUS with B lines were (94% and 92%) and (85% and 92%), respectively.26,27 The use of reproducible, rapid, non-invasive, and inexpensive POCUS will be helpful in the resource-limited setting of our study area, where there are no specific laboratory tests, such as brain natriuretic peptide and arterial monitoring for pulmonary edema among patients with decompensated AHF.
In the current study, the prevalence of cardiogenic pulmonary edema was 47.8% among patients with AHF. The findings of this study were lower than those reported by Platz et al where the prevalence of cardiogenic pulmonary oedema at baseline in trials enrolling patients with HF-REF ranged from 75% to 83% and in trials enrolling both patients with HF-REF and HF-PEF from 51% to 100%.9 Attias et al also revealed that the prevalence of cardiogenic pulmonary edema was 75% among those with valvular heart disease (mitral regurgitation).13 The findings of this study were higher than those of the study done in 133 centers in 30 countries of European countries (16%) and (30 countries, 133) center.28 In the RO-AHFS registry, pulmonary edema was the second most common clinical profile after ADHF, accounting for 28.7% of the study population. Pulmonary edema was found to be a high-acuity clinical presentation that can be further refined based on the left ventricular ejection fraction and the presenting SBP.29 The difference could be attributed by difference in clinical characteristics, underlying cardiovascular disease and study setting.
In the current study, patients who smoke cigarette were 3.17 times more likely to develop cardiogenic pulmonary edema as compared to those who do not smoke (AOR: 3.17, 95% CI: 1.56–6.43). Cigarette smoking is the leading cause of cardiovascular comorbidities associated with pulmonary endothelial cell injuries or toxicity of smoke exposure, resulting in structural lung disease, reduced lung function, and permanent damage to the air sacs of the lungs.30,31 Having structural lung disease as a result of smoking, the odds of developing cardiogenic pulmonary edema will be high in patients with acute decompensated heart failure.
The odds of developing cardiogenic pulmonary edema were doubled among patients with comorbidities (AOR: 2.1, 95% CI: 1.12–3.92). Triposkiadis et al revealed that there is a complex association between the comorbidities themselves and between the co-morbidities and the cardiovascular system leading to the development of acute decompensated heart failure phenotypes, both the heart failure persevered and the reduced ejection fraction.32 These patients with multiple comorbidities will have polypharmacy that will affect poor adherence to medication and early decompensation for AHF. The odds of cardiogenic pulmonary edema were increased 9.54 times more likely among rural dwellers than urban residents (AOR: 9.54, 95% CI: 4.97–18.30). This could be explained by patients who is from rural area will have health care disparity leads to poor access to health facility, poor literacy level and health seeking behavior which resulted in late visit to tertiary level both diagnosis and management.
In the present study, the common precipitating factors were infection, hypertension, anemia, and discontinuation of drugs. Similar to our study, a previous study done in Ethiopia also showed that pneumonia, atrial fibrillation, anemia, and drug discontinuation were the most common precipitating factors.10 The ALARM-HF and OPTIMISE-HF registry studies also reported infection, ischemia/acute coronary syndrome, and noncompliance to medication were the leading precipitating factors.33,34
There is a paucity of studies on the prevalence and its associated risk factors of cardiogenic pulmonary edema among AHF patients in resource-limited countries. The present study provides information on the clinical characteristics, underlying cardiovascular disease, comorbidities, and factors associated with the development of lung edema in resource-limited tertiary center in Eastern Ethiopia. The study’s weaknesses were related to its retrospective design, which caused the demographic information gleaned from the review of patient medical records to be less accurate than information gleaned from a prospective study. The other constraint concerned inadequate and incomplete patient medical records, and in many instances, the handwriting of the medical staff made it challenging to understand medical records.
Nearly half of AHF patients had cardiogenic pulmonary edema. Being from rural dweller, cigarette smoking, comorbidity, and underlying cardiac illness were significantly associated with the development of cardiogenic pulmonary edema among AHF patients.