Background: Tuberculosis is currently the world’s leading cause of death arising from a single infectious condition. While T cell mediated immunity is recognized to have a major contribution to tuberculosis activation, the present investigation confirmed that TB was more prevalent among patients with acute myeloid rather than lymphoid leukemia and such association was frequently overlooked. The primary objective of this study is to estimate the diagnostic delay of tuberculosis among patients with acute myeloid leukemia (AML) and compare it to the general population in Qatar. Secondary objective is to study the clinical and epidemiologic characteristics of tuberculosis in patients with AML. Methods: This is a retrospective study of tuberculosis cases diagnosed in subjects with AML during the period from January 2008 till December 2016. Results: Among 215 subjects with AML identified during the study period, 12 (5.58%) received the diagnosis of tuberculosis. The estimated incidence of tuberculosis among AML cases was 7.14 cases per 1000 per year. The mean delay in diagnosis of tuberculosis was 64.2 days (95% CI: 26.8 - 101.5) and the median was 45 days (interquartile range; Q1 - Q3, 29.5 - 97.5). Prolonged fever was the most common presentation (100% of cases). Parenchymal lung involvement was the most common radiologic abnormality (83.3% of cases). Three patients (25%) died and 8 patients completed 9 to 12 months of anti-tuberculous treatment with clinical and radiological remission. Conclusion: Infections caused by Mycobacterium tuberculosis are not uncommon in patients with AML especially in patients from tuberculosis endemic regions. It constitutes a diagnostic challenge so high index of suspicion is of paramount importance.
Tuberculosis (TB) is known to be one of the deadliest diseases of mankind, posing a major burden on global health phenomena, primarily in the low and middle income countries [
Evolution: TB is caused by members of the specie Mycobacterium tuberculosis complex (MTBC), which includes: Mycobacterium tuberculosis (Mtb), the etiologic agent of TB in humans; M. africanum, that causes TB in humans only in certain regions of Africa; M. bovis, M. caprae and M. pinnipedii, causing TB in wild and domesticated mammals; M. microti, that causes TB only in voles. The World Health Organization (WHO) has estimated that one-third of the total world population is latently infected with M. tuberculosis and 5% - 10% of the infected individuals will develop active TB during their life time [
Tuberculosis can precede or occurs simultaneously or during treatment of HM (Haematological malignancies) [
The high incidence of TB in AML (Acute Myeloid Leukemia) was explained by alteration of neutrophil function and neutropenia [
Latent tuberculosis infection (LTBI) in which the tubercle bacillus resists the bactericidal mechanisms of alveolar macrophages, without causing the disease [
Currently, there are three commercial diagnostic tests for LTBI: the Tuberculin Skin Test (TST), which for decades was the only method for detecting TB infection, and two techniques introduced relatively recently that are based on the detection of interferon-gamma (IFN-G) released from sensitized lymphocytes against specific antigens of M. tuberculosis: Quantiferon®-TB Gold in-Tube (QFT) and T-SPOT®.TB (T-SPOT). These are all indirect methods of measuring infection by M. tuberculosis, as they detect the existence of an immune response against the bacillus as a surrogate marker of infection [
TB remains a common healthcare problem in the state of Qatar with an estimated incidence rate of 41/100,000 inhabitant as reported in 2012, majority of them are non-Qatari and represents the labor force coming from eastern Asian countries [
The primary objective of this study was to estimate the diagnostic delay of TB among adult patients with acute myeloid leukemia (AML) and to compare it with that of general population of Qatar. The secondary objective was to study the clinical and epidemiologic characteristics of TB in patients with AML.
All cases of leukemia in Qatar are managed at the National Center for Cancer Care and Research (NCCCR). In the present study, we retrospectively reviewed the clinical records of all patients with acute leukemia (AL) registered in NCCCR from January 2008 till December 2016. 215 patients with AML and 126
| Reference | Setting | RR | Comments |
|---|---|---|---|
| Libshitz HI [ | USA | 9.0 | Cancer patients (including HM) |
| de la Cámara [ | Spain | 2.95 | Allogenic Stem Cell Transplantation |
| Kamboj M [ | USA | 40 | Highest rate among Stem Cell Transplant Recipients |
| Mishra P [ | India | 23 | Patients with acute leukemia. Highest rate in AML |
| Stefan DC [ | South Africa | 22 | Children with LLA |
| Chen CY [ | Taiwan | 2.05 | |
| Wu CY [ | Taiwan | 3.22* | Non-Hodgkin Lymphomas and Leukaemias |
RR: Relative Risk compared to the general population. AML: Acute Myeloid Leukemia. HM: Haematological Malignancies. *: Hazard Ratio.
patients with acute lymphoblastic leukemia (ALL) were identified. Each patient with AL had a baseline laboratory examination in addition to the extended leukemia workup that included blood, stool, urine cultures, oropharynx swab, hepatitis B, C, HIV serology, Aspergillus antigen, Quantiferon®-TB Gold In-Tube, chest X-ray and ultrasound (US) examination of abdomen and pelvis.
For patient with AML and TB, plain chest radiography and contrast enhanced computed tomography (CT) scan of the chest; abdomen and pelvis were performed for all patients, magnetic resonance imaging (MRI) for 1 patient, [Fluoro-18]-Fluoro-2-deoxy-D-glucose (18F-FDG) PET integrated with computed tomography (PET CT) for 4 patients at admission. The radiological findings related to TB infection were reviewed by 2 radiologists at diagnosis and follow up.
Statistical analysis: Qualitative and quantitative data values were expressed as frequency along with percentage and mean ± standard deviation with median. Descriptive statistics were used to summarize demographic and all other clinical characteristics of the participants. The mean delay with 95% confidence interval (CI) and the median delay with interquartile range (Q1 - Q3) were calculated. All statistical analyses were done using Statistical Packages SPSS-22 (SPSS Inc., Chicago, IL, USA).
In the present investigation, the estimated incidence of TB in AML was found to be around 7.14 cases per 1000 per year, as compared to reports of 2012, where an estimated incidence rate of TB was calculated as 41/100,000 inhabitants. Majority of patients represent the Non Qatari labor force coming from east Asian countries [
| Case No. | Age | Gender | Origin | Occupation |
|---|---|---|---|---|
| 01 | 29 | Female | Ethiopian | Housemaid |
| 02 | 39 | Female | Nepal | Non-skilled Worker |
| 03 | 32 | Male | India | Construction labourer |
| 04 | 6 | Male | Syria | Retired |
| 05 | 24 | Male | Bangladesh | Skilled Worker |
| 06 | 58 | Male | Philippines | Skilled Worker |
| 07 | 45 | Male | India | Technical Worker |
| 08 | 51 | Male | Philippines | Skilled Worker |
| 09 | 26 | Male | Nepalese | Skilled Worker |
| 10 | 30 | Male | Indian | Skilled Worker |
| 11 | 42 | Female | Yemen | Housewife |
| 12 | 30 | Male | Nepalese | Worker |
Our study highlighted an important finding of significant delay in diagnosis of TB in patients with AML (mean 64.2 days, median 45 days). Ibrahim et al in a previous study from Qatar, reported mean and median total diagnostic delays of PTB among general population of 53 and 30 days, respectively [
In the present study, TB diagnosis was markedly delayed in Patient No. 1, 2, 3 and 9 due to confounding factors like bacterial and fungal infections that were concomitantly detected .Moreover the radiologic pattern was atypical. Patient no. 9 had fatal outcome due to co-infection with Candidiasis. In the remaining patients the challenge was regarding initiating anti-leukemia chemotherapy in active TB setting where drug-drug interactions and risk to the medical staff and other patients in the leukemia floor.
The diagnosis of active PTB is a major challenge; such patients characteristically demonstrate an atypical radiographic pattern [
In the current study, the most common radiologic findings were lung involvement in 83% of cases, mediastinal LAD 66% with central necrosis in 38% of these cases; hepato-splenic hypodense lesions in 33% and peritoneal involvement in 16% (Tables 4-5; Figures 1-3).
| Total no of patients | TB +ve | Mean Age | APL +ve | AML +ve | Mean Delay in diagnosis (CI: 95%) | Median (Interquartile range, Q1 - Q3―29.5 - 97.5) | Abnormality observed | Indication (Death of patient) |
|---|---|---|---|---|---|---|---|---|
| 215 | 12 | 39.8 | 3 | 9 | 64.2 days | 45 days | Prolonged fever, cough, parenchymal lung involvement | 01-Before treatment 02-After treatment 08-Completed treatment |
| Patient No. | Clinical Presentation | Radiological findings |
|---|---|---|
| 1 | APL variant revealed by: Fever Weight loss(1 month or more) Cough Hemoptysis Respiratory distress Incubated 7 transferred to ICU | Chest X-ray and US abdomen at admission: Normal CT scan at decompensation: Mediastinal LN, pericardial, pleural effusion, ascites, Hepato-splenomegaly with hypodense lesions peritoneal involvement. |
| 2 | APL variant revealed by: fever with unknown origin, persistence of fever during induction phase and after neutropenia recovery | Chest X-ray and US abdomen at admission: Normal CT scan after neutropenia recovery: left lower lobe basal fibrotic atelectasis band, mediastinal and right hilar lymphadenopathy with central necrosis |
| 3 | APL hypergranular subtype revealed by: Fever of unknown origin for 3 months Abdominal pain Anorexia Weight loss | Chest X-ray and US abdomen at admission: normal CT scan after 1 week of APL treatment: mediastinal lymph nodes and bilateral lung infiltrate suggestive of pulmonary edema 2nd CT scan after neutropenia recovery: Increase of mediastinal lymph nodes size and hepatic hypodense lesions MRI abdomen: suggestive of liver abscess 3rd CT scan and MRI during maintenance therapy: mediastinal LN, minimal pleural effusion, hepatic abscess, peritoneal thickening and nodules, ascites, mesenteric and omental nodularity PET CT scan: FDG avid uptake involving the whole abdomen with absence of uptake in mediastinal LN |
| 4 | AML/MDS on palliative treatment: fever Productive cough Weight loss Night sweat for 2 weeks | ・ Chest X-ray: lung consolidation in the right upper and mid lung zones ・ CT-Scan: Consolidation ・ PET CT-Scan: bilateral lung consolidations and peri-bronchial thickening, hilar and mesenteric LNs |
| 5 | AML with t(8,21) revealed by Fever Productive cough Weight loss and anemia symptoms for 2 months | ・ Chest X-ray at admission: Normal ・ CT-scan at admission; right and basal lung consolidation, multiple lung nodules, mediastinal and intraperitoneal lymph nodes some of them with central necrosis, hepato-splengomy with hypo-dense lesion ・ PET-CT scan: multiple mediastinal LNs, left lung consolidation, pulmonary nodules, retroperitoneal LN, multiple liver lesions, left parotid gland uptake and D8 vertebra uptake |
| 6 | AML with normal cytogenetic revealed by: Fever productive cough weight loss generalized LN for 2 months | ・ Chest X-ray at admission: normal ・ CT-Scan at admission: ground glass appearance in both lungs, associated with pulmonary nodules, generalized LN some of them with central necrosis |
| 7 | AML with t(8,21) revealed by: Fever night sweat weight loss for 4 months acute abdomen mimicking appendicitis 3 days before admission | ・ Chest X-ray: normal ・ CT-scan of whole body: Lung nodule of the upper lobe of the left lung, atelectasis of the lower lobe, pleural effusion, hepatic lesion, thickening of the terminal ileum, mesenteric LN, and minimal pelvis free fluids |
|---|---|---|
| 8 | AML with trisomy 13 revealed by: Fever night sweat weight loss cough anemia symptoms | ・ Chest X-ray: normal ・ CT scan: ground glass appearance in the right upper lung, mild bilateral pleural effusion with underlying relaxation collapse, mediastinal and retroperitoneal LN |
| 9 | AML intermediate risk revealed by: fever, chills, cough, night sweats and weight loss for 4 weeks. At day 4 of induction, he developed respiratory distress, intubated and transferred to MICU. | ・ Chest X-ray: normal ・ CT-scan: Mediastinal lymph nodes, absence of lung infiltration. |
| 10 | AML/MDS with monosomy 7 revealed by fever and anemia symptoms. | ・ Chest X-ray: normal ・ CT scan: Lung nodule and mediastinal LNs |
| 11 | Pulmonary tuberculosis and LN preceding the diagnosis of AML by 4 months | ・ Chest X-ray: normal ・ CT scan of whole body before chemotherapy: mediastinal LN with central necrosis and lung fibrotic bands |
| 12 | AML intermediate risk revealed by: Fever Coughs Dyspnea chest pain hemoptysis night sweats and weight loss >1 month. Known to have TB 2 months before diagnosis of AML. Not adequately treated. | ・ Chest X-ray: Lung consolidation ・ CT scan: Multiple lung consolidations and infiltration, mild pleural effusion, multiple tiny nodulariies within both lungs. Axillary LN. |
| Patient number | Diagnosis | QuantiFERON | Organ involvement | Associated infection | Outcome |
|---|---|---|---|---|---|
| 1 | BAL: smear negative, culture positive PCR: M.T sensitive to anti-TB | Negative | Lung, pleura, LN, pericardium, liver, spleen abscess and peritoneal nodule | Pseudomonas aeruginosa | IMPROVED Sputum culture: negative (left country after 2 months of treatment) |
| 2 | FNA and trucut biopsy of mediastinal LN: Pus: smear and culture positive PCR: MT Biopsy: necrotizing granulomatosis positive for AFB | Negative | Lung and mediastinal LN | None | IMPROVED |
| 3 | 1st FNA negative, from mediastinal LN: negative, 2nd biopsy from mediastinal LN negative, 3rd biopsy from peritoneal nodule: necrotizing granulomatosis positive for AFB PCR: MT sensitive to anti-TB | Negative | Abdominal TB (LN, liver, peritoneum) | E.Coli septicemia Possible fungal infection | IMPROVED |
|---|---|---|---|---|---|
| 4 | Sputum: smear and culture positive PCR: MT sensitive to anti-TB | Positive | Lung and LN | None | IMPROVED |
| 5 | Sputum: smear and culture :positive BM biopsy: necrotizing granuloma PCR: MT sensitive to anti-TB | Positive | Lung, LN, liver, salivary glands, bone, and bone morrow | None | IMPROVED |
| 6 | BAL: smear negative, culture positive PCR: MT sensitive to anti-TB LN biopsy: necrotizing granuloma and AFB BM biopsy: necrotizing granuloma | Positive | Lung, LN and bone marrow | None | IMPROVED |
| 7 | Sputum smear and culture: negative , Ileal Biopsy: necrotizing granuloma and presence of AFB | Positive | Lung, Ileum, liver, and LN | None | IMPROVED |
| 8 | Sputum: smear negative, culture negative LN biopsy: necrotizing granuloma and AFB | Positive | Lung and LN | None | Improved from TB. Died after 2nd induction with systemic fungal infection (Trichosporon asheii) |
| 9 | BAL: MT PCR: MT sensitive to anti-TB | Negative | Miliary TB | C.glabrata and C.Krusei in BAL | Died 2 weeks after diagnosis of leukemia with ARDS and septic shock |
| 10 | Sputum and BAL: negative | Positive | Lung and LN | None | IMPROVED on treatment. |
| 11 | Sputum: smear and culture positive PCR: MT sensitive to anti-TB | Positive | Lung and LN | PSA septicemia | IMPROVED |
| 12 | Sputum/BAL: negative | Positive | Lung, pleural and LN (Miliary TB) | None | Died 3 weeks after diagnosis of leukemia with ARDS and septic shock |
(18F-FDG) PET CT is a non-invasive tool capable of early detection of pulmonary and extra-pulmonary TB simultaneously with time and cost saving [
Diagnosis of active TB relies on the detection of MT by culture or molecular biology techniques [
We performed TB screening by Quantiferon®-TB Gold In-Tube .This test has high sensitivity and specificity 75% and 81% respectively [
This is the first study to address the delay in diagnosis of TB and its clinico-radiologic findings among patients with AML in the State of Qatar; however the limitation of this study is the small number of AML patients diagnosed with TB and being a retrospective cohort.
The estimated prevalence of TB in AL varies between 3 - 4/1000 new cases, in western countries [
The diagnosis of active PTB highlights an atypical radiographic pattern. In our study, the most common radiologic findings, were lung involvement in 83% of cases, mediastinal LAD 66% with central necrosis in 38% of these cases; hepato-splenic hypodense lesions in 33% and peritoneal involvement in 16%. Chen et al. [
The present investigation was demonstrated as retrospective cohort, which is the conducted for the first time in Qatar to analyze the delay in diagnosis as well as clinic-radiological features among patients of Qatar, belonging to different nationalities.
There is a significant delay in the diagnosis of TB among patients with AML as compared to general population, suggesting that TB in such patients may constitute a diagnostic challenge. our study illustrated that TB should be included in the extended clinico-radiologic differential diagnosis of febrile neutropenia and in patients with persistent fever after neutropenia recovesry even if fever is being explained by other reasons, particularly in regions with high prevalence of TB. We also highlighted the importance of screening for latent TB in patients with AML. Vigilance to this condition is of at most importance because of its implication on safety of the health care providers and other patients in the hematology floors.
The paper was approved by all co-authors; authors have no conflict of interest to disclose.
El Omri, H., Taha, R., Ibrahim, W., Kassem, N., Szabados, L., El Sabah, H., Abid, F.B., Gamiel, A., Al Khinji, A., Szmeigielski, W., Hasan, S. and Al Hijji, I. (2018) Diagnostic Delay and Associated Clinical Features of Tuberculosis among Adult Patients with Acute Myeloid Leukemia in Doha, Qatar. Journal of Tuberculosis Research, 6, 49-62. https://doi.org/10.4236/jtr.2018.61005