Tuberculosis (TB) is the commonest and the deadliest opportunistic infection in patients living with human immunodeficiency virus (HIV)/AIDS
The syndemic interaction between the human immunodeficiency virus (HIV) and TB epidemics is responsible for millions of people infected and millions of people dead as well as for major economic costs around the world. TB-HIV coinfection causes accelerated immune system damage with an increased mortality. Literature proves that of all the opportunistic infections affecting people living with HIV (PLH), TB is the most common affecting more than one-third of them, increasing the risk for mortality (2,3).
World Health Organization (WHO) has declared TB as a global emergency since 1993, and
Today, the value of the global incidence (new cases and relapses) of TB in our country is the highest in the European Union and one of the highest in the WHO European Region (fifth place after Kazakhstan, Moldova, Georgia and Kyrgyzstan). The number of new cases and recurrences recorded annually decreased progressively from 30,984 in 2002 to 17,694 in 2011, reaching 12,836 in 2016 (5, 6, 7).
The National Program for the Prevention and Control of Tuberculosis (PNCT) in Romania aims to reduce the transmission, morbidity and mortality of TB until it is no longer a national public health problem. In this respect, the PNCT and European Centre for Disease Prevention and Control (ECDC) respecting WHO guidelines regarding TB control developed programs to be implemented between 2015 and 2020 (5, 6, 7).
Syndemic interaction between HIV and TB epidemics has made testing for TB a must for HIV-infected people and vice versa, as a form of early prevention and treatment (4, 5, 6, 7).
He was admitted with high fever (40.2°C) accompanied by intense sweating, tachycardia (heart rate (126 bpm) and bilateral presence of abnormal breath sounds (coarse crackles in lower pulmonary areas). Blood pressure was normal (110/60 mmHg), and oxygen saturation was 98%. The rest of the physical examination was normal too.
Chest X-ray at admission evidenced multiple diffuse opacities distributed in the half inferior part of both lung areas, suggestive of bilateral bronchopneumonia (Figure 1).
Results from blood tests evidenced inflammation (erythrocyte sedimentation rate (ESR) >120 mm at 1 h), leukocytosis (white blood cells (WBC)=14,000/mmc), anaemia (Hb=10.9 g/dl), aspartate transaminase (AST)=74 U/l and alanine transaminase (ALT)=57 U/l. The other results were within normal limits.
Sputum examination did not identify any pathogen, and hemoculture results were negative.
Under wide-spectrum antibiotic treatment (with ampicillin/ sulbactam 4.5 g/daily and Levofloxacinum 1000 mg/daily), his general condition partially improved, but he was still presenting nocturnal subfebrile values (37.3ºC–37.8ºC) and mild chest pain. Chest X-ray was repeated after 7 days from admission and revealed a big oval cavity of 13 cm in the left inferior lobe; previous lesions have grown in size (Figure 2).
Chest computed tomography (CT) scan performed 2 days later (Figure 3) revealed:
a pulmonary consolidation area of 8.6/4.8 cm with air bronchogram presence in the apical segment of the lower right lobe extended to the dorsal and posterior segments of upper right lobe;
a similar image of 11.6/8.4 cm in the upper left lobe located in lateral, ventral and lingual segments;
a third lesion in the left lower lobe of 7.9/9.6/7.6 cm in the apical and dorsal segments continuing with a 13.27/9.20 cm lung abscess image in the lower lobe located in ventral, dorsal and basal segments;
multiple necrotizing lymphadenopathies in the anterior and superior mediastinum of 2.20 cm in diameter, in the right and inferior paratracheal areas of 3.40 cm, in the Barety’s space of 3.4 cm, in the aortopulmonary window of 4.10 cm, in carinar and infracarinar spaces of about 4 cm and in both pulmonary hilums of 3.3 and 3.5 cm and
no evidence of pleural or pericardial effusion.
Acid fast bacilli (AFB) smear from sputum was positive and culture identified
He started specific first-line anti-TB treatment after diagnosis of pulmonary TB with isoniazid, rifampin, ethambutol and pyrazinamide in doses calculated for patient’s weight, and he was monitored for adverse reactions.
The patient was subsequently tested for HIV after his consent was taken. HIV testing is mandatory for all patients diagnosed with TB in Romania and requires patient’s written consent in order to be tested. His test was positive, leading to the diagnosis of HIV infection category C3. The CD4 count was 189 cells/mm3, RNA-HIV (1,627,000 copies/ml). Because the patient presented general pronounced weakness, he was also tested for hepatitis B and C, and results were negative: HbsAg – negative and anti-HCV – negative.
Under specific anti-TB treatment, clinical evolution was favourable with the remission of fever and improved appetite. Also, he did not present any adverse effects, and radiological appearance improved after 2 months.
Antiretroviral treatment was initiated 3 weeks after anti-TB treatment. He started with tenofovir, emtriva and isentress that were well tolerated.
After 6 months of anti-TB treatment (including 5 months of antiretroviral treatment), CD4 count was 305 cells/mm3, RNA-HIV (60,200 copies/ml). Due to his C3 stage of HIV infection and low number of CD4, the patient started also prophylactic treatment with co-trimoxazole.
After 12 months, the patient gained 15 kg and had no respiratory symptoms. In addition, his AFB smears and cultures for
Anti-TB treatment was extended to 14 months. Antiretroviral treatment remained unchanged.
HIV and
TB-HIV coinfection causes accelerated immune system damage with an increased mortality. Severe immunosuppression modifies and delays clinical, radiological and bacteriological expression of TB. Infection with HIV and
Our case had no previous medical history, and he denied having any contact with known HIV or TB cases. Symptoms for our case were atypical as a debut for TB, and the patient was misdiagnosed as having bronchopneumonia at first. Hence, AFB smears were obtained after unfavourable evolution (clinical and radiological) despite his antibiotic treatment. In addition, due to mandatory testing for HIV for all TB cases in Romania, our patient was also diagnosed with HIV infection stage C3.
His CD4 count of 189 cells/L was very low, and this explains the atypical radiological and clinical presentation. Rarely, for such an immunocompromised patient, we also have positive AFB smears from sputum.
Atypical chest X-ray findings are specific for altered immunity and for reactivation of primary TB sequelae in HIV-infected patients. As the CD4 count falls less than 200 cells/mm3, PLH with pulmonary TB often have atypical chest X-ray, including pleural effusion, infiltrates nonspecific for TB located in lower or middle lobes and mediastinal lymph node enlargement or a normal chest X-ray (10,11).
Enlarged lymph nodes can be linked to a lot of benign or malign diseases: reactive lymphadenitis, granulomatous lymphadenitis in tuberculous and nontuberculous infections, fungal lymphadenitis, Kaposi sarcoma, Hodgkin and non-Hodgkin lymphomas, primary tumours or metastasize. In addition, adenopathies are very common in AIDS patients, seen in all stages of HIV infection linked to the level of the immunosuppression (12,13).
Our case presented pulmonary consolidation areas in both lung areas, a 13 cm left lung abscess and a lot of multiple necrotizing mediastinal lymphadenopathies. Considering the fact that our patient has severe immunosuppression and that his diagnosis of pulmonary TB was confirmed by isolating
Sometimes the diagnosis of TB in HIV-infected patients may be delayed due to atypical clinical and radiological signs and low rates of positivity for sputum smear, and Gene Xpert (Xpert MTB/RIF) shall be used in HIV and AIDS patients to detect TB (8,9). For our patient, TB was confirmed by culture and Gene Xpert testing.
According to Centers for Disease Control and Prevention (CDC) and European AIDS definition (14,15), a CD4 count of <200/L and coexistence of TB are AIDS criteria for a patient diagnosed with HIV infection. HIV progression to AIDS appears usually after years of HIV infection, but the rate of progression is very variable. CD4 lymphocyte count and viral load are most used for disease prognosis and monitoring PLH (16).
When both diseases need treatment in the same time, initiation of anti-TB treatment is a priority. The occurrence of side effects attributable to either anti-TB or antiretroviral treatment may compromise the initiation of TB treatment if both therapies are initiated simultaneously. If highly active antiretroviral therapy (HAART) is delayed, it may increase the risk of death due to HIV in severe immunocompromised patients. The optimal moment of introduction of HAART in patients receiving anti-TB treatment is ideally before 8 weeks since initiation of anti-TB treatment closely monitoring any adverse reaction (17.). The choice of antiretroviral therapy (ART) should be based on efficacy and safety and should take into account potential drug–drug interactions between ART and rifamycins. Rifampin is a potent enzyme inducer that can accelerate drug metabolism, resulting in a significant reduction in antiretroviral drug efficacy. Rifabutin is an alternative to rifampin because it is a weaker CYP3A4 enzyme inducer, but it is not easily available for TB treatment in Romania, so TB regimen in our country includes rifampin (18).
During HIV treatment, associated immune reconstitution inflammatory syndrome (IRIS) may occur. This is a clinical condition caused by specific antiretroviral treatment restoration of pathogen-specific immune responses to opportunistic infections. TB-associated IRIS (TB-IRIS) has been reported in 8% to more than 40% of patients starting HAART after TB is diagnosed, more often associated with low baseline CD4 count (50 cells/ mm3); high pre-HAART HIV viral loads; severity of TB disease, especially high pathogen burden and a less than 30-day interval between initiation of TB and HIV treatments. Most IRIS in HIV/TB disease occurs within 3 months of starting HAART (19). Despite his high viral count and high pathogen burden, our patient did not develop IRIS during his combined TB-HIV treatment.
Patients’ adherence to treatment also plays a significant role in recovery. Diagnosis and treatment of TB in HIV-infected patients at an early stage of HIV infection is most effective.
Our clinical case showed that the cure of TB is also possible in severe immunosuppressed stages of HIV infection with the correct choice of treatment and close monitoring. In addition, every patient with HIV infection requires and receives professional psychological support with training and conversation. This support sometimes is extended also to patient’s family.