Tuberculoma Explained

A tuberculoma is a clinical manifestation of tuberculosis which conglomerates tubercles into a firm lump, and so can mimic cancer tumors of many types in medical imaging studies.[1] [2] They often arise within individuals in whom a primary tuberculosis infection is not well controlled.[3] When tuberculomas arise intracranially, they represent a manifestation of CNS tuberculosis. Since these are evolutions of primary complex, the tuberculomas may contain caseum or calcifications.

With the passage of time, Mycobacterium tuberculosis can transform into crystals of calcium. These can affect any organ such as the brain,[4] [5] intestine,[6] [7] [8] ovaries,[9] [10] breast,[11] [12] [13] lungs,[14] [15] esophagus,[16] pancreas,[17] bones,[18] [19] and many others. Even with guideline-directed treatment they often persist for months to years.

Mechanism

The exact mechanism of tuberculoma development has not been determined, although multiple theories have been proposed. It is possible that, following an initial tuberculosis infection resulting in bacteremia, a foci of granulomatous inflammation may coalesce into a caseous tuberculoma. Pulmonary tuberculomas may arise due to repeated cycles of necrosis and re-encapsulation of foci, or, alternatively, the shrinkage and fusion of encapsulated densities.

In regards to CNS tuberculoma, it is thought that mycobacterium tuberculosis is capable of penetrating the blood brain barrier after bacterial bacilli induce the release of cytokines by various immunologic cells, leading to an increase in barrier permeability. Similar to pulmonary tuberculomas, small lesions eventually coalesce and undergo both necrosis and enlargement.

Signs and symptoms

Symptoms are based on the location of the tuberculoma. Small, scattered lesions may be asymptomatic. Intracranial tuberculomas in children are often infratentorial, occurring near the cerebellum and base of the brain. In this population, symptoms such as headache, fever, focal neurologic findings and seizures have been seen in addition to papilledema with or without meningitis. When the size of a brainstem tuberculoma grows to the point of narrowing the fourth ventricle, obstructing hydrocephalus and its related symptoms can arise. Rupture of tuberculomas adjacent to the arachnoid can lead to arachnoiditis, while rupture near the subarachnoid space or ventricular system can cause meningitis.

Diagnosis

The diagnosis of tuberculoma can be challenging, as invasive testing may be required and, occasionally, concomitant malignancy may be present. In children with tuberculoma, CXR is often normal despite a positive TST/IGRA.

Diagnosis of brain tuberculoma can be aided with PCR of cerebrospinal fluid, but is of less utility for quickly diagnosing and treating lesions. When CSF is analyzed in patients with suspected tuberculoma, high protein concentrations and cell counts are often seen.

Definitive diagnosis can be made through stereotactic, CT-guided biopsy, with excision required in rare cases. Biopsy is chosen when non-invasive testing has failed to produce a diagnosis, when patients fail to respond to a treatment regimen, in cases of drug-resistant tuberculosis, and in non-compliant patients.

Imaging

The appearance of a tuberculoma on imaging can vary according to the composition and age of the mass. They may appear as either non-caseating or solidly caseating lesions. Initially, tuberculomas appear hypodense on computed tomography (CT) scans with significant surrounding edema. The "target sign" is pathognomonic for tuberculoma on CT, with a nodular ring-enhancing mass and central calcification.[20] The characteristic ring-enhanced appearance is due to lack of blood supply in the central necrotic core that is visualized with injected contrast. Sometimes a hypodense central area is seen instead of calcification.[21] When considering other potential intracranial masses in a differential diagnosis, such as cysticercosis, pyogenic abscess, and neoplastic lesions, tuberculoma can be identified by its larger size (>2 cm), edema, and irregular border.

Magnetic resonance imaging (MRI) is another useful imaging modality for diagnosing and characterizing of tuberculomas, especially solid caseous necrosis in which 3 zones of varying intensity are seen.

Treatment

Tuberculoma is commonly treated through the HRZE drug combination (Isoniazid, Rifampin, Pyrazinamide, Ethambutol) followed by maintenance therapy.[22] Per international guidelines, 9–12 months of medical management is standard. While the majority of tuberculomas resolve in 12–24 months, in patients with multiple or larger lesions prolonged treatment extending beyond two years may be required. In some patients, the release of inflammatory mediators during treatment can cause a paradoxical worsening of symptoms that is treated with anti-inflammatory medications in addition to the standard anti-tuberculosis regimen.

Exceptionally large tuberculomas, those exerting a mass effect on the brain, and those which fail to respond to medical management required surgical excision. In some cases, surgical excision is necessary for diagnosis as well as treatment. When intracranial pressure rises in the setting of tuberculoma, removal is considered a surgical emergency.

Prognosis

Of patients with a brain tuberculoma treated with an appropriate medication regimen, almost half recover completely. Approximately 10% of those treated fail to recover and succumb to the tuberculoma. Reports issued before the advent of effective anti-tuberculosis therapy showed that, when untreated, 30-50% of tuberculomas enter and remain in a stationary course.

Epidemiology

Tuberculomas are most commonly seen in areas where tuberculosis is endemic. In these areas, tuberculomas can account for between 30%-50% of intracranial masses.[23] India and parts of Asia are two areas where tuberculomas have been noted to be particularly prevalent. They occur most often as solitary, infratentorial lesions in young children. In contrast, lesions are most often supratentorial in adults.

Pulmonary tuberculomas are among the most common benign nodules, with 5%-24% of all resected nodules being of tuberculous origin.[24] In areas of lower prevalence, such as the United States, they are most commonly seen in the setting of an acquired immunodeficiency.[25] Intracerebral tuberculomas, specifically, are more frequently observed in patients with an HIV infection.

Notes and References

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  2. Vento S, Lanzafame M . Tuberculosis and cancer: a complex and dangerous liaison . The Lancet. Oncology . 12 . 6 . 520–2 . June 2011 . 21624773 . 10.1016/S1470-2045(11)70105-X .
  3. Book: Clinical tuberculosis . 2020 . Lloyd N. Friedman . Martin Dedicoat . P. D. O. Davies . 978-1-351-24998-0 . Sixth . Boca Raton, FL . 1145905400.
  4. Dennison P, Rajakaruna G . Cerebral tuberculoma . Thorax . 61 . 10 . 922 . October 2006 . 17008487 . 2104774 . 10.1136/thx.2005.054932 .
  5. Chatterjee S . Brain tuberculomas, tubercular meningitis, and post-tubercular hydrocephalus in children . Journal of Pediatric Neurosciences . 6 . Suppl 1 . S96–S100 . October 2011 . 22069437 . 3208909 . 10.4103/1817-1745.85725 . free .
  6. Herrick FC . Tuberculoma of the Caecum: Hyperplastic Tuberculosis . Annals of Surgery . 81 . 4 . 801–20 . April 1925 . 17865239 . 1399989 . 10.1097/00000658-192504000-00009 .
  7. Chakravartty S, Chattopadhyay G, Ray D, Choudhury CR, Mandal S . Concomitant tuberculosis and carcinoma colon: coincidence or causal nexus? . Saudi Journal of Gastroenterology . 16 . 4 . 292–4 . 2010 . 20871197 . 2995101 . 10.4103/1319-3767.70619 . free .
  8. Kushwaha JK, Sonkar AA, Saraf A, Singh D, Gupta R . Jejunal adenocarcinoma: an elusive diagnosis . Indian Journal of Surgical Oncology . 2 . 3 . 197–201 . September 2011 . 22942611 . 3272177 . 10.1007/s13193-011-0101-7 .
  9. Elmore RG, Li AJ . Peritoneal tuberculosis mimicking advanced-stage epithelial ovarian cancer . Obstetrics and Gynecology . 110 . 6 . 1417–9 . December 2007 . 18055741 . 10.1097/01.AOG.0000295653.32975.4a .
  10. Rabesalama S, Mandeville K, Raherison R, Rakoto-Ratsimba H . Isolated ovarian tuberculosis mimicking ovarian carcinoma: case report and literature review . African Journal of Infectious Diseases . 5 . 1 . 7–10 . 2011 . 23878702 . 3497843 . 10.4314/ajid.v5i1.66508 .
  11. Baharoon S . Tuberculosis of the breast . Annals of Thoracic Medicine . 3 . 3 . 110–4 . July 2008 . 19561892 . 2700437 . 10.4103/1817-1737.41918 . free .
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  13. Akçay MN, Sağlam L, Polat P, Erdoğan F, Albayrak Y, Povoski SP . Mammary tuberculosis -- importance of recognition and differentiation from that of a breast malignancy: report of three cases and review of the literature . World Journal of Surgical Oncology . 5 . 67 . June 2007 . 17577397 . 1910599 . 10.1186/1477-7819-5-67 . free .
  14. Liang HY, Li XL, Yu XS, Guan P, Yin ZH, He QC, Zhou BS . Facts and fiction of the relationship between preexisting tuberculosis and lung cancer risk: a systematic review . International Journal of Cancer . 125 . 12 . 2936–44 . December 2009 . 19521963 . 10.1002/ijc.24636 . 21083607 . etal . free .
  15. Khan AN, Al-Jahdali HH, Allen CM, Irion KL, Al Ghanem S, Koteyar SS . The calcified lung nodule: What does it mean? . Annals of Thoracic Medicine . 5 . 2 . 67–79 . April 2010 . 20582171 . 2883201 . 10.4103/1817-1737.62469 . free .
  16. Patnayak R, Reddy MK, Parthasarathy S, Yootla M, Reddy V, Jena A . Unusual presentation of esophageal tuberculosis mimicking malignancy . Saudi Journal of Gastroenterology . 14 . 2 . 103–4 . April 2008 . 19568514 . 2702907 . 10.4103/1319-3767.39632 . free .
  17. Saluja SS, Ray S, Pal S, Kukeraja M, Srivastava DN, Sahni P, Chattopadhyay TK . Hepatobiliary and pancreatic tuberculosis: a two decade experience . BMC Surgery . 7 . 1 . 10 . June 2007 . 17588265 . 1925057 . 10.1186/1471-2482-7-10 . free .
  18. Herzog A . Dangerous errors in the diagnosis and treatment of bony tuberculosis . Deutsches Ärzteblatt International . 106 . 36 . 573–7 . September 2009 . 19890413 . 2770211 . 10.3238/arztebl.2009.0573 .
  19. Dhillon MS, Aggarwal S, Prabhakar S, Bachhal V . Tuberculosis of the foot: An osteolytic variety . Indian Journal of Orthopaedics . 46 . 2 . 206–11 . March 2012 . 22448060 . 3308663 . 10.4103/0019-5413.93683 . free .
  20. Book: The microbiology of central nervous system infections . 2018 . Kateryna Kon . Mahendra Rai . 978-0-12-813807-6 . London . 1023628139.
  21. Book: Aminoff's neurology and general medicine . 2021 . Michael J. Aminoff . Scott Andrew Josephson . 978-0-12-819307-5 . Sixth . London . 1235762322.
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  23. Perez-Malagon . Carlos David . Barrera-Rodriguez . Raul . Lopez-Gonzalez . Miguel A. . Alva-Lopez . Luis F. . December 2021 . Diagnostic and Neurological Overview of Brain Tuberculomas: A Review of Literature . Cureus . 13 . 12 . e20133 . 10.7759/cureus.20133 . free . 2168-8184 . 8648135 . 34900500.
  24. Lee . H. S. . Oh . J. Y. . Lee . J. H. . Yoo . C. G. . Lee . C. T. . Kim . Y. W. . Han . S. K. . Shim . Y. S. . Yim . J. J. . March 2004 . Response of pulmonary tuberculomas to anti-tuberculous treatment . The European Respiratory Journal . 23 . 3 . 452–455 . 10.1183/09031936.04.00087304 . 0903-1936 . 15065838. 16186172 . free .
  25. Book: Office practice of neurology . 2003 . Churchill Livingstone . Martin A. Samuels . Steven K. Feske . 978-0-7020-3588-3 . 2nd . Philadelphia . 324998368.