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REVIEW ARTICLE
Year : 2007  |  Volume : 55  |  Issue : 3  |  Page : 241-250

Imaging features of central nervous system fungal infections


Department of Radiology, Sanjay Gandhi Post-Graduate Institute of Medical Sciences, Lucknow - 226 014, India

Date of Acceptance26-May-2007

Correspondence Address:
Rakesh K Gupta
MR Section, Department of Radiology, SGPGIMS, Lucknow - 226 014
India
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Source of Support: None, Conflict of Interest: None


DOI: 10.4103/0028-3886.35685

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 » Abstract 

Fungal infections of the central nervous system (CNS) are rare in the general population and are invariably secondary to primary focus elsewhere, usually in the lung or intestine. Except for people with longstanding diabetes, they are most frequently encountered in immunocompromised patients such as those with acquired immunodeficiency syndrome or after organ transplantation. Due to the lack of inflammatory response, neuroradiological findings are often nonspecific and are frequently mistaken for tuberculous meningitis, pyogenic abscess or brain tumor. Intracranial fungal infections are being identified more frequently due to the increased incidence of AIDS patients, better radiological investigations, more sensitive microbiological techniques and better critical care of moribund patients. Although almost any fungus may cause encephalitis, cryptococcal meningoencephalitis is most frequently seen, followed by aspergillosis and candidiasis. The biology, epidemiology and imaging features of the common fungal infections of the CNS will be reviewed. The radiographic appearance alone is often not specific, but the combination of the appropriate clinical setting along with computed tomography or magnetic resonance may help to suggest the correct diagnosis.


Keywords: Acquired immunodeficiency syndrome, brain, central nervous system, computed tomography, diffusion weighted imaging, fungal infection, infection, magnetic resonance (MR), proton MR spectroscopy


How to cite this article:
Jain KK, Mittal SK, Kumar S, Gupta RK. Imaging features of central nervous system fungal infections. Neurol India 2007;55:241-50

How to cite this URL:
Jain KK, Mittal SK, Kumar S, Gupta RK. Imaging features of central nervous system fungal infections. Neurol India [serial online] 2007 [cited 2019 Oct 15];55:241-50. Available from: http://www.neurologyindia.com/text.asp?2007/55/3/241/35685


Fungal infections of the central nervous system (CNS) are rare and are invariably secondary to primary focus elsewhere, usually in the lung or intestine. Except for people with longstanding diabetes, these are most frequently encountered in immunocompromised patients such as those with acquired immunodeficiency syndrome (AIDS) or after organ transplantation. [1] Due to the lack of inflammatory response, neuroradiological findings are often nonspecific and are frequently mistaken for tuberculous meningitis, pyogenic abscess or brain tumor. [1],[2] Intracranial fungal infections are being identified more frequently due to the increased incidence of AIDS, better radiological investigations, more sensitive microbiological techniques and better critical care of moribund patients. [2] Although almost any fungus may cause encephalitis, cryptococcal meningoencephalitis is most frequently seen, followed by aspergillosis and candidiasis. [1]

The clinical and imaging features of the common fungal infections of the CNS will be reviewed. The radiographic appearance alone is usually nonspecific, however, when combined with appropriate clinical setting, may help in suggesting the correct diagnosis. [3]


 » Cranial Infection Top


Aspergillosis

Aspergillus
is saprophytic opportunistic ubiquitous fungi found in soil, plants and grows as a mold on decaying vegetable matter. Aspergillus fumigatus is the most common human pathogen; however A. flavus, A. niger and A. oxyzae are also frequently seen. [2] They have septate hyphae with dichotomous branching and produce spores. Humans are infected by inhaling these spores, with the lungs and paranasal sinuses as the primary site of infection. [4]

CNS aspergillosis is a rare condition with worldwide distribution. [4] Most cases have been reported in adults, although the disease is also seen in children and neonates. [5] Infection reaches the brain directly from the nasal sinuses or is hematogenous from the lungs and gastrointestinal tract. Rarely, the infection may contaminate the operative field during a neurosurgical procedure. [2] In immunocompromised patients, aspergillosis usually occurs as part of a disseminated infection. [4]

The pathology of CNS aspergillosis can be classified into three forms: infarction, granulomas and meningitis. [5] The fungal hyphae block intracerebral blood vessels, resulting in thrombosis and subsequent infarction and hemorrhage. [4],[6] The fungus can then spread beyond the vessel walls and form abscesses in the altered brain tissue. [6] Purulent lesions may be chronic and have a tendency towards fibrosis and granuloma formation. [2] Erosion of vessel wall can also form mycotic aneurysms. Aspergillosis is the most common cause of mycotic aneurysm. [6],[7] Microscopically, the most striking feature is the presence of the vascular invasion with thrombosis. In purulent lesions, pus is seen in the center of the abscesses with abundant polymorphs at the periphery. Granulomas consist of lymphocytes, plasma cells and fungal hyphae. [2]

The clinical diagnosis of cerebral aspergillosis is difficult because of nonspecific symptoms and fever may be absent. [5] There may be clinical features of meningitis and subarachnoid hemorrhage. In patients with paranasal sinus disease orbital extension with proptosis, ocular palsies, visual deterioration and chemosis may occur. Aspergillosis should be considered in cases manifesting with acute onset of focal neurological deficits resulting from suspected vascular or space-occupying lesions, especially in immunocompromized hosts. [8],[9],[10]

The radiological appearance of Aspergillus infection of the CNS is variable and depends upon the immune status of the patients. Using computed tomography (CT) and magnetic resonance (MR), several patterns of cerebral aspergillosis have been reported: edematous lesions, hemorrhagic lesions, solid enhancing lesions referred to as aspergilloma or "tumoral form," [Figure - 1] abscess-like ring-like enhancing lesions [Figure - 2], infarction and mycotic aneurysm. [1] Multiple areas of hypodensity on CT or hyperintensity on T2-weighted images (T2WI) on MR, involving the cortex and/or subcortical white matter consistent with multiple areas of infarction is a common finding in Aspergillus infection. The superimposed hemorrhage may be identified as hyperdensity on CT and hyperintensity on T1-weighted images (T1WI) on MR. On MR, lesions may show areas of isointensity or low signal intensity on T2WI, which is attributed to fungal hyphae containing paramagnetic elements like manganese, iron and magnesium, but may also be related to blood breakdown products. Dural enhancement is usually seen in lesions adjacent to infected paranasal sinuses, which represents direct extension of sinonasal disease [Figure - 3]. Recognition of these radiological patterns in patients with cerebral aspergillosis is helpful in establishing an early diagnosis. [1],[11]

Diffusion-weighted imaging (DWI) is valuable in early diagnosis of cerebral aspergillosis as it detects early infarction and can also be beneficial in differentiating these lesions from progressive multi-focal leukoencephalopathy and neoplasm. [12] Proton MR spectroscopy (PMRS) in an isolated case has shown elevation of glutamine-glutamate (2.1 ppm), lactate (1.3 ppm) and amino acids (0.9 ppm) at the central non-enhancing part of the aspergillus abscess which is significantly different from the spectra of cystic or necrotic brain tumors. [13] Proton MR Spectroscopy in aspergilloma is nonspecific with high choline, low creatine and lactate with no N-acetyl aspartate (NAA) [Figure - 1]. [5]

Interestingly, lesions in perforating artery territories are more common in hematogenously disseminated aspergillosis involving the brain. This affinity for perforating artery is possibly related to the invasion of the walls of the involved larger arteries, subsequently compromising the origins of the perforating arteries. [14]

The CT appearance of aspergillosis sinusitis has been described as hypodense mass lesion with calcification and is separate from the wall of sinuses. In most cases, the adjacent bony structures show areas of erosion or sclerosis. [15] On MR, Aspergillus sinusitis appears as iso to hypointense on T1WI and hypointense (may be mistaken for air in the sinuses) on T2WI. This T2 shortening is due to by presence of iron, magnesium, as well as increased calcium contents. [5],[15]

Cryptococcosis

Cryptococcus
neoformans , an encapsulated yeast-like fungus is the most common mycotic agent to affect the CNS. It is a ubiquitous organism found in mammal and bird feces, particularly in pigeon droppings. It causes disease primarily in patients with impaired immunity, particularly in those with AIDS. [16],[17] However, up to 30% of the patients have been reported with no predisposing condition. [18] Men are more commonly infected than women by cryptococcal infection. [5]

The infection is acquired through inhalation and spreads hematogenously to the CNS. The pathogenesis is remarkably similar to that of tuberculous meningitis. [19],[20] The central nervous system is the preferred site for cryptococcal infection, because soluble anticryptococcal factors present in serum are absent in cerebrospinal fluid (CSF) and the polysaccharide capsule of the fungus protects it from host inflammatory response. [16]

CNS infection can be either meningeal or parenchymal. [21] Meningitis is often the primary manifestation and is most pronounced at the base of the brain. Parenchymal involvement is seen as cryptococcomas, dilated Virchow-Robin spaces or enhancing cortical nodules. It is believed that the meningeal infection along the base of the skull may involve the adjacent brain parenchyma, giving rise to cryptococcomas or may extend along the Virchow-Robin spaces. The commonest parenchymal sites are the midbrain and the basal ganglia. The pseudocysts are formed due to dilatation of the Virchow-Robin spaces with mucoid gelatinous material produced by the capsule of the organism. [17],[21] The term cryptococcoma should be used for lesions in which the fungus has invaded the parenchyma, producing chronic granuloma composed of macrophages, lymphocytes and foreign body giant cells. [20] They may also arise within the choroid plexus resulting in obstructive hydrocephalus. [19] Cerebral infarctions, usually located in the basal ganglia, internal capsule and thalamus, may occur in 4% of patients with cryptococcal meningitis in the acute stage and during the treatment. [18]

Most patients with CNS cryptococcosis present with symptoms and signs of subacute meningitis or meningoencephalitis. Clinically, headache is the most common and sometimes the sole symptom. Meningeal features like photophobia and neck stiffness are uncommon. Other manifestations include symptoms and signs related to increased intracranial pressure due to hydrocephalus or related to encephalitis. [5],[20] Meningoencephalitis is associated with high morbidity and mortality, especially among immunocompromised hosts. [19],[20] Immunocompetent patients tend to present with localized, indolent neurological disease, more intense inflammatory responses but better clinical outcome. [22]

Cryptococcal disease may be diagnosed more readily than most other systemic fungal diseases for three reasons. The infection has a unique appearance on histopathology, the yeast can be seen in the CSF and the immunologic test for antigen in CSF and blood is highly sensitive and specific. [5]

The radiographic characteristics of CNS infection are protean and frequently minimal. [23] The spectrum of MR and CT abnormalities ranges from no abnormality to meningeal enhancement, abscesses, intraventricular or intraparenchymal cryptococcomas, gelatinous pseudocysts and/or hydrocephalus. [16],[23]

Hydrocephalus is the most common, although nonspecific finding. Intraparenchymal and intraventricular mass lesions are less common. [23] Pseudocysts are seen as well-circumscribed, round to oval low-density lesions on CT and have CSF intensity on both T1WI and T2WI, which fail to enhance. [16] Demonstration of clusters of these cysts in the basal ganglia [Figure - 4] and thalami strongly suggest cryptococcal infection. [21]

Miliary lesions and cryptococcomas may present as variable density masses on CT and of low intensity on T1WI and high intensity on T2WI [Figure - 5]. [23] Granulomatous lesions are located preferentially on the ependyma of the choroid plexus and may enhance [Figure - 4]. [16],[23] However, contrast enhancement of cryptococcomas or meninges is uncommon in immunocompromised patients due to the underlying immunosuppression and non-immunogenic nature of the polysaccharide capsule of the cryptococcal organism. [17],[19],[21]

Immunocompetent patients are more likely to present with cryptococcomas. [23] Enhancement of these lesions might occur [Figure - 6] as a result of an immunologic reaction by the host. [21] Immediate and delayed imaging with a double dose of contrast has been reported to reduce the false negative studies by showing meningeal enhancement in immunocompromised patients. [24]

In vivo PMRS shows marked increase in lactate along with decrease in NAA, choline and creatine. [25] Spectroscopy results suggest neuronal injury and gliosis in CNS cryptococcosis with decreased ratio of metabolite to nonsaturated water signal. [26] Ex vivo PMRS has shown high concentration of alpha-trehalose and is considered as diagnostic of C. neoformans . [27]

On DWI, cryptococcoma shows hypointensity in the central cavity [Figure - 5] and mimics a necrotic brain tumor, rather than a pyogenic brain abscess. [28]

Mucormycosis

Mucormycosis is a life-threatening opportunistic fungal infection caused by one of the members of the mucoraceal family. [29] Rhizopus oryzae is the most common cause of infection. [30] The hyphae are broad and non-septated, with right-angle branching and are distinct from Aspergillus . When spores are converted into hyphae, they become invasive, involve blood vessels and disseminate hematogenously or may spread through the paranasal sinuses into the brain and orbits. [31],[32]

Diabetics comprise at least 70% of the reported cases and less than 5% occur in normal hosts. [5] Acidosis rather than hyperglycemia appears to be the important predisposing factor. [5],[30] Infection can also be seen in intravenous drug abusers, in patients of anemia, leukemia, uremia and severe burns and in those receiving corticosteroid or chemotherapy. [33]

The rhinocerebral form is the most common infection. [29],[30] The organism may spread directly through the cribriform plate, via retrograde proliferation along the vessels or via extension into the orbit and then through the optic canal or superior orbital fissure into the cavernous sinus. [5] The common presenting symptoms are headache, fever, sinusitis, facial swelling and unilateral orbital apex syndrome. [31] Neurological deficits may result secondary to intracerebral abscess formation and thrombosis of major intracranial vessels. [29] Prognosis is poor even after aggressive antifungal treatment and surgical debridement. [30]

Isolated CNS mucormycosis, a focal intracerebral infection, is rare and is mostly seen in drug abusers. It presents with acute onset and rapid development of neurological symptoms. The suspected source of infection is spores in the injected substances. Infarcts and abscesses are found on imaging studies, most commonly in the basal ganglia. [31],[33] A study reported involvement of basal ganglia in 82% of drug abusers while non-drug abusers showed involvement in only 9% of cases. [34]

Findings on CT and MR images include dense opacification of paranasal sinuses with variable mucosal thickening and usually absence of fluid levels in the maxillary, ethmoid, frontal and sphenoid sinuses, in decreasing order of incidence. Sinus contents have variable MR imaging characteristics, from hypointensity to hyperintensity on T2WI, probably secondary to the presence of manganese, iron and calcium. [29],[31] When present, the finding of bony erosion of the sinuses is strongly suggestive of the diagnosis in the appropriate clinical context. It is uncommon to visualize an organized retro-orbital mass. Although CT may sometimes show evidence of infection of the orbital soft tissue, MR is more sensitive. [30]

Intracranial findings include infarcts related to vascular thrombosis, mycotic emboli and frontal lobe abscesses [Figure - 7]. [29] On MR, involvement of brain parenchyma by the fungus can be separated from bland infarction due to vascular involvement. Contrast-enhanced MR may help in distinguishing between these two possibilities. Involvement of cavernous sinuses, internal carotid and basilar artery in the form of abnormal vascular signal and abnormal enhancement has been shown secondary to thrombus formation in these vessels. [5] Immunocompetent patients show different pattern of disease with absence of calcification and a predilection for the ethmoid sinuses. However, contrast enhancement, intraorbital and intracranial extension and high mortality rates are similar among all patients regardless of the status of their immune system. [31]

Siegal et al. reported elevated lactate, depleted NAA and presence of succinate and acetate in mucormycosis, without the commonly seen resonances of valine, leucine and isoleucine observed in bacterial abscess on PMRS. [35]

Diffusion restriction has been reported in a case of fungal cerebritis due to mucormycosis with apparent diffusion coefficient (ADC) values in the range of that reported for pyogenic brain abscess. [36] In a case report of right-sided vision loss secondary to rhinocerebral mucormycosis, DWI demonstrated optic nerve infarction with restricted diffusion when regular MR was normal. Restricted diffusion may be the earliest detectable abnormality in acute ischemic optic neuropathy due to rhinocerebral mucormycosis. [37]

Blastomycosis

Blastomycosis, a thermally dimorphic fungus, is endemic in the southeastern and central United States. It is caused by Blastomyces dermatitidis . [38],[39] It is the yeast form that disseminates hematogenously, causing systemic disease. The fungus has been isolated from soil, which appears to be the reservoir for human infection. [5]

It is primarily a disease of the lung. Infection is usually acquired through inhalation of aerosolized conidia. [38],[40] Chronic pneumonia is the dominant clinical manifestation of blastomycosis, although extrapulmonary disease is also common, usually involving skin and subcutaneous tissue, bones and joints, prostate gland and CNS. [40] Central nervous system infection is the result of either direct extension from the sinus or orbital infection or hematogenous spread. [5] Central nervous system involvement occurs in ~4% of patients with blastomycosis. [41] It usually presents with meningitis, subdural focal leptomeningeal abscess or intraparenchymal abscess. [38]

It is surprising to know that blastomycosis does not have predilection for immunocompromised patients, as do other fungal organisms, such as Candida and cryptococcus. [42] Although it is not an AIDS-defining infection, reports of blastomycosis in individuals infected with the human immunodeficiency virus (HIV) are increasing. [43]

Findings on CT and MR are nonspecific. CT shows the presence of an isodense or hyperdense lesion with surrounding edema, which demonstrates variable enhancement on contrast administration. [5],[42] On MR, most granulomatous lesions are hyperintense on T2WI, however, dural lesions can be isointense or hypointense on both T1WI and T2WI. Contrast-enhanced study shows marked enhancement of granulomatous disease. [42] Dural enhancement may also occur with direct extension from paranasal sinuses. [5] The MR appearance of parenchymal blastomycosis abscess is indistinguishable from other causes of abscess. [5] Isolating the organism is required for the diagnosis of blastomycosis as serologic tests are typically negative and are not useful. [5],[39]

Coccidioidomycosis

Coccidioidomycosis is a systemic infection caused by a dimorphic fungus Coccidiodes immitis. [44] The organism is endemic to semiarid regions in the southwestern United States and northern Mexico. [45] It exists in the mycelial form within the soil and becomes infective when the airborne arthrospores are inhaled. [44] The heavier the inoculation, the more serious the resulting infection, as demonstrated by the increased incidence in endemic areas after severe dust storms or in members of archeologic expeditions who have disturbed the soil. [44],[45]

Approximately, 4-5% of symptomatic patients may develop disseminated disease with associated morbidity and mortality. [46],[47] Disseminated disease is even more common in immunocompromized patients. [5] Central nervous system involvement is usually secondary to hematogenous dissemination from the lungs with meninges as the most common site. [48]

Radiological findings in patients of CNS coccidioidomycosis on imaging are related to: (1) meningitis and ependymitis; (2) hydrocephalus; (3) solitary or multiple granulomas; (4) white matter disease; (5) vasculitis; and (6) spinal arachnoiditis. [44] Meningitis, a potentially lethal complication of coccidioidomycosis may be associated with cerebritis. [5],[49] Hydrocephalus is seen in 68-93% of patients. [44],[50] Cerebral coccidioidal granulomas, either solitary or multiple, are less common than tuberculomas, but have been reported pathologically. [44] Vasculitis has been observed in up to 40% of cases of meningitis; however, this typically involves the small penetrating branches of the major cerebral vessels, resulting in deep ischemic infarction. [48] Ischemia has been reported in 58% of patients which may be related either to vasospasm or direct invasion of the vessel. [47],[50] Subarachnoid hemorrhage is a rare and fatal complication secondary to rupture of mycotic aneurysm. [51]

MR is superior to CT for detecting neuroimaging abnormalities in patients with coccidioidomycosis. [46] Typically, diffuse and intense leptomeningeal enhancement of basilar, sylvian and interhemispheric cisterns is seen on post-contrast MR studies in coccidioidomycosis meningitis. [47],[50] Leptomeningeal enhancement can also extend to the spinal canal. Occlusion of the anterior spinal artery due to meningeal inflammatory process has also been reported. [5],[50] Communicative or obstructive hydrocephalus develops after the granulomatous process about the fourth ventricle and basal meninges. [44] Deep cerebral infarcts can be seen as areas of hyperintensity on T2WI. Less commonly, focal white matter or deep grey matter enhancing lesions representing granulomas are identified. Uncommonly, focal abscesses have been reported in HIV patients. [52] Patients with documented neuroimaging abnormalities have a higher mortality. [46]

Histoplasmosis

Histoplasmosis, caused by a dimorphic fungus Histoplasma capsulatum , can range from subclinical infection to progressive disseminated disease. [53],[54] Infection is endemic in the upper Mississippi River and Ohio River valleys. [53] H. capsulatum grows as a mold in the soil and causes infection when microconidia or hyphal elements are inhaled and convert into yeasts in the lungs or when organisms in old foci reactivate during immunosuppression. [39] Disseminated disease is uncommon and occurs primarily when cellular defenses are impaired. [53] Histoplasmosis represents the first manifestation of AIDS in 50-75% of patients. [39]

Clinical findings of progressive disseminated histoplasmosis are usually nonspecific. [53] Clinical syndromes include subacute or chronic meningitis, focal brain or spinal cord lesions, stroke and diffuse encephalitis. [53],[55]

CNS involvement is clinically recognized in 5-10% of cases of progressive disseminated histoplasmosis. However, in autopsy studies, it is reported in up to 25% of cases. [53],[55] Sites of CNS involvement include the basilar meninges, gray-white matter junction in the brain and rarely the spinal cord. [56] Isolated involvement of the thalamus and choroid plexus has also been described. [5],[57] Based on pathological correlation CNS histoplasmosis has been described in three forms: Meningitis, Cerebritis and Vasculitis. [56]

Imaging features of CNS histoplasmosis are nonspecific. CT is abnormal in ~90% of cases, usually showing enhancing mass lesions, cerebral atrophy or hydrocephalus. [53] On MR, the lesions are hyperintense on T2WI and hypointense on T1WI with perilesional edema and ring enhancement. In abscesses, the rim may be hypointense on T2WI due to the presence of paramagnetic free radicals in its wall. Diffuse leptomeningeal enhancement may also be present. [5] Rarely, the disease may present as a histoplasmoma, which appears as an expansile lesion in the thalamic, hypothalamic and chiasmatic regions, with ring enhancement. [58]

Candidiasis

Candida
species are ubiquitous yeasts, found on plants and as normal flora of the alimentary tract and mucocutaneous membranes of humans. [59] Human candidiasis is most commonly caused by Candida albicans . The rapid multiplication in tissues, production of proteases, adhesions to extracellular matrix proteins and complement binding receptors are among the important factors contributing to its virulence. [60]

The clinical manifestations of candidiasis are primarily of three types: mucocutaneous, cutaneous and systemic or disseminated. Incidence of disseminated candidiasis is on the rise due to an increase in immunocompromised patients. Other risk factors include admission to intensive care units, total parenteral nutrition, multiple antibiotics, premature infants, corticosteroid use, chemotherapy and following organ transplantation, particularly during acute rejections. [61],[62]

Primary candidiasis of the brain and meninges is rare; however, CNS invasion is reported in 18-52% in disseminated candidiasis. [52],[63] Candida causes focal necrosis around the microcirculation mainly in the middle cerebral artery territory producing micro-abscesses. It can also cause vasculitis, intraparenchymal hemorrhage, aneurysms and thrombosis of small vessels with secondary infarction. [5],[63] Involvement of paranasal sinuses with extension to brain parenchyma with multiple abscess formation has also been reported [Figure - 8]. [5]

CT usually underestimates the extent of the disease. Microabcesses appear iso to hypodense on non-enhanced CT and show multiple punctate enhancing nodules on contrast study. Granuloma may appear as hyperdense nodule on CT with nodular or ring enhancement. On MR, granuloma formation and brain abscess may have hypointense signals on T2WI due to the magnetic susceptibility effect of hemorrhage. Lesions show ring-enhancement on contrast administration. MR also shows features of associated meningitis, vasculitis and infarction. [5],[63]

Common MR features of brain abscess secondary to fungal infection

Fungal abscesses are hypointense on T1WI and hyperintense on T2WI with well-defined rim enhancement on post-contrast images in immunocompetent patients. However, in immunocompromised patients, abscesses appear as patchy or punctate T2 hyperintense lesions with frequently absent enhancement. However, contrast enhanced imaging decreases the number of false negative studies. [1],[64],[65] Fungal lesions are known to show lipids (1.2-1.3 ppm), lactate (1.3 ppm), alanine (1.5 ppm), acetate (1.9 ppm), succinate (2.4 ppm), choline (3.2 ppm) and unidentified resonance at 3.8 ppm on PMRS. [27],[35],[66] In a recent study conducted in our institution fungal abscesses were differentiated from non-fungal lesions by combining the conventional, DWI and PMRS features. [67] A ring-enhancing, T2-heterointense lesion with irregular walls and non-enhancing intra-cavitary projections having low ADC carries a high probability of being a fungal abscess. These projections, directed centrally from the wall, are isointense to hypointense on T1WI and hypointense on T2WI [Figure - 9]. The identification of multiple signals seen between 3.6 and 3.8ppm assigned to trehalose sugars on PMRS may further add to the diagnostic confidence. [67]


 » Spinal Infections Top


Fungal infections of the spine are relatively uncommon. They have been reported with Candida , aspergillosis, cryptococcus, coccidioidomycosis and histoplasmosis. Candida and Aspergillus produce disease when they gain access to the vascular system through intravenous lines, during implantation of prosthetic devices or during surgery. For the other fungi, spinal involvement usually is the result of hematogenous or direct spread of organisms from an initial pulmonary source of infection. [68]

The vertebral body, posterior bony vertebral elements, epidural space and perispinal soft tissues may be involved in the infectious process. Occasionally, the intervertebral disc may be relatively spared early in the disease. [69]

Fungal spondylitis secondary to Candida and Aspergillus is characterized by low signal intensity on T1WI and high signal intensity on T2WI with intervening disc involvement [Figure - 10]. The bone marrow in the affected vertebral bodies may show low signal intensity on both T1WI and T2WI due to lack of inflammatory response in immunocompromised patients. [5],[70] In some cases, hyperintensity of the vertebral disc is absent and rarely, intranuclear cleft may be preserved. [71] Epidural abscess may be seen in Aspergillus infection. There are reports of intradural abscess formation following epidural steroid injection in immunocompetent individuals. [5],[72]

Skeletal coccidioidomycosis is frequently multicentric. The axial skeleton is the most common site. [73] Spinal involvement is seen in approximately 25% of patients with disseminated disease. [74] Spinal lesions are usually well-demarcated but may be ill-defined with permeative type of bone destruction. Plain radiographs are effective in the initial evaluation of bones and joints. CT and MR are useful in determining soft tissue involvement and spinal abnormalities. [73] The typical imaging features include disc involvement, heterogeneous marrow signal alteration and extensive extra-osseous involvement with lack of bony deformity. [74] Other features include phlegmenous, enhancing non-liquefactive soft tissue abnormalities, cord compression and nerve root impingement. As the disease is multifocal, MR screening of the entire vertebral column often reveals occult areas of involvement. [74] The extensive soft tissue and marrow involvement with lack of bony deformities are the features that help to differentiate coccidiomycosis from other causes of infective spondylitis. [5] As the MR features are nonspecific, biopsy with culture is required to establish the diagnosis. [74]

Spinal cord disease is a rare presentation of cryptococcosis. [75] Bony involvement is seen in 5% of disseminated cryptococcosis. [76] Imaging findings are not specific and simulate spinal tuberculosis with involvement of the vertebral body along with posterior elements and paraspinous and perivertebral soft tissues with relative preservation of the disc. [77],[78] The vertebral body predominantly shows osteolytic lesions with discrete margins, absent surrounding sclerosis and periosteal reaction. [79] Meningoradiculitis and spinal cryptococcal granulomas are rare [Figure - 11]. [75],[77] In a case of spinal cryptococcus infection DWI shows hyperintensity of involved vertebral body, epidural space and posterior elements. [80]

Bone is the one of the frequent sites of disease in patients with blastomycosis, lower thoracic or lumbar vertebrae being most often affected. [81] MR reveals destructive vertebral changes, an epidural mass, psoas abscess and lack of involvement of the disc spaces. Sparing of the disc space is due to spread of infection by way of paravertebral structures and surrounding potential spaces. [82] Blastomycosis can rarely present as an isolated intramedullary lesion. [83]

Treatment of fungal spondylitis is often delayed because of difficulty with the diagnosis that results in poor prognosis. Performing fungal cultures whenever a spinal infection is suspected might hasten the diagnosis. [84]

 
 » References Top

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World Neurosurgery. 2010; 74(6): 581-582
[Pubmed]
38 Imaging findings in intracranial aspergillus infection in immunocompetent patients
Saini, J., Gupta, A.K., Jolapara, M.B., Chatterjee, S., Pendharkar, H.S., Chandreshekher, K., Radhakrishnan, V.V.
World Neurosurgery. 2010; 74(6): 661-670
[Pubmed]
39 Long-term outcome of intracranial and cutaneous cryptococcal infection in an immunocompetent man
Khwaja, G.A., Ranjan, R., Gupta, M., Chowdhury, D., Kushwaha, R.
Journal, Indian Academy of Clinical Medicine. 2010; 11(4): 319-325
[Pubmed]
40 An atlas of infectious and parasitic diseases of the central nervous system: A cooperative study of SILAN (Sociedad Iberolatinoamericana de Neurorradiologia)
Gonzalez-Toledo, E., Santos Andrade, C., Da Costa Leite, C., Del Carpio-OæDonovan, R., Fayed, N., Morales, H., Peterson, R., (...), Nader, M.
Neuroradiology Journal. 2010; 23(5): 554-573
[Pubmed]
41 Fungal cerebral abscess in a diabetic patient successfully treated with surgery followed by prolonged antifungal therapy
Claudio Yampolsky,Marcelo Corti,Ricardo Negroni
Revista Iberoamericana de Micología. 2010; 27(1): 6
[Pubmed] | [DOI]
42 Imaging Findings in Intracranial Aspergillus Infection in Immunocompetent Patients
Jitender Saini,Arun Kumar Gupta,Milan Babulal Jolapara,Somenath Chatterjee,Hima S. Pendharkar,Kesavadas Chandreshekher,Vishnupuri Venkatraman Radhakrishnan
World Neurosurgery. 2010; 74(6): 661
[Pubmed] | [DOI]
43 Infectious lesions mimicking central nervous system neoplasms
Vani Santosh,Anita Mahadevan,Yasha T. Chickabasaviah,Rose Dawn Bharath,Shankar S. Krishna
Seminars in Diagnostic Pathology. 2010; 27(2): 122
[Pubmed] | [DOI]
44 Neurologic Presentations of Fungal Infections
Amy C. Rauchway,Sameea Husain,John B. Selhorst
Neurologic Clinics. 2010; 28(1): 293
[Pubmed] | [DOI]
45 Imaging Findings in Intracranial Fungal Disease
Basant Kumar Misra,Santosh Gupta
World Neurosurgery. 2010; 74(6): 581
[Pubmed] | [DOI]
46 Fungal cerebral abscess in a diabetic patient successfully treated with surgery followed by prolonged antifungal therapy | [Absceso cerebral por hongos en un paciente diabético tratado con éxito con cirugía seguida de terapia antimicótica prolongada.]
Yampolsky, C., Corti, M., Negroni, R.
Revista Iberoamericana de Micologia. 2010; 27(1): 6-9
[Pubmed]
47 Fungal CNS infection in a term neonate: Can a radiologist help with diagnosis?
Rohilla, S., Yadav, R.K., Singh, J., Gathwala, G., Dhaulakhandi, D.B.
Journal of Neonatal-Perinatal Medicine. 2010; 3(2): 157-160
[Pubmed]
48 Multiple ring-enhancing lesions of the brain
Garg, R.K. and Sinha, M.K.
Journal of Postgraduate Medicine. 2010; 56(4): 307-316
[Pubmed]
49 Fungal infections of the central nervous system in HIV-negative patients: Experience from a tertiary referral center of South India
Ramesha, K.N. and Kate, M.P. and Kesavadas, C. and Radhakrishnan, V.V. and Nair, S. and Thomas, S.V.
Annals of Indian Academy of Neurology. 2010; 13(2): 112-116
[Pubmed]
50 Fungal cerebral abscess in a diabetic patient successfully treated with surgery followed by prolonged antifungal therapy [Absceso cerebral por hongos en un paciente diabético tratado con éxito con cirugía seguida de terapia antimicótica prolongada.]
Yampolsky, C. and Corti, M. and Negroni, R.
Revista Iberoamericana de Micologia. 2010; 27(1): 6-9
[Pubmed]
51 Tumoriform presentation of cerebral candidiasis in an HIV-infected patient
V. Mendes,S. Castro,P. Linhares,M.L. Ribeiro-Silva
Journal of Clinical Neuroscience. 2009; 16(4): 587
[Pubmed] | [DOI]
52 Central nervous system manifestations of HIV infection in children
Reena George,Savvas Andronikou,Jaco Plessis,Anne-Marie Plessis,Ronald Toorn,Arthur Maydell
Pediatric Radiology. 2009; 39(6): 575
[Pubmed] | [DOI]
53 Neurocryptococcosis in a 10-year-old immunocompetent girl
Patrick O. Eghwrudjakpor,Akaribara B. Allison
Acta Neurochirurgica. 2009; 151(6): 711
[Pubmed] | [DOI]
54 Neurocryptococcosis in a 10-year-old immunocompetent girl
Eghwrudjakpor, P.O., Allison, A.B.
Acta Neurochirurgica. 2009; 151(6): 711-712
[Pubmed]
55 Coccidioidal cerebral abscess with peripheral restricted diffusion
Castro, S., Bernardes, I.
Journal of Neuroradiology. 2009; 36(3): 162-164
[Pubmed]
56 Central nervous system manifestations of HIV infection in children
George, R., Andronikou, S., Du Plessis, J., Du Plessis, A.-M., Van Toorn, R., Maydell, A.
Pediatric Radiology. 2009; 39(6): 575-585
[Pubmed]
57 Tumoriform presentation of cerebral candidiasis in an HIV-infected patient
Mendes, V., Castro, S., Linhares, P., Ribeiro-Silva, M.L.
Journal of Clinical Neuroscience. 2009; 16(4): 587-588
[Pubmed]
58 Fungal brain infections
Scully, E.P., Baden, L.R., Katz, J.T.
Current Opinion in Neurology. 2008; 21(3): 347-352
[Pubmed]
59 Diagnosis of cerebral aspergillosis by neuroimaging | [Diagnóstico neurorradiológico de aspergilosis cerebral]
De La Cruz-Cosme, C., Ojeda-Burgos, G., García-Casares, N., Hamad-Cueto, O., Ruiz-Morales, J.
Revista de Neurologia. 2008; 46(5): 318
[Pubmed]
60 ZNS-Infektionen bei immunsupprimierten Patienten
K.M. Hartmann,M. Golinski,W. Reith
Der Radiologe. 2008; 48(6): 560
[Pubmed] | [DOI]
61 Fungal brain infections
Eileen P Scully,Lindsey R Baden,Joel T Katz
Current Opinion in Neurology. 2008; 21(3): 347
[Pubmed] | [DOI]
62 CNS infections in immunocompromised patients [ZNS-infektionen bei immunsupprimierten patienten]
Hartmann, K.M. and Golinski, M. and Reith, W.
Radiologe. 2008; 48(6): 560-572
[Pubmed]
63 Diagnosis of cerebral aspergillosis by neuroimaging [Diagnóstico neurorradiológico de aspergilosis cerebral]
De La Cruz-Cosme, C. and Ojeda-Burgos, G. and García-Casares, N. and Hamad-Cueto, O. and Ruiz-Morales, J.
Revista de Neurologia. 2008; 46(5): 318
[Pubmed]



 

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Online since 20th March '04
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