WORKUP	Section 5 of 11
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Lab Studies:

• The laboratory diagnosis of fungal disease in general and of histoplasmosis particularly is challenging because of the nonspecific clinical findings, the difficulty of culturing organisms, and the confusing array of diagnostic tests available. MiraVista Diagnostics laboratory has established a web site to assist clinicians (see MiraVista Diagnostics).
  • General laboratory findings in disseminated disease include pancytopenia, elevated liver enzymes, hyperbilirubinemia, and elevated serum LDH levels.

  • Silver stain of tissue sections or Wright stain of peripheral blood/bone marrow aspirate smears are useful to diagnose patients with acute disseminated infection or severe pulmonary infection.

• Culture

• The criterion standard of diagnosis is culture of the fungus from clinical specimens.

• H capsulatum can be recovered from sputum, bronchoalveolar lavage (BAL), skin lesions, blood, or bone marrow on routine fungal cultures, but the organism grows slowly, and plates must be kept up to 12 weeks. A DNA probe for H capsulatum permits rapid identification.

• Blood culture using the lysis-centrifugation system is somewhat more rapid and increases sensitivity.

• Cultures are positive in up to 85% of patients with PDH or CPH, but they can be falsely negative in about 20% of disseminated cases.

• The combination of blood and bone marrow cultures increases the likelihood of positive cultures.

• Bronchoscopy is an important diagnostic tool, especially for PDH, with a diagnostic yield of 60% in patients from endemic areas with pulmonary infiltrates and 88% for chronic cavitary histoplasmosis.

• Multiple specimens increase yield.

• Skin testing: Histoplasmin skin testing is not recommended for diagnostic purposes because of the high rate of positive reactions in endemic areas, the variable duration of skin test responses, and the possibility that skin testing can affect subsequent serologic tests. It has been useful as an epidemiologic tool.

• Serologic testing

• A number of tests have been developed to detect the presence of H capsulatum antigen or to detect host antibody to infection. Tests used to detect host antibody to infection are more commonly employed clinically. However, test results for antibodies can be falsely negative in patients with disseminated disease because of underlying immunosuppression. On the other hand, patients with disseminated disease have a high fungal burden enabling rapid diagnosis by antigen detection. Because of lower fungal burden in patients with mild manifestations, the yield of antigen detection is low.

• Antibody levels peak 6 weeks following exposure and decline over a 2- to 5-year period. Elevated antihistoplasma antibody levels might result from a previous infection or following other types of fungal infections.

• Antibody testing

• The standard serologic tests for histoplasmosis are the immunodiffusion (ID) test and the complement fixation (CF) test.

• Histoplasmin, a filtrate of mycelial cultures, is the test antigen used in the ID test. Two possible precipitin bands are observed: The H band reflects antibodies formed during active infection and becomes undetectable within 6 months. The M band is present in acute and chronic acute and chronic infection and remains elevated for years.This test is less sensitive than CF and should not be used for screening. M precipitins can be detected in 50-75% of patients with acute histoplasmosis and almost 80-100% of patients with chronic pulmonary infections.

• The CF test uses both mycelial and yeast phase antigens. An antibody to yeast phase CF titer of more than 1:32 is consistent with active infection in an endemic area, although an acute titer of more than 1:8 should be considered suggestive of infection, especially in nonendemic areas. CF has higher sensitivity than ID. In acute pulmonary histoplasmosis, the CF test is positive in 90% of patients, whereas the sensitivity of ID is up to 75%.

• A 4-fold rise in titer between acute and convalescent paired sera is diagnostic. Antibodies may clear within months following brief exposure but might persist for years after a prolonged exposure.

• Although CF and ID both are fairly specific, some cross-reactivity with other mycoses exists.

• Antibody responses can also be measured by enzyme immunoassay or Western blot assay. Even though antibodies can be detected faster by these methods than by the standard tests, these methods are difficult to standardize, quantitate, and interpret.

• Antigen testing

• Detection of polysaccharide antigen in serum, urine, or BAL of patients with disseminated and acute pulmonary histoplasmosis is a rapid and specific diagnostic method. Urine specimens have higher sensitivity, up to 90% for immunocompetent patients with disseminated or acute pulmonary disease. BAL fluid antigen levels can be higher than in blood or urine, and matched BAL, urine, and serum specimens have the highest yield.

• The recommended approach is first to perform antigen testing on blood and urine on a patient with suspected histoplasmosis. Then, the focus in testing will depend on the symptoms; for example, in patients with respiratory symptoms, obtain BAL; in those with CNS symptoms, obtain CSF.

• Cross-reactivity with other endemic mycoses exists.

• If initially positive, the antigen test can be used to monitor treatment response. Antigen levels decrease with treatment, eventually reaching undetectable levels in patients who are cured or in patients undergoing chronic maintenance treatment. Persistent antigenemia or antigenuria indicates an ongoing infection and supports continued antifungal therapy. Antigen levels rise during relapse, enabling detection in patients whose antifungal treatment has been discontinued.

• Recently, Histoplasma antigen detection by ELISA has become available for different specimens including serum, urine, BAL, and CSF. The sensitivity of this test has been reported to be as high as 92% in urine specimens and 82% in serum specimens from patients with disseminated histoplasmosis. Even though the sensitivity is low in self-limited and chronic pulmonary histoplasmosis, the specificity is as high as 98%.

• Molecular diagnostics
  • Preliminary studies suggest that PCR might improve the accuracy of identification of H capsulatum in tissue specimens. DNA probes are also commercially available and used for definitive identification of positive culture.

  • A retrospective review of pediatric cancer patients at St Jude's Hospital demonstrated that the most rapid and specific tests for histoplasmosis were histopathologic examination of lung biopsy specimens in patients with localized pulmonary infection and Histoplasma specific antigen detection in the urine of patients with disseminated histoplasmosis.

Imaging Studies:

• Syndromes in immunocompetent hosts

• Acute pulmonary syndrome: Plain chest radiography may demonstrate enlarged mediastinal lymph nodes and small reticulonodular infiltrates, with or without small bilateral pleural effusions. More severe acute pulmonary syndromes have more prominent diffuse infiltrates (see Image 5).

• Mediastinal obstructive syndromes: Enlarged mediastinal lymph nodes or granulomas, with or without calcification, often can be observed on plain chest radiographs (see Image 1). In fibrosing mediastinitis, roentgenographic findings can be subtle, such as superior mediastinal widening or carinal splaying (see Image 6). CT scan better demonstrates the extent of mediastinal involvement. Other studies, such as esophagography, vascular contrast studies, and ventilation/perfusion scanning, can be useful to determine the extent of obstructive involvement of mediastinal structures.

• Pericarditis: Echocardiography demonstrates pericardial fluid, but findings are nonspecific.

• Syndromes in hosts with an underlying illness or immunodeficiency

• CPH: Radiographic manifestations of CPH include apical fibronodular densities, cavitary lesions, and pleural thickening. CT scanning may be helpful in defining lesions in the context of underlying lung disease.

• CNS histoplasmosis: Localized enhancing lesions (single or multiple) can be observed on CT scan or MRI.

Other Tests:

• Pulmonary function testing may demonstrate fixed or variable airway obstructive patterns in mediastinal obstructive syndromes. Acute pulmonary disease is more likely to demonstrate a restrictive pattern.

Procedures:

• Pericardiocentesis: Pericarditis may occur in 10% of patients who are symptomatic. Pericardiocentesis yields bloody sterile pericardial fluid.

• Bronchoscopy

• In acute severe pulmonary syndromes, bronchoscopy with bronchial washing may be indicated to obtain diagnostic material. In chronic pulmonary forms, bronchoscopy with bronchial brushing or transbronchial biopsy may be indicated to obtain samples and to rule out malignancy.

• Bronchoscopy also may be useful in hemoptysis and broncholithiasis.

• Biopsy of affected tissues can be performed via open procedures or thoracoscopy.

• Lumbar puncture in CNS histoplasmosis demonstrates a lymphocytic pleocytosis, with elevated protein and normal or low glucose.

	TREATMENT	Section 6 of 11
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Medical Care: Most acute forms of histoplasmosis in immunocompetent hosts resolve without specific treatment. Systemic antifungal treatment is indicated for severe acute pulmonary histoplasmosis, CPH, PDH, and any manifestation in an immunocompromised patient. Specific therapy recommendations vary with presenting syndrome.

• Syndromes in immunocompetent hosts
  • Localized disease: Antifungal therapy is unnecessary in patients with localized disease. However, oral itraconazole is recommended for 6-12 weeks in patients whose symptoms have not improved after 3-4 weeks of observation.

Activity: Bed rest has been recommended for systemic syndromes.

	MEDICATION	Section 7 of 11
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Always consult the latest information regarding drugs of choice, dosage, and administration. Consultation by infectious diseases specialists can be very helpful in choosing appropriate therapy.

Drug Category: Antifungal agents -- Systemic antifungal treatment is indicated for severe acute pulmonary histoplasmosis, CPH, PDH, and any manifestation in an immunocompromised patient (see Treatment).

Amphotericin B is the mainstay of therapy for most systemic fungal infections. It is highly effective but has potential side effects. New lipid formulations of amphotericin B have less renal toxicity; however, their cost is much higher, and it is not proven that they have higher efficacy. A double blind randomized trial comparing liposomal amphotericin B (L-AMB) to standard formulation (AmB) in patients with AIDS showed that L-AMB was at least as effective as AmB, with marked reduction in renal toxicity.

Caspofungin is a new lipopeptide antifungal agent, and has been studied in vitro and in animal models of histoplasmosis. Current reports are equivocal in terms of susceptibility and clinical response in animal models of histoplasmosis. This drug is currently approved for the treatment of esophageal and invasive candidiasis and for invasive aspergillosis. It has low toxicity and has been used in combination with L-AMB for seriously ill patients with the infections mentioned above.

Drug Name	Amphotericin B (Amphocin, Fungizone) -- Produced by a strain of Streptomyces nodosus; can be fungistatic or fungicidal. Binds to sterols, such as ergosterol, in the fungal cell membrane, causing intracellular components to leak with subsequent fungal cell death. DOC for severe or disseminated histoplasmosis.
Adult Dose	1 mg IV test dose, followed by daily increased dose by 0.5-1 mg/kg/d; not to exceed 1.5 mg/kg/d; infuse IV over 2-6 h
Pediatric Dose	0.1 mg/kg IV test dose; if tolerated, administer additional 0.4 mg/kg the same day; daily increased dose by 0.5-1 mg/kg/d; not to exceed 1.5 mg/kg/d
Contraindications	Documented hypersensitivity
Interactions	Antineoplastic agents may enhance the potential of amphotericin B for renal toxicity, bronchospasm, and hypotension; corticosteroids, digitalis, and thiazides may potentiate hypokalemia; the risk of renal toxicity is increased with cyclosporine
Pregnancy	B - Usually safe but benefits must outweigh the risks.
Precautions	Use with caution in renal impairment; monitor BUN and creatinine every other day as dose increases; amphotericin B lipid or liposomal preparations may be tolerated better in patients with renal disease or intolerance of standard preparations; may offer the theoretical advantage of higher tissue levels; use in comparison to standard preparations for histoplasmosis currently is being studied Monitor renal function, serum electrolytes (eg, magnesium, potassium), liver function, CBC, and hemoglobin concentrations; resume the therapy at the lowest level (eg, 0.25 mg/kg) when the therapy is interrupted for more than 7 d; hypoxemia, acute dyspnea, and interstitial infiltrates may occur in neutropenic patients receiving leukocyte transfusions (separate time of amphotericin infusion from time of leukocyte transfusion); fever and chills are not uncommon after first few administrations of drug; rare acute reactions may include hypotension, bronchospasm, arrhythmias, and shock

Drug Name	Caspofungin (Cancidas) -- First of a new class of antifungal drugs (glucan synthesis inhibitors). Inhibits synthesis of beta-(1,3)-D-glucan, an essential component of fungal cell wall.
Adult Dose	70 mg IV over 1 h on day 1; 50 mg IV qd thereafter
Pediatric Dose	Not established
Contraindications	Documented hypersensitivity
Interactions	Coadministration with cyclosporine may increase risk of hepatotoxicity; carbamazepine, nelfinavir, efavirenz, or dexamethasone may decrease levels of caspofungin; caspofungin may decrease levels of tacrolimus; rifampin decreases caspofungin levels by 30% (ie, adjust dose to 70 mg/d)
Pregnancy	C - Safety for use during pregnancy has not been established.
Precautions	Caution in moderate hepatic dysfunction (ie, decrease dose to 35 mg/d); may exacerbate preexisting renal dysfunction or myelosuppression

Drug Category: Antifungal agents, azoles -- The azole antifungal agents are divided into 2 groups: imidazoles and triazoles. The imidazoles are an older group including miconazole, ketoconazole, and clotrimazole. The triazoles consist of fluconazole, itraconazole, and new second-generation azoles ravuconazole (investigational in the United States), voriconazole, and posaconazole (investigational in the United States).

Itraconazole is more effective than ketoconazole or fluconazole for treatment of histoplasmosis. It is also very effective for long-term suppression of histoplasmosis in patients with AIDS.

Voriconazole and posaconazole may be useful in patients who are intolerant of or who fail treatment with AmB or itraconazole; however, the use of these agents in the treatment of histoplasmosis has not been adequately studied. In vitro, the fungistatic effect of voriconazole is similar to that of itraconazole against H capsulatum.

Drug Name	Itraconazole (Sporanox) -- Synthetic triazole antifungal agent. Can be used in chronic pulmonary histoplasmosis, but relapse rate higher than for amphotericin B.
Adult Dose	200 mg PO qd, may increase by 100 mg/d increments; not to exceed 400 mg/d divided bid
Pediatric Dose	Not established, limited data suggest: 3-5 mg/kg/d PO Disseminated histoplasmosis: 6-8 mg/kg/d PO Prophylaxis in children with HIV: 2-5 mg/kg PO q12-48h
Contraindications	Documented hypersensitivity; concomitant use of CYP450 substrates where their decreased clearance may result in toxicity (eg, cisapride)
Interactions	Inhibits CYP450 3A4; antacids may reduce absorption; edema may occur with coadministration of calcium channel blockers (eg, amlodipine, nifedipine); hypoglycemia may occur with sulfonylureas; may increase tacrolimus and cyclosporine plasma concentrations when high doses are used; rhabdomyolysis may occur with coadministration of HMG-CoA reductase inhibitors (lovastatin or simvastatin); coadministration with cisapride can cause cardiac rhythm abnormalities and death May increase digoxin levels; coadministration may increase plasma levels of midazolam and triazolam; phenytoin and rifampin may reduce itraconazole levels (phenytoin metabolism may be altered)
Pregnancy	C - Safety for use during pregnancy has not been established.
Precautions	Caution in hepatic impairment (monitor LFTs); do not use for CNS histoplasmosis

Drug Name	Ketoconazole (Nizoral) -- A synthetic imidazole antifungal agent. Can be used for CPH, but has a higher relapse rate than amphotericin B.
Adult Dose	200-400 mg PO qd/bid
Pediatric Dose	3.3-6.6 mg/kg PO qd
Contraindications	Documented hypersensitivity; concomitant use with CYP450 substrates where their decreased clearance may result in toxicity (eg, cisapride)
Interactions	Potent CYP450 3A4 inhibitor; isoniazid may decrease bioavailability of ketoconazole; coadministration decreases effects of rifampin and ketoconazole; may increase effect of anticoagulants; may increase toxicity of corticosteroids and cyclosporine (adjust cyclosporine dose); may decrease theophylline levels; administer antacids, anticholinergics, or H2 blockers at least 2 h after taking ketoconazole
Pregnancy	C - Safety for use during pregnancy has not been established.
Precautions	Efficacy against H capsulatum is less well established than with amphotericin B and itraconazole; therefore, use only as an alternative to these agents; hepatotoxicity may occur

Drug Name	Fluconazole (Diflucan) -- Synthetic triazole antifungal with low plasma protein binding and better CNS penetration than imidazoles.
Adult Dose	400 mg/d PO/IV for CNS histoplasmosis or for prophylaxis in immunosuppressed patients
Pediatric Dose	12 mg/kg/d IV/PO; not to exceed 600 mg/d
Contraindications	Documented hypersensitivity
Interactions	Inhibits CYP450 3A4; levels may increase with hydrochlorothiazide; fluconazole levels may decrease with long-term coadministration of rifampin; coadministration of fluconazole may decrease phenytoin clearance; may increase concentrations of theophylline, tolbutamide, glyburide, and glipizide; coadministration may increase effects of anticoagulants; increases in cyclosporine concentrations may occur when administered concurrently
Pregnancy	C - Safety for use during pregnancy has not been established.
Precautions	Better CNS penetration than other azoles, but less activity against H capsulatum; use with caution in impaired renal function; monitor liver and renal function periodically

Drug Category: Nonsteroidal anti-inflammatory agents (NSAIDs) -- Have analgesic, antiinflammatory, and antipyretic activities. Their mechanism of action is not known, but may inhibit cyclooxygenase activity and prostaglandin synthesis. Other mechanisms also may exist, such as inhibition of leukotriene synthesis, lysosomal enzyme release, lipoxygenase activity, neutrophil aggregation, and various cell-membrane functions. A brief course of NSAIDs may be required for patients who develop rheumatologic symptoms.

Drug Name	Ibuprofen (Motrin, Advil, Ibuprin) -- Inhibits inflammatory reactions and pain by decreasing prostaglandin synthesis.
Adult Dose	400 mg PO q4-6h, 600 mg q6h, or 800 mg q8h while symptoms persist; not to exceed 3.2 g/d
Pediatric Dose	20-70 mg/kg/d PO divided tid/qid; start at lower end of dosing range and titrate; not to exceed 2.4 g/d
Contraindications	Documented hypersensitivity; peptic ulcer disease, recent GI bleeding or perforation, renal insufficiency, or high risk of bleeding
Interactions	Coadministration with aspirin increases risk of inducing serious NSAID-related side effects; probenecid may increase concentrations and, possibly, toxicity of NSAIDs; may decrease effect of hydralazine, captopril, and beta-blockers; may decrease diuretic effects of furosemide and thiazides; may increase PT when taking anticoagulants (instruct patients to watch for signs of bleeding); may increase risk of methotrexate toxicity; phenytoin levels may be increased when administered concurrently
Pregnancy	B - Usually safe but benefits must outweigh the risks.
Precautions	Category D in third trimester of pregnancy; caution in congestive heart failure, hypertension, and decreased renal and hepatic function; caution in coagulation abnormalities or during anticoagulant therapy

Drug Name	Naproxen (Aleve, Naprosyn) -- For relief of mild to moderate pain; inhibits inflammatory reactions and pain by decreasing activity of cyclo-oxygenase, which is responsible for prostaglandin synthesis.
Adult Dose	250-500 mg PO bid; may increase to 1.5 g/d for limited periods
Pediatric Dose	<2 years: Not established >2 years: 2.5 mg/kg PO q12h; may increase dose, not to exceed 10 mg/kg/d
Contraindications	Documented hypersensitivity; peptic ulcer disease; recent GI bleeding or perforation; renal insufficiency
Interactions	Coadministration with aspirin increases risk of inducing serious NSAID-related side effects; probenecid may increase concentrations and, possibly, toxicity of NSAIDs; may decrease effect of hydralazine, captopril, and beta-blockers; may decrease diuretic effects of furosemide and thiazides; may increase PT when taking anticoagulants (instruct patients to watch for signs of bleeding); may increase risk of methotrexate toxicity; phenytoin levels may be increased when administered concurrently
Pregnancy	B - Usually safe but benefits must outweigh the risks.
Precautions	Category D in third trimester of pregnancy; acute renal insufficiency, interstitial nephritis, hyperkalemia, hyponatremia, and renal papillary necrosis may occur; patients with preexisting renal disease or compromised renal perfusion risk acute renal failure; leukopenia occurs rarely, is transient, and usually returns to normal during therapy; persistent leukopenia, granulocytopenia, or thrombocytopenia warrants further evaluation and may require discontinuation of drug

	FOLLOW-UP	Section 8 of 11
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Prognosis:

• Most cases of histoplasmosis resolve spontaneously and do not recur.

• For excellent patient education resources, visit eMedicine's Procedures Center . Also, see eMedicine's patient education article Bronchoscopy.

	MISCELLANEOUS	Section 9 of 11
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Medical/Legal Pitfalls:

• Histoplasmosis has varied and often subtle presentations and has been misdiagnosed as many other entities.

• Treating patients who have moved from an endemic area to a nonendemic area and subsequently develop impaired immunity can be challenging for clinicians not familiar with the manifestations of histoplasmosis.

• Misdiagnosis as sarcoidosis can be problematic if the patient is treated with systemic corticosteroids or TNF-alpha blocking agents, which may cause progression or dissemination. Fatalities have been described.

	PICTURES	Section 10 of 11
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Caption: Picture 1. Histoplasmosis. Hilar lymphadenopathy in an 11-year-old child.
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Caption: Picture 2. Map demonstrating distribution of histoplasmin skin test positivity by region. Used by permission, American Thoracic Society.
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Caption: Picture 3. Hematoxylin and eosin stain of infected lung tissue. Histoplasma organisms appear to have a false capsule.
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Caption: Picture 4. Histoplasmosis. A starling roost in Alabama.
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Caption: Picture 5. Histoplasmosis. Acute pulmonary syndrome in a 16-year-old adolescent girl.
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Caption: Picture 6. Histoplasmosis. Fibrosing mediastinitis with mediastinal widening and tracheal deviation.
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	BIBLIOGRAPHY	Section 11 of 11
Author Information Introduction Clinical Differentials Workup Treatment Medication Follow-up Miscellaneous Pictures Bibliography

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NOTE:

Medicine is a constantly changing science and not all therapies are clearly established. New research changes drug and treatment therapies daily. The authors, editors, and publisher of this journal have used their best efforts to provide information that is up-to-date and accurate and is generally accepted within medical standards at the time of publication. However, as medical science is constantly changing and human error is always possible, the authors, editors, and publisher or any other party involved with the publication of this article do not warrant the information in this article is accurate or complete, nor are they responsible for omissions or errors in the article or for the results of using this information. The reader should confirm the information in this article from other sources prior to use. In particular, all drug doses, indications, and contraindications should be confirmed in the package insert. FULL DISCLAIMER

Histoplasmosis excerpt