Disseminated histoplasmosis in renal transplant recipients

Genotypic diversity, virulence, and molecular genetic tools in Histoplasma

SUMMARYHistoplasmosis is arguably the most common fungal respiratory infection worldwide, with hundreds of thousands of new infections occurring annually in the United States alone. The infection can progress in the lung or disseminate to visceral organs and can be difficult to treat with antifungal drugs. Histoplasma, the causative agent of the disease, is a pathogenic fungus that causes life-threatening lung infections and is globally distributed. The fungus has the ability to germinate from conidia into either hyphal (mold) or yeast form, depending on the environmental temperature. This transition also regulates virulence. Histoplasma and histoplasmosis have been classified as being of emergent importance, and in 2022, the World Health Organization included Histoplasma as 1 of the 19 most concerning human fungal pathogens. In this review, we synthesize the current understanding of the ecological niche, evolutionary history, and virulence strategies of Histoplasma. We also describe general patterns of the symptomatology and epidemiology of histoplasmosis. We underscore areas where research is sorely needed and highlight research avenues that have been productive.

Clinical Characteristics and Outcomes of Endemic Mycoses After Solid Organ Transplantation: A Comprehensive Review

Background

Geographically endemic fungi can cause significant disease among solid organ transplant (SOT) recipients. We provide an update on the epidemiology, clinical presentation, and outcomes of 5 endemic mycoses in SOT recipients.

Methods

Multiple databases were reviewed from inception through May 2023 using key words for endemic fungi (eg, coccidioidomycosis or Coccidioides, histoplasmosis or Histoplasma, etc). We included adult SOT recipients and publications in English or with English translation.

Results

Among 16 cohort studies that reported on blastomycosis (n = 3), coccidioidomycosis (n = 5), histoplasmosis (n = 4), and various endemic mycoses (n = 4), the incidence rates varied, as follows: coccidioidomycosis, 1.2%-5.8%; blastomycosis, 0.14%-0.99%; and histoplasmosis, 0.4%-1.1%. There were 204 reports describing 268 unique cases of endemic mycoses, including 172 histoplasmosis, 31 blastomycosis, 34 coccidioidomycosis, 6 paracoccidioidomycosis, and 25 talaromycosis cases. The majority of patients were male (176 of 261 [67.4%]). Transplanted allografts were mostly kidney (192 of 268 [71.6%]), followed by liver (n = 39 [14.6%]), heart (n = 18 [6.7%]), lung (n = 13 [4.9%]), and combined kidney-liver and kidney-pancreas (n = 6 [2.7%]). In all 5 endemic mycoses, most patients presented with fever (162 of 232 [69.8%]) and disseminated disease (179 of 268 [66.8%]). Cytopenias were frequently reported for histoplasmosis (71 of 91 [78.0%]), coccidioidomycosis (8 of 11 [72.7%]) and talaromycosis (7 of 8 [87.5%]). Graft loss was reported in 12 of 136 patients (8.8%). Death from all-causes was reported in 71 of 267 (26.6%); half of the deaths (n = 34 [50%]) were related to the underlying mycoses.

Conclusions

Endemic mycoses commonly present with fever, cytopenias and disseminated disease in SOT recipients. There is a relatively high all-cause mortality rate, including many deaths that were attributed to endemic mycoses.

Histoplasma capsulatum presenting as generalized lymphadenopathy after renal transplantation

Histoplasma capsulatum is typically an indolent disease among immunocompetent patients. However, immunocompromised patients, such as solid organ transplant recipients, are at risk of developing severe histoplasmosis. Yet post-transplant histoplasmosis is a rare pathology, representing less than five percent of invasive fungal infections among transplant recipients. Furthermore, patients tend to present with nonspecific clinical symptoms, complicating timely diagnosis and delaying treatment. Disease features that may be more representative of H. capsulatum infection, such as anemia, leukopenia and pulmonary involvement are often not present until late in the disease course, when the patient is at greater risk of decompensation. Unlike H. capsulatum infections among immunocompetent hosts, extrapulmonary infection among immunocompromised hosts is more the rule than the exception. Treatment with liposomal amphotericin B followed by oral itraconazole is the standard therapy, but special considerations must be made for patients with hepatic and/or renal insufficiency, underlying cardiac abnormalities or malabsorptive pathologies and doses of immunosuppressants will need to be adjusted for drug interactions. Herein we present a case of H. capsulatum infection presenting with generalized lymphadenopathy post-renal transplant.

Diagnosis and treatment of histoplasmosis in solid organ transplant patients

PURPOSE OF REVIEW

Unlike immunocompetent hosts, solid organ transplant (SOT) recipients with posttransplant histoplasmosis (PTH) often present with disseminated disease and have an attributable mortality of approximately 10%. In this review, we discuss currently available diagnostic tests and treatment strategies in PTH.

RECENT FINDINGS

None of the available tests have a 100% diagnostic accuracy. Histoplasma antigen assays are the most sensitive commercially available tests. However, crossreactivity of histoplasma antigen with aspergillus galactomannan and false positive histoplasma antigen tests because of rabbit antithymocyte globulin may cause difficulty in interpreting positive test results in transplant recipients. Molecular assays such as amplification and sequencing of 'panfungal' portions of the 28S ribosomal RNA from clinical specimens appear to be promising.Lipid formulations of amphotericin B and itraconazole are the drugs of choice in the treatment of PTH. Other extended spectrum azoles also appear to be effective, but, like itraconazole, problems with drug interactions and prolongation of the QTc interval (except for isavuconazole, which shortens the QTc interval) remain. Mycophenolate therapy is associated with severe disease and should be stopped during active disease and, if feasible, calcineurin inhibitors and steroids should be reduced.

SUMMARY

A combination of various tests (culture, antigen tests, nucleic amplification tests, etc.) should be used to optimize diagnostic yield. The role of unbiased next generation sequencing for early diagnosis and newer azoles in the treatment needs to be further explored.

Rabbit Antithymocyte Globulin Causes Blastomyces and Histoplasma Antigenemia

Rabbit antithymocyte globulin (rATG) is known to yield false-positive Histoplasma antigenemia. The fourth generation MiraVista Histoplasma antigen assay was modified to block this effect (MiraVista Diagnostics, Indianapolis, Indiana). We report a case of rATG-induced false-positive Blastomyces and Histoplasma antigenemia in a lung transplant recipient despite modifications of these antigen assays.

Histoplasmosis Following Systemic Immunomodulatory Therapy for Ocular Inflammation

PURPOSE

Histoplasmosis is a known complication of systemic immunosuppressive therapy, particularly among patients who are receiving tumor necrosis factor α inhibitors. There are limited data on the development of disseminated or pulmonary histoplasmosis among patients who are receiving systemic immunosuppressive medication for noninfectious ocular inflammation.

DESIGN

Retrospective case series.

METHODS

We reviewed all patients with uveitis or scleritis who subsequently developed pulmonary or disseminated histoplasmosis at the Mayo Clinic in Rochester, Minnesota between September 1, 1994 and July 1, 2017, with a 3:1 age- and sex-matched control cohort who did not develop histoplasmosis. This was a single institutional study examining patients that developed histoplasmosis after the initiation of systemic immunomodulatory therapy (IMT). Patients had to develop either disseminated or pulmonary histoplasmosis while receiving systemic immunosuppressive therapy and have an ophthalmic examination at Mayo Clinic Rochester. The control group was comprised of patients who received systemic IMT for ocular inflammation but did not develop histoplasmosis.

RESULTS

Nine cases of histoplasmosis were identified: 2 disseminated and 7 pulmonary. Both patients with disseminated histoplasmosis were taking tumor necrosis factor α inhibitors. Seven of the 9 patients received systemic antifungal medication, including both disseminated cases. Over a median follow-up of 4.4 years, none of the patients died, and there were no recurrences of histoplasmosis. When compared to the control cohort, there was no correlation between length of time on IMT and the risk of histoplasmosis.

CONCLUSIONS

Ocular inflammation patients on systemic immunomodulatory therapy may develop pulmonary or disseminated histoplasmosis. Most cases require treatment with systemic antifungal medication, but it might not be necessary to stop systemic immunomodulatory medication for ocular inflammation. Ophthalmologists should be aware that patients receiving systemic immunomodulatory therapy have a higher risk of developing Histoplasma infections. Prompt diagnosis and treatment using the expertise of an infectious diseases specialist may ensure low mortality for these patients.

Disseminated histoplasmosis in pediatric kidney transplant recipients-A report of six cases and review of the literature

BACKGROUND

We report a case series of histoplasmosis in KTx patients in a children's hospital in an endemic area.

METHODS

All KTx cases from January 1, 2002, to August 31, 2016, were reviewed to identify those with disseminated histoplasmosis.

RESULTS

The attack rate of histoplasmosis among our KTx patients was 6.9 per 100 cases. The median age at the time of diagnosis was 16 years (11-18). Comorbidities included glomerulosclerosis (3), medullary cystic disease (1), and obstructive uropathy (2) and HIV (1). There were 5 deceased and 1 living-related donor transplants, and no patient had a history of rejection prior to histoplasmosis. Median time from transplant to histoplasmosis was 14.8 months (IQR 2.2-38.3) and 33% occurred in the first year after transplant. Urine and/or serum antigens were positive in all patients. They were either treated with amphotericin B and transitioned to an azole or received azole monotherapy. Most (83%) received chronic suppression with itraconazole. No patients died and relapse occurred in 1 patient after repeat transplant.

CONCLUSIONS

KTx patients in endemic areas are at risk for disseminated histoplasmosis. Further study is needed to determine which factors portend the need for fungal prophylaxis in this subset of patients.

Sepsis-like histoplasmosis in a kidney transplant patient

Histoplasmosis is a fungus infection that mainly affects immunosuppressed patients. The authors present a case of a kidney transplant recipient who developed sepsis-like histoplasmosis, na atypical but severe manifestation of the disease. The fungus was found in blood and in a skin biopsy, and the treatment with liposomal amphotericin resulted in hepatotoxicity.

Histoplasmosis in transplant recipients

Histoplasma capsulatum is a dimorphic fungus that most often causes asymptomatic infection in the immunocompetent population. In immunocompromised patients, including solid organ transplant (SOT) and hematopoietic cell transplant (HCT) recipients, however, it is likely to cause severe life-threatening infection. Post-transplant histoplasmosis (PTH) in SOT is uncommon with an incidence of ≤1% and is even rarer in HCT patients. The majority of PTH in SOT is diagnosed in the first 2 years following transplantation. Histoplasmosis may result from endogenous reactivation of latent infection, de novo post-transplant acquisition, and donor-derived infection. Disseminated infection is common. Fever is the most common symptom and clinical features are often nonspecific, but patients with disseminated infection may present with a septic picture. Other features, including pancytopenia and hepatosplenomegaly, may not be prominent early in the course of illness. Contemporary histoplasma antigen assays are the most sensitive tests but cross-reactivity with antigens of other fungi, including with Aspergillus galactomannan, is not uncommon. Treatment should be continued for at least a year. Histoplasma antigen levels have prognostic value and can be used to monitor the response to therapy. The attributable mortality is approximately 10%. Routine screening of donors and recipients is not currently recommended.

Histoplasmosis after solid organ transplant

BACKGROUND

To improve our understanding of risk factors, management, diagnosis, and outcomes associated with histoplasmosis after solid organ transplant (SOT), we report a large series of histoplasmosis occurring after SOT.

METHODS

All cases of histoplasmosis in SOT recipients diagnosed between 1 January 2003 and 31 December 2010 at 24 institutions were identified. Demographic, clinical, and laboratory data were collected.

RESULTS

One hundred fifty-two cases were identified: kidney (51%), liver (16%), kidney/pancreas (14%), heart (9%), lung (5%), pancreas (2%), and other (2%). The median time from transplant to diagnosis was 27 months, but 34% were diagnosed in the first year after transplant. Twenty-eight percent of patients had severe disease (requiring intensive care unit admission); 81% had disseminated disease. Urine Histoplasma antigen detection was the most sensitive diagnostic method, positive in 132 of 142 patients (93%). An amphotericin formulation was administered initially to 73% of patients for a median duration of 2 weeks; step-down therapy with an azole was continued for a median duration of 12 months. Ten percent of patients died due to histoplasmosis with 72% of deaths occurring in the first month after diagnosis; older age and severe disease were risk factors for death from histoplasmosis. Relapse occurred in 6% of patients.

CONCLUSIONS

Although late cases occur, the first year after SOT is the period of highest risk for histoplasmosis. In patients who survive the first month after diagnosis, treatment with an amphotericin formulation followed by an azole for 12 months is usually successful, with only rare relapse.

Donor-derived fungal infections in organ transplant recipients: guidelines of the American Society of Transplantation, infectious diseases community of practice

Donor-derived fungal infections can be associated with serious complications in transplant recipients. Most cases of donor-derived candidiasis have occurred in kidney transplant recipients in whom contaminated preservation fluid is a commonly proposed source. Donors with cryptococcal disease, including those with unrecognized cryptococcal meningoencephalitis may transmit the infection with the allograft. Active histoplasmosis or undiagnosed and presumably asymptomatic infection in the donor that had not resolved by the time of death can result in donor-derived histoplasmosis in the recipient. Potential donors from an endemic area with either active or occult infection can also transmit coccidioidomycosis. Rare instances of aspergillosis and other mycoses, including agents of mucormycosis may also be transmitted from infected donors. Appropriate diagnostic evaluation and prompt initiation of appropriate antifungal therapy are warranted if donor-derived fungal infections are a consideration. This document discusses the characteristics, evaluation and approach to the management of donor-derived fungal infections in organ transplant recipients.

Disseminated histoplasmosis associated with hemophagocytic lymphohistiocytosis in kidney transplant recipients

Transplant patients are susceptible to infectious complications due to chronic immunosuppression. We present two cases of persistent fever, weight loss and pancytopenia in kidney transplant recipients (originally concerning for posttransplant lymphoproliferative disease) that were later diagnosed with disseminated histoplasmosis on bone marrow and lymph node biopsy. In both patients, pancytopenia was due to hemophagocytic lymphohistiocytosis (HLH) which has rarely been described in association with histoplasmosis and not previously reported in kidney transplant recipients with this fungal infection. The diagnosis of histoplasmosis can be complex due to nonspecific symptomatology, delays in isolating histoplasma by fungal culture and false-negative antibody titers in immunocompromised patients. A review of the literature including the clinical features of histoplasmosis in immunosuppressed patients (prevalence, current diagnostic testing and treatment options) as well as the association of HLH in immunocompromised states are discussed.

Histoplasma capsulatum recovery from the urine and a short review of genitourinary histoplasmosis

Although virtually any organ can be involved in disseminated histoplasmosis, the recovery of Histoplasma capsulatum from the urine is a rare finding. Here we describe that a renal transplant recipient had H. capsulatum recovered from urinary sediment. The organism was also recovered from urine cultures. The potential implications of this finding are discussed, and the literature on genitourinary histoplasmosis is reviewed.

Transmission of tropical and geographically restricted infections during solid-organ transplantation

In recent years, the increasing number of donors from different regions of the world is providing a new challenge for the management and selection of suitable donors. This is a worldwide problem in most countries with transplantation programs, especially due to the increase in immigration and international travel. This paper elaborates recommendations regarding the selection criteria for donors from foreign countries who could potentially transmit tropical or geographically restricted infections to solid-organ transplant recipients. For this purpose, an extensive review of the medical literature focusing on viral, fungal, and parasitic infections that could be transmitted during transplantation from donors who have lived or traveled in countries where these infections are endemic has been performed, with special emphasis on tropical and imported infections. The review also includes cases described in the literature as well as risks of transmission during transplantation, microbiological tests available, and recommendations for each infection. A table listing different infectious agents with their geographic distributions and specific recommendations is included.

Histoplasmosis in solid organ transplant recipients at a large Midwestern university transplant center

Histoplasma capsulatum sporadically causes severe infections in solid organ transplant (SOT) patients in the Midwest, but it has been an unusual infection among those patients followed at the University of Nebraska Medical Center (UNMC), located at the western edge of the 'histo belt.' Nine SOT patients with histoplasmosis are described (6 renal or renal-pancreas and 3 liver recipients) who developed severe histoplasmosis over a recent 2.5-year period at UNMC. Symptoms started a median of 11 months (range, 1.2-90 months) after organ transplant and consisted primarily of fever, cough, shortness of breath, and malaise or fatigue present for approximately 30 days prior to medical evaluation. All patients had an abnormal chest radiograph and/or computed tomographic scan. Tacrolimus was the main immunosuppressant in all 9 patients, along with prednisone or mycophenolate. Dacluzimab or thymoglobulin had been given around the time of transplant in 6 of 9. None was treated for an episode of acute rejection within 2 months before onset of histoplasmosis, although 2 were on high-dose immunosuppression after recent transplants. Diagnosis was made by culture in 8 of the 9 patients, with positive serum and urine histoplasma antigen tests in all 9 cases. From 1997 to 2001, during a period of relative quiescence of the disease in the general population, the rate of clinical histoplasmosis among SOT patients at UNMC was estimated at 0.11%, whereas during 2002 through the first half of 2004, the rate rose 17-fold to 1.9%. Histoplasmosis can present as a prolonged febrile illness with subacute pulmonary symptoms in a cohort of SOT patients, despite the absence of a regional outbreak.

Non-Aspergillus Fungal Pneumonia in Transplant Recipients

Although species of Aspergillus and Candida account for most deeply invasive and life-threatening fungal infections, the past decades have seen a rise in the immunocompromised population. With this increase, additional fungi have emerged as important agents of morbidity and mortality. These opportunistic fungi are characterized by their ubiquitous presence in the environment, their ability to cause disease in immunosuppressed patients, and their diminished susceptibility to the currently available antifungal agents. Pneumonia, one aspect of a myriad of clinical manifestations caused by these fungal pathogens, is discussed in this article.

Progressive Disseminated Histoplasmosis Presenting as Cellulitis in a Renal Transplant Recipient

With the advent of potent immunosuppressive therapies used in solid organ transplantation, patients are more susceptible to a variety of infectious organisms. Infections may result from atypical pathogens and present in an unusual manner. We describe a case of progressive disseminated histoplasmosis presenting as cellulitis in a renal transplant recipient and review this disease.

Fungal infections in the recipients of solid organ transplantation

The advent of effective antibacterial and antiviral prophylatic and therapeutic strategies has led to the emergence of opportunistic mycoses as a principal cause of infection-related mortality in organ transplant recipients. Candida and Aspergillus species have accounted for most invasive fungal infections in organ transplant recipients. Epidemiologic trends within the last decade, however, are notable for the emergence of mycelial fungi other than Aspergillus as increasingly important pathogens in these patients. This article reviews the epidemiology, clinical manifestations, pathogenetic basis, diagnosis, and management of invasive fungal infections after organ transplantation in context of emerging trends and new developments in these areas.

Infections in recipients of kidney transplants

A review of infections in kidney transplant recipients is presented in this article, beginning with a discussion of the pretransplant infectious diseases evaluation and an overview of the timing of infectious posttransplant, and then focusing on individual types of infection.

Infectious complications in renal transplant recipients

Infectious complications present major challenges to physicians caring for renal transplant recipients. The high rate of infection reflects the net state of immunosuppression associated with end-stage renal disease, transplantation, donor and environmental exposure. An understanding of the factors that affect the patients' overall state of immunosuppression is essential to prevent and treat infectious complications, which may lead to significant morbidity, graft dysfunction, or mortality. Familiarity with the various pathogens, clinical presentation, diagnostic options, treatment, and prophylaxis is important to care for renal transplant patients. The authors present their approach, based on review of current literature, to these issues.

Disseminated histoplasmosis successfully treated with liposomal amphotericin B following azathioprine therapy in a patient from a nonendemic area

Histoplasma infections in Europe are rare, and acute disseminated histoplasmosis has been observed only in immunocompromised persons. An unusual case of autochthonous disseminated histoplasmosis in a 22-year-old Spanish man who had been treated with azathioprine and prednisone for 4 weeks before admission is reported. The development of an acute form of the disease may represent an endogenous reactivation of a latent infection as a complication of immunosuppression resulting from the use of these drugs. This case illustrates the potential risk of this opportunistic fungal infection in patients receiving azathioprine therapy, an association that has been rarely described before.

Infections After Organ Transplantation

Over the last ten to fifteen years medical and surgical advances have led to lower rates of infection and infection-related mortality in transplant recipients. Despite these advances, the process whereby one diagnoses and manages infectious problems in transplant patients has become increasingly complex. Evaluation of transplant patients with infections requires a good understanding of the intricacies of modern immunosuppressive therapy and both the typical and atypical clinical manifestations of many conventional and opportunistic pathogens. In particular, it is incumbent upon the clinicians caring for transplant patients to be familiar with the biology of cytomegalovirus and other herpes viruses, and of the prophylactic strategies that have evolved to lessen the burden of disease from these agents. Thorough knowledge is also required of common fungal pathogens and the viruses that cause chronic hepatitis. Transplant patients also should always be evaluated in the temporal context of their transplant operation, because different diseases are prevalent at different times after transplantation. Since immunosuppressive drugs modify the clinical presentation of infections is important to maintain clinical vigilance and attend to even minor new symptoms. This chapter is designed to provide a relatively concise overview of transplant infections for intensivists or other clinicians who encounter transplant patients in their practice. The references encompass much of the classic transplant infectious disease literature; they are included, not only for citation, but as a bibliography for further study.

Infection in the bone marrow transplant recipient and role of the microbiology laboratory in clinical transplantation

Over the past quarter century, tremendous technological advances have been made in bone marrow and solid organ transplantation. Despite these advances, an enduring problem for the transplant recipient is infection. As immunosuppressive regimens have become more systematic, it is apparent that different pathogens affect the transplant recipient at different time points in the posttransplantation course, since they are influenced by multiple intrinsic and extrinsic factors. An understanding of this evolving risk for infection is essential to the management of the patient following transplantation and is a key to the early diagnosis and treatment of infection. Likewise, diagnosis of infection is dependent upon the quality of laboratory support, and services provided by the clinical microbiology laboratory play an important role in all phases of clinical transplantation. These include the prescreening of donors and recipients for evidence of active or latent infection, the timely and accurate microbiologic evaluation of the transplant patient with suspected infection, and the surveillance of asymptomatic allograft recipients for infection. Expert services in bacteriology, mycology, parasitology, virology, and serology are needed and communication between the laboratory and the transplantation team is paramount for providing clinically relevant, cost-effective diagnostic testing.

Infections in solid-organ transplant recipients

Solid-organ transplantation is a therapeutic option for many human diseases. Infections are a major complication of solid-organ transplantation. All candidates should undergo a thorough infectious-disease screening prior to transplantation. There are three time frames, influenced by surgical factors, the level of immunosuppression, and environmental exposures, during which infections of specific types most frequently occur posttransplantation. Most infections during the first month are related to surgical complications. Opportunistic infections typically occur from the second to the sixth month. During the late posttransplant period (beyond 6 months), transplantation recipients suffer from the same infections seen in the general community. Opportunistic bacterial infections seen in transplant recipients include those caused by Legionella spp., Nocardia spp., Salmonella spp., and Listeria monocytogenes. Cytomegalovirus is the most common cause of viral infections. Herpes simplex virus, varicella-zoster virus, Epstein-Barr virus and others are also significant pathogens. Fungal infections, caused by both yeasts and mycelial fungi, are associated with the highest mortality rates. Mycobacterial, pneumocystis, and parasitic diseases may also occur.

Disseminated histoplasmosis presenting as urinary tract obstruction in a renal transplant recipient

Disseminated histoplasmosis occasionally involves the kidney, but the infection usually does not cause either urinary symptoms or a decrease in renal function. We present a case of disseminated histoplasmosis in a renal transplant recipient who presented with urinary obstruction in the allograft from a sloughed renal papilla infected with the fungus. At the same time the patient had chronic meningitis from Histoplasma capsulatum. The literature on renal involvement with histoplasmosis is reviewed.

Subcutaneous pseudallescheriasis in a renal transplant recipient

This paper reports a case of a single subcutaneous nodule caused by Pseudallescheria boydii in a renal transplant recipient, possibly of nontraumatic origin. The patient was treated surgically and with itraconazole.

Disseminated histoplasmosis in a renal transplant patient: a cause of renal failure several years following transplantation

A 49-year-old man developed disseminated histoplasmosis 6 1/2 years after transplantation. The organism was initially present in the urine and in a tongue lesion. Treatment with itraconazole was instituted. However, there was further dissemination of the disease and worsening of renal function. Allograft biopsy showed extensive involvement with the organism. Amphotericin B was started, resulting in a rapid resolution of the disease. However, renal function deteriorated, leading to permanent hemodialysis.

Opportunistic fungal infections in immunocompromised hosts

Fungal infections in immunocompromised hosts cause major morbidity and mortality. The Candida and Aspergillus species are the most common causes, but many rarer organisms, once considered "contaminants," are being reported. The number of patients who receive immunosuppressive agents for the treatment of malignancy or for organ transplantation is increasing as well as the potential for local or disseminated fungal infections. The diagnosis of these infections is often difficult and the existing methods for treatment are often ineffective. A high degree of suspicion to identify fungal infections and to prompt initiation of treatment must be maintained if the survival rate of these patients is expected to improve.

Host-parasite interaction in fungal infections

The outcome of host-parasite interactions in fungal infections is determined by the balance between pathogenicity of the organism and the adequacy of the host defenses. A wide variety of host defense mechanisms are involved in protection against fungal infections. These include nonspecific mechanisms such as intact skin and mucus membranes, indigenous microbial flora, and the fungicidal activity of neutrophils and monocytes. Such mechanisms constitute the major host defense against opportunistic fungal infections caused by ubiquitous organisms of low virulence. The effective role of immunoglobulins and complement as opsonins varies with the fungal pathogen involved. Specific immune responses of both the humoral and cell-mediated type develop in response to infections by pathogenic fungi. Antibodies, in general, are not of major importance in protection against these infections. Specifically sensitized T lymphocytes produce lymphokines that activate macrophages. Activated macrophages are the major line of defense against systemic fungal pathogens. The type and degree of impairment in immune responses determines the susceptibility and severity of diseases. The type of immune response also determines the tissue reactions in these diseases and sometimes may be involved in the pathogenesis of the disease process. The role of natural killer cell activity, antibody-dependent cellular cytotoxicity, and biological response modifiers in various fungal infections has been described recently. The microbial factors of importance in fungal infections are adherence, invasion, presence of an antiphagocytic capsule, and ability to grow under altered physiological states of the host. The differences in the virulence of fungal strains is of minor importance in determining the outcome in general. The seriousness of the alteration of the host state rather than the pathogenic properties of the fungus determine the severity of the disease.

Caecal perforation in a renal transplant patient with disseminated histoplasmosis

A renal transplant patient developed a fatal caecal perforation after Histoplasma capsulatum infection acquired abroad. Disseminated histoplasmosis is an uncommon fungal infection, usually seen in patients with impaired immunity. The diagnosis should be considered in immunosuppressed patients who develop prolonged fever or whose health deteriorates unexpectedly after travelling overseas. The infection is endemic in parts of the United States of America but occurs all over the world. Rapid diagnosis is often possible by histological examination of infected tissues. Treatment if started early may lead to recovery, but if it is not treated it is usually fatal.

Progressive disseminated histoplasmosis in patients with acquired immunodeficiency syndrome

PURPOSE

Progressive disseminated histoplasmosis is now diagnosed frequently in patients with the acquired immunodeficiency syndrome (AIDS) living in the central United States. Previous review articles of AIDS have failed to mention this infection. Herein, we describe 48 AIDS patients with progressive disseminated histoplasmosis in an effort to better understand the clinical presentation and diagnosis of the condition in this setting and to assess the efficacy of antifungal chemotherapy.

PATIENTS AND METHODS

In the Houston metropolitan area, there were 66 cases of progressive disseminated histoplasmosis among 1,300 confirmed cases of AIDS from January 1983 to July 1987. Of AIDS patients in East Texas with histoplasmosis, 16 patients were available for follow-up by one of us, and the histories of 32 were obtained by examination of hospital charts and physician records.

RESULTS

Fever, weight loss, and splenomegaly were the most common presenting signs and symptoms, occurring in 81, 52, and 31 percent, respectively. One-third of the patients had hematologic abnormalities. Infiltrates on chest roentgenograms were observed in 52 percent. Progressive disseminated histoplasmosis was the initial manifestation of AIDS in almost three-fourths of our patients. Biopsy and culture of the bone marrow established the diagnosis of progressive disseminated histoplasmosis in 69 percent. Clinical or autopsy proof of relapse occurred in three patients despite an initial course of more than 2 g of amphotericin B chemotherapy followed by ketoconazole suppression.

CONCLUSION

Progressive disseminated histoplasmosis is often the first sign of immunodeficiency in patients with AIDS, and the diagnosis of this condition is most often established by bone marrow biopsy and culture. Because of the permanence of the immunodeficient state in these patients, progressive disseminated histoplasmosis is resistant to treatment.

An autopsy case of disseminated histoplasmosis probably due to infection from a renal allograft

An autopsy case of a 52-year-old Japanese male, who died of disseminated histoplasmosis, is reported. He had received a cadaveric renal allograft 4 years prior to death. The donor was a 33-year-old American negro male, who had resided in Texas. The patient had been treated with immunosuppressive drugs after renal transplantation, and mycotic pneumonia developed 3 months before death. At autopsy, acute necrotizing lesions composed of histiocytes were observed in the transplanted kidney, lungs, prostate gland and various lymph nodes. Abundant yeast-like fungal elements, measuring 2-5 micron in diameter, were engulfed by the histiocytes, and were identified as Histoplasma capsulatum by the immunoperoxidase method. The transplanted kidney was considered to have been the source of the infection.