Paecilomyces lilacinus vaginitis in an immunocompetent patient.Paecilomyces lilacinus, an environmental mold found in soil and vegetation, rarely causes human infection. We report the first case of P. lilacinus isolated from a vaginal culture in a patient with vaginitis vaginitis Inflammation of the vagina. The chief symptom is a whitish or yellowish vaginal discharge. Treatment depends on the cause: appropriate drugs for sexually transmitted diseases (often from Gardnerella bacteria or trichomonads) or yeast infections; estrogen cream for . ********** Paecilomyces lilacinus, a saprobic sap·robe n. An organism that derives its nourishment from nonliving or decaying organic matter. [sapro- + Greek bios, life; see gwei- in Indo-European roots. filamentous fungus, found in soil, decaying vegetation, saunas, and laboratories (as an airborne contaminant), is an infrequent cause of human disease (1,2). Most cases of disease caused by the genus Paecilomyces occur in patients who have compromised immune systems, indwelling indwelling /in·dwell·ing/ (in´dwel-ing) pertaining to a catheter or other tube left within an organ or body passage for drainage, to maintain patency, or for the administration of drugs or nutrients. foreign devices, or intraocular lens implants (2,3). Rarely has disease been reported in immunocompetent im·mu·no·com·pe·tent adj. Having the normal bodily capacity to develop an immune response following exposure to an antigen. im hosts without any identifiable risk factor. We describe the first case of P. lilacinus isolated from a vaginal culture in a patient with vaginitis and review the published literature addressing P. lilacinus infections in immunocompetent patients. Our review demonstrates that the reports of P. lilacinus infections in immunocompetent hosts have become more frequent in the last several years. This trend indicates that P. lilacinus may be an emerging pathogen. Case Report A 48-year-old woman reported vaginal itching and discharge of 5 months' duration. Her symptoms had been recalcitrant to several courses of therapy for a presumptive diagnosis of candidal vaginitis. She had been treated initially with fluconazole fluconazole /flu·con·a·zole/ (floo-kon´ah-zol) a triazoleantifungal used in the systemic treatment of candidiasis and cryptococcal meningitis. flu·con·a·zole n. , then sequentially with topical clotrimazole clotrimazole /clo·trim·a·zole/ (klo-trim´ah-zol) an imidazole derivative used as a broad-spectrum antifungal agent. clo·trim·a·zole n. , ticoconazole ointment, and intravaginal boric acid gel. Her medical history was notable for mild gastritis (treated with omeprazole) and irregular uterine bleeding, controlled with hormone replacement therapy Hormone Replacement Therapy Definition Hormone replacement therapy (HRT) is the use of synthetic or natural female hormones to make up for the decline or lack of natural hormones produced in a woman's body. (a transdermal estrogen/progesterone combination). The patient was in a monogamous relationship with her husband but reported abstinence for several months because of the severity of her vaginal symptoms. On physical examination, vaginal erythema with a white liquid vaginal discharge was observed. Although a potassium hydroxide (KOH KOH The chemical formula for potassium hydroxide, which is used to perform the KOH test. The tests is also called a potassium hydroxide preparation. Mentioned in: KOH Test KOH potassium hydroxide. ) preparation was not obtained at baseline, the discharge grew P. lilacinus in pure culture. The patient was treated empirically with itraconazole itraconazole /it·ra·co·na·zole/ (it?rah-kon´ah-zol) a triazoleantifungal used in a variety of infections. it·ra·con·a·zole n. , 200 mg orally twice a day for 3 weeks. At the end of therapy, she reported complete resolution of her vaginal discharge and a significant decrease in her vaginal pruritus pruritus /pru·ri·tus/ (proo-ri´tus) itching.prurit´ic pruritus a´ni intense chronic itching in the anal region. pruritus hiema´lis xerotic eczema. . A repeat vaginal culture was not obtained at her first follow-up appointment after completion of itraconazole therapy because the vaginal vault contained a large amount of blood. At an appointment 6 months later, she remained free of vaginal discharge; a vaginal fungal culture and KOH preparation performed at that time were negative. The results of laboratory studies, including serum protein electrophoresis serum protein electrophoresis A method for determining protein 'homeostasis'; serum proteins are divided into prealbumin/albumin, α1 and α2 (with immunoglobulin [Ig] G, IgA, IgM) C3, C4, erythrocyte sedimentation rate Erythrocyte Sedimentation Rate Definition The erythrocyte sedimentation rate (ESR), or sedimentation rate (sed rate), is a measure of the settling of red blood cells in a tube of blood during one hour. , a complete blood count, CD4 cell count, and CD8 cell count were all within normal limits. Results of a test for antibodies to HIV HIV (Human Immunodeficiency Virus), either of two closely related retroviruses that invade T-helper lymphocytes and are responsible for AIDS. There are two types of HIV: HIV-1 and HIV-2. HIV-1 is responsible for the vast majority of AIDS in the United States. were negative. An anergy anergy /an·er·gy/ (an´er-je) 1. extreme lack of energy. 2. diminished reactivity to one or more specific antigens.aner´gic an·er·gy n. panel (with Candida and Trichophytin used as controls) was reactive. A purified protein derivative purified protein derivative see purified protein derivative of tuberculin. was not placed because the patient had a history of a positive test result. The patient's isolate was forwarded to the Fungus Testing Laboratory, Department of Patho[ogy, University of Texas Health Science Center at San Antonio UTHSCSA is the largest comprehensive health sciences university in South Texas. Located in the South Texas Medical Center, it serves San Antonio and all of the 50,000 square mile (130,000 km²) area of central and south Texas. , Texas, for confirmation of the identity and antifungal susceptibility testing, and accessioned into the stock collection as UTHSC 01-872. The isolate was initially subcultured onto potato flakes agar (PFA, prepared in house), which was prepared in-house, at 25[degrees]C, 30[degrees]C, 35[degrees]C, and 40[degrees]C (ambient air with alternating daylight and darkness). The isolate was subsequently plated onto carnation leaf agar (CLA CLA, n.pr See acid, conjugated linoleic. [prepared in-house]) and malt agar (Remel, Lenexa, KS) at 25[degrees]C. Temperature studies were repeated after initial observations. The case isolate was evaluated for susceptibility to antifungal agents by using the National Committee for Clinical Laboratory Standards broth macrodilution method M38-P (4). Briefly, the case isolate and the P. variotii control organism, UTHSC 90-450, were grown on PFA for 7 to 10 days at 25[degrees]C to induce conidial formation. The mature PFA isolate and control slants were overlaid with sterile distilled water, and suspensions were made by gently scraping the colonies with the tip of a Pasteur pipette. Heavy hyphal fragments were allowed to settle, and the upper, homogeneous conidial suspensions were removed. Conidia co·nid·i·a n. Plural of conidium. were counted with a hemacytometer hemacytometer /hema·cy·tom·e·ter/ (he?mah-si-tom´e-ter) an apparatus used for making manual blood counts with a counting chamber. he·ma·cy·tom·e·ter n. See hemocytometer. , and the inoculum inoculum /in·oc·u·lum/ (-ok´u-lum) pl. inoc´ula material used in inoculation. in·oc·u·lum n. pl. was standardized to 1.0 x [10.sup.5] CFU/mL. Conidial suspensions were further diluted 1:10 in medium for a final inoculum concentration of 1.0 x [10.sup.4] CFU/mL. Final drug concentrations were 0.03-16 [micro]g/mL for amphotericin B (Bristol-Myers Squibb, Princeton, NJ), ketoconazole ketoconazole /ke·to·co·na·zole/ (ke?to-kon´ah-zol) a derivative of imidazole used as an antifungal agent. ke·to·co·na·zole n. (Janssen Pharmaceutica, Titusville, NJ) and clotrimazole (Schering-Plough, Kenilworth, NJ), 0.125-64 [micro]g/mL for 5-flucytosine (Roche Laboratories, Nutley, NJ), fluconazole, voriconazole (Pfizer, Inc., New York, NY), and terconazole (Ortho-McNeil Pharmaceuticals, Inc., Raritan. NJ), and 0.015-8 [micro]g/mL for itraconazole (Janssen Pharmaceutica) and posaconazole (Schering-Plough). Results Growth of the isolate on PFA produced a buff-colored to slightly lavender, somewhat granular colony after 7 days' incubation at 25[degrees]C. Repeat subcultures with extended incubation (up to 2 weeks) yielded colonies which were more definitely mauve-colored, consistent with those typically seen with P. lilacinus (Figure 1). The isolate failed to produce sporodochia on carnation leaf agar (CLA, prepared in-house), a feature seen with Fusarium Fusarium a genus of fungi; some species are plant pathogens and some are opportunistic infectious agents of humans and animals. Many also produce trichothecene toxins which cause poisoning of animals if the infected material, usually stored feed, is eaten. species (many of which are lavender) and failed to produce a diffusing yellow pigment on malt agar, a characteristic seen with the closely related P. marguandii. The conidiogenous cells from the initial slide culture, held 7 days and prepared from a PFA block, consisted predominately of single, long, tapering phialides, somewhat atypical for the species. Repeat PFA slide cultures from subcultures displaying a more typical macroscopic structure yielded complex fruiting heads with verticillate verticillate /ver·tic·il·late/ (ver-tis´i-lat) arranged in whorls. ver·ti·cil·late adj. Arranged in or forming a whorl or whorls. verticillate arranged in whorls. conidiophores and divergent phialides, typical for P. lilacinus (Figure 2). Conidiophore co·nid·i·o·phore n. A specialized fungal hypha that produces conidia. co·nid  i·oph roughness, a feature described for P. lilacinus, was not
observed, however, even after repeated subculturing and examinations.
Smooth-walled, elliptical conidia occurred in long, tangled chains and
measured approximately 2.0 X 2.5 [micro]m. No chlamydospores were
observed on any of the media examined. Temperature studies performed on
two separate occasions (PFA) indicated 4+ growth at 25[degrees]C and
30[degrees]C, 2+ growth at 35[degrees]C, and no growth at 40[degrees]C.[FIGURES 1-2 OMITTED] Species of Paecilomyces known to produce pinkish to purplish colonies include P. javanicus, P. fimetarius, P fumosoroseus, P. lilacinus, and P. marquandii. The first three species were excluded from consideration on the basis of the size of the conidia, as well as the lack of synnematal production for P. fumosoroseus (5). P. marquandii differs from P. lilacinus by the production of an intense yellow diffusible diffusible /dif·fus·ible/ (di-fuz´i-b'l) susceptible of becoming widely spread. pigment, smooth-walled hyaline hyaline /hy·a·line/ (hi´ah-lin) glassy and translucent. hy·a·line adj. Resembling glass, as in translucence or transparency; glassy. n. 1. conidiophores, and the production of chlamydospores. Although the isolate in this case did display smooth conidiophores, no yellow pigment or chlamydospores were observed. The existence of intergrading forms between P. lilacinus and P. marquandii has been described (6). In such strains, characteristics of both species may be observed. On the basis of the characteristics above, the isolate was identified as P. lilacinus. In vitro 48-hour to 72-hour MIC data in [micro]m/mL for the isolate were as follows: amphotericin B, >16; 5-flucytosine (5-FC), >64; ketoconazole, 0.5/0.5; fluconazole, 32/64; itraconazole, 0.5/0.5; clotrimazole, 0.06/0.25; voriconazole, 0.25/0.25; terconazole, 4/8; and posaconazole, 0.125/0.125. Conclusions P. lilicanus rarely causes human infection. A MedLine review of English-language literature from 1966 to 2003 yielded approximately 60 reports of P. lilacinus infections in patients who were immunocompromised, had undergone ophthalmologic surgery, or had indwelling foreign devices (2,3). A Medline review in the same time period indicated only six cases of P. lilacinus infections among patients who lacked a readily identifiable risk factor. A review of the bibliographies of relevant articles yielded three additional reports, for a total of nine cases in apparently immunocompetent hosts. The salient features of these cases, as well as ours, are summarized in the Table. The source of infection in most cases, including ours, is not easily identifiable. P. lilacinus has been isolated as a benign commensal commensal /com·men·sal/ (kom-men´sil) 1. living on or within another organism, and deriving benefit without harming or benefiting the host. 2. a parasite that causes no harm to the host. organism on the toenails of inmmunocompetent hosts (15). In some cases, however, P. lilacinus has been pathogenic and has been implicated as a cause of onychomycosis in an immunocompetent adult (14). The low pathogenicity of this fungus in normal hosts is demonstrated by the indolent nature of two of the cutaneous infections listed in the Table (8,9), which were characterized by many years of chronic infection. All isolates of the genus Paecilomyces should be tested for fungal susceptibility since clinical isolates of P. lilacinus frequently display considerable resistance. Isolates of P. lilacinus, for example, are usually resistant to amphotericin B and 5-flucytosine and susceptible to miconazole miconazole /mi·con·a·zole/ (mi-kon´ah-zol) an imidazoleantifungal agent used as the base or the nitrate salt against tinea and cutaneous or vulvovaginal candidiasis. and ketoconazole, whereas isolates of the species P. variotii are usually susceptible to amphotericin B and 5-flucytosine (16). On the basis of breakpoints established for other fungi, the case isolate appeared resistant to amphotericin B, 5-flucytosine, fluconazole, and possibly terconazole. The approved azoles, itraconazole, ketoconazole, and clotrimazole, appeared susceptible, as did the investigational triazoles, voriconazole, and posaconazole. Although the source isolate was susceptible to clotrimazole, the patient's symptoms did not resolve after clotrimazole treatment. However, the duration of therapy with this agent and the degree of the patient's adherence to the treatment regimen are unknown; one or both of these factors may have contributed to treatment failure. Our review demonstrates that reports of P. lilacinus infections in immunocompetent hosts appear to be increasing. The four earliest cases occurred from 1972 to 1984, with one case reported every 3-5 years. The eight subsequent cases occurred between 1996 and 2002, for an average of slightly more than one new case per year. We report the first case of P. lilacinus isolated from a vaginal culture in a patient with vaginitis, whose symptoms failed to improve after treatment with fluconazole. Her symptoms resolved after treatment with itraconazole, to which the case isolate was susceptible. P. lilacinus has been described as an emerging opportunistic pathogen in humans (17). In May 2002, the first case of disseminated P. lilacinus infection in an HIV-infected patient was reported (18). Our review suggests that P. lilacinus may be an emerging pathogen in immunocompetent adults as well.
Table. Clinical features of cases of Paecilomyces
lilacinus infections in immunocompetent hosts
Patient age, Y Type of Treatment Outcome
gender, and infection
reference no.
48-year-old 2002 Vaginitis Iraconazole Cure
woman
(our case)
36-year-old 1999 Cutaneous Itraconazole Cure
man (3)
59-year-old 2001 Cutaneous Itraconazole Cure
woman (7)
20-year-old 1977 Cutaneous Griseofulvin Improvement,
woman (8) but not cure
19-year-old 1984 Cutaneous Griseofulvin, Improvement
man (9) then ketoco-
nazole
57-year-old 1999 Lung Surgery Cure
man (10) abscess
20-year-old 1972 Pulmonary Amphotericin Cure
man (11) effusion B
47-year-old 1980 Sinusitis Surgical Cure
woman (12) debridement
34-year-old 1997 Endo- Fluconazole, Progression
man (13) phthalmitis ketoconazole, of disease
itraconazole
59-year-old 1998 Onychomy- Terbinafine, Progression
woman (14) cosis various of disease
topical
therapies,
nail clipping
Acknowledgments The authors thank David C. Perlman for his helpful comments and critical review of the manuscript and Carmen Yampierre for performing the initial microbiologic processing of the Paecilomyces lilacinus isolate. References (1.) Saberhagen C, Klotz SA, Bartholomew W, Drews D, Dixon A. Infection due to Paecilomyces lilacinus: a challenging clinical identification. Clin Infect Dis 1997:25:1411-3. (2.) Westenfeld F, Alston WK, Winn WC. Complicated soft tissue infection with prepatellar bursitis caused by Paecilomyces lilacinus in an immunocompetent host: case report and review. J Clin Microbiol 1996;34:1559-62. (3.) Gutierrez-Rodero F, Moragon M, Ortiz de la Tabla V, Mayol MJ, Martin C. Cutaneous hyalohyphomycosis caused by Paecilomyces lilacinus in an immunocompetent host successfully treated with itraconazole: case report and review. Eur J Clin Microbiol Infect Dis 1999;18:814-8. (4.) National Committee for Clinical Laboratory Standards. Reference method for broth dilution antifungal susceptibility testing of conidium-forming filamentous fungi. Proposed standard M38-P. Wayne (PA): The Committee; 2000 (5.) Samson RA. Paecilomyces and some allied hyphomycetes. Stud Mycol 1974;6:1-119. (6.) Brown AH, Smith G. The genus Paecilomyces Bainer and its perfect stage Byssochlamys. Trans Br Mycol Soc 1957;40:17-87. (7.) Gottlieb T, Atkins BL. Case report: successful treatment of cutaneous Paecilomyces lilacinus infection with oral itraconazole in an immune competent host. Mycoses 2001;44:513-5. (8.) Takayasu S, Akagi M, Shimizu Y. Cutaneous mycosis mycosis: see fungal infection. caused by Paecilonores lilacinus. Arch Dermatol 1977;113:1687-90. (9.) Cho GY, Choo EH, Choi GJ, Hong NS, Houh W. Facial cutaneous mycosis by Paecilomyces lilacinus. Korean Journal of Dermatology 1984;22:89-93. (10.) Ono N, Sato K, Yokomise H, Tamura K. Lung abscess caused by Paecilomyces lilacinus. Respiration 1999;66:85-7. (11.) Fenech FF, Mallia CP. Pleural effusion caused by Penicillium Penicillium Any blue or green mold in the genus Penicillium (kingdom Fungi; see fungus). Common on foodstuffs, leather, and fabrics, they are economically important in producing antibiotics (see lilacinum. Br J Dis Chest 1972:66:284-90. (12.) Rockhill RC, Klein MD. Paecilomyces lilacinus as the cause of chronic maxillary max·il·lar·y adj. Of or relating to a jaw or jawbone, especially the upper one. n. A maxillar; a jawbone. maxillary (mak´siler´ē), adj sinusitis. J Clin Microbiol 1980;11:737-9. (13.) Okhravi N, Dart JK, Towler HM, Lightman S. Paecilomyces lilacinus endophthalmitis with secondary keratitis keratitis Inflammation of the cornea (see eye). The conjunctiva may also be inflamed (keratoconjunctivitis). Depending on the cause, including dryness of the eye (from low tear production or inability to close the eye), chemical or physical injury, or certain . Arch Ophthalmol 1997;115:1320-4. (14.) Fletcher CL, Hay RJ, Midgley G, Moore M. Onychomycosis caused by infection with Paecilomyces lilacinus [Letter]. Br J Dermatol 1998;139:1133-5. (15.) Abdel-Hafez AI, El-Sharouny HMM HMM heavy meromyosin. . Keratinophilic and saprophytic saprophytic pertaining to saprophyte. fungi isolated from students' nails in Egypt. J Basic Microbiol 1990;30:3-11. (16.) Padhye AA. Hyalophomycosis. In: Balows A, Hausler WJ Jr, Ohashi M, Torano A, editors. Laboratory diagnosis of infectious diseases: principles and practice, Vol I, bacterial, mycotic mycotic /my·cot·ic/ (mi-kot´ik) 1. pertaining to mycosis. 2. caused by a fungus. my·cot·ic adj. 1. Relating to mycosis. 2. and parasitic diseases. New York: Springer-Verlag; 1988. p. 654-62. (17.) Safdar A. Progressive cutaneous hyalohyphomycosis due to Paecilomyces lilacinus: rapid response to treatment with caspofungin and itraconazole. Clin Infect Dis 2002;34:1415-7. (18.) Lovell RD, Moll M, Allen J, Cicci LG. Case report: disseminated Paecilomyces lilacinus infection in a patient with AIDS. AIDS Read 2002;12:212-21. Dr. Carey is an attending physician in the Division of Infectious Diseases at Beth Israel Medical Center Beth Israel Medical Center is a hospital in New York City. It has four major locations providing health services. It acts as University Hospital and Manhattan Campus for the Albert Einstein College of Medicine of Yeshiva University. in New York. Her research interests include tuberculosis and hepatitis among drug users. Address for correspondence: Jeanne Carey, Beth Israel Medical Center, Division of Infectious Diseases, 17 Baird Hall, 350 East 17th Street, New York, N.Y. 10003, USA; fax: 212-420-2032; email: jcarey@bethisraelny.org Jeanne Carey, * Ron D'Amico, * Deanna A. Sutton, ([dagger]) and Michael G. Rinaldit ([dagger])([double dagger]) * Beth Israel Medical Center, New York, New York, USA; ([dagger]) University of Texas Health Science Center at San Antonio, San Antonio, Texas “San Antonio” redirects here. For other uses, see San Antonio (disambiguation). San Antonio is the second most populous city in Texas, the third most populous metropolitan area in Texas, and is the seventh most populous city in the United States. As of the 2006 U.S. , USA; and ([double dagger]) Audie L. Murphy Division, South Texas Veterans Health Care System, San Antonio, Texas, USA |
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