You are in: eMedicine Specialties > Infectious Diseases > MEDICAL TOPICS Mycobacterium gordonaeArticle Last Updated: Aug 15, 2007AUTHOR AND EDITOR INFORMATIONSection 1 of 10
  Author: Klaus-Dieter Lessnau, MD, FCCP, Clinical Assistant Professor of Medicine, New York University School of Medicine; Medical Director, Pulmonary Physiology Laboratory, Director of Research in Pulmonary Medicine, Department of Medicine, Section of Pulmonary Medicine, Lenox Hill Hospital Klaus-Dieter Lessnau is a member of the following medical societies: American College of Chest Physicians, American College of Physicians, American Medical Association, American Society for Artificial Internal Organs, American Thoracic Society, Physicians for Social Responsibility, and Society of Critical Care Medicine Coauthor(s): Cynthia de Luise, RPA-C, MPH, Manager, Department of Global Epidemiology, Pfizer, Inc Editors: Thomas Herchline, MD, Associate Professor of Medicine, Wright State University Boonshoft School of Medicine; Medical Director, Combined Health District of Montgomery County, Ohio; Francisco Talavera, PharmD, PhD, Senior Pharmacy Editor, eMedicine; Aaron Glatt, MD, Professor of Clinical Medicine, New York Medical College; Chief Medical Officer, Departments of Medicine and Infectious Diseases, New Island Hospital; Eleftherios Mylonakis, MD, Clinical and Research Fellow, Department of Internal Medicine, Division of Infectious Diseases, Massachusetts General Hospital; Burke A Cunha, MD, Professor of Medicine, State University of New York School of Medicine at Stony Brook; Chief, Infectious Disease Division, Winthrop-University Hospital Author and Editor Disclosure Synonyms and related keywords: Mycobacterium gordonae, M gordonae, Mycobacterium aquae, M aquae, tap water bacillus, tap water isolate, tap water bacteremia, nontuberculous mycobacteria, mycobacteria, non-tuberculous mycobacteria, bacteremia, HIV infection, human immunodeficiency virus INTRODUCTIONSection 2 of 10
  BackgroundAdvanced laboratory diagnostic techniques have improved the isolation and identification of nontuberculous mycobacteria. Mycobacterium gordonae, a commonly found species of mycobacteria, is named after its discoverer, the American bacteriologist Ruth E. Gordon. It is classified in Runyon group 2 as a scotochromogenic organism. Cultures grow slowly, are smooth, and are pigmented yellow. M gordonae is referred to as the tap water bacillus because it is a frequent isolate in tap water. M gordonae is ubiquitous and may be found in soil, water (eg, ground, tap, bottled), whirlpools, unpasteurized milk, mucous membranes of healthy persons, urine, and gastric fluid. It is the most commonly encountered nontuberculous mycobacterium in water, with concentrations as high as 1000 colony-forming units per liter. New cases of M gordonae disease should always be published to increase the knowledge of this disease. Many isolates represent contamination of the specimen or colonization, but not true disease. Discussing positive culture findings with microbiology laboratory personnel is useful. The authors are willing to discuss any possibly new case of M gordonae infection and are willing to offer support to write up cases of actual disease. PathophysiologyM gordonae is one of the least pathogenic of the mycobacteria. It is usually a contaminant or colonizer in patients who are not infected with HIV. However, in patients who are infected with HIV and have severe immunosuppression (count of <100 CD4+ cells/µL), M gordonae may infect the lungs, blood, bone marrow, and other organs. In the few published case reports of M gordonae disease, pathogenicity was not always established because of the presence of single isolates, the lack of confirmation by a reference laboratory, or the rapid improvement of pulmonary infiltrates, which are not characteristic features of infections from other mycobacterial species. FrequencyUnited StatesM gordonae disease is rare. While more than 100 cases have been reported, most documentation supports contamination or colonization rather than pathogenicity. Nosocomial pseudo-outbreaks have been described from tap water, ice machines, antimicrobial and laboratory solutions, instrumentation, fiberoptic bronchoscopes and colonoscopes (especially if the working channel is not adequately exposed to disinfectant), aerosol devices, and (possibly) continuous ambulatory peritoneal dialysis fluid. InternationalWorldwide distribution is probable. Additional studies with adequate documentation are warranted to investigate the pathogenicity of M gordonae. Mortality/MorbidityThe mortality rate is less than 0.1%. M gordonae may be a marker of severe immunosuppression in patients infected with HIV. One death was reported in a patient who was HIV positive and had severe immunosuppression, acute respiratory distress syndrome, and multiple isolates of M gordonae. RaceNo racial predilection is recognized. SexNo sexual predilection is known. AgeNo age predilection has been determined. CLINICALSection 3 of 10
History
Physical
CausesPositive HIV status with severe immunosuppression (<50 CD4+ cells/µL) is a risk factor. DIFFERENTIALSSection 4 of 10
Mycobacterium Avium-Intracellulare Mycobacterium Fortuitum Mycobacterium Haemophilum Mycobacterium Kansasii Mycobacterium Marinum Mycobacterium Xenopi Tuberculosis
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| Drug Name | Clarithromycin (Biaxin) |
|---|---|
| Description | Inhibits bacterial growth, possibly by blocking dissociation of peptidyl tRNA from ribosomes, causing RNA-dependent protein synthesis to arrest. Very active drug for nontuberculous mycobacterial disease, but acquired resistance from monotherapy is a concern. |
| Adult Dose | 500-1000 mg PO bid |
| Pediatric Dose | 7.5 mg/kg PO bid |
| Contraindications | Documented hypersensitivity; coadministration with pimozide |
| Interactions | To avoid uveitis, do not exceed 300 mg of rifabutin when used with clarithromycin; toxicity increases with coadministration of fluconazole, astemizole, and pimozide; effects decrease and adverse GI effects may increase with coadministration of rifabutin or rifampin; may increase toxicity of anticoagulants, cyclosporine, tacrolimus, digoxin, omeprazole, carbamazepine, ergot alkaloids, triazolam, and HMG CoA-reductase inhibitors; plasma levels of certain benzodiazepines may increase, prolonging CNS depression; arrhythmias and increase in QTC intervals occur with disopyramide; coadministration with omeprazole may increase plasma levels of both agents |
| Pregnancy | C - Fetal risk revealed in studies in animals but not established or not studies in humans; may use if benefits outweigh risk to fetus |
| Precautions | Coadministration with ranitidine or bismuth citrate is not recommended with CrCl <25 mL/min; administer half dose or increase dosing interval if CrCl <30 mL/min; irritative diarrhea not due to Clostridium difficile; superinfections may occur with prolonged or repeated antibiotic therapies |
| Drug Name | Ethambutol (Myambutol) |
|---|---|
| Description | Standard drug for nontuberculous mycobacterial disease. Diffuses into actively growing mycobacterial cells and impairs cell metabolism by inhibiting synthesis of one or more metabolites, which, in turn, causes cell death. No cross-resistance demonstrated. Mycobacterial resistance is frequent with previous therapy. Use in these patients in combination with second-line drugs that have not previously been administered. Administer qd until permanent bacteriological conversion and maximal clinical improvement is observed. Absorption not significantly altered by food. |
| Adult Dose | 15 mg/kg (7 mg/lb) PO qd |
| Pediatric Dose | <12 years: Not recommended >12 years: Administer as in adults |
| Contraindications | Documented hypersensitivity; optic neuritis (unless clinically indicated) |
| Interactions | Aluminum salts may delay and reduce absorption (administer several hours before or after ethambutol dose) |
| Pregnancy | B - Fetal risk not confirmed in studies in humans but has been shown in some studies in animals |
| Precautions | Liver disease (only a few cases of liver toxicity have been observed); reduce dose in patients with impaired renal function; may cause adverse visual effects that may be reversible if promptly discontinued; monthly monitoring of visual acuity and color vision is recommended; approximately 1% of ophthalmologic complications occur with doses of 15 mg/kg PO qd; approximately 10% of ophthalmologic complications occur with doses of 25 mg/kg PO qd |
| Drug Name | Levofloxacin (Levaquin) |
|---|---|
| Description | May be useful. Aide effects are very rare (eg, GI or CNS abnormalities, tendinitis). For treatment of mycobacterial infection in combination with rifampin and other antituberculosis agents. |
| Adult Dose | 500-1000 mg PO qd or divided bid |
| Pediatric Dose | <12 years: Not established >12 years: Administer as in adults |
| Contraindications | Documented hypersensitivity |
| Interactions | Antacids, iron salts, and zinc salts may reduce serum levels; administer antacids 2-4 h before or after taking fluoroquinolones; cimetidine may interfere with metabolism; reduces therapeutic effects of phenytoin; probenecid may increase serum concentrations; may increase toxicity of theophylline, caffeine, cyclosporine, and digoxin (monitor digoxin levels); may increase effects of anticoagulants (monitor PT) |
| Pregnancy | C - Fetal risk revealed in studies in animals but not established or not studies in humans; may use if benefits outweigh risk to fetus |
| Precautions | In prolonged therapy, periodically evaluate organ system functions (eg, renal, hepatic, hematopoietic); adjust dose in renal function impairment; superinfections may occur with prolonged or repeated antibiotic therapy |
| Drug Name | Rifampin (Rifadin, Rimactane) |
|---|---|
| Description | For use in combination with at least one other antituberculous drug. Inhibits DNA-dependent bacterial but not mammalian RNA polymerase. Cross-resistance may occur. Often used for nontuberculous mycobacterial disease. |
| Adult Dose | 600 mg PO qd |
| Pediatric Dose | 10-20 mg/kg PO; not to exceed 600 mg/d |
| Contraindications | Documented hypersensitivity |
| Interactions | Induces microsomal enzymes, which may decrease effects of acetaminophen, oral anticoagulants, barbiturates, benzodiazepines, beta-blockers, chloramphenicol, oral contraceptives, corticosteroids, mexiletine, cyclosporine, digitoxin, disopyramide, estrogens, hydantoins, methadone, clofibrate, quinidine, dapsone, tazobactam, sulfonylureas, theophyllines, tocainide, and digoxin; blood pressure may increase with coadministration of enalapril; coadministration with isoniazid may result in higher rate of hepatotoxicity than with either agent alone (discontinue one or both agents if alterations in LFT results occur) |
| Pregnancy | C - Fetal risk revealed in studies in animals but not established or not studies in humans; may use if benefits outweigh risk to fetus |
| Precautions | Obtain CBC counts and baseline clinical chemistry values prior to and throughout therapy; in liver disease, weigh benefits against risk of further liver damage; interruption of therapy and high-dose intermittent therapy are associated with thrombocytopenia that is reversible if therapy is discontinued as soon as purpura occurs; if treatment is continued or resumed after appearance of purpura, cerebral hemorrhage or death may occur |
| Drug Name | Rifabutin (Mycobutin) |
|---|---|
| Description | Ansamycin antibiotic derived from rifamycin S. Inhibits DNA-dependent RNA polymerase, preventing chain initiation in susceptible strains of Escherichia coli and Bacillus subtilis but not in mammalian cells. If GI upset occurs, administer dose bid with food. May be more active with nontuberculous species. |
| Adult Dose | 300-600 mg PO qd |
| Pediatric Dose | Not established; 5 mg/kg/d PO suggested |
| Contraindications | Documented hypersensitivity; uveitis; thrombocytopenia |
| Interactions | Reduce to 150 mg PO qd with coadministration of protease inhibitor (eg, indinavir, nelfinavir); decreases levels of many other medications (eg, estrogens); do not exceed 300 mg qd when used with clarithromycin; steady-state zidovudine plasma levels may decrease after repeated rifabutin dosing, but this does not affect inhibition of HIV by zidovudine |
| Pregnancy | B - Fetal risk not confirmed in studies in humans but has been shown in some studies in animals |
| Precautions | Do not administer to patients with active tuberculosis; periodically perform hematologic studies in patients receiving prophylaxis because of association with neutropenia and, more rarely, thrombocytopenia |
| Drug Name | Azithromycin (Zithromax) |
|---|---|
| Description | Treats mild-to-moderate microbial infections. Dosing qwk is possible. |
| Adult Dose | 10 mg/kg PO on day 1, 5 mg/kg on days 2-5, then 10 mg/kg qwk; 1200 mg PO qwk used in adults |
| Pediatric Dose | 10 mg/kg PO on day 1, 5 mg/kg on days 2-5, then 10 mg/kg qwk |
| Contraindications | Documented hypersensitivity; hepatic impairment; do not administer with pimozide |
| Interactions | May cause QT prolongation with cisapride, itraconazole, sparfloxacin, and other medications (probably very rare); may increase toxicity of theophylline, warfarin, and digoxin; effects are reduced with coadministration of aluminum and/or magnesium antacids; nephrotoxicity and neurotoxicity may occur when coadministered with cyclosporine |
| Pregnancy | B - Fetal risk not confirmed in studies in humans but has been shown in some studies in animals |
| Precautions | Site reactions can occur with IV route; bacterial or fungal overgrowth may result with prolonged antibiotic use; may increase hepatic enzymes and cholestatic jaundice; caution in patients with impaired hepatic function or prolonged QT intervals; caution in patients who are hospitalized, geriatric, or debilitated |
Mycobacterium gordonae excerpt
Article Last Updated: Aug 15, 2007
