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What Is Your Diagnosis? Cutaneous Mastocytosis (Urticaria Pigmentosa)
Mycobacterium marinum Infection: A Case Report and Review of the Literature (See Erratum 2007;79:235)
Mycobacterium marinum is a nontuberculous mycobacteria that is often acquired via contact with contaminated salt or fresh water. We present a case of a 67-year-old man who developed several solitary nontender nodules on his hands and forearm after working on the underside of his boat. In addition, we provide a review of the literature and discuss how this infection is acquired, the underlying pathogenesis, the cutaneous and histologic findings, the differential diagnosis, the diagnostic methods, and the various treatment options.
Case Report
An otherwise healthy 67-year-old white man presented to the dermatology clinic with a 10-day history of multiple red scaly lesions on his hands and forearm. The patient recalled that the lesions appeared one week after he had scraped his hands on barnacles while cleaning the underside of his boat. On physical examination, the patient had multiple well-circumscribed, nontender, erythematous subcutaneous nodules with central crusting and scaling located on the dorsal aspect of both hands and his left forearm (Figure 1). There was no lymphadenopathy, and the patient denied fever, painful joints, or any other systemic symptoms.
Results from a punch biopsy of one of the lesions on the right dorsal hand were characterized as a mixed dense acute, chronic, and granulomatous infiltrate (Figure 2). Numerous acid-fast bacteria were seen on both Ziehl-Neelsen and Fite stains (Figure 3). In addition, a direct smear fluorochrome stain for acid-fast bacilli was positive. The patient was empirically treated with clarithromycin and ethambutol hydrochloride. Two weeks later, the acid-fast bacilli culture grew out Mycobacterium marinum sensitive to clarithromycin, ethambutol hydrochloride, and rifampin. After 2 months of treatment, his lesions had completely resolved.
Comment
M marinum is a nontuberculous atypical Mycobacterium that can cause cutaneous infection of sites of prior wounds exposed to contaminated fresh or salt water. Known originally as swimming pool granuloma, this infection was first described in 1951 after large outbreaks of cases involving swimming pools.1,2 After widespread pool chlorination in the 1960s, most reported cases were in fishermen and aquarium owners, giving rise to the term fish tank granuloma.3 Ornamental fish such as the Siamese fighting fish Betta splendens and the snakehead Channa striata are common hosts of the mycobacteria.4 With improper chlorination and emergence of chlorine-resistant organisms, swimming pool—associated infections have reemerged.3 After entering through an open wound, M marinum usually causes a tender erythematous nodule or pustule at the site of inoculation. Although the infection typically occurs on the dominant hand, any extremity may be affected. The average incubation period is approximately 2 to 4 weeks but can last as long as 9 months.3,5 With time, the lesion can evolve into a crusted ulcer with an underlying suppurative abscess or a verrucous nodule or plaque. As the infection spreads, multiple nodules can appear following the course of the draining lymphatics. This pattern is commonly known as sporotrichoid spread (Table) because of its resemblance to the ascending lymphangitis of sporotrichosis.2,6 With deeper infections, tenosynovitis may occur and can progress to septic arthritis and osteomyelitis.7 As with other atypical mycobacterial infections, the disease can disseminate and become fatal in immunocompromised patients.
The histopathology findings in patients with M marinum infections can range from acute and chronic inflammation to ill-defined suppurative granulomas, which is similar to findings seen with other types of mycobacterial infections. The granulomas are characterized by surviving organisms contained within a mixture of surrounding histiocytes and lymphocytes. In addition, suppurative granulomas are formed in response to the presence of multiple reactive neutrophils. The organisms rarely are seen on routine hematoxylin and eosin stain but may become positive on acid-fast stains such as Ziehl-Neelsen or Fite.2,8 Epidermal changes, including ulceration and pseudoepitheliomatous hyperplasia, can be seen in chronic lesions.2 Strain characteristics may play a critical role in the pathogenicity of M marinum.9 Several virulence factors now have been identified by using a research model for the pathogenesis in Mycobacterium tuberculosis infection. Factors that are required for intracellular survival of the mycobacteria in macrophages include the exported repetitive protein and the protein encoded by the macrophage-activated gene 24-1.10,11 In addition, the invasion and intracellular persistence protein A is essential for initial invasion of M marinum into macrophages and also allows for the intracellular survival of these organisms.10-12 Results from a purified protein derivative test can be positive in some cases but is not a reliable test for M marinum. Cultures grown at 30°C to 33°C may take at least 2 to 4 weeks and are positive in only 70% to 80% of cases.6 Polymerase chain reaction (PCR) may be used to confirm the diagnosis in culture-negative cases.13 Confirmatory tests such as culture and PCR help rule out other diseases that may present with similar clinical and histologic findings (ie, other atypical mycobacterial infections, sporotrichosis, deep fungal infections, leishmaniasis, catscratch disease, and tuberculosis verrucosa cutis). Most recently, via PCR, Cai et al14 has detected that heat shock protein 65 kD gene was present in all lesions containing M marinum. This important finding could lead to an earlier detection of this infection. With time, single lesions often can remit spontaneously, but it may take up to 3 years. During that time, the patient remains at high risk of developing tenosynovitis, septic arthritis that may mimic rheumatoid arthritis,15 osteomyelitis, and dissemination in immunocompromised patients, all of which prompt immediate treatment.2,7 No clinical trials exist for the treatment of M marinum infections because of the small number of patients with this disease. However, trimethoprim-sulfamethoxazole, minocycline, and clarithromycin all are effective treatments.5 Success with minocycline is particularly well-documented in the dermatology literature, even in cases complicated by delayed diagnosis and systemic immunosuppression.16 Anecdotal reports suggest that, despite the similarity in the mechanism and sensitivities of different second-generation tetracyclines, minocycline may be the most effective treatment option.13 On the other hand, clarithromycin is favored as a first-line treatment in the infectious diseases literature.6 Ethambutol hydrochloride and rifampin may be added to treat resistant strains. This combination has been proven to be more effective against M marinum than any single antibiotic regimen.5 Unfortunately, determining antibiotic sensitivity of M marinum is difficult because the organism often responds differently in vivo than in vitro.13 Refractory cases may require surgical debridement.2 The disease can be prevented by wearing gloves while working in fish tanks and immediately cleaning any abrasions or injuries that occur while working in contaminated water.6 Immunocompromised individuals should avoid aquariums completely.
Conclusion
M marinum is present in both salt and fresh water environments. Infection with the organism usually presents on an extremity as a painful cutaneous nodule with various secondary skin changes and can spread in a sporotrichoid pattern. Because the orga- nism can take several weeks to culture, patients with a presumptive diagnosis of M marinum infection should be initially treated with the appropriate antibiotics. Complications can range from tenosynovitis, septic arthritis, and osteomyelitis to disseminated disease in immunocompromised patients.
- Norden A, Linell F. A new type of pathogenic Mycobacterium. Nature. 1951;168:826.
- Palenque R. Skin disease and nontuberculous atypical mycobacteria. Int J Dermatol. 2000;39:659-666.
- Jernigan JA, Farr BM. Incubation period and sources of exposure for cutaneous Mycobacterium marinum infections: case report and review of the literature. Clin Infect Dis. 2000;32:439-443.
- Ucko M, Colorni A. Mycobacterium marinum infections in fish and humans in Israel. J Clin Microbiol. 2005;43:892-895.
- Edelstein H. Mycobacterium marinum skin infections. report of 31 cases and review of the literature. Arch Intern Med. 1994;154:1359-1364.
- Lewis FT, Marsh BJ, von Reyn CF. Fish tank exposure and cutaneous infections due to Mycobacterium marinum: tuberculin skin testing, treatment, and prevention. Clin Infect Dis. 2003;37:390-397.
- Barton A, Berstein RM, Struthers JK, et al. Mycobacterium marinum infection causing septic arthritis and osteomyelitis. Br J Rheumatol. 1997;36:1207-1209.
- Bartralot R, Garcia-Patos V, Sitjas D, et al. Clinical patterns of cutaneous nontuberculous mycobacterial infections. Br J Dermatol. 2005;152:727-734.
- van der Sar AM, Abdallah AM, Sparrius M, et al. Mycobacterium marinum strains can be divided into two distinct types based on genetic diversity and virulence. Infect Immun. 2004;72:6306-6312.
- Chan K, Knaak T, Satkamp L, et al. Complex pattern of Mycobacterium marinum gene expression during long-term granulomatous infection. Proc Natl Acad Sci USA. 2002;99:3920-3925.
- Cosma CL, Klein K, Kim R, et al. Mycobacterium marinum Erp is a virulence determinant required for cell wall integrity and intracellular survival. Infect Immun. 2006;74:3125-3133.
- Gao LY, Pak M, Kish R, et al. A mycobacterial operon essential for virulence in vivo and invasion and intracellular persistence in macrophages. Infect Immun. 2006;74:1757-1767.
- Cummins DL, Delacerda D, Tausk FA. Mycobacterium marinum with different responses to second-generation tetracyclines. Int J Dermatol. 2005;44:518-520.
- Cai L, Chen X, Zhao T, et al. Identification of Mycobacterium marinum 65 kD heat shock protein gene by polymerase chain reaction restriction analysis from lesions of swimming pool granuloma. Chin Med J. 2006;119:43-48.
- Lam A, Toma W, Schlesinger N. Mycobacterium marinum arthritis mimicking rheumatoid arthritis. J Rheumatol. 2006;33:817-819.
- Janik JP, Bang RH, Palmer CH. Case reports: successful treatment of Mycobacterium marinum infection with minocycline after complication of disease by delayed diagnosis and systemic steroids. J Drugs Dermatol. 2005;4:621-624.
Mycobacterium marinum is a nontuberculous mycobacteria that is often acquired via contact with contaminated salt or fresh water. We present a case of a 67-year-old man who developed several solitary nontender nodules on his hands and forearm after working on the underside of his boat. In addition, we provide a review of the literature and discuss how this infection is acquired, the underlying pathogenesis, the cutaneous and histologic findings, the differential diagnosis, the diagnostic methods, and the various treatment options.
Case Report
An otherwise healthy 67-year-old white man presented to the dermatology clinic with a 10-day history of multiple red scaly lesions on his hands and forearm. The patient recalled that the lesions appeared one week after he had scraped his hands on barnacles while cleaning the underside of his boat. On physical examination, the patient had multiple well-circumscribed, nontender, erythematous subcutaneous nodules with central crusting and scaling located on the dorsal aspect of both hands and his left forearm (Figure 1). There was no lymphadenopathy, and the patient denied fever, painful joints, or any other systemic symptoms.
Results from a punch biopsy of one of the lesions on the right dorsal hand were characterized as a mixed dense acute, chronic, and granulomatous infiltrate (Figure 2). Numerous acid-fast bacteria were seen on both Ziehl-Neelsen and Fite stains (Figure 3). In addition, a direct smear fluorochrome stain for acid-fast bacilli was positive. The patient was empirically treated with clarithromycin and ethambutol hydrochloride. Two weeks later, the acid-fast bacilli culture grew out Mycobacterium marinum sensitive to clarithromycin, ethambutol hydrochloride, and rifampin. After 2 months of treatment, his lesions had completely resolved.
Comment
M marinum is a nontuberculous atypical Mycobacterium that can cause cutaneous infection of sites of prior wounds exposed to contaminated fresh or salt water. Known originally as swimming pool granuloma, this infection was first described in 1951 after large outbreaks of cases involving swimming pools.1,2 After widespread pool chlorination in the 1960s, most reported cases were in fishermen and aquarium owners, giving rise to the term fish tank granuloma.3 Ornamental fish such as the Siamese fighting fish Betta splendens and the snakehead Channa striata are common hosts of the mycobacteria.4 With improper chlorination and emergence of chlorine-resistant organisms, swimming pool—associated infections have reemerged.3 After entering through an open wound, M marinum usually causes a tender erythematous nodule or pustule at the site of inoculation. Although the infection typically occurs on the dominant hand, any extremity may be affected. The average incubation period is approximately 2 to 4 weeks but can last as long as 9 months.3,5 With time, the lesion can evolve into a crusted ulcer with an underlying suppurative abscess or a verrucous nodule or plaque. As the infection spreads, multiple nodules can appear following the course of the draining lymphatics. This pattern is commonly known as sporotrichoid spread (Table) because of its resemblance to the ascending lymphangitis of sporotrichosis.2,6 With deeper infections, tenosynovitis may occur and can progress to septic arthritis and osteomyelitis.7 As with other atypical mycobacterial infections, the disease can disseminate and become fatal in immunocompromised patients.
The histopathology findings in patients with M marinum infections can range from acute and chronic inflammation to ill-defined suppurative granulomas, which is similar to findings seen with other types of mycobacterial infections. The granulomas are characterized by surviving organisms contained within a mixture of surrounding histiocytes and lymphocytes. In addition, suppurative granulomas are formed in response to the presence of multiple reactive neutrophils. The organisms rarely are seen on routine hematoxylin and eosin stain but may become positive on acid-fast stains such as Ziehl-Neelsen or Fite.2,8 Epidermal changes, including ulceration and pseudoepitheliomatous hyperplasia, can be seen in chronic lesions.2 Strain characteristics may play a critical role in the pathogenicity of M marinum.9 Several virulence factors now have been identified by using a research model for the pathogenesis in Mycobacterium tuberculosis infection. Factors that are required for intracellular survival of the mycobacteria in macrophages include the exported repetitive protein and the protein encoded by the macrophage-activated gene 24-1.10,11 In addition, the invasion and intracellular persistence protein A is essential for initial invasion of M marinum into macrophages and also allows for the intracellular survival of these organisms.10-12 Results from a purified protein derivative test can be positive in some cases but is not a reliable test for M marinum. Cultures grown at 30°C to 33°C may take at least 2 to 4 weeks and are positive in only 70% to 80% of cases.6 Polymerase chain reaction (PCR) may be used to confirm the diagnosis in culture-negative cases.13 Confirmatory tests such as culture and PCR help rule out other diseases that may present with similar clinical and histologic findings (ie, other atypical mycobacterial infections, sporotrichosis, deep fungal infections, leishmaniasis, catscratch disease, and tuberculosis verrucosa cutis). Most recently, via PCR, Cai et al14 has detected that heat shock protein 65 kD gene was present in all lesions containing M marinum. This important finding could lead to an earlier detection of this infection. With time, single lesions often can remit spontaneously, but it may take up to 3 years. During that time, the patient remains at high risk of developing tenosynovitis, septic arthritis that may mimic rheumatoid arthritis,15 osteomyelitis, and dissemination in immunocompromised patients, all of which prompt immediate treatment.2,7 No clinical trials exist for the treatment of M marinum infections because of the small number of patients with this disease. However, trimethoprim-sulfamethoxazole, minocycline, and clarithromycin all are effective treatments.5 Success with minocycline is particularly well-documented in the dermatology literature, even in cases complicated by delayed diagnosis and systemic immunosuppression.16 Anecdotal reports suggest that, despite the similarity in the mechanism and sensitivities of different second-generation tetracyclines, minocycline may be the most effective treatment option.13 On the other hand, clarithromycin is favored as a first-line treatment in the infectious diseases literature.6 Ethambutol hydrochloride and rifampin may be added to treat resistant strains. This combination has been proven to be more effective against M marinum than any single antibiotic regimen.5 Unfortunately, determining antibiotic sensitivity of M marinum is difficult because the organism often responds differently in vivo than in vitro.13 Refractory cases may require surgical debridement.2 The disease can be prevented by wearing gloves while working in fish tanks and immediately cleaning any abrasions or injuries that occur while working in contaminated water.6 Immunocompromised individuals should avoid aquariums completely.
Conclusion
M marinum is present in both salt and fresh water environments. Infection with the organism usually presents on an extremity as a painful cutaneous nodule with various secondary skin changes and can spread in a sporotrichoid pattern. Because the orga- nism can take several weeks to culture, patients with a presumptive diagnosis of M marinum infection should be initially treated with the appropriate antibiotics. Complications can range from tenosynovitis, septic arthritis, and osteomyelitis to disseminated disease in immunocompromised patients.
Mycobacterium marinum is a nontuberculous mycobacteria that is often acquired via contact with contaminated salt or fresh water. We present a case of a 67-year-old man who developed several solitary nontender nodules on his hands and forearm after working on the underside of his boat. In addition, we provide a review of the literature and discuss how this infection is acquired, the underlying pathogenesis, the cutaneous and histologic findings, the differential diagnosis, the diagnostic methods, and the various treatment options.
Case Report
An otherwise healthy 67-year-old white man presented to the dermatology clinic with a 10-day history of multiple red scaly lesions on his hands and forearm. The patient recalled that the lesions appeared one week after he had scraped his hands on barnacles while cleaning the underside of his boat. On physical examination, the patient had multiple well-circumscribed, nontender, erythematous subcutaneous nodules with central crusting and scaling located on the dorsal aspect of both hands and his left forearm (Figure 1). There was no lymphadenopathy, and the patient denied fever, painful joints, or any other systemic symptoms.
Results from a punch biopsy of one of the lesions on the right dorsal hand were characterized as a mixed dense acute, chronic, and granulomatous infiltrate (Figure 2). Numerous acid-fast bacteria were seen on both Ziehl-Neelsen and Fite stains (Figure 3). In addition, a direct smear fluorochrome stain for acid-fast bacilli was positive. The patient was empirically treated with clarithromycin and ethambutol hydrochloride. Two weeks later, the acid-fast bacilli culture grew out Mycobacterium marinum sensitive to clarithromycin, ethambutol hydrochloride, and rifampin. After 2 months of treatment, his lesions had completely resolved.
Comment
M marinum is a nontuberculous atypical Mycobacterium that can cause cutaneous infection of sites of prior wounds exposed to contaminated fresh or salt water. Known originally as swimming pool granuloma, this infection was first described in 1951 after large outbreaks of cases involving swimming pools.1,2 After widespread pool chlorination in the 1960s, most reported cases were in fishermen and aquarium owners, giving rise to the term fish tank granuloma.3 Ornamental fish such as the Siamese fighting fish Betta splendens and the snakehead Channa striata are common hosts of the mycobacteria.4 With improper chlorination and emergence of chlorine-resistant organisms, swimming pool—associated infections have reemerged.3 After entering through an open wound, M marinum usually causes a tender erythematous nodule or pustule at the site of inoculation. Although the infection typically occurs on the dominant hand, any extremity may be affected. The average incubation period is approximately 2 to 4 weeks but can last as long as 9 months.3,5 With time, the lesion can evolve into a crusted ulcer with an underlying suppurative abscess or a verrucous nodule or plaque. As the infection spreads, multiple nodules can appear following the course of the draining lymphatics. This pattern is commonly known as sporotrichoid spread (Table) because of its resemblance to the ascending lymphangitis of sporotrichosis.2,6 With deeper infections, tenosynovitis may occur and can progress to septic arthritis and osteomyelitis.7 As with other atypical mycobacterial infections, the disease can disseminate and become fatal in immunocompromised patients.
The histopathology findings in patients with M marinum infections can range from acute and chronic inflammation to ill-defined suppurative granulomas, which is similar to findings seen with other types of mycobacterial infections. The granulomas are characterized by surviving organisms contained within a mixture of surrounding histiocytes and lymphocytes. In addition, suppurative granulomas are formed in response to the presence of multiple reactive neutrophils. The organisms rarely are seen on routine hematoxylin and eosin stain but may become positive on acid-fast stains such as Ziehl-Neelsen or Fite.2,8 Epidermal changes, including ulceration and pseudoepitheliomatous hyperplasia, can be seen in chronic lesions.2 Strain characteristics may play a critical role in the pathogenicity of M marinum.9 Several virulence factors now have been identified by using a research model for the pathogenesis in Mycobacterium tuberculosis infection. Factors that are required for intracellular survival of the mycobacteria in macrophages include the exported repetitive protein and the protein encoded by the macrophage-activated gene 24-1.10,11 In addition, the invasion and intracellular persistence protein A is essential for initial invasion of M marinum into macrophages and also allows for the intracellular survival of these organisms.10-12 Results from a purified protein derivative test can be positive in some cases but is not a reliable test for M marinum. Cultures grown at 30°C to 33°C may take at least 2 to 4 weeks and are positive in only 70% to 80% of cases.6 Polymerase chain reaction (PCR) may be used to confirm the diagnosis in culture-negative cases.13 Confirmatory tests such as culture and PCR help rule out other diseases that may present with similar clinical and histologic findings (ie, other atypical mycobacterial infections, sporotrichosis, deep fungal infections, leishmaniasis, catscratch disease, and tuberculosis verrucosa cutis). Most recently, via PCR, Cai et al14 has detected that heat shock protein 65 kD gene was present in all lesions containing M marinum. This important finding could lead to an earlier detection of this infection. With time, single lesions often can remit spontaneously, but it may take up to 3 years. During that time, the patient remains at high risk of developing tenosynovitis, septic arthritis that may mimic rheumatoid arthritis,15 osteomyelitis, and dissemination in immunocompromised patients, all of which prompt immediate treatment.2,7 No clinical trials exist for the treatment of M marinum infections because of the small number of patients with this disease. However, trimethoprim-sulfamethoxazole, minocycline, and clarithromycin all are effective treatments.5 Success with minocycline is particularly well-documented in the dermatology literature, even in cases complicated by delayed diagnosis and systemic immunosuppression.16 Anecdotal reports suggest that, despite the similarity in the mechanism and sensitivities of different second-generation tetracyclines, minocycline may be the most effective treatment option.13 On the other hand, clarithromycin is favored as a first-line treatment in the infectious diseases literature.6 Ethambutol hydrochloride and rifampin may be added to treat resistant strains. This combination has been proven to be more effective against M marinum than any single antibiotic regimen.5 Unfortunately, determining antibiotic sensitivity of M marinum is difficult because the organism often responds differently in vivo than in vitro.13 Refractory cases may require surgical debridement.2 The disease can be prevented by wearing gloves while working in fish tanks and immediately cleaning any abrasions or injuries that occur while working in contaminated water.6 Immunocompromised individuals should avoid aquariums completely.
Conclusion
M marinum is present in both salt and fresh water environments. Infection with the organism usually presents on an extremity as a painful cutaneous nodule with various secondary skin changes and can spread in a sporotrichoid pattern. Because the orga- nism can take several weeks to culture, patients with a presumptive diagnosis of M marinum infection should be initially treated with the appropriate antibiotics. Complications can range from tenosynovitis, septic arthritis, and osteomyelitis to disseminated disease in immunocompromised patients.
- Norden A, Linell F. A new type of pathogenic Mycobacterium. Nature. 1951;168:826.
- Palenque R. Skin disease and nontuberculous atypical mycobacteria. Int J Dermatol. 2000;39:659-666.
- Jernigan JA, Farr BM. Incubation period and sources of exposure for cutaneous Mycobacterium marinum infections: case report and review of the literature. Clin Infect Dis. 2000;32:439-443.
- Ucko M, Colorni A. Mycobacterium marinum infections in fish and humans in Israel. J Clin Microbiol. 2005;43:892-895.
- Edelstein H. Mycobacterium marinum skin infections. report of 31 cases and review of the literature. Arch Intern Med. 1994;154:1359-1364.
- Lewis FT, Marsh BJ, von Reyn CF. Fish tank exposure and cutaneous infections due to Mycobacterium marinum: tuberculin skin testing, treatment, and prevention. Clin Infect Dis. 2003;37:390-397.
- Barton A, Berstein RM, Struthers JK, et al. Mycobacterium marinum infection causing septic arthritis and osteomyelitis. Br J Rheumatol. 1997;36:1207-1209.
- Bartralot R, Garcia-Patos V, Sitjas D, et al. Clinical patterns of cutaneous nontuberculous mycobacterial infections. Br J Dermatol. 2005;152:727-734.
- van der Sar AM, Abdallah AM, Sparrius M, et al. Mycobacterium marinum strains can be divided into two distinct types based on genetic diversity and virulence. Infect Immun. 2004;72:6306-6312.
- Chan K, Knaak T, Satkamp L, et al. Complex pattern of Mycobacterium marinum gene expression during long-term granulomatous infection. Proc Natl Acad Sci USA. 2002;99:3920-3925.
- Cosma CL, Klein K, Kim R, et al. Mycobacterium marinum Erp is a virulence determinant required for cell wall integrity and intracellular survival. Infect Immun. 2006;74:3125-3133.
- Gao LY, Pak M, Kish R, et al. A mycobacterial operon essential for virulence in vivo and invasion and intracellular persistence in macrophages. Infect Immun. 2006;74:1757-1767.
- Cummins DL, Delacerda D, Tausk FA. Mycobacterium marinum with different responses to second-generation tetracyclines. Int J Dermatol. 2005;44:518-520.
- Cai L, Chen X, Zhao T, et al. Identification of Mycobacterium marinum 65 kD heat shock protein gene by polymerase chain reaction restriction analysis from lesions of swimming pool granuloma. Chin Med J. 2006;119:43-48.
- Lam A, Toma W, Schlesinger N. Mycobacterium marinum arthritis mimicking rheumatoid arthritis. J Rheumatol. 2006;33:817-819.
- Janik JP, Bang RH, Palmer CH. Case reports: successful treatment of Mycobacterium marinum infection with minocycline after complication of disease by delayed diagnosis and systemic steroids. J Drugs Dermatol. 2005;4:621-624.
- Norden A, Linell F. A new type of pathogenic Mycobacterium. Nature. 1951;168:826.
- Palenque R. Skin disease and nontuberculous atypical mycobacteria. Int J Dermatol. 2000;39:659-666.
- Jernigan JA, Farr BM. Incubation period and sources of exposure for cutaneous Mycobacterium marinum infections: case report and review of the literature. Clin Infect Dis. 2000;32:439-443.
- Ucko M, Colorni A. Mycobacterium marinum infections in fish and humans in Israel. J Clin Microbiol. 2005;43:892-895.
- Edelstein H. Mycobacterium marinum skin infections. report of 31 cases and review of the literature. Arch Intern Med. 1994;154:1359-1364.
- Lewis FT, Marsh BJ, von Reyn CF. Fish tank exposure and cutaneous infections due to Mycobacterium marinum: tuberculin skin testing, treatment, and prevention. Clin Infect Dis. 2003;37:390-397.
- Barton A, Berstein RM, Struthers JK, et al. Mycobacterium marinum infection causing septic arthritis and osteomyelitis. Br J Rheumatol. 1997;36:1207-1209.
- Bartralot R, Garcia-Patos V, Sitjas D, et al. Clinical patterns of cutaneous nontuberculous mycobacterial infections. Br J Dermatol. 2005;152:727-734.
- van der Sar AM, Abdallah AM, Sparrius M, et al. Mycobacterium marinum strains can be divided into two distinct types based on genetic diversity and virulence. Infect Immun. 2004;72:6306-6312.
- Chan K, Knaak T, Satkamp L, et al. Complex pattern of Mycobacterium marinum gene expression during long-term granulomatous infection. Proc Natl Acad Sci USA. 2002;99:3920-3925.
- Cosma CL, Klein K, Kim R, et al. Mycobacterium marinum Erp is a virulence determinant required for cell wall integrity and intracellular survival. Infect Immun. 2006;74:3125-3133.
- Gao LY, Pak M, Kish R, et al. A mycobacterial operon essential for virulence in vivo and invasion and intracellular persistence in macrophages. Infect Immun. 2006;74:1757-1767.
- Cummins DL, Delacerda D, Tausk FA. Mycobacterium marinum with different responses to second-generation tetracyclines. Int J Dermatol. 2005;44:518-520.
- Cai L, Chen X, Zhao T, et al. Identification of Mycobacterium marinum 65 kD heat shock protein gene by polymerase chain reaction restriction analysis from lesions of swimming pool granuloma. Chin Med J. 2006;119:43-48.
- Lam A, Toma W, Schlesinger N. Mycobacterium marinum arthritis mimicking rheumatoid arthritis. J Rheumatol. 2006;33:817-819.
- Janik JP, Bang RH, Palmer CH. Case reports: successful treatment of Mycobacterium marinum infection with minocycline after complication of disease by delayed diagnosis and systemic steroids. J Drugs Dermatol. 2005;4:621-624.