Melanoma associated with long-term voriconazole therapy: a new manifestation of chronic photosensitivity

Pediatric melanoma, moles, and sun safety

Although pediatric melanoma is a rare disease, diagnosis and management of pigmented lesions in the pediatric population, particularly dysplastic nevi and Spitz nevi, can be challenging. In this article, we provide an overview of pigmented lesions in children, including melanoma and management of melanoma risk factors and melanocytic nevi in the pediatric population. Congenital melanocytic nevi, Spitz nevi, dysplastic and acquired nevi, and changes over time are reviewed. We discuss considerations for excision and management of pigmented lesions in children.

Recent advances in our understanding of the environmental, epidemiological, immunological, and clinical dimensions of coccidioidomycosis

Coccidioidomycosis is the endemic mycosis caused by the fungal pathogens Coccidioides immitis and C. posadasii. This review is a summary of the recent advances that have been made in the understanding of this pathogen, including its mycology, genetics, and niche in the environment. Updates on the epidemiology of the organism emphasize that it is a continuing, significant problem in areas of endemicity. For a variety of reasons, the number of reported coccidioidal infections has increased dramatically over the past decade. While continual improvements in the fields of organ transplantation and management of autoimmune disorders and patients with HIV have led to dilemmas with concurrent infection with coccidioidomycosis, they have also led to advances in the understanding of the human immune response to infection. There have been some advances in therapeutics with the increased use of newer azoles. Lastly, there is an overview of the ongoing search for a preventative vaccine.

Photosensitizing medications and photocarcinogenesis

Photosensitivity is an exaggerated or abnormal response to ultraviolet (UV) or visible light exposure. Many current medications are known photosensitizers; however, the effects of the sensitization can be subclinical and go unnoticed by the person affected. While some of these drugs are used for short and defined periods, others are used indefinitely for the treatment of chronic disease. The question of whether either of these practices translates into an increased risk of skin cancer is an important one. Numerous medications have real, distinct and well-elucidated mechanisms that potentiate the development of skin cancer, while with some medications the mechanism for the observed carcinogenesis remains unclear. In this article we will discuss the clinical, mechanistic and epidemiological evidence supporting photochemical genotoxicity and carcinogenesis.

Voriconazole-induced photosensitivity: photobiological assessment of a case series of 12 patients

BACKGROUND

Voriconazole, a broad-spectrum triazole antifungal agent increasingly used to treat aspergillosis, has been linked with acute photosensitivity and skin carcinogenesis. The action spectrum of the photosensitivity is unknown, while an indirect retinol effect secondary to the antifungal's impact on CYP450 enzymes has been proposed to contribute to the underlying mechanism.

OBJECTIVES

To perform a detailed photobiological assessment of the photosensitivity presenting in a series of 12 patients treated with voriconazole.

METHODS

Minimal erythemal dose thresholds (MED) to narrow wavebands of ultraviolet (UV) A, UVB and visible light were determined. Provocation testing was performed to broadband UVA (310-400 nm) and to solar-simulated radiation (SSR) (290-400 nm). Patients underwent routine photopatch testing and laboratory investigations including serum vitamin A (retinol).

RESULTS

Patients (eight men, four women; median age 54years, range 40-63) experienced moderate-severe cutaneous erythema (n = 12), burning pain (n=5), itching (n=3), scaling (n=5), vesiculation (n=5) and oedema (n=1) following sunlight exposure; increased lentigines (n=4) and actinic cheilitis (n = 4) were also observed. While the majority (n=8) of patients showed normal MED thresholds to monochromator phototesting to UVB, UVA and visible light, a low MED to UVA was observed in four patients. Repeated provocation testing with broadband UVA and SSR provoked an abnormal erythema in eight and 10 patients, respectively. Serum retinol levels were mildly elevated in two patients but normal in the majority.

CONCLUSION

 UVA sensitivity is the predominant finding in acute voriconazole-induced photosensitivity. We found little evidence of elevated circulating retinol as the causal factor. Patients with voriconazole-induced photosensitivity require education in appropriate UVA protective measures in addition to consideration of skin surveillance for malignant sequelae.

Melanoma diagnosed 27 years after a benoxaprofen-induced photosensitivity reaction

BACKGROUND

The propionic acid derivative Benoxaprofen was introduced for the treatment of rheumatic disorders in 1980. Its product license was then withdrawn 2 years later due to concerns over serious dermatologic, hepatic and renal side effects. Photosensitivity was the most common side effect with reported incidence of up to 50%.

MAIN OBSERVATIONS

We present the first case report of a patient who presented with a melanoma diagnosed 27 years after a benoxaprofen-induced photosensitivity reaction. With an estimated 1.5 million patients previously on benoxaprofen, a large number of patients may potentially face increased risk of developing malignant melanoma. This case report can only suggest an association between solar injury secondary to benoxaprofen-related photosensitivity and subsequent melanoma. However the primary factor that improves survival from melanoma is early diagnosis, and so clinicians treating this group of patients should be aware of this risk.

CONCLUSION

Although benoxaprofen is no longer in clinical use, the long-term sequelae to its photosensitizing effects may still be clinically important. Clinicians treating this group of patients should be vigilant, and consider a low threshold for diagnostic biopsy of suspicious skin lesions.

Graft-versus-host disease: part II. Management of cutaneous graft-versus-host disease

Dermatologists are ideally suited to manage the various cutaneous sequelae of graft-versus-host disease (GVHD) outlined in part I of this review. However, the complexity of the patient with GVHD, including comorbidities, potential drug interactions related to polypharmacy, and the lack of evidence-based treatment guidelines, are significant challenges to optimizing patient care. In this section, we will provide an outline for the role of the dermatologist in a multispecialty approach to caring for patients with GVHD.

High cumulative dose exposure to voriconazole is associated with cutaneous squamous cell carcinoma in lung transplant recipients

BACKGROUND

Lung transplant recipients (LTR) have an increased risk of cutaneous squamous cell carcinoma (SCC) due to immunosuppressive therapy. Voriconazole, which is associated with phototoxic side effects in some patients, may be an additional risk factor for SCC in this population.

METHODS

To test whether voriconazole is a risk factor for developing SCC in LTR, we evaluated cumulative exposure to voriconazole in 327 adults who underwent lung transplantation at one center between 1991 and 2010. Voriconazole exposure was assessed as a time-varying covariate. We used survival analysis methods to assess the risk of developing SCC over time.

RESULTS

Exposure to voriconazole was associated with a 2.6-fold increased risk for SCC. This phenomenon was dose-dependent: the risk for SCC increased by 5.6% with each 60-day exposure at a standard dose of 200 mg twice daily. At 5 years after transplant, voriconazole conferred an absolute risk increase for SCC of 28%.

CONCLUSIONS

These results suggest that caution should be taken when using voriconazole in LTR because this drug increases the already high risk for SCC in this population.

Invasive mycoses: strategies for effective management

Effective management of invasive fungal infections (IFIs) depends on early individualized therapy that optimizes efficacy and safety. Considering the negative consequences of IFI, for some high-risk patients the potential benefits of prophylactic therapy may outweigh the risks. When using a prophylactic, empiric, or preemptive therapeutic approach, clinicians must take into account the local epidemiology, spectrum of activity, pharmacokinetic and pharmacodynamic parameters, and safety profile of different antifungal agents, together with unique host-related factors that may affect antifungal efficacy or safety. Therapeutic drug monitoring is increasingly recognized as important or necessary when employing lipophilic triazoles (itraconazole, voriconazole, posaconazole) or flucytosine. Because early diagnostics remain limited for uncommon, yet emerging opportunistic molds (e.g., Mucorales), and treatment delay is associated with increased mortality, early effective management often depends on a high index of suspicion, taking into account predisposing factors, host cues favoring mucormycosis, and local epidemiology. Antifungal options for mucormycosis are limited, and optimal management depends on a multimodal approach that includes early diagnosis/clinical suspicion, correction of underlying predisposing factors, radical debridement of affected tissues, and extended antifungal therapy. This article discusses strategies for the effective management of invasive mycoses, with a particular focus on antifungal hepatotoxicity.

Drug-induced photosensitivity: culprit drugs, management and prevention

Photo-induced drug eruptions are cutaneous adverse events due to exposure to a drug and either ultraviolet or visible radiation. Based on their pathogenesis, they can be classified as phototoxic or photoallergic drug eruptions, although in many cases it is not possible to determine whether a particular eruption is due to a phototoxic or photoallergic mechanism. In this review, the diagnosis, prevention and management of drug-induced photosensitivity are discussed. Diagnosis is based primarily on the history of drug intake and the clinical appearance of the eruption, primarily affecting sun-exposed areas of the skin. Phototesting and photopatch testing can be useful adjuncts in making a diagnosis. The mainstay of management is prevention, including informing patients of the possibility of increased sun sensitivity and the use of sun protective measures. However, once the eruption has occurred, it may be necessary to discontinue the culprit medication and treat the eruption with a potent topical corticosteroid. Drugs that have been implicated in causing photosensitive eruptions are reviewed. Tetracycline, doxycycline, nalidixic acid, voriconazole, amiodarone, hydrochlorothiazide, naproxen, piroxicam, chlorpromazine and thioridazine are among the most commonly implicated medications. We review the medical literature regarding evidence for the culpability of each drug, including the results of phototesting, photopatch testing and rechallenge testing.

Long-term voriconazole and skin cancer: is there cause for concern?

Skin toxicity due to voriconazole is well recognized. Recently, several series have reported skin cancer, particularly cutaneous squamous cell carcinoma (C-SCC), following photosensitivity reactions among patients receiving long-term voriconazole (>12 months). Almost all patients were immunosuppressed, including stem cell and solid organ transplant recipients. A case-control study of lung transplant recipients identified long-term voriconazole (median cumulative dose: 76 grams) and residence in areas of strong sun exposure as independent risk factors for C-SCC. The mechanism(s) by which voriconazole may predispose to skin cancer is not clear. Moreover, the relative contribution of voriconazole and other factors such as immunosuppression, ultraviolet exposure, advanced age and skin type is unknown. Until further data are available, voriconazole should be used carefully for durations >6-9 months, particularly among patients with risk factors for skin cancer. In patients requiring prolonged voriconazole, diligent skin examinations, avoidance of excess sunlight, and liberal use of UV protectants are advisable.

Phototoxicity and photocarcinogenesis associated with voriconazole

The antifungal voriconazole was given its marketing authorization in 2002. Several kinds of adverse effects have been reported, including acute and chronic cutaneous adverse effects, mainly due to a phototoxicity mechanism. More recently, some authors have reported that voriconazole was involved in the occurrence of multiple and often-aggressive cutaneous squamous cell carcinomas if the treatment was maintained for a long time. According to safety data in studies assessing voriconazole effectiveness, 8% of outpatients may experience phototoxic events. An overview of the different types of phototoxicity and of the concerned population was given by the 61 published case reports of photo-induced voriconazole-related skin adverse events (including 18 cases of squamous cell carcinomas). The most likely mechanisms may be phototoxicity directly related to either voriconazole or to its N-oxide main metabolite, and an interaction with retinoid metabolism; moreover, immunodeficiency may enhance the risk of skin cancer. Several issues remain to be investigated, and studies are needed concerning the phototoxicity and photocarcinogenesis of voriconazole and the prognosis of chronic non-malignant skin lesions. Voriconazole prescription must be associated with strict photoprotection; in case of a phototoxic adverse event, another azole may be recommended.

SREBP-dependent triazole susceptibility in Aspergillus fumigatus is mediated through direct transcriptional regulation of erg11A (cyp51A)

As triazole antifungal drug resistance during invasive Aspergillus fumigatus infection has become more prevalent, the need to understand mechanisms of resistance in A. fumigatus has increased. The presence of two erg11 (cyp51) genes in Aspergillus spp. is hypothesized to account for the inherent resistance of this mold to the triazole fluconazole (FLC). Recently, an A. fumigatus null mutant of a transcriptional regulator in the sterol regulatory element binding protein (SREBP) family, the ΔsrbA strain, was found to have increased susceptibility to FLC and voriconazole (VCZ). In this study, we examined the mechanism engendering the observed increase in A. fumigatus triazole susceptibility in the absence of SrbA. We observed a significant reduction in the erg11A transcript in the ΔsrbA strain in response to FLC and VCZ. Transcript levels of erg11B were also reduced but not to the extent of erg11A. Interestingly, erg11A transcript levels increased upon extended VCZ, but not FLC, exposure. Construction of an erg11A conditional expression strain in the ΔsrbA strain was able to restore erg11A transcript levels and, consequently, wild-type MICs to the triazole FLC. The VCZ MIC was also partially restored upon increased erg11A transcript levels; however, total ergosterol levels remained significantly reduced compared to those of the wild type. Induction of the erg11A conditional strain did not restore the hypoxia growth defect of the ΔsrbA strain. Taken together, our results demonstrate a critical role for SrbA-mediated regulation of ergosterol biosynthesis and triazole drug interactions in A. fumigatus that may have clinical importance.

Fluoride excess in coccidioidomycosis patients receiving long-term antifungal therapy: an assessment of currently available triazoles

The use of voriconazole, a trifluorinated antifungal, has been associated with the development of fluoride excess and periostitis/exostoses. We evaluated a cohort of patients on long-term triazole therapy and found that other fluorinated triazoles (fluconazole and posaconazole) conferred no risk for the development of hyperfluorosis and its complications in our cohort.

Skin cancer in transplant recipients, out of the woods. Scientific retreat of the ITSCC and SCOPE

The International Transplant Skin Cancer Collaborative (ITSCC) is an organization of more than 300 members dedicated to the study and care of skin changes that develop in solid-organ transplant recipients. This group of medical and surgical dermatologists, transplant surgeons and basic science researchers was formed to better understand the basic science of transplant dermatology, and to work collaboratively to address the clinical challenges in this patient population. Transplant patients have an ∼100-fold increased risk of developing cutaneous squamous cell carcinoma than the general population and are also at an increased risk of developing basal cell carcinoma, melanoma, Merkel cell carcinoma and Kaposi's sarcoma. In October 2010, ITSCC and its European counterpart Skin Care in Organ Transplant Patients Europe (SCOPE) held a joint biennial 4-day scientific retreat in the woods near Essex, Massachusetts. In this meeting report we provide an up-to-date distillation of the novel findings presented in the 21 oral abstracts, at the tumor board and within the working groups.

Chronic granulomatous disease: overview and hematopoietic stem cell transplantation

Chronic granulomatous disease (CGD) still causes significant morbidity and mortality. The difficulty in considering high-risk yet curative treatments, such as allogeneic bone marrow transplantation, lies in the unpredictable courses of both CGD and bone marrow transplantation in different patients. Some patients with CGD can have frequent infections, granulomatous or autoimmune disorders necessitating immunosuppressive therapy, or both but also experience long periods of relative good health. However, the risk of death is clearly higher in patients with CGD of all types, and the complications of CGD short of death can still cause significant morbidity. Therefore, with recent developments and improvements, bone marrow transplantation, previously considered an experimental or high-risk procedure, has emerged as an important option for patients with CGD. We will discuss the complications of CGD that result in significant morbidity and mortality, particularly the most common infections and autoimmune/inflammatory complications, as well as their typical management. We will then discuss the status of bone marrow transplantation.

Approach to the neonate with ecchymoses and crusts

Premature and systemically ill infants have a high risk of developing dermatologic infectious complications, displaying the consequences of skin barrier immaturity. Opportunistic infections are an increasing concern in neonates, with cutaneous fungal infections (Aspergillus, Rhizopus, Mucor, Fusarium) observed more commonly as pathogens. Neonates are especially susceptible due to stresses of the perinatal transition to ex-utero life, stratum corneum immaturity, and medical intervention during early life including intravenous catheters, non-sterile adhesive dressings, broad spectrum antibiotic use, and systemic corticosteroids for lung disease. Cutaneous presentations of these infections encompass a broad set of morphologies: papules, vesicles, pustules, ecchymoses, and necrotic, pupuric plaques. There are many etiologies that present as ecchymoses and scaly or crusted lesions. The presentation, diagnosis, and treatment options in the neonatal patient presenting with ecchymoses and crusts will be discussed.

Update on the optimal use of voriconazole for invasive fungal infections

Voriconazole is an extended-spectrum triazole with excellent bioavailability that has now become the treatment of choice for aspergillosis. It has a unique side effect profile compared with other azoles, as well as a number of clinically important drug-drug interactions. These factors, along with a correlation between increased serum levels and improved outcomes, have prompted an interest in therapeutic drug monitoring of this agent. The pharmacology and clinical outcomes data of voriconazole are presented in this review.

Antifungal prophylaxis in lung transplantation--a world-wide survey

While variations in antifungal prophylaxis have been previously reported in lung transplant (LTx) recipients, recent clinical practice is unknown. Our aim was to determine current antifungal prophylactic practice in LTx centers world-wide. One nominated LTx clinician from each active center was invited by e-mail to participate in a web-based survey between September 2009 and January 2010. Fifty-seven percent (58/102) responded. The majority of responses were from medical directors of LTx centers (72.4%), and from the United States (44.8%). Within the first 6 months post-LTx, most centers (58.6%) employed universal prophylaxis, with 97.1% targeting Aspergillus species. Voriconazole alone, and in combination with inhaled amphotericin B (AmB), were the preferred first-line agents. Intolerance to side effects of voriconazole (69.2%) was the main reason for switching to alternatives. Beyond 6 months post-LTx, most (51.8%) did not employ antifungal prophylaxis. Fifteen centers (26.0%) conducted routine antifungal therapeutic drug monitoring during prophylactic period. There are differences in strategies employed between U.S. and European centers. Most respondents indicated a need for antifungal prophylactic guidelines. In comparison to earlier findings, there was a major shift toward prophylaxis with voriconazole and an increased use of echinocandins, posaconazole and inhaled lipid formulation AmB.

[New breakthroughs in Oncodermatology]

During this year 2010, Oncodermatology was again the object of numerous publications. From the analysis of articles published between October 2009 and October 2010, choices had to be made. Overall, update on skin cancer has been dominated this year by breakthroughs on melanoma, which blows a wind of hope raised by the results of several clinical trials. Among those, it could be shown for the first time that a molecule was able to increase the overall survival of our patients (Ipilimumab). Spectacular results have also been obtained using anti-RAF. It seems that 2010 could be considered as a turning point in the therapeutic management of this cancer. In the field of lymphomas, several systemic treatments showed encouraging results in phase II and phase III trials.

Severe phototoxicity associated with long-term voriconazole treatment

Voriconazole is a second-generation triazole antifungal approved for the treatment of invasive fungal infections, particularly with Aspergillus, Candida, Fusarium, and Scedosporium spp. Frequently reported adverse effects of voriconazole include visual disturbance (21 %), elevated liver enzymes (15.6 %) and rashes (7 %), which are largely attributable to drug-induced photosensitivity. We report a case of serious phototoxicity in a 8 year old boy who underwent chemotherapy for AML. He received voriconazole for the treatment and subsequent re-infection prophylaxis after pulmonary aspergillosis. One year after the start of therapy he developed blistering eruptions on his face after minimal sunlight exposure. Recent reports about the development of squamous cell carcinoma and melanoma, respectively, in children during and after oral therapy with voriconazole seem to warrant systematic follow-up investigations of all voriconazole-treated patients.