Cutaneous Drug Reactions Part 3 DELAYED HYPERSENSITIVITY Delayed hypersensitivity mechanisms directed by drug-specific T cells are probably the most important mechanisms in the etiolo
Trang 1Chapter 056 Cutaneous
Drug Reactions
(Part 3)
DELAYED HYPERSENSITIVITY
Delayed hypersensitivity mechanisms directed by drug-specific T cells are probably the most important mechanisms in the etiology of the most common drug eruptions—morbilliform exanthems—and also of rare and severe forms such as hypersensitivity syndrome, acute generalized exanthematous pustulosis (AGEP), Stevens-Johnson syndrome (SJS), and toxic epidermal necrolysis (TEN) Drug-specific T cells have been detected in these types of drug eruptions
Contrary to what has been believed for years, the antigen is more often the native drug itself than its metabolites It remains to better understand why the
Trang 2stimulation of T cells by medications leads to reactions that are clinically so diverse Some answers were provided by the study of effector cells obtained at the site of skin lesions Drug-specific cytotoxic T cells have been detected in the skin lesions of fixed drug eruptions and of TEN In TEN, blisters that result from accumulation of interstitial fluid under the necrotic epidermis contain T lymphocytes that are able to kill autologous lymphocytes and keratinocytes in a drug-specific, HLA-restricted, and perforin/granzyme-mediated pathway
Drug-specific clones producing CXCL8, a neutrophil-attracting chemokine, were obtained from skin tests of patients with AGEP, a neutrophil-mediated drug reaction
One may therefore assume that the final pattern of drug eruptions results both from the nature of effectors—cytotoxic T cells in blistering reactions, chemokines in reactions mediated by neutrophils or eosinophils—and from the intensity of stimulation and response
GENETIC FACTORS AND CUTANEOUS DRUG REACTIONS
Specific genetically determined defects in the ability of an individual to detoxify toxic reactive drug metabolites predispose such individuals to the development of drug toxicity It has also been suspected that a slow acetylator phenotype increases the risk of rash from sulfonamides However, in two large
Trang 3prospective cohorts of HIV-infected patients treated with sulfonamides, no association of drug eruption with acetylation genotype was found
Recent literature shows that genetic factors may be important predictors of severe drug reactions Hypersensitivity to the anti-HIV medication abacavir was strongly associated with HLA B*5701 In Taiwan, within a homogeneous Han Chinese population, a 100% association was observed between SJS or TEN related
to carbamazepine and HLA B*1502 In the same population, another 100% association was found between SJS, TEN, or hypersensitivity syndrome/drug reaction with eosinophilia and systemic symptoms (DRESS) related to allopurinol and HLA B*5801 These observations have important theoretical implications By pointing to HLA genes, they strongly support a key role for immune mechanisms However, the strong associations found in Taiwan have not been observed in other countries with more heterogenous populations Therefore, widespread practical applications of these findings are not yet possible
CLINICAL PRESENTATION OF CUTANEOUS DRUG REACTIONS
Nonimmune Cutaneous Reactions
EXACERBATION OR INDUCTION OF DERMATOLOGIC DISEASES
Trang 4A variety of agents can exacerbate preexisting diseases or sometimes induce a disease that may or may not disappear after withdrawal of the inducing medication For example, NSAIDs, lithium, beta blockers, and angiotensin-converting enzyme (ACE) inhibitors can exacerbate plaque psoriasis, while antimalarials can worsen pustular psoriasis Acne may be induced by glucocorticoids, androgens, and lithium Minocycline and thiazide diuretics may exacerbate subacute systemic lupus erythematosus, and pemphigus can be induced
by D-penicillamine, captopril, and other ACE inhibitors The hypothesis that a drug may be responsible should always be considered, especially in cases with atypical clinical presentation, unusual age of onset, or unexpected evolution
PHOTOSENSITIVITY ERUPTIONS
Photosensitivity eruptions are usually most marked in sun-exposed areas but may extend to sun-protected areas The mechanism is almost always phototoxicity Phototoxic reactions resemble sunburn and can occur with first exposure to a drug Their severity depends on the tissue level of the drug, its efficiency as a photosensitizer, and the extent of exposure to the activating wavelengths of ultraviolet light (Chap 57)
Common orally administered photosensitizing drugs include many fluoroquinolones and cycline antibiotics Other drugs less frequently encountered are chlorpromazine, thiazides, and several NSAIDs (ibuprofen, naproxen,
Trang 5piroxicam) Because UV-A and visible light, which trigger these reactions, are not easily absorbed by nonopaque sunscreens and are transmitted through window glass, photosensitivity reactions may be difficult to block
Photosensitivity reactions abate with removal of either the drug or ultraviolet radiation, use of high-potency sunscreens that block UV-A light, and treating the reaction as one would a sunburn Rarely, individuals develop persistent reactivity to light, necessitating long-term avoidance of sun exposure