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Lentigo maligna is a slow-growing subtype of melanoma in situ that commonly develops on chronically sun-damaged skin, particularly in older adults. It most frequently affects the head and neck region, posing unique diagnostic challenges due to its ability to clinically and histopathologically resemble benign pigmented lesions, such as solar lentigines or seborrheic keratoses. As a result, lentigo maligna may be misdiagnosed or underdiagnosed for years, increasing the risk of progression to invasive lentigo maligna melanoma (LMM), which carries a significantly worse prognosis. This activity reviews the epidemiology, risk factors, dermoscopic features, histopathology, and current diagnostic strategies for lentigo maligna, as well as exploring treatment options, including surgical excision, staged excision techniques, and nonsurgical modalities, while balancing oncologic control with cosmetic and functional outcomes, particularly in cosmetically sensitive areas such as the face. The course emphasizes the importance of interprofessional collaboration among dermatologists, dermatopathologists, surgical oncologists, and radiation oncologists to ensure accurate diagnosis, optimal treatment planning, and long-term follow-up. This activity for healthcare professionals is designed to enhance the learner's competence in identifying lentigo maligna, performing the recommended evaluation, distinguishing this dermatologic condition from similar-appearing lesions, and implementing an appropriate interprofessional approach when managing this condition to reduce melanoma-related morbidity. Objectives: Differentiate lentigo maligna and lentigo maligna melanoma clinical features. Assess the diagnostic findings of lentigo maligna melanoma, including dermoscopy and reflectance confocal microscopy. Implement the appropriate management approach for lentigo maligna melanoma, including wide local excision and Mohs micrographic surgery. Communicate how an interprofessional team can provide the best care for a patient with lentigo maligna. Access free multiple choice questions on this topic.

Lentigo maligna, a subtype of melanoma, typically presents as an irregular brown macule on chronically sun-damaged skin, most often affecting the head and neck region.[1] Hutchinson first described this lesion in 1890, referring to it as “Hutchinson’s melanotic freckle.”[2] Throughout much of the early 20th century, lentigo maligna was considered benign, infectious, or precancerous due to its slow progression, leading to various names, eg, “junctional nevus,” “infective senile freckles,” and “circumscribed precancerous melanosis.”[2] Widespread recognition of its malignant nature emerged in the late 1970s and 1980s, driven by pivotal research conducted by Silvers, Ackerman, and colleagues. Current definitions classify lentigo maligna as melanoma in situ (MIS) occurring on chronically sun-damaged skin.[3][4][5] By definition, lentigo maligna remains confined to the epidermis. Once the lesion becomes invasive, the diagnosis changes to lentigo maligna melanoma (LMM) (see Image. Lentigo Maligna Melanoma). An in-depth knowledge of the distinguishing features and distinctive therapeutic approaches of lentigo maligna and LMM is essential to ensure accurate diagnosis, optimal treatment planning, and improved patient outcomes.

Lentigo Maligna Melanoma Risk Factors The major risk factor for developing lentigo maligna and LMM is ultraviolet radiation (UVR), particularly cumulative lifetime exposure to UVR.[6][7][8][9] Several studies have demonstrated that lentigo maligna/LMM is strongly associated with chronic UVR exposure, as opposed to nodular melanoma and superficial spreading melanoma (SSM), which are associated with intense intermittent UVR exposure.[7][8][9][10][11][12][13][14] An Australian study showed an increased risk of lentigo maligna with the number of years lived in Australia, hours of sunlight, amount of actinic damage, and prior history of nonmelanoma skin cancer.[9] Lentigo maligna/LMM is also most likely to occur on the face, a site of chronic sun damage, whereas SSM and nodular melanoma are more likely to occur on the trunk in men and legs in women, sites which are more often protected.[6] Finally, lentigo maligna tends to occur in older patients compared to SSM and nodular melanoma, presumably due to the increased lifetime sun exposure in older individuals.[15][16] Aside from UVR, x-ray irradiation, estrogen and progesterone, and nonpermanent hair dyes have been suggested as risk factors.[2] Lentigo maligna is also more likely in genetic conditions predisposing to sun sensitivity, including oculocutaneous albinism, xeroderma pigmentosum, Werner syndrome, and porphyria cutanea tarda.[2] Associations with smoking or alcohol have not been demonstrated.[17]

Lentigo maligna/LMM is the third most common subtype of melanoma, following SSM and nodular melanoma, comprising 4% to 15% of all melanomas and 10% to 26% of melanomas on the head and neck.[2] The mean age of diagnosis is 66 to 72 years, compared to 45 to 57 years for other melanoma subtypes.[14][18][19][20] Women are more often affected than men, with a female-to-male ratio of 1.7 to 1, and are slightly older at diagnosis.[14][21] The incidence of lentigo maligna and LMM has been rising over the past few decades, with data from Olmstead County, Minnesota, showing an increase from 2.2 cases/100,000 person-years between 1970 and 1989 to 13.7 cases/100,000 person-years between 2004 and 2007.[22] A similar rise in incidence was observed in the Netherlands.[23] In California, a particularly steep 52% increase in incidence occurred among individuals aged 45 to 64 between 1990 and 2000.[18] Whether these trends reflect a true rise in disease occurrence or improved diagnostic accuracy remains uncertain.[24] However, the more rapid increase in MIS compared to invasive melanoma suggests that detection bias likely contributes, at least in part.[25]

Melanoma has one of the highest mutational loads among all malignancies [26], and lentigo maligna/LMM has an especially high mutation rate due to chronic UVR exposure.[27][28][29] UVR causes oxidative damage and produces signature C>T and CC>TT mutations, which alter genes involved in the MAPK and PI3K pathways, including BRAF, NRAS, and KIT. Secondary mutations in CCND1, CDKN2A, or p53 then lead to transformation into a malignant tumor.[30][31] Lentigo maligna/LMM is more likely to harbor mutations in KIT than other subtypes of melanoma, in which BRAF mutations are more common.[32][33][34] CCND1, MITF, NRAS, and p53 mutations also play a pathogenic role.[31]

Lentigo maligna is characterized by a proliferation of atypical melanocytes along the dermal-epidermal junction. Early lentigo maligna may be challenging to distinguish from benign changes of chronic solar damage, which also induce melanocytic hyperplasia.[35] For this reason, a control biopsy of non-lesional but sun-damaged skin is sometimes recommended.[36] Melanocytes are typically singly arranged, although nests and multinucleated cells may be seen (see Image. Malignant Melanoma of the Skin). Pagetoid spread may occur, but less frequently than in superficial spreading melanoma. Periadnexal extension is common with the involvement of the follicular outer root sheath and eccrine duct. The tumor cells often have a conspicuous cytoplasmic retraction artifact, and nuclei are often enlarged, hyperchromatic, and angulated. Background changes of chronic sun damage are usually present, including solar elastosis, epidermal atrophy, and effacement of the rete ridges. Pigmentation levels vary but may be abundant, and melanophages often populate the papillary dermis. Lymphocytes typically localize to the superficial dermis; however, marked lymphocytic infiltration may indicate tumor invasion and warrants closer histopathologic evaluation. As lentigo maligna becomes more invasive (ie, progresses to LMM), junctional nests become larger and more spindled. Invasion is typically superficial, consisting of isolated or small aggregates of spindled cells in the papillary dermis. Desmoplasia and perineural invasion may occur, and the desmoplastic component may be mistaken for a scar. Rarely, a storiform growth pattern may be present, which may be mistaken for dermatofibrosarcoma protuberans.[2][37][38] Immunohistochemical staining using markers such as MART-1/Melan-A, HMB-45, tyrosinase, MITF, Sox10, and S100 supports accurate diagnosis.[2][36]

Lentigo maligna often presents as an irregular brown macule or patch on chronically sun-damaged skin. On visual inspection, lesions may appear light-brown to black, display color variegation, appear asymmetric, and tend to have an ill-defined border. As lesions enlarge, they may develop skip areas with a patchy, noncontiguous pattern. Lesions are usually asymptomatic, although advanced tumors may produce pain, burning, itching, or bleeding (see Image. Acral Lentiginous Melanoma). Most cases (86%) occur on the head and neck, with a predilection for the cheek.[2][21] Extrafacial cases tend to occur in the extremities of women and the back in men.[21][39] Due to its in situ nature, lentigo maligna is typically smooth and nonpalpable. A papular or dermal component may be felt if the lesion becomes invasive (ie, LMM). Lentigo maligna exhibits slow radial growth and might be misdiagnosed for years or even decades as solar lentigo or other benign lesions (Please refer to the  Differential Diagnosis section for more information).[5] The overall lifetime risk of progression from lentigo maligna to LMM has been estimated to be 5% based on a retrospective epidemiologic study.[40] However, the true lifetime risk may be greater, as 10% to 20% of cases initially diagnosed as lentigo maligna on biopsy are later upstaged to LMM after excision.[41][42][43][44] The timeframe of progression to LMM varies widely, from less than 10 years to more than 50 years.[45][46]

Clinical diagnosis of lentigo maligna and LMM can be challenging due to overlapping features with benign pigmented lesions, eg, solar lentigines and pigmented actinic keratoses. To improve diagnostic accuracy, noninvasive optical imaging tools, including dermoscopy and reflectance confocal microscopy (RCM), have been developed.[47] Dermoscopy Evaluation Dermoscopy assessment can reveal a stepwise progression of features based on the extent of follicular involvement. Early lesions show pigmentation surrounding follicular openings, appearing as annular-granular structures or blue-grey dots. As the lesion advances, these dots coalesce into short polygonal lines around and between adnexal structures. With further progression, the lines darken and merge into rhomboidal structures. In advanced disease, the lesion may obliterate follicular openings, forming a homogeneous dark brown to black blotch.[48][49][50][51] RCM is an imaging method that has been shown to have a high correlation to histological assessment. Furthermore, RCM can help better determine surgical margins, thereby optimizing excisional procedures.[52] RCM findings for lentigo maligna/LMM are divided into major and minor criteria.[53] The 2 major criteria include nonedged papillae and round pagetoid cells measuring >20 µm. The 3 minor criteria include atypical cells at the dermal-epidermal junction, follicular localization of atypical cells, and nucleated cells within the dermal papillae. Although dermoscopy and RCM are important tools for diagnosis, skin biopsy for histopathologic examination remains the gold standard (Please refer to the  Histopathology section for more information on dermoscopy findings). Biopsy Evaluation Biopsy methods for suspected lentigo maligna or LMM include shave biopsy, excisional biopsy with narrow margins, incisional biopsy of the most atypical or thickest portion of the lesion, and broad saucerization of the entire lesion with adequate depth for histopathologic evaluation.[5] The choice of technique depends on lesion size, location, and clinical suspicion. Adjunctive tools such as Wood’s lamp examination, dermoscopy, and RCM may assist in delineating lesion borders and planning surgical margins before definitive excision.[54][55]

Surgical Therapies Surgical excision is the treatment of choice. Numerous studies have shown the traditional 0.5 cm surgical margins for MIS to be inadequate for lentigo maligna, with approximately half of the tumors requiring larger margins for clearance and recurrence rates between 8% and 20%.[36][56] The National Comprehensive Cancer Network (NCCN) in 2014 updated its guidelines to recommend 0.5 to 1 cm margins for MIS, and several single-center studies have called for larger margins up to 1 cm or more.[57][41][58][59][60] A recent study by Zitelli and Brodland, in which they treated over 1500 cases of lentigo maligna with Mohs micrographic surgery (MMS), demonstrated that 1.2 cm margins were required to achieve a 97% clearance rate.[58] Wide local excision remains the standard of care among surgical modalities, as recommended by expert panels.[61][62] However, a growing body of literature shows the MMS may be superior.[58][63][47][64] Several institutions that perform MMS and wide local excision for lentigo maligna have demonstrated recurrence rates of 1.8% to 1.9% using MMS and 5.8% to 5.9% using wide local excision.[63][64] In the hands of an experienced practitioner and with the use of immunohistochemistry, recurrence rates with MMS can be as low as 0.3% to 0.5%.[58][65] Nonsurgical Therapies For patients who wish to avoid surgery or are otherwise poor surgical candidates, topical imiquimod 5% cream may be a viable alternative, although the data on efficacy are mixed.[66] Clinical and histologic clearance rates for imiquimod range from 46% to 78% and 37% to 76%, respectively.[67][68] Definitive radiation therapy may also be an acceptable nonsurgical option.[69] The method and type of radiation vary, but fractionated superficial radiotherapy, also known as Grenz rays, is most commonly delivered. Recurrence rates have been reported to range from 5% to 14%.[70][71][72] Finally, many other nonsurgical modalities have been reported with varying success, including laser ablation, cryotherapy, azelaic acid, 5-fluorouracil cream, and chemical peels. Still, the data are too sparse and inconsistent to draw reliable conclusions.[2]

The clinical and dermoscopic differential diagnoses include solar lentigo, early/macular seborrheic keratosis, lichen planus-like keratosis, and pigmented actinic keratosis. The histopathologic mimickers include benign melanocytic hyperplasia of sun-damaged skin, invasive lesions, desmoplastic melanoma, and, rarely, dermatofibrosarcoma protuberans (See Image. Ulcerated Acral Lentiginous Melanoma).

Surgical excision remains the mainstay of treatment for both lentigo maligna and LMM. The goal is complete tumor removal with histologically negative margins while preserving functional and cosmetic outcomes, particularly given the common occurrence of these lesions on the face. Standard wide local excision is commonly performed, with margin recommendations based on tumor depth. For lentigo maligna in situ, a 5 to 10 mm margin is typically used. For invasive LMM, the NCCN and American Joint Committee on Cancer (AJCC) guidelines recommend a margin based on Breslow depth, ranging from 1 cm for tumors up to 2 mm thick to 2 cm for thicker lesions. MMS, particularly the "slow Mohs" variant using paraffin-embedded sections, offers superior margin control and tissue conservation and is increasingly used for lentigo maligna/LMM in cosmetically sensitive areas. Studies have shown that Mohs can achieve lower recurrence rates compared to standard excision, particularly for lesions with ill-defined borders or those previously treated. Staged excision (also known as the "square technique" or "contoured marginal excision") is another tissue-sparing approach that evaluates peripheral margins before central tumor excision, often used when Mohs is unavailable. For LMM with invasive components, sentinel lymph node biopsy should be considered in cases with Breslow depth ≥0.8 mm or the presence of ulceration. However, due to the typically older age and lower mitotic rate of these tumors, the yield of sentinel lymph node biopsy may be lower compared to other melanoma subtypes.

Staging for lentigo maligna/LMM is the same as for all melanomas, using the tumor, node, metastasis (TNM) staging criteria based on the latest AJCC Cancer Staging Manual, Eighth Edition.[73] The stages may be briefly summarized as follows: Stage I: Low-risk primary melanomas (T1a, T1b, T2a) without evidence of regional or distant metastases Stage II: Primary melanomas at higher risk of recurrence (T2b, T3a, T3b, T4a, T4b), but without evidence of regional or distant metastases Stage III: Involvement of regional lymph nodes or in-transit or satellite metastases Stage IV: Distant metastases present

The prognosis for lentigo maligna/LMM is excellent. In a study of 270 patients with lentigo maligna/LMM who were completely excised, no disease-related deaths for lentigo maligna and only 1 for LMM were reported.[74] The 5-year and 10-year disease-specific survival rates were 100% and 97.1%, respectively. Thus, lentigo maligna, in itself, does not reduce lifespan. However, once the tumor becomes invasive, the prognosis is the same as for all other melanomas after controlling for Breslow depth. The prognosis can be potentially quite poor if the disease becomes metastatic (5-year survival, 9% to 27%).[14][75] While mortality is low, morbidity for patients can be significant, given the potentially large surface area on the head/neck that may be involved and the need for extensive surgical excision and reconstruction.[76]

LMM can eventually metastasize if left untreated; therefore, early diagnosis and intervention are crucial. Surgery to remove LMM may carry cosmetic complications because it often occurs on exposed areas such as the face; modern surgical techniques can help minimize scarring. Potential surgical complications include scarring, infection, delayed wound healing, and poor cosmetic outcome, particularly on the face. Functional impairment may also occur depending on lesion location. Incomplete excision leads to recurrence, with lentigo maligna recurrence rates reported as high as 20% following standard wide local excision without margin control.

Due to the causative nature of chronic UVR damage in inducing lentigo maligna/LMM, diligent sun protection is key to prevention. The American Academy of Dermatology (AAD) periodically publishes guidelines on preventing and treating skin cancer.[61][77] Patients should wear broad-spectrum sunscreen (SPF ≥ 30) whenever outdoors, reapply every 2 hours, and immediately after swimming. They should use a sufficient amount (approximately 1 ounce or equivalent to 1 shot glass) to cover the entire body. Wearing ultraviolet protection factor clothing, avoiding the sun between peak hours of 10 am to 3 pm, and seeking shade provides additional sun protection. Furthermore, patients should be aware of the ABCDE criteria for melanoma (asymmetry, border, color, diameter, and evolving), perform monthly skin self-examinations, and seek professional care by a dermatologist or primary care clinician for any concerning lesions (see Image. Melanoma Detection).

Lentigo maligna/LMM presents diagnostic and treatment challenges due to its clinical mimicry of benign lesions, its occurrence on background sun-damaged skin, which confounds histopathologic differentiation between true tumor and benign melanocytic activation, and its occurrence on the head and neck, a cosmetically and functionally sensitive area. Thus, maintaining clinical diligence and having a high index of suspicion are key to early diagnosis, ensuring optimal treatment outcomes, and minimizing patient morbidity and mortality. Surgical excision is the treatment of choice, with MMS emerging as a surgical option that may prove superior to wide local excision.

The management of lentigo maligna and LMM requires a coordinated, interprofessional approach to ensure early diagnosis, effective treatment, and comprehensive follow-up. Physicians across various specialties, including dermatology, pathology, primary care, surgical oncology, plastic surgery, and subspecialties such as oculoplastics and otolaryngology, must clearly communicate regarding biopsy results, staging, and therapeutic strategies. Early recognition by nondermatology clinicians relies on clinical vigilance and ongoing education, particularly given the diagnostic overlap with benign lesions on sun-damaged skin.  Each additional family physician per 10,000 population has been associated with a 21% increased odds of early melanoma detection.[78] Dermatologists, dermatopathologists, and Mohs surgeons collaborate to confirm histopathologic features and determine the most appropriate surgical plan. In cases of complex anatomic involvement, surgical coordination with reconstructive or functional specialists enhances both oncologic safety and cosmetic outcomes. For locally advanced or metastatic disease, oncologists join the care team to guide systemic therapy options in alignment with tumor staging and patient-specific goals.

Dermatologists, dermatopathologists, and Mohs surgeons collaborate to confirm histopathologic features and determine the most appropriate surgical plan. In cases of complex anatomic involvement, surgical coordination with reconstructive or functional specialists enhances both oncologic safety and cosmetic outcomes. For locally advanced or metastatic disease, oncologists join the care team to guide systemic therapy options in alignment with tumor staging and patient-specific goals. Team performance and patient-centered outcomes improve when all disciplines remain engaged and informed. Advanced practitioners serve as critical access points for lesion evaluation, patient counseling, and continuity of care, particularly in medically underserved settings. Nurses facilitate education, psychosocial support, wound care, and postoperative recovery, which are especially important for lesions involving cosmetically or functionally sensitive areas. Pharmacists monitor for drug interactions, educate patients on systemic therapies, and assist with adherence, particularly when immunotherapy is prescribed. Regular tumor board discussions, shared electronic records, and proactive communication strategies support seamless care transitions and minimize diagnostic or therapeutic delays. Ethical principles such as shared decision-making and respect for patient autonomy guide treatment planning, especially for older adults who may have surgical contraindications or differing treatment preferences.[79][80] This level of integration ensures that care for patients with lentigo maligna/LMM remains timely, evidence-based, and individualized, ultimately enhancing patient safety, satisfaction, and long-term outcomes.