Premalignant and Malignant Nonmelanoma Skin Tumors

Basal cell carcinoma is a skin cancer derived from the basal layer of keratinocytes of the epidermis.

It is the most common cutaneous malignancy and most common cancer in humans.

If left untreated, basal cell carcinomas will locally invade surrounding skin, destroying underlying tissue.

Rarely, basal cell carcinomas can metastasize.

Basal cell carcinoma may occur at any age but is more common in later life.

The highest incidence occurs in people with white or fair skin (types I and II).

It is less common in Hispanic and Asian skin, and is rare in African Americans.

Cumulative ultraviolet light exposure is the major risk factor in developing basal cell carcinoma.

Tumors occur most commonly on the sun-exposed skin of the face, scalp, ears, and neck, and less often on the trunk and extremities.

There are several clinical variants of basal cell carcinoma: nodular, pigmented, superficial, micronodular, morpheaform, sclerosing, and advanced basal cell carcinomas.

Each type varies in clinical appearance, histology, and aggressiveness.

Nodular basal cell carcinoma is the most common type.

Sclerosing basal cell carcinoma has a higher incidence of recurrence.

In general, basal cell carcinomas are pink, violaceous, or pearly-white, sometimes translucent-appearing papules or nodules.

They may have a smooth surface with overlying telangiectasias.

The papule or nodule enlarges slowly, flattens centrally, or may develop a raised, rolled border.

Tumors frequently bleed, become erosive and crusted, and ulcerate in the center.

Basal cell carcinomas may contain melanin that appears speckled brown, black, or blue in color.

Curettage demonstrates the characteristically soft texture of the tumor compared with the surrounding normal skin.

Histology shows nests of basaloid keratinocyte tumor cells closely distributed in a distinctive stroma in nodular and pigmented basal cell carcinomas.

Superficial basal cell carcinomas appear as multifocal extensions of the basal layer of the epidermis into the superficial dermis.

In nodular basal cell carcinomas, there are larger islands of tumor cells within the dermis; tumor islands may be solid or may contain cystic cavities.

Pigmented basal cell carcinoma is similar to nodular basal cell carcinoma but differs in that tumor islands contain foci or clumps of melanin pigment.

In morpheaform or sclerosing basal cell carcinomas, collagen-like cords and fine strands of tumor cells are embedded within a fibrous stroma.

Without treatment, basal cell carcinomas persist, enlarge, ulcerate, and invade and destroy the surrounding structures.

Inadequately treated basal cell carcinomas recur, often underneath areas of scarring, which may lead to delay in detection.

In patients who develop one basal cell carcinoma, the annual risk for developing another basal cell carcinoma increases to 5%.

Basal cell carcinomas are rarely life-threatening, but metastases do occur. This is seen more commonly in immunocompromised patients.

Depending on tumor location, local destruction of normal tissue by the tumor can result in significant impairment. Inadequately treated tumors may extend undetected to destroy large areas of the face, neck, and scalp.

The goal of treatment is eradication of the tumor and return of normal anatomic form and function.

Treatment of basal cell carcinoma is determined by the size and location of the tumor, by the histologic variant, and the patient's concerns.

Cosmesis of the wound or defect is an important but secondary concern.

Clinical aggressiveness correlates with histologic pattern.

The various treatment options include cryotherapy, curettage, electrosurgery, traditional excision, Mohs' micrographic surgery, radiation, topical chemotherapy and immunotherapy, and photodynamic therapy.

Inhibition of the transcription of the basal cell carcinoma gene, hedgehog, is now possible with vismodegib (150 mg daily) and sonidegib (200 mg daily).

The patient should know that basal cell carcinomas are very common, but rarely life-threatening or trivial.

Patients must be followed after diagnosis and treatment because tumors may recur and risk for developing another basal cell carcinoma is increased.

All patients with basal cell carcinomas require follow-up to monitor for the development of new tumors and for recurrence at the treated site, regardless of which treatment is used.

Basal cell carcinomas may present as nonhealing ulcers and may appear on any cutaneous surface, including the genitalia.

Morpheaform or sclerotic basal cell carcinomas present as a firm, flat to slightly raised, pale to white papule, which may resemble a scar; it may be missed clinically, but is confirmed histologically. It is more aggressive than other basal cell carcinoma variants and frequently recurs without adequate treatment.

Actinic keratoses are very common keratotic lesions with malignant potential.

They are considered intraepidermal, precursor, or early lesions of squamous cell carcinoma and basal cell carcinoma.

Lesions are most commonly found in the sun-exposed areas of elderly patients with fair skin types who have had significant sun exposure in their lifetime.

Years of cumulative sun exposure and keratinocyte damage lead to the formation of actinic keratoses.

Individual lesions become progressively more common after age 40 years.

Multiple lesions are common in people with fair skin.

Spontaneous regression and progression to squamous cell carcinoma can occur.

It is difficult to predict which lesions will progress to invasive cancer, but thick, hypertrophic lesions seem to be more worrisome.

Approximately 10% of actinic keratoses progress to invasive squamous cell carcinoma over several years.

Transplant recipients with actinic keratosis must be followed closely because squamous cell carcinoma is more common in these patients, and the potential for metastasis is increased.

Actinic keratoses are found along with other signs of chronic sun exposure, such as uneven pigmentation, atrophy or thinning, and telangiectasias.

Lesions are found predominantly on the face, head, neck, and dorsal hands.

Actinic keratoses initially present as a poorly defined area of redness or telangiectasia.

Over time, the lesion becomes more defined and develops a thin, adherent, yellowish, or transparent scale.

At this stage, lesions are sometimes easier to detect by palpation than by observation.

One may find a discrete sandpaper-like change in skin texture associated with minimal erythema. Patients frequently point out these rough, hyperkeratotic areas to the physician.

With time, the adherent scale becomes progressively thicker and yellow in color.

Retained scale may form an elongated keratinous structure or a cutaneous horn.

Such advanced lesions may be difficult to distinguish from invasive squamous cell carcinoma without skin biopsy, and probably should be treated as a squamous cell carcinoma.

“Spreading pigmented actinic keratoses” describes actinic keratoses with fine reticulated pigmentation and minimal scaling; they may mimic a solar lentigo or melanoma in situ.

Lentigo maligna (melanoma in situ) appears as a pigmented patch and occurs most frequently on sun-damaged skin; it may be confused with a spreading pigmented actinic keratosis, and thus a biopsy may be required to establish the correct diagnosis.

Biopsy is often helpful for distinguishing advanced actinic keratoses and actinic cheilitis from invasive squamous cell carcinoma, but this is usually not required because most physicians rely on their clinical expertise.

The histologic hallmark is a disordered epidermis with intraepidermal keratinocyte atypia.

By definition, invasion into the dermis of atypical keratinocytes is not seen with actinic keratoses.

Similarly, the lesions of spreading pigmented actinic keratosis show keratinocyte atypia with increased pigmentation, whereas atypical melanocytes are seen in lentigo maligna.

A small percentage of actinic keratosis lesions spontaneously regress with continued sun protection; however, other populations of actinic keratoses progress to squamous cell carcinoma.

The behavior of an individual lesion cannot be predicted by clinical examination, although hypertrophic lesions may be more prone to progress.

It has been estimated that 20% of patients with multiple actinic keratoses develop squamous cell carcinoma in one or more lesions.

Squamous cell carcinomas that develop on the ear, the scalp, or at the vermilion border are more likely to metastasize than squamous cell carcinomas at other skin sites; thus, actinic keratoses at these sites are more worrisome and should be treated aggressively.

Inflammatory disorders involving the head and neck, such as seborrheic dermatitis and rosacea, can mimic actinic keratoses. Adequate treatment of these inflammatory disorders helps in the prompt recognition and treatment of actinic keratoses.

Actinic keratoses of the lower legs are frequently multiple, hyperkeratotic, and distributed over a large area.

Numerous lesions may form on the dorsal hand and forearms, which also have the potential to develop into squamous cell carcinoma.

Transplant recipients and other immunosuppressed patients pose a difficult treatment conundrum. These patients have a high incidence of squamous cell carcinoma and metastasis. Thus, adequate and aggressive treatment of actinic keratosis and early squamous cell carcinomas is paramount.

The patient with multiple actinic keratoses requires at least annual follow-up, if not more often for some patients who have more extensive sun damage.

Visible or detectable lesions represent a fraction of the total number of atypical keratinocytes actually present.

Most of the atypia are scattered within sun-damaged skin and below the level of clinical detection.

These patients will almost certainly develop more clinically apparent actinic keratosis lesions over time.

Adequate sun avoidance with sun-protective clothing and sunscreens should be encouraged to limit further damage.

Destruction with liquid nitrogen (cryotherapy) of solitary superficial lesions is the most common method of removal.

Patients with significant diffuse photodamage or multiple and recurrent lesions present difficult treatment problems.

It is well documented that patients with numerous actinic keratoses have an increased risk for developing squamous cell carcinoma over time.

Topical 5-fluorouracil 5% and 0.5% cream is useful in treating existing, and reducing the number of, atypical keratinocytes in the epidermis and has been the standard in topical, nonsurgical treatment of actinic keratoses.

Treatment should be tailored for specific areas of the skin, in concentration of the cream, the number of applications per day, and the duration.

Although treatment of all sun-damaged areas may be appropriate, it is rarely practical to treat large areas at one time. Some patients may prefer instead to treat limited areas on a rotating basis.

Erythema will appear if actinic keratoses are present. This is followed by warmth, burning, and oozing. Treatment may be stopped before completing the 3-week course if intense inflammation, crusting, or discomfort occurs.

Patients should be evaluated during the treatment period for discomfort and other complications.

Imiquimod 5% cream, an immune response modifier, has been shown to effectively treat multiple actinic keratoses when applied three to five times weekly for up to 4 weeks. A new formulation of imiquimod 3.75% cream (Zyclara) is now available.

Inflammatory changes similar to those with 5-fluorouracil occur with imiquimod.

Photodynamic therapy with either aminolevulinic acid (ALA) or methyl aminolevulinate (MAL) is yet another option for treating extensive diffuse photodamage and multiple actinic keratoses, and allows the physician to treat a large surface area.

As with the topical therapies, with photodynamic therapy, there is erythema, inflammation, and discomfort, but these symptoms are shorter in duration.

Electrodesiccation and curettage are also effective and may be necessary for thick lesions.

All destructive methods ablate the epidermis with minimal effect on the dermis. All have some risk for postprocedure hypopigmentation and scar formation, especially in people with darker skin. This should be clearly explained to the patient before treatment.

Invasive squamous cell carcinoma can develop from actinic keratosis, especially with thicker, hypertrophic lesions, or lesions not responding to treatment.

Actinic keratosis lesions of the oral mucosa are especially predisposed to convert to squamous cell carcinoma.

A biopsy should be considered in any patient who does not respond appropriately to routine actinic keratosis treatment and in actinic keratoses that are recurrent or hypertrophic.

Some severely actinically damaged patients may require two or three visits per year to adequately treat the numerous actinic keratoses present and prevent progression to squamous cell carcinoma.

Cutaneous squamous cell carcinoma is an invasive, primary cutaneous malignancy arising from keratinocytes of the skin and mucosal surfaces.

It is most commonly found on the face, head, neck, or hands of elderly patients.

Lesions may develop from precursor actinic keratoses or may arise de novo.

Squamous cell carcinoma is the second most common form of skin cancer in the United States.

It comprises 20% of all primary cutaneous malignancies.

The lifetime risk for developing a cutaneous squamous cell carcinoma is estimated to be between 5% and 15%.

More than 100,000 new cases of primary cutaneous squamous cell carcinoma are diagnosed in the United States each year.

Approximately 2500 deaths occur annually from squamous cell carcinoma arising in the skin.

The incidence of squamous cell carcinoma doubles with each 8- to 10-degree decline in latitude.

Primary cutaneous squamous cell carcinomas usually occur on sun-exposed skin from years of accumulated actinic damage.

Nearly 90% of cutaneous squamous cell carcinomas in men and nearly 80% of such tumors in women occur on the face, head, neck, and hands.

Squamous cell carcinoma on the legs occurs more often in women than in men.

White patients with fair skin are at greatest risk.

Although most squamous cell carcinomas are caused by ultraviolet light exposure, other extrinsic factors can play a causal role and include other forms of radiation; chemicals, such as hydrocarbons, arsenic, and tobacco; chronic infections, such as osteomyelitis, chronic inflammation, burns (Marjolin's ulcer), and scars; and human papillomavirus infection.

Historically, squamous cell carcinoma has been considered as a low-grade tumor with a metastatic rate of less than 1%.

With the current epidemic of all primary cutaneous malignancies and recent epidemiologic attention, it is clear that squamous cell carcinoma is far more aggressive than previously believed.

Transplant recipients and other immunocompromised patients develop squamous cell carcinoma much more frequently than the general population, and these tumors can be more aggressive and more likely to metastasize.

“Conduit spread” refers to the perivascular or perineural extension of tumor cells.

Ultimately the tumors may metastasize, usually via the lymphatics, to local lymph nodes.

As with actinic keratoses, squamous cell carcinomas typically occur on sun-exposed areas.

Tumors are found within a background of sun-damaged skin with atrophy, telangiectasias, and blotchy hyperpigmentation.

Early invasive squamous cell carcinoma may have the appearance of a hypertrophic actinic keratosis.

The typical lesion has a pink to dull red, firm, poorly defined dome-shaped nodule with an adherent yellow-white scale.

The untreated lesion becomes larger and more raised, developing into a firm, red nodule with a necrotic, crusted center.

Removal of the crust reveals a central cavity filled with necrotic keratin debris, sometimes with a foul odor.

Multiple lesions may appear on the sun-exposed bald scalp, and in some cases lesions may be too numerous to count.

Actinic keratoses are aggregates of atypical keratinocytes contained within the epidermis.

At the very least, actinic keratoses represent early squamous atypia, if not definitive squamous cell carcinoma in situ.

Unlike the lesions of Bowen's disease (squamous cell carcinoma in situ), which show full-thickness involvement, actinic keratoses show partial epidermal cellular atypia, and squamous cell carcinoma by definition shows atypical keratinocytes with invasion into the dermis.