Blood and Lymphatic Vessel Development

The vascular network supplying the skin develops in early embryonic life from the mesoderm.⁸⁶ In 60- to 70-day-old fetuses, there are two vascular networks: a superficial one that appears to correspond to the subpapillary plexus of adult skin and a deeper network that represents the deep reticular vascular network of adult skin. New capillary beds organize to supply the developing epidermal appendages from the fifth month of gestation. These two networks persist into the newborn period; however, the arrangement of vessels remains unstable for the first year of life, and further organization of the vascular network occurs postnatally.

Vasomotor tone is controlled by a delicate and complex series of neural and pharmacologic mechanisms that involve the sympathetic nervous system, norepinephrine, acetylcholine, and histamine and may involve serotonin, vasoactive polypeptides, corticosteroids, and prostaglandins. The physiologic requirements of skin vary considerably; skin blood flow ranges from 0.1 to 150 mL/mm³ of tissue per minute.⁸⁶

Development of Cutaneous Innervation

The nerve networks in the dermis develop at a very early embryologic age and appear to be distributed in a random fashion. The most superficial nerves have the smallest diameter and are the least myelinated. In addition to the dermal nerve network, which may show considerable regional variation, nerve fibers may serve particular regions or structures such as hair follicles, eccrine glands, arrector pili muscles, and the subepidermal zone. Superficial nerves conduct mechanosensory stimuli from the specialized Merkel cells within the epidermis. The sebaceous glands are not innervated.

Special neurologic structures include a dense perifollicular nerve network with exquisite tactile sensory properties and mucocutaneous end organs highly concentrated in erogenous zones. Meissner tactile organs are found in newborn skin as undeveloped structures that mature after birth. Merkel corpuscles probably govern two-point tactile discrimination on palms and fingertips; they are disk-shaped terminals that are seen during the 28th week of fetal life. After birth, these receptors undergo little alteration. Vater-Pacini corpuscles are found around the digits, palms, and genitals; they are fully formed and numerous at birth.³⁵

The arrector pili muscles are innervated by sympathetic nerves, and norepinephrine acts as the neurotransmitter. The eccrine glands are innervated by sympathetic fibers, but acetylcholine acts as the neurotransmitter. Parasympathetic fibers may accompany the sensory nerves in the vessel walls and cause vasodilation. The axon reflex is poorly developed in the newborn; in the neonate of low birth weight, axon-reflex sweating may be difficult to elicit.⁸⁵

Sebaceous Gland Hyperplasia and Milia

Approximately 8% of infants have multiple, white, 1-mm cysts (i.e., milia) scattered over the cheeks, forehead, nose, and nasolabial folds. These milia may be few or numerous, but they frequently occur in clusters. Milia are often confused with the more common condition of sebaceous gland hyperplasia (43% of infants), which manifests as smaller, flatter, more yellow dots seen on the midface as well (Figure 102-3). Histologically, milia are keratogenous cysts similar to Epstein pearls, which are distributed along the midpalatal raphe. Bohn nodules are cysts that occur on the palate and the buccal and lingual aspects of the dental ridges and represent remnants of mucous gland tissue. Intraoral lesions are found in 75% to 80% of newborns. Because all these cysts exfoliate or involute spontaneously within the first few weeks of life, no treatment is required.

Pigmentary Lesions⁹²

The most frequently encountered pigmented lesion is the mongolian spot (dermal melanosis), which occurs frequently in African-American, Asian, and Native-American infants and infrequently in white infants. Although most of these lesions are found in the lumbosacral area, occurrence at other sites is not uncommon. The pigmentation is macular and gray-blue, lacks a sharp border, and may cover an area 10 cm or larger in diameter. Pigmentary lesions result from delayed disappearance of dermal melanocytes.

Most of these lesions gradually disappear during the first few years of life, but aberrant lesions in unusual sites are more likely to persist. Because of their distinctive color and morphology, mongolian spots are not easily confused with congenital pigmented melanocytic nevi or café au lait spots, which often have their onset later in infancy or in early childhood, although they may be present at birth.

More rarely, abnormal hyperpigmentation of the areolas and genitals may be evidence of the existence of an in utero glucocorticoid insufficiency associated with defects in the biosynthesis of hydrocortisone.

Nevus Simplex or Salmon Patch⁶⁵

The nevus simplex is the most common neonatal cutaneous lesion and is present in up to 80% of normal newborns (Figure 102-4).⁴⁹ These lesions blanch when compressed and are usually centrally located and symmetric, appearing on the nape, the eyelids, and the glabella. In a prospective study of affected infants, most of the facial lesions had faded by 1 year of age, but those on the neck were more persistent. Surveys of adult populations confirm the persistence of the nuchal lesions in approximately one fourth of the population.

Harlequin Color Change

Harlequin color change is a phenomenon observed in the immediate neonatal period and is more common in the infant with low birth weight. The dependent side of the body becomes intensely red, and the upper side pales, with a sharp midline demarcation. The peak frequency of attacks in one series occurred on the second, third, and fourth days, but episodes were observed during the first 3 weeks of life. These episodes are of no pathologic significance. They have been attributed to a temporary imbalance in the autonomic regulatory mechanism of the cutaneous vessels; there are no accompanying changes in the respiratory rate, muscle tone, or response to external stimuli.

Erythema Toxicum

Erythema toxicum is a benign and self-limited eruption that usually develops at 24 to 72 hours of age, but new lesions may appear until 2 to 3 weeks of age.70,76 The disorder is more common in term than premature infants, which suggests that it may represent an inflammatory reaction requiring mature skin. These lesions may vary considerably in character and number; they may be firm, 1- to 3-mm, pale yellow to white papules or pustules on an erythematous base resembling flea bites or erythematous macules as large as 3 cm in diameter. Individual lesions are evanescent, often lasting only a matter of hours. They may be found on any area of the body, but occur only rarely on the palms and soles. They are asymptomatic with no related systemic involvement and the cause is unknown, although a variety of specific cytokines have been implicated in the pathogenesis. A microscopic examination of a Wright- or Giemsa-stained smear of the pustule contents demonstrates numerous eosinophils; Gram stains are negative for bacteria and cultures are sterile. No treatment is necessary because spontaneous resolution occurs in 6 days to 2 weeks.

Transient Neonatal Pustular Melanosis

Transient neonatal pustular melanosis is a distinctive eruption that consists of three types of lesions. First-stage lesions are small superficial vesiculopustules with little or no surrounding erythema.⁷⁶ These rapidly progress to the second stage, which consists of collarettes of scale or scale crust surrounding a hyperpigmented macule (third stage) (Figure 102-5). All three types of lesions may be present at birth, but the macules are observed more frequently. The lesions may be profuse or sparse and occur on any body surface, including the palms, soles, and scalp. Sites of predilection are the forehead, submental area and anterior neck, and lower back. When intact pustules rupture, a pigmented macule often is discernible central to the collarette of scale, which represents the margin of the unroofed pustule. Presumably, the macules result from postinflammatory hyperpigmentation, and those present at birth may be the sequelae of in utero pustular lesions.

Pustular melanosis may be confused with erythema toxicum, congenital cutaneous candidiasis, or staphylococcal pyoderma.76,92 Cultures and Gram stains of smears prepared from intact pustules are devoid of organisms; Wright stains of intralesional contents demonstrate cellular debris, polymorphonuclear leukocytes, and a few or no eosinophils, in contrast to those of erythema toxicum. Although the pustules disappear in 48 hours, the hyperpigmented macules may persist for as long as 3 months. Neither type of lesion requires therapy, and although the cause is unknown, parents may be reassured that the disorder is benign and transient.

Miliaria

Miliaria is an eruption resulting from eccrine sweat duct obstruction leading to sweat retention.⁷⁶ The three types of lesions are superficial thin-walled vesicles without inflammation (i.e., miliaria crystallina, Figure 102-6); small, erythematous, grouped papules (i.e., miliaria rubra); and nonerythematous pustules (i.e., miliaria pustulosis or profunda). The eruption most frequently develops in the intertriginous areas and over the face and scalp. It is exacerbated by exposure to a warm and humid environment. Miliaria sometimes can be confused with erythema toxicum; rapid resolution of the lesions when the infant is placed in a cooler environment differentiates them from pyoderma. A Wright-stained smear of vesicular lesions demonstrates only sparse squamous cells or lymphocytes, permitting exclusion of infectious vesicular eruptions. No topical therapy is indicated.

Neonatal Acne and Infantile Acne

Neonatal acne (i.e., neonatal cephalic pustulosis) is a relatively common condition that affects both sexes. It consists of small, red papules and pustules on the face during the first weeks of life. Comedones and cysts are usually absent. The lesions are asymptomatic and resolve spontaneously over several weeks. It has been suggested that occurrence of these lesions is coincident with colonization by the yeast Malassezia furfur.²⁹

In contrast, infantile acne is an uncommon but distressing facial eruption (usually in male infants) that has its onset somewhat later, during the first few months of life.29,76 This condition resembles acne in the adolescent patient and is characterized by comedones, papules, pustules, and rarely, nodules. The duration may vary, but the disorder usually clears spontaneously during the latter portion of the first year of life. This condition may represent a heightened response of the sebaceous glands to neonatal androgens. No treatment or treatment with mild topical acne preparations to produce drying and peeling should suffice. Occasionally, the infant may be left with pitted scarring, and some may experience severe acne as adolescents.

Infantile Acropustulosis

Infantile acropustulosis consists of pruritic papules and vesiculopustules with onset from birth to 10 months of age. The lesions appear in crops every 2 to 3 weeks and last 7 to 10 days. They involve the hands and feet primarily, but occasionally may involve the limbs as well. Because of the distribution, it is often confused with scabies. It is more common in African-American and male infants. The condition resolves spontaneously. A subcorneal pustule filled with neutrophils is seen on skin biopsy. Traditional therapy consists of topical steroids and antihistamines, although a recent report indicates successful treatment with topical maxacalcitol, an active form of vitamin D3.⁵³ Recently, recessive mutation in the gene coding interleukin 1 receptor antagonist was described in a case of infantile pustulosis treated successfully with recombinant human interleukin 1 receptor antagonist anakinra.⁶⁷

Physiologic Desquamation and Dysmaturity

The gestational age of a newborn with accentuated physiologic desquamation usually is 40 to 42 weeks; peak shedding occurs near the eighth day of life. These infants are otherwise normal in physical appearance and behavior. In contrast, the dysmature infant (see Chapter 23) has distinctive characteristics. The body is lean with thin extremities and decreased subcutaneous fat. The ponderal index is low with diminished body weight in relation to length. The skin is often scaly with parchment-like desquamation, especially of the distal extremities. There is often meconium staining of the skin as well as the nails and umbilical cord. The hair is abundant and the nails are abnormally long. In the normal infant with accentuated physiologic scaling and the dysmature infant, desquamation is a transient phenomenon, and the integument continues to serve its intended protective function. In contrast, the infant with congenital ichthyosis may have serious difficulties early in life because of impaired barrier function and the subsequent risks of secondary infection.

Ichthyoses

The term ichthyosis derives from the similarity of the skin condition to the scales of a fish. It refers to a complex and often confusing plethora of conditions characterized by disorders of cornification with or without systemic symptoms.18,46 Ichthyosis in the newborn period may manifest as scaling only, scaling and erythroderma, a collodion membrane, or the thickened plates of harlequin ichthyosis. Although these conditions are relatively rare, it is important for the neonatal caregiver to recognize the patient with ichthyosis as the barrier function of the skin is often compromised. Prompt management and diagnosis can be lifesaving.⁹⁵ Selected conditions with particular relevance to the newborn are highlighted below, followed by a general overview of treatment strategies. Table 102-3 lists the major clinical phenotypes of the ichthyoses in the newborn period.

Sepsis

Bacterial sepsis in the neonate can present with vesicles, pustules, or bullae. The most common cause of sepsis presenting with pustules is S. aureus. Group B Streptococcus (GBS) agalactiae is a leading cause of neonatal sepsis, pneumonia, and meningitis, but it rarely manifests in the neonate at birth with vesicles, pustules, or bullae.⁵⁵ In an attempt to decrease the frequency of GBS, maternal prophylaxis is recommended before delivery under certain conditions. Other occasional causes of pustules and sepsis in neonates include Listeria monocytogenes, Haemophilus influenzae, Pseudomonas aeruginosa, and Klebsiella pneumoniae.

Staphylococcal Infection and Impetigo

Superficial skin infections caused by Staphylococcus aureus range from localized bullous impetigo to generalized cutaneous involvement with systemic illness. In contrast to congenital blistering diseases, which are often present at birth, skin infections with S. aureus usually develop after the first few days of life.44,90 They may be bullous, crusted, or pustular. Typical lesions are small vesicles or pustules or large, fragile bullae filled with clear, turbid, or purulent fluid. They rupture easily, leaving red, moist, denuded areas often with a superficial varnish-like crust. Although they may develop anywhere on the body, the blisters and pustules commonly occur on the diaper area, axillae, and periumbilical skin. The diagnosis is made by Gram stain and culture of the blister fluid, which can distinguish this eruption from streptococcal impetigo and other bullous disorders of the neonatal period. Blood cultures should be obtained from affected infants before initiating systemic antibiotic therapy, even if the infants are usually otherwise well. Contacts and nursery personnel should be investigated for a source of the infectious organism. The infant should be placed in isolation and observed carefully for early signs of sepsis. A high index of suspicion during examination of other infants in the nursery is the most effective means of preventing epidemic spread of this infection.

Compresses of physiologic saline solution and systemic antibiotics to cover the principal etiologic possibilities are indicated until culture results are available. Fluid and electrolyte replacement therapy may be required if the disease is extensive. Recovery is usually complete in several days, and there is no residual scarring.

Staphylococcal Scalded Skin Syndrome

The staphylococcal scalded skin syndrome is a severe bullous eruption heralded by a bright erythema that resembles a scald. The erythema begins on the face and gradually spreads downward to involve the remainder of the skin, with accentuation in the flexural areas. The level of cleavage is superficial, occurring in the granular layer of the epidermis, and the bullae therefore are flaccid, easily ruptured, and rapidly progress into areas of denudation. The infant is febrile, irritable, and has marked cutaneous tenderness. The face, neck, and flexural areas are the first to be eroded. The entire upper epidermis may be shed from the limb like a glove. Crusting around the mouth and eyes results in a typical facies. Conjunctivitis is common, as is hyperemia of the mucous membranes, but oral ulcerations do not occur. Infants with a milder form of the disease display a scarlatiniform eruption with perioral and flexural desquamation, but without bullae or denudation. Like staphylococcal pyoderma, staphylococcal scalded skin syndrome is rarely seen at birth, with most neonatal cases presenting between 3 and 7 days of life.

The infecting organism in scalded skin syndrome is S. aureus, usually a group 2 phage type, although other phage types occasionally have been incriminated. These organisms produce an exotoxin (i.e., exfoliatin) that has proteolytic activity on desmoglein-1, a molecule found within the desmosomes of keratinocytes that is responsible for the cutaneous manifestations.58,90 Two major serotypes of the toxin, A and B, cause bullous impetigo and scalded skin syndrome. In cases of the former, the toxin produces exfoliation and blisters locally, whereas in the latter, the toxin circulates systemically with widespread epidermal necrolysis. Histologic examination of the skin demonstrates separation at the level of the granular layer with cell death and acantholysis; there is a striking absence of inflammatory infiltrate. Because intact bullae are sterile, cultures should be obtained from the nasopharynx, conjunctival sac, umbilicus, abnormal skin, blood, urine, and any other suspected focus of infection that might have provided a portal of entry for the organism.

Treatment consists of prompt systemic administration of penicillinase-resistant semisynthetic penicillin and pain management. Fluid and electrolyte replacement is warranted if necessary, and recent reports indicate successful use of skin-substitute dressings.⁶ Flaky desquamation occurs during the healing phase. Scarring never occurs because the blister cleavage plane is intraepidermal.