INTRODUCTION The evaluation and initial treatment of cervical lymphadenitis in children will be reviewed here. The pathogenesis, etiology, and clinical manifestations of cervical lymphadenitis and other causes of peripheral lymphadenopathy in children are discussed separately. (See Cervical lymphadenitis in children: Etiology and clinical manifestations and Peripheral lymphadenopathy in children: Etiology and Peripheral lymphadenopathy in children: Evaluation and diagnostic approach.) DEFINITIONS ●Cervical lymphadenopathy – Enlarged lymph node(s) of the neck, including preauricular, parotid, tonsillar (jugulodigastric), submental, submandibular, posterior cervical, superficial cervical, deep cervical, occipital, and posterior auricular (mastoid) (figure 1); lymphadenopathy encompasses both inflamed and noninflamed lymph nodes ●Cervical lymphadenitis – Enlarged, inflamed, and tender lymph node(s) of the neck; although strictly speaking, “lymphadenitis” refers to inflamed lymph nodes, the terms “lymphadenitis” and “lymphadenopathy” often are used interchangeably ●Acute lymphadenitis – Develops over a few days (but may persist for weeks to months) ●Subacute/chronic lymphadenitis – Develops over weeks to months ●Generalized lymphadenopathy – Enlargement of two or more noncontiguous lymph node regions (eg, cervical and axillary) and is the result of systemic disease (see Peripheral lymphadenopathy in children: Etiology, section on Generalized lymphadenopathy) CAUSES There are numerous infectious and noninfectious causes of cervical lymphadenitis in children (table 1 and table 2). (See Cervical lymphadenitis in children: Etiology and clinical manifestations.) OVERVIEW OF DIAGNOSTIC APPROACH The evaluation of children with cervical lymphadenitis includes a thorough history and physical examination (table 3) [1]. The initial laboratory evaluation and management depend upon the findings from the history and examination, and may range from observation and reassurance (for well-appearing children with acute bilateral cervical lymphadenitis that is only slightly enlarged and minimally tender) to comprehensive diagnostic testing and aggressive medical and surgical therapy (for ill-appearing children or those with suspected malignancy or mycobacterial disease). In difficult cases, consultation with a specialist in pediatric infectious diseases can help to direct the evaluation and management. Unless there are compelling associated symptoms suggestive of noninfectious causes (table 2), we generally focus the initial evaluation on infectious causes of cervical lymphadenitis because infectious causes are more common, and more frequently associated with tenderness and inflammation than noninfectious causes. The infectious causes of cervical lymphadenitis in children vary depending upon whether the adenitis is acute or subacute/chronic, and bilateral or unilateral, although there is some overlap (table 1). We use this categorization in conjunction with the findings from the history and examination to guide the initial laboratory evaluation and management. (See Initial laboratory evaluation and management below.) Additional testing depends upon the results of the initial evaluation and the clinical course, including the response to antimicrobial therapy if it is initiated. (See Additional evaluation for persistence or uncertain etiology below.) The pace of the diagnostic evaluation is dictated by how ill the patient appears. As an example, early excisional biopsy is indicated for children with features suggestive of malignancy or nontuberculous mycobacterial infection. (See Suspected malignancy below and Suspected NTM below and Additional evaluation for persistence or uncertain etiology below.) History Important aspects of the history in a child with cervical lymphadenitis include [1]: ●Duration and laterality of adenopathy and change in size over time ●Associated symptoms, particularly fever; constitutional symptoms (weight loss, fatigue, malaise); conjunctivitis; pharyngitis; nasal, aural, or sinus obstruction without discharge; dental problems or mouth sores; cough; arthralgia; skin lesions or trauma ●Immunization status (diphtheria, measles, mumps, rubella) ●Exposures: •Ill contacts (viral respiratory infections, cytomegalovirus [CMV], Epstein-Barr virus [EBV], Streptococcus pyogenes [group A Streptococcus, GAS], tuberculosis) •Ingestion of unpasteurized animal milk (brucellosis, Mycobacterium bovis) or undercooked meats (toxoplasmosis) •Animal exposures (cat scratch disease, toxoplasmosis [cats], brucellosis [especially goats], tularemia [especially rabbits], bubonic plague [especially prairie dogs]) •Flea or tick bites (bubonic plague, tularemia) •Medications (eg, phenytoin, carbamazepine) •Geographic location and travel (tularemia (figure 2), bubonic plague (figure 3), tuberculosis (figure 4)) Physical examination A comprehensive physical examination should be performed to look for signs of systemic disease or infection [1]. Special attention should be given to the lymphatic system, conjunctivae, oral cavity, and skin. ●Lymphatic system – Examination of the lymphatic system includes the liver, spleen, cervical and noncervical lymph nodes. Hepatosplenomegaly with generalized adenitis may indicate systemic infection (eg EBV, CMV, human immunodeficiency virus [HIV], histoplasmosis, tuberculosis, syphilis) or noninfectious etiology (eg, malignancy, collagen vascular disease (table 2)). (See appropriate topic reviews.) Assessment of the lymph nodes should include the number, location (figure 1), size, shape, consistency, tenderness, mobility, and color of overlying skin. •Reactive lymph nodes usually feel soft and are discrete, mobile, and minimally tender; they are often referred to as shotty (ie, small and round, like shotgun pellets). •Infected lymph nodes are usually isolated, asymmetric, tender, warm, and erythematous; they may be fluctuant; they are less mobile and discrete than reactive lymph nodes. •Malignant lymph nodes often are hard, fixed, or matted to the underlying structures; they usually are nontender. ●Eyes – Conjunctival injection may indicate Parinaud oculoglandular syndrome (associated with cat scratch disease or tularemia), adenovirus (eg, pharyngoconjunctival fever), or Kawasaki disease (picture 1). (See Microbiology, epidemiology, clinical manifestations, and diagnosis of cat scratch disease and Kawasaki disease: Clinical features and diagnosis.) ●Oral cavity – The oral cavity should be examined for periodontal disease, herpangina (picture 2A-B), HSV gingivostomatitis (picture 3), or pharyngitis. ●Skin – A generalized rash may suggest a nonspecific viral illness, whereas a localized skin lesion may indicate a more specific etiology: •Cat scratch disease (picture 4A-B) (see Microbiology, epidemiology, clinical manifestations, and diagnosis of cat scratch disease) •Tularemia (picture 5) (see Clinical manifestations, diagnosis, and treatment of tularemia) •Staphylococcus aureus or GAS (see Cellulitis and erysipelas and Skin abscesses, furuncles, and carbuncles) •HSV (picture 6A-B) (see Herpetic gingivostomatitis in young children) Less common infections in which a papular or pustular lesion is suggestive of an inoculation site include [2]: •Nocardia (see Clinical manifestations and diagnosis of nocardiosis) •Actinomycosis (see Cervicofacial actinomycosis) •Sporotrichosis (picture 7) (see Clinical features and diagnosis of sporotrichosis) •Plague (see Clinical manifestations, diagnosis, and treatment of plague (Yersinia pestis infection)) •Cutaneous diphtheria INITIAL LABORATORY EVALUATION AND MANAGEMENT Acute bilateral Viral upper respiratory infection is the most common cause of acute bilateral cervical lymphadenitis (table 4) [1]. The initial evaluation and management depend upon the child’s clinical status and the course of the lymphadenitis. Mild illness Children with acute bilateral cervical lymph nodes that are slightly enlarged, minimally tender, and mobile and who are only mildly ill (ie, well-appearing, absent or low-grade fever, nonprogressive symptoms) generally do not require laboratory testing. However, testing for group A Streptococcus (GAS) is indicated in children with acute bilateral cervical lymphadenitis and exudative pharyngitis. Testing for Arcanobacterium haemolyticum may be warranted in adolescents with exudative pharyngitis. Testing for Epstein-Barr virus (EBV) may be warranted if the rapid test for GAS is negative or if the child has generalized lymphadenopathy and/or hepatosplenomegaly. (See Approach to diagnosis of acute infectious pharyngitis in children and adolescents, section on Group A Streptococcus and Clinical manifestations and treatment of Epstein-Barr virus infection, section on Primary infection.) Specific treatment usually is not necessary, unless the child has GAS or A. haemolyticum. The lymph nodes should be monitored with serial examinations every few weeks until they regress. Follow-up should occur earlier than scheduled if the child develops new or worsening symptoms. (See Severe, progressive, or persistent adenopathy below.) Severe, progressive, or persistent adenopathy For children with acute bilateral cervical lymphadenitis and are ill-appearing, febrile, or have progressive or persistent symptoms (ie, for longer than six to eight weeks without diminishing in size), we suggest the following evaluation: ●Complete blood count (CBC) with differential ●Erythrocyte sedimentation rate (ESR) and/or C-reactive protein (CRP) ●Hepatic profile (looking for evidence of systemic involvement, but not necessarily for a specific pathogen) ●Blood culture ●Tuberculin skin test ●EBV, cytomegalovirus (CMV), human immunodeficiency virus (HIV) serology; EBV serology is preferred to a monospot test because the monospot may be falsely negative in children ●Other serologic testing (eg, T. gondii, syphilis, or brucellosis) as indicated by the history and examination Although some of the infections identified with these tests more commonly cause subacute/chronic cervical lymphadenitis or generalized lymphadenopathy, it is important to consider them in children who are severely ill or have progressive/persistent cervical lymphadenitis, especially if the infection requires specific therapy (eg, tuberculosis, HIV, syphilis, brucellosis). The CBC, ESR (and/or CRP), and hepatic profile are nonspecific tests that may provide information about inflammation, bone marrow suppression or infiltration, and systemic involvement. Abnormal results may prompt additional evaluation (eg, bone marrow biopsy in children with peripheral cytopenias or blasts). The remainder of the tests may help to establish an etiology and the need for specific therapy. Additional testing may be necessary if the child remains ill and the etiology remains uncertain. (See Additional evaluation for persistence or uncertain etiology below.) The management of children with severe, progressive, or persistent cervical lymphadenitis depends upon the etiology. As examples: ●(See Clinical manifestations and treatment of Epstein-Barr virus infection, section on Treatment and prevention.) ●(See Cytomegalovirus infection and disease in newborns, infants, children and adolescents, section on Treatment.) ●(See Clinical manifestations, diagnosis, and treatment of brucellosis, section on Treatment.) Acute unilateral Acute unilateral cervical lymphadenitis in children usually is caused by S. aureus, GAS, or oral anaerobes (in children with poor oral hygiene or periodontal disease) (table 5) [1,3]. (See Cervical lymphadenitis in children: Etiology and clinical manifestations, section on Acute unilateral.) The initial evaluation and management depend upon the severity of symptoms. Minimal symptoms Children with acute unilateral cervical lymphadenitis who are well-appearing and whose lymph node is only slightly enlarged and minimally tender usually do not require laboratory testing. The lymph node should be monitored with serial examinations every few weeks until regression. Follow-up should occur earlier than scheduled if the child develops new or worsening symptoms. (See Moderate symptoms below and Severe symptoms below.) Moderate symptoms In children with acute unilateral cervical lymphadenitis and moderate symptoms (eg, fever, warm and/or tender adenitis without fluctuance), we recommend a course of oral antimicrobial therapy after obtaining microbiologic specimens as indicated to guide therapy. The evaluation of children with acute unilateral cervical lymphadenitis and moderate symptoms may include [4]: ●Blood cultures if the child is febrile and ill-appearing. ●Cultures of draining skin lesions (if present); however, isolation of GAS from the skin does not necessarily confirm GAS as the cause of lymph node inflammation because the skin may be colonized with GAS [5]. ●Throat culture (if they have exudative tonsillopharyngitis); however, isolation of GAS from the throat does not necessarily confirm GAS as the cause of lymph node inflammation because the throat may be colonized with GAS [5]. ●Needle aspiration of the inflamed node (in children without exudative pharyngitis) or if the node is suppurative; samples should be sent for Gram stain, bacterial culture (aerobic and anaerobic), and susceptibilities; although mycobacteria more typically present as subacute/chronic infections, acid fast bacilli (AFB) stain and mycobacterial culture should be obtained if the specimen is adequate. An infectious etiology is identified in 60 to 80 percent of patients who undergo needle aspiration for bacterial and mycobacterial culture [5-7]. Negative cultures do not absolutely exclude anaerobic infection, particularly in older children with poor oral hygiene or periodontal disease because anaerobes are fastidious organisms that require proper bacteriologic techniques for isolation [8]. We suggest that oral empiric antimicrobial therapy for children with acute unilateral cervical lymphadenitis and moderate symptoms include coverage for S. aureus and GAS; coverage for anaerobes should be included in children with periodontal disease or poor oral hygiene. The choice of empiric regimen is influenced by the likelihood of methicillin or clindamycin resistant S. aureus (table 6). Antimicrobial treatment should be adjusted according to the culture and susceptibility results once they are available. The total length of therapy is usually 10 to 14 days. (See Methicillin-resistant Staphylococcus aureus infections in children: Epidemiology and clinical spectrum, section on CA-MRSA strains and Evaluation and management of suspected methicillin-resistant Staphylococcus aureus skin and soft tissue infections in children, section on Approach for children >30 days of age.) Referral to a dentist may be warranted for children with underlying periodontal disease and/or poor oral hygiene [1]. Follow-up within 48 to 72 hours is necessary to ensure clinical response (eg, decreased maximum daily temperature and decreased inflammation and tenderness of the node) [2]. However, it may take four to six weeks for the lymph node to regress in size. Failure to improve within 48 to 72 hours may indicate infection with a resistant organism (eg, methicillin-resistant or clindamycin-resistant S. aureus). If not performed previously, needle aspiration for Gram stain, culture, and susceptibilities may be indicated [9]. If cultures remain negative, it may be necessary to broaden antimicrobial therapy to include coverage for resistant organisms, or less common organisms if clinically indicated. (See Additional evaluation for persistence or uncertain etiology below.) Occasionally, symptoms progress despite appropriate antimicrobial therapy and the patient requires hospitalization, parenteral therapy, and an incision and drainage procedure. Antimicrobial therapy is usually continued for seven days after the time of drainage. Severe symptoms For most children who have acute unilateral cervical lymphadenitis and severe symptoms (eg, ill-appearing, fever, fluctuant nodes, concomitant cellulitis), we recommend antimicrobial therapy after drainage of the inflamed node. It is also important to consider Kawasaki disease in the differential diagnosis, given the important of early treatment to prevent complications. (See Kawasaki disease: Clinical features and diagnosis and Kawasaki disease: Initial treatment and prognosis.) The evaluation of children with acute unilateral cervical lymphadenitis and severe symptoms generally includes: ●Blood cultures. ●Drainage of fluctuant lymph node – Incision and drainage is preferred to needle aspiration to reduce the likelihood of reaccumulation of pus; children who undergo incision and drainage often require hospitalization and parenteral antimicrobial therapy for several days. Abscess fluid and lymph node tissue (if obtained) should be sent for Gram stain, bacterial culture (aerobic and anaerobic) and susceptibilities; mycobacterial and fungal stains and cultures (although mycobacteria and fungi more typically cause subacute/chronic lymphadenitis); and histopathologic examination. ●ESR and/or CRP may be helpful in monitoring the course of infection and making decisions about switching from parenteral to oral antimicrobial therapy. ●Echocardiogram and electrocardiogram (if Kawasaki disease is a consideration). (See Kawasaki disease: Clinical features and diagnosis.) ●Ultrasonography of the lymph node may be useful in detecting the presence and extent of abscess if fluctuance is not obvious by manual examination. Some surgeons may request computed tomography (CT) with contrast before performing incision and drainage to detect unappreciated deep loculations. We suggest that empiric antimicrobial therapy for children with acute unilateral cervical lymphadenitis and severe symptoms be administered parenterally and include coverage for S. aureus and GAS; coverage for anaerobes should be included in children with periodontal disease or poor oral hygiene. The choice of empiric regimen is influenced by the results of the Gram stain and the likelihood of methicillin or clindamycin resistant S. aureus (table 6). Antimicrobial treatment should be adjusted according to the culture and susceptibility results once they are available. (See Evaluation and management of suspected methicillin-resistant Staphylococcus aureus skin and soft tissue infections in children, section on Severe SSTI.) Children who are receiving appropriate antimicrobial therapy should have a clinical response within 48 to 72 hours (eg, decreased fever, decreased ESR/CRP [if previously measured]) [1]. After a few days of intravenous therapy, a switch usually can be made to oral therapy, guided by the results of culture, to complete a total of 10 to 14 days of therapy. Transition to oral therapy depends upon: ●The clinical course (resolution of fever, decreased pain, decreased swelling and redness) ●Improvement in ESR and CRP if previously measured ●Availability of an equivalent oral therapy If the child fails to respond to empiric therapy, uncommon and rare infectious causes (table 5) and noninfectious causes (table 2) of acute unilateral cervical lymphadenitis must be considered. If cultures remain negative, empiric antimicrobial therapy may need to be broadened to include coverage for resistant organisms (eg, methicillin-resistant S. aureus). The history should be reviewed, with special attention to the following conditions: ●Tularemia; repeat serologic testing may be warranted if initial tularemia serology was negative because seroconversion occurs 10 to 20 days after infection and initial serology may be negative [10,11] (see Epidemiology, microbiology, and pathogenesis of tularemia and Clinical manifestations, diagnosis, and treatment of tularemia) ●Alpha streptococcus, associated with oral lesions ●Pasteurella multocida (see Pasteurella infections) ●Yersinia pestis (see Epidemiology, microbiology and pathogenesis of plague (Yersinia pestis infection) and Clinical manifestations, diagnosis, and treatment of plague (Yersinia pestis infection)) ●Yersinia enterocolitica (see Epidemiology of yersiniosis and Clinical manifestations and diagnosis of Yersinia infections) ●Gram-negative bacilli, associated with history of ear, nose, and throat infections; the isolation of gram-negative bacilli (eg, Serratia species) should prompt consideration of underlying immunodeficiency ●Anthrax (see Microbiology, pathogenesis, and epidemiology of anthrax and Clinical manifestations and diagnosis of anthrax) Surgical excision, drainage, or biopsy may be necessary to obtain microbiologic specimens to guide changes to antimicrobial therapy. (See Additional evaluation for persistence or uncertain etiology below.) Subacute/chronic Unilateral subacute/chronic cervical lymphadenitis is usually caused by cat scratch disease or nontuberculous mycobacterial (NTM) infection (table 7) [1,12]. However, the possibility of leukemia or lymphoma and other malignancies must be considered, particularly in adolescents (table 2). Bilateral subacute/chronic cervical lymphadenitis is usually caused by Epstein-Barr virus or cytomegalovirus (table 8). Information from the history, physical examination, and initial evaluation (eg, tuberculin skin testing, serology) help to distinguish among these possibilities (table 7 and table 2 and table 8). (See Cervical lymphadenitis in children: Etiology and clinical manifestations, section on Subacute/chronic unilateral and Cervical lymphadenitis in children: Etiology and clinical manifestations, section on Neoplasm.) Evaluation Our initial evaluation of children with subacute/chronic cervical lymphadenitis generally includes: ●CBC with differential and smear, ESR, and/or CRP ●Hepatic panel ●Uric acid and lactate dehydrogenase (as a preliminary evaluation to exclude malignancy) ●Tuberculin skin test (TST) with intermediate (5 tuberculin unit) purified protein derivative (PPD) [13] Children who respond with 5 to 15 mm of induration at 48 hours may have NTM infection or tuberculosis (depending upon their risk for tuberculosis), whereas those with ≥15 mm induration usually have tuberculosis; however, reactions of 10 to 20 mm may occur with NTM [2,13-16] (see Overview of nontuberculous mycobacterial lymphadenitis in children, section on M. tuberculosis and Tuberculous lymphadenitis, section on Cervical lymphadenopathy) Interferon-gamma release assay (IGRA) tests may be useful in differentiating tuberculosis from NTM in children with positive TST; IGRA tests usually are positive with tuberculosis but negative with NTM, with rare exception (eg, M. kansasii, M. marinum, M. szulgai, M. gordonae) [2,17] (see Latent tuberculosis infection in children, section on Interferon-gamma release assays and Tuberculosis disease in children, section on Interferon gamma release assays) Initial testing for children with subacute/chronic cervical lymphadenitis also may include: ●Serologic testing for HIV, EBV, and CMV (if the lymphadenitis is bilateral) ●Serologic testing for Bartonella henselae if there is a clinical suspicion of cat scratch disease (see Microbiology, epidemiology, clinical manifestations, and diagnosis of cat scratch disease, section on Diagnosis) ●Serology for tularemia, toxoplasmosis, or plague (Yersinia pestis) if indicated based on history or examination; although tularemia and Yersinia pestis typically cause acute cervical lymphadenitis, they should be considered in children with subacute/chronic lymphadenitis because they may require treatment (see Clinical manifestations, diagnosis, and treatment of tularemia and Toxoplasmosis in immunocompetent hosts and Clinical manifestations, diagnosis, and treatment of plague (Yersinia pestis infection)) If no etiology is identified with the above tests, excisional biopsy for histopathology, bacterial, mycobacterial, and fungal stains and cultures is usually indicated. (See Additional evaluation for persistence or uncertain etiology below.) Management The initial management of children with subacute/chronic cervical lymphadenitis depends upon the suspected etiology. Suspected malignancy Excisional biopsy should occur as early in the course as possible if malignancy is suspected. (See Additional evaluation for persistence or uncertain etiology below.) Malignancy should be suspected in children with unilateral, nontender, hard, persistent or progressive cervical lymphadenopathy and/or associated constitutional symptoms (eg, weight loss, fever, fatigue). Lack of evidence of viral infection (eg, HIV, EBV, CMV) increases suspicion for malignancy. (See Cervical lymphadenitis in children: Etiology and clinical manifestations, section on Neoplasm and Clinical assessment of the child with suspected cancer, section on Lymphadenopathy.) Suspected NTM The clinical appearance of nontuberculous mycobacterial (NTM) adenitis, especially when the overlying skin becomes violaceous and thin, is so characteristic that the diagnosis can frequently be made based upon the history and physical examination (picture 8) [18]. Excisional biopsy of the involved lymph node can provide a definitive diagnosis of NTM adenitis and is the preferred treatment, when it can be performed safely. Incision and complete curettage is an alternative when excisional biopsy cannot be performed. Incision and drainage are contraindicated, due to the risk of developing a chronically draining fistula. The clinical features, diagnosis and management of NTM lymphadenitis in children are discussed separately. (See Overview of nontuberculous mycobacterial lymphadenitis in children.) Suspected cat scratch disease When cat scratch disease is suspected but not confirmed, empiric therapy should provide coverage for S. aureus and GAS (table 6) as well as for cat scratch disease. Oral agents that may be used for cat scratch disease include azithromycin, rifampin, trimethoprim-sulfamethoxazole, and doxycycline (in children >8 years of age). Rifampin has an advantage of providing additive therapy to other antimicrobials against S. aureus and GAS. The treatment of cat scratch disease is discussed separately. (See Treatment of cat scratch disease, section on Lymphadenitis.) Surgical excision is not usually necessary for cat scratch lymphadenitis. However, painful, suppurative nodes can be treated with needle aspiration(s) for symptomatic relief. ADDITIONAL EVALUATION FOR PERSISTENCE OR UNCERTAIN ETIOLOGY If after the initial evaluation the etiology of the adenitis remains uncertain, or the adenitis has persisted for six to eight weeks with no response to antimicrobial therapy, additional testing may be indicated to assess uncommon or rare infectious causes (table 1) and noninfectious causes (table 2) of cervical lymphadenitis [2]. Depending upon which studies were performed as part of the initial evaluation and risk factors identified in the initial evaluation or re-evaluation, additional testing may include: ●Repeat complete blood count (CBC) with differential ●Rapid plasma reagin or venereal disease research laboratory test for syphilis ●Serology for Epstein-Barr virus, cytomegalovirus, human herpesvirus-6, human immunodeficiency virus, histoplasmosis, coccidiomycosis, toxoplasmosis, tularemia, B. henselae, and brucella ●Chest radiograph (looking for mediastinal lymph nodes or mass) ●Excisional biopsy – Indications for excisional biopsy may include: •Suspicion of malignancy (eg, CBC with blasts or abnormal counts; mediastinal mass or mediastinal lymphadenopathy on chest radiograph, constitutional symptoms, supraclavicular or lower cervical lymphadenitis, matted lymphadenopathy) •Suspicion of tuberculous or nontuberculous mycobacterial lymphadenitis •Persistent (more than six to eight weeks without decreasing in size) or enlarging adenopathy with uncertain diagnosis Excisional biopsy of the largest and firmest palpable node should occur as early in the course as possible if malignancy or mycobacterial infection is suspected [19]. (See Overview of nontuberculous mycobacterial lymphadenitis in children, section on Diagnosis.) The biopsy should be performed at a medical center specializing in the care of children, and the pathologist should know in advance there will be a lymph node biopsy. This will ensure the proper smears, stains, and cultures are performed. Biopsy specimens should be submitted for bacterial, mycobacterial, and fungal stains and cultures and histopathologic examination. Parts of the sample should not be fixed at the time of excision to allow for sensitive marker studies, such as immunophenotyping, cytogenetics and molecular studies. PROGNOSIS Cervical lymphadenitis spontaneously regresses in most children over the course of several weeks [2,20-22]. Reactivation of inflammation may occur in children who have conditions that predispose to infection (eg, dermatitis, infestation, foreign body) or if there is an occult source of infection that was not adequately treated (eg, dental abscess). Complications Delayed diagnosis and initiation of appropriate therapy may result in a prolonged clinical course or complications [2]. Persistent and recurrent lymphadenitis is the most frequent complication [23]. Other complications vary depending upon the underlying etiology and include: ●Nontuberculous Mycobacteria – Development of a sinus tract and or disseminated disease [24-26] (see Overview of nontuberculous mycobacterial lymphadenitis in children, section on Clinical features and Overview of disseminated nontuberculous mycobacterial (NTM) infections and NTM bacteremia in children) ●S. aureus – Abscess formation, cellulitis, bacteremia [5,27] ●Group A Streptococcus – Abscess formation, cellulitis, bacteremia, acute glomerulonephritis [6] INFORMATION FOR PATIENTS UpToDate offers two types of patient education materials, “The Basics” and “Beyond the Basics.” The Basics patient education pieces are written in plain language, at the 5th to 6th grade reading level, and they answer the four or five key questions a patient might have about a given condition. These articles are best for patients who want a general overview and who prefer short, easy-to-read materials. Beyond the Basics patient education pieces are longer, more sophisticated, and more detailed. These articles are written at the 10th to 12th grade reading level and are best for patients who want in-depth information and are comfortable with some medical jargon. Here are the patient education articles that are relevant to this topic. We encourage you to print or e-mail these topics to your patients. (You can also locate patient education articles on a variety of subjects by searching on “patient info” and the keyword(s) of interest.) ●Basics topic (see Patient information: Swollen neck nodes in children (The Basics)) SUMMARY AND RECOMMENDATIONS ●There are numerous infectious (table 1) and noninfectious causes (table 2) of cervical lymphadenitis. (See Causes above.) ●Important aspects of the history and examination include onset, laterality, duration, and qualities of the lymphadenitis; associated symptoms (eg, fever, weight loss) and examination findings (eg, conjunctivitis, rash, hepatosplenomegaly); immunizations status; and exposures (table 3). (See History above and Physical examination above.) ●Acute bilateral cervical lymphadenitis usually is caused by a self-limited viral upper respiratory infection (table 4) and requires only monitoring unless it is accompanied by severe symptoms, progresses, or persists. Acute bilateral cervical lymphadenitis usually does not require specific treatment. (See Acute bilateral above.) ●Acute unilateral lymphadenitis is usually caused by Staphylococcus aureus or group A Streptococcus (GAS) (table 5). The evaluation and management depend upon the childs clinical status and the course of lymphadenitis. (See Acute unilateral above.) •Children who are well-appearing and have slightly enlarged nodes with minimal tenderness can be followed clinically with serial examination every few weeks until regression. (See Minimal symptoms above.) •For children who have moderate symptoms (warm and/or tender lymphadenitis without fluctuance), the evaluation is tailored to the clinical findings and may include blood cultures, cultures of draining skin lesions, throat culture, needle aspiration for Gram stain and cultures (aerobic and anaerobic), and mycobacterial culture and stain for acid fast bacilli (if the specimen is adequate). (See Moderate symptoms above.) •For children who have severe symptoms (ill-appearing, fever, fluctuant nodes, concomitant cellulitis), the evaluation usually includes blood cultures, drainage of the inflamed node (Gram stain, bacterial, cultures [aerobic and anaerobic] and susceptibilities, mycobacterial and fungal stains and cultures, and histopathologic examination), erythrocyte sedimentation rate and/or C-reactive protein. (See Severe symptoms above.) •We recommend that children with moderate or severe symptoms be treated with antimicrobial therapy (Grade 1B). Initial empiric therapy should provide coverage for S. aureus and GAS; coverage for anaerobes should be included in patients with periodontal disease or poor oral hygiene (table 6). (See Moderate symptoms above and Severe symptoms above.) •Children with acute unilateral lymphadenitis who are receiving appropriate antimicrobial therapy usually manifest decreased inflammation and tenderness of the node and decreased maximum daily temperature within 48 to 72 hours. Failure to improve within 48 to 72 hours may indicate infection with a resistant organism, particularly methicillin- or clindamycin resistant S. aureus); an uncommon or rare infectious cause (table 5); or a noninfectious cause (table 2). (See Moderate symptoms above and Severe symptoms above.) ●Unilateral subacute/chronic cervical lymphadenitis is usually caused by cat scratch disease or nontuberculous mycobacterial (NTM) infection. However, the possibility of malignancy must be considered, particularly in adolescents. Bilateral subacute/chronic cervical lymphadenitis is usually caused by Epstein-Barr virus (EBV) or cytomegalovirus (CMV). (See Subacute/chronic above.) •The initial evaluation of children with subacute/chronic cervical lymphadenitis usually includes a CBC with differential and smear; ESR and/or CRP; hepatic panel; uric acid and lactate dehydrogenase; tuberculin skin test; serologic testing for human immunodeficiency virus, EBV and CMV (if bilateral); and serologic testing for Bartonella henselae, tularemia, toxoplasmosis, or plague (if indicated by clinical findings). •The initial management of children with subacute/chronic cervical lymphadenitis depends upon the suspected etiology: -Excisional biopsy should occur as early in the course as possible if malignancy is suspected. (See Suspected malignancy above.) -Excisional biopsy is also the preferred treatment for NTM lymphadenitis when it can be performed safely. (See Overview of nontuberculous mycobacterial lymphadenitis in children, section on Management.) -When cat scratch disease is suspected but not confirmed, empiric therapy should provide coverage for S. aureus and GAS (table 6) as well as for cat scratch disease (eg, azithromycin, rifampin, or trimethoprim-sulfamethoxazole). (See Suspected cat scratch disease above and Treatment of cat scratch disease, section on Lymphadenitis.) ●For children in whom the etiology of lymphadenitis remains uncertain after the initial evaluation or the lymphadenitis has persisted for six to eight weeks with no response to antimicrobial therapy, additional testing, including excisional biopsy, may be indicated to assess uncommon or rare infectious (table 1) and noninfectious causes (table 2) of cervical lymphadenitis. (See Additional evaluation for persistence or uncertain etiology above.)
Posted on: Wed, 17 Dec 2014 15:27:23 +0000
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