1404 PART 5 Infectious Diseases
resistance conferred by a hydrolyzing class A β-lactamase, BlaC. Carbapenems are poor substrates of BlaC, and clavulanic acid leads to irreversible inhibition. While the use of either amoxicillin-clavulanic acid
or carbapenems alone for highly resistant forms of TB has been anecdotally reported with unclear results, the combination of meropenem
and clavulanic acid turned out to be highly active in vitro. Recently, the
combination was found to have effective early bactericidal activity, and
in a large individual patient data meta-analysis, the combination was
associated with positive outcomes. Nevertheless, the need to administer these carbapenems intravenously and the lack of information on the
drugs’ long-term side effects have restricted their use to certain severe
cases only. Recommended daily doses are either imipenem-cilastatin 1
g (each component) IV twice daily or meropenem 1 g IV three times
daily, each in combination with clavulanic acid 125 mg oral twice daily,
which is only available in combination with amoxicillin.
AMINOGLYCOSIDES Aminoglycosides have played a time-honed role
in the treatment of mycobacterial infections. Amikacin and streptomycin are aminoglycosides that exert mycobactericidal activity by binding
to the 16S ribosomal subunit. The spectrum of antibiotic activity for
amikacin and streptomycin includes M. tuberculosis, several NTM
species, and aerobic gram-negative and gram-positive bacteria. Due to
the need of intravenous or painful intramuscular injections and their
serious side effect profile, the WHO recommends limiting their use
with the increased availability of novel oral agents. Kanamycin and
capreomycin, a cyclic polypeptide similar to aminoglycosides, are no
longer recommended due to worse treatment outcomes and increased
mortality. This recommendation is based on a large individual patientlevel meta-analysis of observational cohort studies and is likely due to
increased toxicity seen with these agents. Streptomycin was the first
antimycobacterial agent used for the treatment of TB. Derived from
Streptomyces griseus, streptomycin is bactericidal against dividing M.
tuberculosis organisms but has only low-level early bactericidal activity.
In developing countries, it continues to be widely used due to its low
cost. The usual daily dose of streptomycin (given IM either daily or
5 days per week) is 15 mg/kg for adults and 20–40 mg/kg for children,
with a maximum of 1 g/d for both with dose reduction recommended
for patients ≥60 years of age or with renal impairment. Central nervous
system penetration is poor.
Amikacin resistance is less widespread, and streptomycin-resistant strains may still be susceptible. The usual daily adult dosage is
15–30 mg/kg given IM or IV (maximal daily dose, 1 g). It is frequently
used to treat severe nontuberculous mycobacterial infections.
Mycobacterial resistance to aminoglycosides is due to mutations in
the genes encoding the 16S ribosomal RNA gene (rrs). Adverse effects
of both amikacin and streptomycin include ototoxicity (in up to 10% of
recipients, with auditory dysfunction occurring more commonly than
vestibulotoxicity), nephrotoxicity, and neurotoxicity.
ETHIONAMIDE Ethionamide is a derivative of isonicotinic acid. Its
mechanism of action is through inhibition of the inhA gene product
enoyl–acyl carrier protein (acp) reductase, which is involved in mycolic
acid synthesis. Ethionamide is bacteriostatic against metabolically
active M. tuberculosis and some NTM. It is used in the treatment
of drug-resistant TB, but its use is limited by severe gastrointestinal
reactions (including abdominal pain, nausea, and vomiting) as well
as significant central and peripheral neurologic side effects, reversible hepatitis (in ~5% of recipients), hypersensitivity reactions, and
hypothyroidism. Ethionamide should be taken with food to reduce
gastrointestinal effects and with pyridoxine (50–100 mg/d) to limit
neuropathic side effects.
PARA-AMINOSALICYLIC ACID Para-aminosalicylic acid (PAS; 4-aminosalicylic acid) is an oral agent used in the treatment of drug-resistant
TB. Its bacteriostatic activity is due to inhibition of folate synthesis and
of iron uptake. PAS has relatively little activity as an anti-TB agent.
Adverse effects may include high-level nausea, vomiting, and diarrhea. PAS may cause hemolysis in patients with glucose-6-phosphate
dehydrogenase deficiency. The drug should be taken with acidic foods
to improve absorption. Enteric-coated PAS granules (4 g orally every
8 h) appear to be better tolerated than other formulations and produce
higher therapeutic blood levels. PAS has a short half-life (1 h), and 80%
of the dose is excreted in the urine.
■ DRUGS IN DEVELOPMENT
The pipeline of novel TB drugs is rapidly changing. We direct the
reader to the Working Group on New TB Drugs for the most up-todate information (https://www.newtbdrugs.org/pipeline/clinical).
NONTUBERCULOUS MYCOBACTERIA
More than 150 species of NTM have been identified. Only a minority
of these environmental organisms, which are extensively found in soil
and water, are important human pathogens. NTM cause extensive
disease primarily in persons with preexisting pulmonary disease or
immunocompromise but can also cause nodular/bronchiectatic disease in otherwise seemingly healthy hosts. Disseminated infections
with NTM are common in immunocompromised individuals. NTM
are also important causes of skin and soft tissue infections in surgical
settings. The two major classes of NTM are the slow-growing and rapidly growing species; subcultures of the latter grow within 1 week. The
growth characteristics of NTM have diagnostic, therapeutic, and prognostic implications. The rate of growth can provide useful preliminary
information within a specific clinical context, in that growth within
2–3 weeks is much more likely to indicate an NTM than M. tuberculosis. When NTM do grow from cultures, colonization should be distinguished from active disease in order to optimize the risk and benefit
of prolonged treatment with multiple medications. According to the
recommendations of the American Thoracic Society and the Infectious
Diseases Society of America, significant clinical manifestations and/
or radiographic evidence of progressive disease consistent with NTM
infection as well as either reproducible sputum culture results or a single positive culture from bronchoscopy are required for the diagnosis
of NTM pulmonary disease. Isolation of NTM from blood or from
an infected extrapulmonary site, such as soft tissue or bone, is usually
indicative of disseminated or local NTM infection (Chap. 180). Treatment of NTM disease is prolonged and requires multiple medications.
Side effects of the regimens employed are common, and intermittent
therapy is often used to mitigate these adverse events. Treatment
regimens depend on the NTM species, the extent or type of disease,
and—to some degree—drug susceptibility test results.
■ THERAPEUTIC CONSIDERATIONS FOR
SPECIFIC NTM
Slowly Growing Mycobacteria Slowly growing mycobacteria can
be divided into three categories based on their pigment-producing capabilities and—if they do produce pigment—their requirement for light
to do so. Photochromogens, including M. marinum and M. kansasii, can
produce yellowish-orange pigment only when exposed to light. Scotochromogens, including Mycobacterium gordonae and Mycobacterium
scrofulaceum, can make pigment regardless of light exposure. MAC
organisms and Mycobacterium ulcerans are nonchromogens—i.e., are
incapable of making pigment irrespective of light exposure.
MYCOBACTERIUM AVIUM COMPLEX Among the NTM, MAC organisms
most commonly cause human disease. In immunocompetent hosts,
MAC species are most often found in conjunction with underlying
significant lung disease, such as chronic obstructive pulmonary disease or bronchiectasis. For patients with nodular or bronchiectatic
MAC lung disease, an initial regimen consisting of clarithromycin or
azithromycin, rifampin or rifabutin (the latter is preferred for HIV
patients receiving ART), and ethambutol is given three times per week
for at least 12 months after culture conversion. A daily regimen of these
three drugs, with consideration of amikacin or streptomycin in the
initial treatment phase, is recommended for patients with fibrocavitary
MAC lung disease or severe nodular/bronchiectatic disease. Routine
initial testing for macrolide resistance is recommended, as is testing
at 6 months with a failing regimen (i.e., with cultures persistently
positive for NTM). Interpretation of susceptibility tests to drugs other
than macrolides and aminoglycosides is hampered by poor correlation
with clinical outcomes. Amikacin has been reformulated as a liposomal suspension with increased penetration into airway biofilms. The
1405CHAPTER 181 Antimycobacterial Agents
CONVERT trial showed that addition of inhaled liposomal amikacin
to standard three-drug regimen of azithromycin or clarithromycin,
rifampin, and ethambutol in treatment-refractory (persistent sputum
positivity after at least 6 months) MAC lung disease significantly
increases culture conversion rates from 9 to 26% at 6 months. Respiratory adverse events (primarily dysphonia, cough, and dyspnea) were
reported in 87.4% of patients receiving inhaled liposomal amikacin
compared to 50% in the standard therapy group; however, rates of serious adverse events were not different between the regimens. Inhaled
liposomal amikacin is now approved for use in refractory pulmonary
MAC infections (persistent positive cultures after at least 6 months of
treatment). It is currently being evaluated as a first-line agent and as a
replacement for rifampin in the treatment of MAC lung disease.
Surgical resection should be considered for individuals whose
infection is localized to one lung, who have adequate lung function
to tolerate lung resection, who have had a poor response to medical
therapy, and/or who have developed macrolide-resistant MAC disease.
Treatment of MAC in persons living with HIV should be initiated
in consultation with an infectious diseases specialist. For HIV-infected
patients with well-controlled HIV disease and CD4 T-cell counts in
the normal range, MAC treatment is identical to patients without HIV
disease except that drug-drug interactions between antimycobacterial
agents and ART should be carefully considered. HIV-infected patients
with low CD4 count (CD4+ T-cell count >100/μL) are at risk for disseminated MAC infection. MAC disease in these patients is generally
treated with clarithromycin, ethambutol, and rifabutin. Azithromycin
may be preferred to clarithromycin depending on adverse effects and
patient tolerance. Amikacin and fluoroquinolones are often used in
salvage regimens. Treatment for disseminated MAC infection in AIDS
patients may be lifelong in the absence of immune reconstitution.
Therapy is recommended for at least 12 months after culture conversion and at least 6 months of effective immune reconstitution with ART
(CD4+ T-cell count >100/μL).
MYCOBACTERIUM KANSASII M. kansasii is the second most common
NTM causing human disease in the United States. It is also the second
most common cause of NTM pulmonary disease in the United States,
where it is most commonly reported in the southeastern region. M.
kansasii infection can be treated with rifampin, ethambutol, and either
isoniazid or macrolide; therapy continues for at least 18 months or for
12 months after culture conversion. The American Thoracic Society
and the Infectious Diseases Society of America recommend routine
susceptibility testing to rifampin only. Resistance to isoniazid and
ethambutol can be acquired during therapy but is usually associated
with rifampin resistance as well. Rifampin-resistant M. kansasii is
treated with a three-drug regimen including agents such as ciprofloxacin, azithromycin, ethambutol, rifabutin, amikacin, trimethoprimsulfamethoxazole, and streptomycin after drug susceptibility testing.
MYCOBACTERIUM MARINUM M. marinum is an NTM found in salt
water and freshwater, including swimming pools and fish tanks. It is
a cause of localized soft tissue infections, which may require surgical
management. Combination regimens include clarithromycin and
either ethambutol or rifampin. Other agents with activity against
M. marinum include doxycycline, minocycline, and trimethoprimsulfamethoxazole. Drug susceptibility testing is recommended only
if the swab remains culture positive after 3 months of appropriate
therapy.
Rapidly Growing Mycobacteria Rapidly growing mycobacteria
causing human disease include Mycobacterium abscessus, Mycobacterium fortuitum, and Mycobacterium chelonae. Treatment of these
mycobacteria is complex and should be undertaken with input from
experienced clinicians. It is important to note that testing rapidly
growing mycobacteria for macrolide resistance is tricky, as an inducible
erm gene may confer in vivo macrolide resistance to isolates that are
susceptible in vitro.
M. abscessus is the third most common NTM pathogen in the
United States. It is endemic in the southeastern states between Texas
and Florida. Skin, soft tissue, and bone infections occur, usually after
accidental trauma or surgery. This organism appears to have a predilection to cause lung infections in white nonsmoking women aged
>60 who have no preexisting lung disease. M. abscessus isolates are
usually resistant to standard anti-TB regimens. Skin and soft tissue
infections are usually treated for a minimum of 4 months with a macrolide (clarithromycin or azithromycin) and a parenteral agent such
as amikacin, cefoxitin, or imipenem. Bone infections are treated for
at least 6 months. This regimen can be used for the treatment of lung
infections but is often unsuccessful because of drug adverse effects
and toxicities. A regimen comprising a combination of at least three
active drugs (amikacin, linezolid, tigecycline, imipenem, azithromycin,
provided the organism is macrolide susceptible) is recommended on
the basis of in vitro drug susceptibility testing. A recent meta-analysis
has shown that overall therapeutic efficiency rates in M. abscessus
lung infection are low at ~35%; however, incorporation of amikacin,
imipenem, linezolid, and/or tigecycline was associated with improved
outcomes. Conversely, macrolide resistance has been associated with
worse outcomes. Surgical resection should be considered in all patients
with good lung reserve and a localized infection.
■ DRUGS FOR THE TREATMENT OF NTM
Clarithromycin Clarithromycin is a macrolide antibiotic with
broad activity against many gram-positive and gram-negative bacteria
as well as NTM. This drug is active against MAC organisms and many
other NTM species, inhibiting protein synthesis by binding to the 50S
mycobacterial ribosomal subunit. NTM resistance to macrolides is
probably caused by overexpression of the gene ermB, with consequent
methylation of the binding site. Strains of M. abscessus subsp. abscessus
harbor an inducible macrolide resistance mechanism coded by erm41,
which leads to ribosomal methylation and becomes apparent after
macrolide incubation of 3−5 days, significantly hampering treatment
success. Twenty percent of strains have a nonfunctional erm41 gene.
Clarithromycin is well absorbed orally and distributes well to tissues. It
is cleared both hepatically and renally; the dosage should be reduced in
renal insufficiency. Clarithromycin is a substrate for and inhibits cytochrome 3A4 and should not be administered with cisapride, pimozide,
or terfenadine because cardiac arrhythmias may occur. Numerous
drugs interact with clarithromycin through the CYP3A4 metabolic
pathway. Rifampin lowers clarithromycin levels; conversely, rifampin
levels are increased by clarithromycin. However, the clinical relevance
of this interaction does not appear to be great.
For patients with nodular/bronchiectatic MAC infection, the dosage
of clarithromycin is 500 mg, given morning and evening three times a
week. For the treatment of fibrocavitary or severe nodular/bronchiectatic
MAC infection, a dose of 500–1000 mg is given daily. Disseminated
MAC infection is treated with 1000 mg daily. Clarithromycin is used in
combination regimens that typically include ethambutol and a rifamycin in order to avoid the development of macrolide resistance. Adverse
effects include frequent gastrointestinal intolerance, hepatotoxicity,
headache, rash, and rare instances of hypoglycemia. Clarithromycin
is contraindicated during pregnancy because of its teratogenicity in
animal models.
Azithromycin Azithromycin is a derivative of erythromycin.
Although technically an azalide and not a macrolide, it works similarly
to macrolides, inhibiting protein synthesis through binding to the 50S
ribosomal subunit. Azithromycin is preferred over clarithromycin due
to once-daily dosing, better tolerability, fewer drug interactions, and
equal efficacy. Resistance to azithromycin is almost always associated
with complete cross-resistance to clarithromycin. Azithromycin is well
absorbed orally, with good tissue penetration and a prolonged half-life
(~48 h). The usual dosage for treatment of MAC infection is 250 mg
daily or 500 mg three times per week. Azithromycin is used in combination with other agents to avoid the development of resistance. For
prophylaxis against disseminated MAC infection in immunocompromised individuals, a dose of 1200 mg once per week is given. Because
azithromycin is not metabolized by cytochrome P450, it interacts with
few drugs. Adjustment of the dosage on the basis of renal function is
not necessary.
1406 PART 5 Infectious Diseases
Section 9 Spirochetal Diseases
182
DEFINITION
Syphilis, a chronic systemic infection caused by Treponema pallidum
subspecies pallidum, is usually sexually transmitted and is characterized by episodes of active disease interrupted by asymptomatic periods
(latency). After an incubation period averaging 2–6 weeks, a primary
lesion appears—often associated with regional lymphadenopathy—and
then resolves without treatment. The secondary stage, with generalized
mucosal and cutaneous lesions and generalized lymphadenopathy, also
resolves spontaneously and is followed by a latent period of subclinical infection lasting years or decades. Central nervous system (CNS)
invasion may occur early in infection, and CNS involvement may
be symptomatic or asymptomatic. In the preantibiotic era, one-third
of untreated patients developed tertiary syphilis, characterized by
destructive mucocutaneous, skeletal, or parenchymal lesions; aortitis;
or late CNS manifestations.
ETIOLOGY
The Spirochaetales include five genera that are pathogenic for humans
and for a variety of other animals: Leptospira species (leptospirosis,
Chap. 184); Borrelia and Borreliella species (relapsing fever and Lyme
disease, respectively; Chaps. 185 and 186); Brachyspira species (gastrointestinal infections); and Treponema species (syphilis and the endemic
treponematoses; see also Chap. 183). The Treponema subspecies
include T. pallidum subsp. pallidum (venereal syphilis); T. pallidum
subsp. pertenue (yaws); T. pallidum subsp. endemicum (endemic syphilis or bejel); and T. carateum (pinta). Historically, the subspecies were
distinguished by the clinical syndromes they produce, but phylogenetic
analyses of whole genome sequences from a relatively small number
of strains (excluding T. carateum) yield the three named subspecies
groupings. Whether these groupings represent geographical variation
or true biological differences is unclear. The crossing of subspecies
boundaries by some “molecular signatures” and the recent recognition of treponemes of the endemicum genotype in sexually acquired
genital ulcers (chancres) and secondary rashes (Chap. 183) support
the concept of a genetic and clinical “continuum” among strains and
subspecies of the pathogenic treponemes.
T. pallidum subspecies are thin spiral organisms, with a cell body
surrounded by a trilaminar cytoplasmic membrane, a delicate peptidoglycan layer, and a lipid-rich outer membrane. Endoflagella wind
around the cell body in the periplasmic space and are responsible for
motility.
Historically, T. pallidum could not be cultured in vitro, but longterm propagation of the Nichols strain of T. pallidum in complex
medium with eukaryotic cells was recently reported. To date, the
pertenue and endemicum subspecies have not been cultured. All T.
pallidum subspecies have severely limited metabolic capabilities and
are highly dependent on host-derived amino acids, carbohydrates, and
lipids. Genetic analyses have revealed the existence of a 12-member
Syphilis
Sheila A. Lukehart
Amikacin Liposome Inhalation Suspension (ALIS) ALIS
is a new formulation of the aminoglycoside amikacin, which allows
for improved penetration in the lung with reduced toxicity. It is now
approved for treatment of refractory MAC lung infection with persistent sputum positivity at 6 months while on appropriate background
regimen. Typical dose is 590 mg (one vial once a day) for 6 months
along with the standard three-drug regimen of macrolide, rifampin,
and ethambutol. Dosage adjustments in patients with hepatic and renal
dysfunction are not required. Half-life elimination typically occurs
in ~5.9–9.5 h. Respiratory side effects such as bronchospasm, cough,
dysphonia, and dyspnea are common. Monitoring for systemic aminoglycoside toxicity should be considered.
Imipenem Imipenem primarily inhibits cell-wall biosynthesis by
binding to the penicillin-binding proteins. It is rapidly gaining importance for the treatment of M. abscessus with a meta-analysis showing
improved outcomes with its inclusion in a multidrug regimen. It is
dosed at 500 mg to 1 g twice to three times a day as part of a combination regimen for the treatment of M. abscessus. Half-life of imipenem is
~1 h, and because it is metabolized in the kidneys, dosing adjustment is
needed with renal dysfunction. Adverse effects include anemia, thrombocythemia, and liver dysfunction.
Cefoxitin Cefoxitin is a second-generation parenteral cephalosporin
with activity against rapidly growing NTM, particularly M. abscessus
and M. chelonae. Its mechanism of action against NTM is unknown but
may involve inactivation of cell-wall synthesis enzymes. High doses are
used for treatment of NTM: 200 mg/kg IV three or four times per day,
with a maximal daily dose of 12 g. The half-life of cefoxitin is ~1 h, with
primary renal clearance that requires adjustment in renal insufficiency.
Adverse effects are uncommon but include gastrointestinal manifestations, rash, eosinophilia, fever, and neutropenia.
Newer Drugs Three newer classes of drugs—the oxazolidinones,
the glycylcyclines, and the ketolides—are currently being evaluated
for possible use in the treatment of NTM infections, especially those
caused by M. abscessus. Approximately 50% of M. abscessus isolates
have shown some degree of susceptibility in vitro to linezolid, an
oxazolidinone. Tigecycline, which is a glycylcycline and a tetracycline
derivative, and telithromycin, a ketolide, also appear to have in vitro
activity against M. abscessus. These drugs, however, have not yet been
clinically tested in patients.
In addition, some anti-TB drugs, including clofazimine and
bedaquiline, are being evaluated as alternative agents for the treatment
of refractory NTM infections. In particular, clofazimine appears to act
synergistically in combination with amikacin, bedaquiline, or tigecycline. The exact role of these agents in the treatment of refractory NTM
infections remains unclear. Suppressive therapy with periodic parenteral/oral drugs to limit disease progression and control symptoms may
be an appropriate alternative to curative treatment.
CONCLUSION
Treatment of mycobacterial infections requires multiple-drug regimens that often exert significant side effects with the potential to limit
tolerability. The prolonged duration of treatment has vastly improved
results over those obtained in past decades, but drugs and regimens
that will shorten treatment duration and limit adverse drug effects and
interactions are needed.
■ FURTHER READING
Collaborative Group for the Meta-Analysis of Individual
Patient Data in Mdr-Tb Treatment–2017: Treatment correlates
of successful outcomes in pulmonary multidrug-resistant tuberculosis: An individual patient data meta-analysis. Lancet 392:821, 2018.
Daley CL et al: Treatment of nontuberculous mycobacterial pulmonary disease: An official ATS/ERS/ESCMID/IDSA clinical practice
guideline. Clin Infect Dis 71:e1, 2020.
Nahid P et al: Official American Thoracic Society/Centers for Disease
Control and Prevention/Infectious Diseases Society of America clinical practice guidelines: Treatment of drug-susceptible tuberculosis.
Clin Infect Dis 63:e147, 2016.
Sterling TR et al: Guidelines for the treatment of latent tuberculosis infection: Recommendations from the National Tuberculosis
Controllers Association and CDC, 2020. MMWR Recomm Rep 69
(No. RR-1):1, 2020.
World Health Organization: Consolidated guidelines on drugresistant tuberculosis treatment. Geneva: World Health Organization,
2019. License: cc by-nc-sa 3.0 igo.
1407CHAPTER 182 Syphilis
in such high-risk populations. Cases of P&S syphilis among African
Americans increased 2.7-fold between 2000 and 2018, and the rate
(28.1 per 100,000 population) remains higher than rates for other
racial/ethnic groups.
Of individuals named as sexual contacts of persons with infectious
syphilis, many will have developed manifestations of syphilis when
they are first seen, and ~30% of asymptomatic contacts examined
within 30 days of exposure actually have incubating infection and will
later develop infectious syphilis if not treated. Thus, identification and
treatment of all recently exposed sexual contacts continue to be important aspects of syphilis control.
■ GLOBAL SYPHILIS
Syphilis remains a significant health problem globally; the number
of new infections is estimated at 6−8 million per year. The regions
most affected include sub-Saharan Africa, South America, China, and
Southeast Asia. The incidence rate for total syphilis in China continues
to rise, and rates of P&S syphilis have increased dramatically among
MSM in many European, Asian, and South American countries. Globally, through efforts by World Health Organization (WHO), progress
has been made in the prevention of congenital syphilis, although there
are still ~988,000 pregnant women with syphilis per year, with 661,000
cases of congenital syphilis including 200,000 stillbirths and infant
deaths.
NATURAL COURSE AND PATHOGENESIS OF
UNTREATED SYPHILIS
T. pallidum rapidly penetrates intact mucous membranes or microscopic abrasions in skin and, within a few hours, enters the lymphatics
and blood to produce systemic infection and metastatic foci long
before the appearance of a primary lesion. Blood from a patient with
incubating or early syphilis is infectious. The generation time of T. pallidum during early disease is estimated to be ~30 h, and the incubation
period of syphilis is inversely proportional to the number of organisms
transmitted. The 50% infectious dose for intradermal inoculation in
humans has been calculated to be 57 organisms, and the treponeme
concentration generally reaches 107
/g of tissue before a clinical lesion
appears. The median incubation period in humans (~21 days) suggests
an average inoculum of 500–1000 infectious organisms for naturally
acquired disease; the incubation period rarely exceeds 6 weeks.
The primary lesion appears at the site of inoculation, usually persists
for 4–6 weeks, and then heals spontaneously. Histopathologic examination shows perivascular infiltration, chiefly by CD4+ and CD8+ T
lymphocytes, plasma cells, and macrophages, with capillary endothelial
proliferation and subsequent obliteration of small blood vessels. The
cellular infiltration produces a TH1-type cytokine profile, consistent
with the activation of macrophages. Phagocytosis of opsonized organisms by activated macrophages ultimately causes their destruction,
resulting in spontaneous resolution of the chancre.
The generalized parenchymal, constitutional, mucosal, and cutaneous manifestations of secondary syphilis usually appear ~6–12 weeks
after infection, although primary and secondary manifestations may
occasionally overlap. In contrast, some patients may enter the latent
stage without ever recognizing secondary lesions. The histopathologic
features of secondary maculopapular skin lesions include hyperkeratosis of the epidermis, capillary proliferation with endothelial swelling in
the superficial dermis, and—in the deeper dermis—perivascular infiltration by CD8+ T lymphocytes, CD4+ T lymphocytes, macrophages,
and variable numbers of plasma cells. T. pallidum disseminates during
the first days to weeks of infection, invading many tissues, including
the CNS; cerebrospinal fluid (CSF) abnormalities can be detected in
as many as 40% of patients during the secondary stage. Clinical hepatitis and immune complex–induced glomerulonephritis are rare, but
recognized, manifestations of secondary syphilis. Generalized nontender lymphadenopathy is noted in 85% of patients with secondary
syphilis. The paradoxical appearance of secondary manifestations,
even after the development of an immune response that clears primary
lesions, likely results from immune evasion due to antigenic variation
of TprK surface antigens. Secondary lesions generally subside within
40000
30000
20000
Number of cases
10000
1990
0
1995 2000 2005 2010 2015
Men Women
FIGURE 182-1 Primary and secondary syphilis in the United States, 1990–2018, by
sex. (Data from the Centers for Disease Control and Prevention.)
gene family (tpr) encoding outer-membrane antigens. One member,
TprK, has discrete variable regions that undergo antigenic variation
during infection, providing a mechanism for immune evasion.
The only known natural host for T. pallidum subsp. pallidum
(referred to hereafter as T. pallidum) is the human. T. pallidum can
infect many mammals, but only humans, higher apes, and a few laboratory animals develop syphilitic lesions. Rabbits are used to propagate
T. pallidum and serve as the animal model that best reflects human
disease and immunopathology.
TRANSMISSION AND EPIDEMIOLOGY
Nearly all cases of syphilis are acquired by sexual contact with infectious lesions (i.e., the chancre, mucous patch, skin rash, or condylomata lata; see Fig. A1-20). Less common modes of transmission
include nonsexual skin contact, infection in utero, blood transfusion,
and organ transplantation.
■ SYPHILIS IN THE UNITED STATES
Following the introduction of penicillin therapy in the 1940s, the
number of cases of syphilis of all stages reported in the United States
declined 95% to a low of 31,575 cases in 2000, with 5979 reported cases
of primary and secondary (P&S) syphilis. (P&S cases are infectious and
are a better indicator of disease activity than total syphilis cases.) Since
2000, total cases have increased 3.6-fold to 115,045, and the number of
P&S cases has increased nearly sixfold, with 35,063 cases reported in
2018 (Fig. 182-1). Nationally, ~54% of these cases were in men who
have sex with men (MSM), ~41.6% of whom are co-infected with HIV.
From 2017 to 2018, P&S cases rose 11.7% among all men and 34.2%
among women, with increases in all racial and ethnic groups and in
all geographic regions of the United States. Because the incidence of
congenital syphilis parallels that of infectious syphilis in women, the
striking increase in early syphilis in women has resulted in a dramatic
increase in congenital syphilis. In 2018, 1306 cases of congenital
syphilis were reported, resulting in 78 stillbirths and 16 infant deaths.
Since 2014, the number of reported cases in infants <1 year of age has
increased nearly threefold. Data from 2018 show that nearly 12% of
women with syphilis reported injecting drugs in the past 12 months
and nearly 8% reported heroin use.
The populations at highest risk for acquiring syphilis have changed
over time, with outbreaks among MSM in the pre-HIV era of the
late 1970s and early 1980s, as well as at present. The dramatic recent
increases in syphilis and other sexually transmitted infections in
MSM may be due to unprotected sex between persons who are HIV
concordant and to disinhibition facilitated by highly effective antiretroviral therapy (ART). Many MSM diagnosed with syphilis have had
syphilis previously, and more frequent (every 3 months) screening
for syphilis and other sexually transmitted infections is warranted
1408 PART 5 Infectious Diseases
2–6 weeks, and the infection enters the latent stage, which is detectable only by serologic testing. In the preantibiotic era, up to 25% of
untreated patients experienced at least one cutaneous relapse of secondary lesions, usually during the first year. Therefore, identification
and examination of sexual contacts are most important for patients
with syphilis of <1 year’s duration.
In the preantibiotic era, about one-third of patients with untreated
latent syphilis developed clinically apparent tertiary disease, the most
common types being the gumma (a usually benign granulomatous
lesion); cardiovascular syphilis (usually involving the vasa vasorum of
the ascending aorta and resulting in aneurysm); and late symptomatic
neurosyphilis (tabes dorsalis and paresis). In Western countries today,
specific treatment for early and latent syphilis and coincidental therapy
(i.e., therapy with antibiotics active against treponemes, but given for
other conditions) have nearly eliminated tertiary syphilis. Asymptomatic CNS involvement, however, is still demonstrable in up to 40% of
persons with early syphilis and 25% of patients with late latent syphilis, and modern cases of general paresis and tabes dorsalis are being
reported from China. The factors that contribute to the development
and progression of tertiary disease are unknown.
CLINICAL MANIFESTATIONS
■ PRIMARY SYPHILIS
The typical primary chancre usually begins as a single painless papule that rapidly erodes and becomes indurated, with a characteristic
cartilaginous consistency on palpation of the edge and base of the
ulcer. Multiple primary lesions are seen in a minority of patients. In
heterosexual men, the chancre is usually located on the penis, where
it is readily seen (Fig. 182-2; see also Fig. A1-17), but in MSM, it may
also be found in the anal canal, rectum, or mouth. Oral sex has been
identified as the source of infection in some MSM. In women, common primary sites are the cervix, vaginal wall, and labia, as well as anal
canal and mouth. Consequently, primary syphilis goes unrecognized in
women and MSM more often than in heterosexual men.
Atypical primary lesions are common, and may be multiple, small,
or partially resolved. Therefore, syphilis should be considered in the
evaluation of trivial or atypical dark-field-negative genital lesions. The
lesions that most commonly must be differentiated from those of primary syphilis include those caused by herpes simplex virus infection
(Chap. 192), chancroid (Chap. 157), traumatic injury, and donovanosis (Chap. 173). Regional (usually inguinal) lymphadenopathy accompanies the primary syphilitic lesion, appearing within 1 week of lesion
onset. The nodes are firm, nonsuppurative, and painless. Inguinal
lymphadenopathy is bilateral and may occur with anal as well as with
genital chancres. The chancre generally heals within 4–6 weeks (range,
2–12 weeks), but lymphadenopathy may persist for months.
■ SECONDARY SYPHILIS
The classical manifestations of the secondary stage include mucocutaneous or cutaneous lesions and generalized nontender lymphadenopathy. The healing primary chancre may still be present in ~15%
of cases—more frequently in persons with concurrent HIV infection.
The skin rash consists of macular, papular, papulosquamous, and
occasionally pustular syphilides; often more than one form is present
simultaneously. The eruption may be very subtle, and 25% of patients
with a discernible rash may be unaware that they have dermatologic
manifestations. Initial lesions are pale red or pink, nonpruritic, discrete
macules distributed on the trunk and extremities; these macules progress
to papular lesions that are distributed widely and that frequently involve
the palms and soles (Fig. 182-3; see also Figs. A1-18 and A1-19). Rarely,
severe necrotic lesions (lues maligna) may appear and are more commonly reported in HIV-infected individuals. Involvement of the hair
follicles may result in patchy alopecia of the scalp hair, eyebrows, or
beard in up to 5% of cases.
In warm, moist, intertriginous areas (commonly the perianal region,
vulva, and scrotum), papules can enlarge to produce broad, moist,
pink or gray-white, highly infectious lesions (condylomata lata; see
Fig. A1-20) in 10% of patients with secondary syphilis. Superficial
mucosal erosions (mucous patches) occur in 10–15% of patients and
commonly involve the oral or genital mucosa (see Fig. A1-21). The
typical mucous patch is a painless silver-gray erosion surrounded by
a red periphery. T. pallidum DNA has been detected in oral mucosal
swabs from persons with early syphilis, but who have no visible oral
lesions. The implications of this finding for transmission are unclear
but warrant further research.
Constitutional signs and symptoms that may accompany or precede
secondary syphilis include sore throat (15–30%), fever (5–8%), weight
loss (2–20%), malaise (25%), anorexia (2–10%), headache (10%), and
meningismus (5%). Acute meningitis occurs in only 1–2% of cases, but
CSF cell and protein concentrations are increased in up to 40% of early
syphilis cases, and viable T. pallidum organisms have been recovered
from CSF during primary and secondary syphilis in 30% of cases,
sometimes without other CSF abnormalities. Persons with current or
recent secondary syphilis may present with ocular or otic manifestations. Ocular findings include pupillary abnormalities and optic neuritis as well as the classic iritis or uveitis. The diagnosis of ocular syphilis
is often considered in affected patients only after they fail to respond
to topical steroid therapy. Anterior uveitis has been reported in 5–10%
of patients with secondary syphilis, and T. pallidum has been demonstrated in aqueous humor from such patients. Permanent blindness
may result without prompt diagnosis and treatment. Otic syphilis may
present as sensorineural hearing loss, vertigo, or tinnitus. The recent
publication of several reports of ocular and otic syphilis reminds clinicians to inquire about neurologic manifestations in all stages of syphilis
infection. In a recent study, 7.9% of patients with syphilis, when asked,
reported recent vision or hearing changes, and more than half of those
had abnormal CSF or ophthalmologic findings consistent with syphilis.
Less often recognized complications of secondary syphilis include
hepatitis, nephropathy, gastrointestinal involvement (hypertrophic
gastritis, patchy proctitis, or a rectosigmoid mass—sometimes mistakenly assumed to be malignant), arthritis, and periostitis. Hepatic
involvement is common in syphilis; although it is usually asymptomatic, up to 25% of patients may have abnormal liver function tests.
Frank syphilitic hepatitis is rare. Renal involvement usually results
from immune complex deposition and produces proteinuria associated
FIGURE 182-2 Primary syphilis with a firm, nontender chancre. with an acute nephrotic syndrome. Like those of primary syphilis, most
1409CHAPTER 182 Syphilis
FIGURE 182-3 Secondary syphilis. Left: Maculopapular truncal eruption. Middle: Papules on the palms. Right: Papules
on the soles. (Photos courtesy of Jill McKenzie and Christina Marra.)
manifestations of the secondary stage resolve spontaneously, usually
within 1–6 months.
■ LATENT SYPHILIS
Positive serologic tests for syphilis, together with a normal CSF examination and the absence of clinical manifestations of syphilis, indicate a
diagnosis of latent syphilis in an untreated person. The diagnosis may
be made following routine serologic screening or may be suspected due
to a history of primary or secondary lesions, a history of exposure to
syphilis, or the delivery of an infant with congenital syphilis. A previous
nonreactive serologic test or clear history of lesions or exposure may
help to establish the duration of infection, which is an important factor
in the selection of appropriate therapy. Early latent syphilis is limited
to the first year after infection, whereas late latent syphilis is defined
as that of ≥1 year’s (or unknown) duration. The classical definition of
early latent syphilis would include a person whose secondary rash has
resolved, as well as a person whose chancre has healed but who has not
yet developed secondary manifestations. The Centers for Disease Control and Prevention (CDC) have recently revised the case definitions
for surveillance and reporting purposes to better reflect the recognition
that some clinical manifestations may appear at several stages of infection. These definitions include the traditional primary and secondary
stages, as well as “syphilis, early nonprimary nonsecondary,” describing
infections of <12 months’ duration, and “syphilis, unknown duration
or late,” encompassing the previous late latent and late (tertiary) classifications. In this new scheme, neurologic, ocular, otic, and late clinical
manifestations are reported separately in the context of their separate
primary, secondary, early nonprimary nonsecondary, and unknown
duration or late categories.
It was previously thought that untreated late latent syphilis had three
possible outcomes: (1) persistent lifelong infection; (2) development of
tertiary syphilis; or (3) spontaneous cure, with reversion of serologic
tests to negative. Although progression to clinically evident late syphilis
is very rare today, the occurrence of spontaneous microbiologic cure
is in doubt.
Because T. pallidum continues to be present throughout untreated
infection, it may seed the bloodstream intermittently during the latent
stage, and a pregnant woman with latent syphilis may infect her fetus
in utero. Moreover, syphilis has been transmitted through blood transfusion or organ donation from patients with latent syphilis.
■ REINFECTION SYPHILIS
A growing number of individuals, particularly MSM, are acquiring
multiple episodes of syphilis, with important implications for clinical
presentation and serologic testing. Although no national data are available, 32% of enrollees (mostly MSM) in a recent 18-year longitudinal
study of CNS involvement were known to have had multiple episodes
of syphilis. It is well recognized that, after treatment, persons with
past syphilis are less likely to revert to nonreactive in the Venereal
Disease Research Laboratory (VDRL)/rapid plasma reagin (RPR) than
persons with first episode syphilis, and treponemal tests will remain
reactive. However, several recent studies
also indicate that subsequent episodes
of syphilis are more likely to be asymptomatic than initial episodes, less likely
to have T. pallidum identified in blood
or CSF, and less likely to have laboratorydefined neurosyphilis. These cases would
be detectable only by serologic screening,
reinforcing the utility of frequent screening in high-risk populations.
■ INVOLVEMENT OF THE CNS
Traditionally, neurosyphilis has been
considered a late manifestation of syphilis, but this view is inaccurate. CNS
syphilis represents a continuum encompassing early invasion (usually within the
first weeks of infection), months to years
of asymptomatic involvement, and, in some cases, development of early
or late neurologic manifestations. Early neurosyphilis includes asymptomatic or symptomatic meningitis and meningovascular syphilis; late
neurosyphilis includes tabes dorsalis and general paresis.
Asymptomatic Neurosyphilis The diagnosis of asymptomatic
neurosyphilis is made in patients who lack neurologic symptoms
and signs but who have CSF abnormalities, including mononuclear
pleocytosis, increased protein concentration, or reactivity in the CSF
VDRL test. CSF abnormalities are demonstrated in up to 40% of cases
of untreated primary or secondary syphilis and in 25% of cases of
untreated latent syphilis. T. pallidum has been recovered by inoculation
into rabbits of CSF from up to 30% of patients with primary or secondary syphilis but less frequently from patients with syphilis of >1 year’s
duration. The presence of T. pallidum in CSF is often associated with
other CSF abnormalities, but organisms can be recovered from patients
with otherwise normal CSF. Although the prognostic implications of
these findings in early syphilis are uncertain, it may be appropriate to
conclude that even patients with early syphilis who have CSF abnormalities do indeed have asymptomatic neurosyphilis and should be
treated for neurosyphilis; such treatment is particularly important in
patients with concurrent untreated HIV infection. Before the advent of
penicillin, the risk of development of clinical neurosyphilis in untreated
asymptomatic persons was roughly proportional to the intensity of CSF
changes, with the overall cumulative probability of progression to clinical neurosyphilis ~20% in the first 10 years of infection but increasing
with time. In several large studies, neurosyphilis was associated with an
RPR titer of ≥1:32, regardless of clinical stage or HIV infection status.
While most experts agree that neurosyphilis is more common among
persons with untreated HIV infection, the immune reconstitution seen
with effective ART may have a protective effect against development of
clinical neurosyphilis in HIV-infected persons with syphilis. Nonetheless, RPR titer ≥1:32 is still associated with reactive CSF VDRL, even in
persons taking effective ART. HIV-uninfected persons with untreated
latent syphilis and normal CSF probably run a very low risk of subsequent neurosyphilis.
Symptomatic Neurosyphilis The major clinical categories of
symptomatic neurosyphilis include early meningeal and meningovascular and late parenchymatous syphilis. The last category includes
general paresis and tabes dorsalis. The onset of symptoms usually
occurs <1 year after infection for meningeal syphilis, up to 10 years
after infection for meningovascular syphilis, at ~20 years for general
paresis, and at 25–30 years for tabes dorsalis. Neurosyphilis is more
frequently symptomatic in patients co-infected with untreated HIV,
particularly those with low CD4+ T lymphocyte counts. In addition,
evidence suggests that syphilis infection worsens the cognitive impairment seen in HIV-infected persons and that this effect persists after
treatment for syphilis.
Meningeal syphilis may present as headache, nausea, vomiting, neck
stiffness, cranial nerve involvement, seizures, and changes in mental
status. This condition may be concurrent with or may follow the
1410 PART 5 Infectious Diseases
secondary stage. Patients presenting with uveitis, iritis, or hearing loss
often have meningeal syphilis, but these clinical findings can also be
seen in patients with normal CSF.
Meningovascular syphilis reflects meningitis together with inflammatory vasculitis of small, medium, or large vessels. The most common
presentation is a stroke syndrome involving the middle cerebral artery
of a relatively young adult. However, unlike the usual thrombotic or
embolic stroke syndrome of sudden onset, meningovascular syphilis
often becomes manifest after a subacute encephalitic prodrome (with
headaches, vertigo, insomnia, and psychological abnormalities), which
is followed by a gradually progressive vascular syndrome.
The manifestations of general paresis reflect widespread late parenchymal damage and include abnormalities corresponding to the mnemonic paresis: personality, affect, reflexes (hyperactive), eye (e.g., Argyll
Robertson pupils), sensorium (illusions, delusions, hallucinations),
intellect (a decrease in recent memory and in the capacity for orientation, calculations, judgment, and insight), and speech. Tabes dorsalis is
a late manifestation of syphilis that presents as symptoms and signs of
demyelination of the posterior columns, dorsal roots, and dorsal root
ganglia, including ataxia, foot drop, paresthesia, bladder disturbances,
impotence, areflexia, and loss of positional, deep-pain, and temperature sensations. The small, irregular Argyll Robertson pupil, a feature
of both tabes dorsalis and paresis, reacts to accommodation but not
to light. Optic atrophy also occurs frequently in association with tabes.
■ OTHER MANIFESTATIONS OF LATE SYPHILIS
The slowly progressive inflammatory process leading to tertiary disease begins early during infection, although these manifestations may
not become clinically apparent for years or decades. Early syphilitic
aortitis first becomes evident soon after secondary lesions subside, and
treponemes that trigger the development of gummas may have seeded
the tissue years earlier.
Cardiovascular Syphilis Cardiovascular manifestations, usually
appearing 10–40 years after infection, are attributable to endarteritis
obliterans of the vasa vasorum, which provide the blood supply to
large vessels; T. pallidum DNA has been detected by polymerase chain
reaction (PCR) in aortic tissue. Cardiovascular involvement results
in uncomplicated aortitis, aortic regurgitation, saccular aneurysm
(usually of the ascending aorta), or coronary ostial stenosis. In the preantibiotic era, symptomatic cardiovascular complications developed
in ~10% of persons with untreated late syphilis. Today, cardiovascular
syphilis is rarely seen in the developed world.
Late Benign Syphilis (Gumma) Gummas are usually solitary
lesions ranging from microscopic to several centimeters in diameter.
Histologic examination shows a granulomatous inflammation, with a
central area of necrosis due to endarteritis obliterans. T. pallidum has
been detected by PCR in these lesions, and penicillin treatment results
in rapid resolution, confirming the treponemal stimulus for the inflammation. Common sites include the skin and skeletal system; however,
any organ (including the brain) may be involved. Gummas of the skin
produce indolent, painless, indurated nodular or ulcerative lesions that
may resemble other chronic granulomatous conditions. Skeletal gummas may affect any bone or cartilage. Upper respiratory gummas can
lead to perforation of the nasal septum or palate.
■ CONGENITAL SYPHILIS
Transmission of T. pallidum across the placenta from a syphilitic
woman to her fetus may occur at any stage of pregnancy, but fetal damage generally does not occur until after the fourth month of gestation
when fetal immunologic competence begins to develop. This timing
suggests that the pathogenesis of congenital syphilis, like that of adult
syphilis, depends on the host immune response rather than on a direct
toxic effect of T. pallidum. The risk of fetal infection during untreated
early maternal syphilis is ~75–95%, decreasing to ~35% for maternal
syphilis of >2 years’ duration. Adequate treatment of the woman before
the 16th week of pregnancy should prevent fetal damage, and treatment before the third trimester should adequately treat the infected
fetus. Untreated maternal infection may result in a rate of fetal loss
of up to 40% with second-trimester spontaneous abortion, stillbirth,
prematurity, and neonatal death. Among infants born alive, only fulminant congenital syphilis is clinically apparent at birth, and these babies
have a very poor prognosis. The most common clinical problem is the
healthy-appearing baby born to a mother with a positive serologic test.
Routine serologic testing for syphilis in early pregnancy is costeffective in virtually all populations, even in areas with a low prenatal
prevalence of syphilis. Low-tech point-of-care tests have been developed
and widely implemented to facilitate antenatal testing in resource-poor
settings. Globally, the past 10 years have seen a dramatic reduction
in congenital syphilis in the face of relatively steady rates of maternal
syphilis, showing the effectiveness of increased antenatal screening and
treatment. Progress has been uneven, however, with major advances in
Thailand, Cuba, several Baltic States, and India, but continuing high
levels in Africa and China. Periodic lack of penicillin availability in
low- and middle-income countries prevents treatment of seropositive
women. Integration of programs to prevent congenital syphilis with programs to prevent maternal transmission of HIV would be highly costeffective but is hampered by the restrictions placed on HIV-focused funds.
All pregnant women should be screened at their first antenatal visit.
Where the prevalence of syphilis in women is high or when the patient
is at high risk of reinfection, serologic testing should be repeated in the
third trimester and at delivery. Neonatal congenital syphilis must be
differentiated from other generalized congenital infections, including
rubella, cytomegalovirus or herpes simplex virus infection, and toxoplasmosis, as well as from erythroblastosis fetalis.
Manifestations of congenital syphilis may appear early (within the
first 2 years of life, often at 2–10 weeks of age) or late (after 2 years).
The earliest manifestations of congenital syphilis include rhinitis, or
“snuffles” (23%); mucocutaneous lesions (35–41%); bone changes
(61%), including periostitis detectable by x-ray examination of long
bones; hepatosplenomegaly (50%); lymphadenopathy (32%); anemia
(34%); jaundice (30%); thrombocytopenia; and leukocytosis. CNS
invasion by T. pallidum is detectable in 22% of infected neonates. Neonatal death is usually due to pulmonary hemorrhage, secondary bacterial infection, or severe hepatitis. Late congenital syphilis (untreated
after 2 years of age) is subclinical in 60% of cases; the clinical spectrum
in the remainder of cases may include interstitial keratitis (which
occurs at 5–25 years of age), eighth-nerve deafness, and recurrent
arthropathy. Neurosyphilis was documented in about one-quarter of
untreated patients with late congenital syphilis in the preantibiotic
era. Gummatous periostitis occurs at 5–20 years of age and, as in
nonvenereal endemic syphilis, tends to cause destructive lesions of the
palate and nasal septum. Classic stigmata include Hutchinson’s teeth
(centrally notched, widely spaced, peg-shaped upper central incisors),
“mulberry” molars (sixth-year molars with multiple, poorly developed
cusps), saddle nose, and saber shins.
LABORATORY EXAMINATIONS
■ DEMONSTRATION OF THE ORGANISM
Historically, dark-field microscopy and immunofluorescence antibody
staining have been used to identify T. pallidum in moist lesions such
as chancres or condylomata lata, but these tests are rarely available
outside of research laboratories. Sensitive and specific PCR tests have
been developed but are not commercially available, although a number
of laboratories perform in-house validated PCR testing. The recent
advances in cultivation of T. pallidum in a tissue culture system have
not yet been implemented in clinical laboratories.
T. pallidum can be found in tissue by immunofluorescence or immunohistochemical methods using specific monoclonal or polyclonal
antibodies to T. pallidum. Silver stains should be interpreted with caution because artifacts resembling T. pallidum are often seen. T. pallidum
DNA has been detected by PCR in lesion swabs, tissue samples, blood,
CSF, ocular fluid, urine, and oropharyngeal swabs.
■ SEROLOGIC TESTS FOR SYPHILIS
Treponemal and Lipoidal Tests There are two types of serologic
tests for syphilis: lipoidal (so-called nontreponemal) and treponemal.
No comments:
Post a Comment
اكتب تعليق حول الموضوع