1328 PART 5 Infectious Diseases
available; however, studies in mice suggest that ampicillin is ineffective. Drugs similar to those used against Y. enterocolitica should be
used. The best results have been obtained with a quinolone.
Some trials of treatment for reactive arthritis (with a large
proportion of cases due to Yersinia) found that 3 months of oral
ciprofloxacin therapy did not affect outcome. One trial in which
the same therapy was given specifically for Y. enterocolitica–reactive
arthritis found that, while outcome indeed was not affected, there
was a trend toward faster remission of symptoms in the treated
group. Follow-up 4–7 years after initial antibiotic treatment of
reactive arthritis (predominantly following Salmonella and Yersinia
infections) demonstrated apparent efficacy in the prevention of
chronic arthritis in HLA-B27-positive individuals. A trial showing
that azithromycin therapy did not affect outcome in reactive arthritis included cases thought to have followed yersiniosis, although no
breakdown of cases was provided.
■ PREVENTION AND CONTROL
Current control measures are similar to those used against other
enteric pathogens like Salmonella and Campylobacter, which colonize
the intestine of food animals. The focus is on safe handling and processing of food. No vaccine is effective in preventing intestinal colonization of food animals by enteropathogenic Yersinia. Consumption of
food made from raw pork (which is popular in Germany and Belgium)
should be discouraged at present because it is not possible to eliminate
contamination with the enteropathogenic Yersinia strains found worldwide in pigs. Exposure of infants to raw pig intestine during domestic
preparation of chitterlings is inadvisable. Modification of abattoir technique in Scandinavian countries from the 1990s onward included the
removal of pig intestines in a closed plastic bag; levels of carcass contamination with Y. enterocolitica were reduced, but such contamination was not eliminated. Experimental pig herds free of pathogenic Y.
enterocolitica O:3 (and also of Salmonella, Campylobacter, Toxoplasma,
and Trichinella) have been established by selective breeding in Norway
but remain rare. In the food industry, vigilance is required because of
the potential for large outbreaks if small numbers of enteropathogenic
yersiniae contaminate any ready-to-eat food whose safe preservation is
based on refrigeration before consumption.
The rare phenomenon of contamination of blood for transfusion
has proved impossible to eradicate. However, leukodepletion is now
practiced in most blood transfusion centers, primarily to prevent nonhemolytic febrile transfusion reactions and alloimmunization against
HLA antigens. This measure reduces but does not eliminate the risk of
Yersinia blood contamination.
Notification of yersiniosis is now obligatory in some countries.
■ FURTHER READING
Plague
Bertherat E: Plague around the world in 2019. Wkly Epidemiol Rec
94:289, 2019.
Campbell SB et al: Animal exposure and human plague, United States,
1970–2017. Emerg Infect Dis 25:2270, 2019.
Demeure C et al: Yersinia pestis and plague: An updated view on evolution, virulence determinants, immune subversion, vaccination and
diagnostics. Microbes Infect 21:202, 2019.
Hinnebusch BJ et al: Ecological opportunity, evolution, and the emergence of flea-borne plague. Infect Immun 84:1932, 2016.
Kool JL: Risk of person-to-person transmission of pneumonic plague.
Clin Infect Dis 40:1166, 2005.
Nelson CA et al: Antimicrobial treatment and prophylaxis of plague:
Recommendations for naturally acquired infections and bioterrorism
response. MMWR Recomm Rep 70(No. RR-3):1, 2021.
Randremanana R et al: Epidemiological characteristics of an urban
plague epidemic in Madagascar, August-November, 2017: An outbreak report. Lancet Infect Dis 19:537, 2019.
Sun W et al: Plague vaccine: Recent progress and prospects. NPJ Vaccines 4:11. 2019.
Yersiniosis
Francis MS et al: The pathogenic Yersiniae—advances in the understanding of physiology and virulence. Front Cell Infect Microbiol
9:119, 2019.
Savin C et al: Genus-wide Yersinia core-genome multilocus sequence
typing for species identification and strain characterization. Microbial Genomics 5:e000301, 2019.
Bartonella species are fastidious, facultative intracellular, slow-growing,
gram-negative bacteria that cause a broad spectrum of diseases in
humans. This genus includes >40 distinct species or subspecies, of
which at least 16 have been recognized as confirmed or potential
human pathogens; Bartonella bacilliformis, Bartonella quintana, and
Bartonella henselae are most commonly identified (Table 172-1). Most
Bartonella species have successfully adapted to survival in specific
domestic or wild mammals. Prolonged intraerythrocytic infection in
these animals creates a niche where the bacteria are protected from
both innate and adaptive immunity and which serves as a reservoir
for human infections. Bartonella characteristically evades the host
immune system by modification of its virulence factors (e.g., lipopolysaccharides or flagella) and by attenuation of the immune response. B.
bacilliformis and B. quintana, which are not zoonotic, are exceptions.
Arthropod vectors are often involved. Isolation and characterization of
Bartonella species are difficult and require special techniques. Clinical
presentation generally depends on both the infecting Bartonella species
and the immune status of the infected individual. Bartonella species are
susceptible to many antibiotics in vitro; however, clinical responses to
therapy and studies in animal models suggest that the minimal inhibitory concentrations of many antimicrobial agents correlate poorly with
the drugs’ in vivo efficacies in patients with Bartonella infections.
CAT-SCRATCH DISEASE
■ DEFINITION AND ETIOLOGY
Usually a self-limited illness, cat-scratch disease (CSD) has two general
clinical presentations. Typical CSD, the more common, is characterized
by subacute regional lymphadenopathy; atypical CSD is the collective
designation for numerous extranodal manifestations involving various
organs. B. henselae is the principal etiologic agent of CSD. Rare cases
have been associated with Afipia felis and other Bartonella species.
■ EPIDEMIOLOGY
CSD occurs worldwide, favoring warm and humid climates. In temperate climates, incidence peaks during fall and winter. Adults are affected
nearly as frequently as children. Intrafamilial clustering is rare, and
person-to-person transmission does not occur. Apparently healthy bacteremic cats constitute the major reservoir of B. henselae, and cat fleas
(Ctenocephalides felis) may be responsible for cat-to-cat transmission.
CSD usually follows contact with cats (especially kittens), but other
animals (e.g., dogs) have been implicated as possible reservoirs in rare
instances. In the United States, the estimated annual disease incidence is
~5 cases per 100,000 population. About 5% of patients are hospitalized.
■ PATHOGENESIS
Although cat fleas are likely responsible for cat-to-cat transmission, the
mode of cat-to-human transmission is undetermined. B. henselae–infected
172 Bartonella Infections,
Including Cat-Scratch
Disease
Michael Giladi, Moshe Ephros
1329CHAPTER 172 Bartonella Infections, Including Cat-Scratch Disease
cats’ saliva spreads to claws by self-licking, and B. henselae–contaminated
flea feces can be inoculated by a scratch or a bite. Infection of mucous
membranes or conjunctivae via droplets or licking may occur as well.
With lymphatic drainage to one or more regional lymph nodes in
immunocompetent hosts, a TH1 response can result in necrotizing
granulomatous lymphadenitis. Dendritic cells, along with their associated chemokines, play a role in the host inflammatory response and
granuloma formation.
■ CLINICAL MANIFESTATIONS AND PROGNOSIS
Of patients with CSD, 85–90% have typical disease. The primary lesion,
a small (0.3- to 1-cm) painless erythematous papule or pustule, develops at the inoculation site within days to 2 weeks in about one-third
to two-thirds of patients (Fig. 172-1A, B). Lymphadenopathy develops
1–3 weeks or longer after cat contact. The affected lymph node(s) are
enlarged and usually painful, sometimes have overlying erythema, and
suppurate in ~10% of cases (Fig. 172-1C, D, and E). Axillary/epitrochlear
nodes are most commonly involved, followed by head/neck nodes and
inguinal/femoral nodes. Approximately 50% of patients have fever,
malaise, and anorexia. A smaller proportion experience weight loss and
night sweats mimicking the presentation of lymphoma. Fever is usually
low-grade but infrequently rises to ≥39°C. Resolution is slow, requiring weeks (for fever, pain, and accompanying signs and symptoms) to
months (for node shrinkage).
Atypical CSD occurs in 10–15% of patients in the absence or presence
of lymphadenopathy. Atypical disease includes Parinaud’s oculoglandular syndrome (granulomatous conjunctivitis with ipsilateral preauricular
lymphadenitis; Fig. 172-1E), hepatosplenic disease, neuroretinitis (often
presenting as unilateral deterioration of vision; Fig. 172-1F) and other
ophthalmologic manifestations, neurologic manifestations (encephalitis, seizures, myelitis, cerebellitis, facial and other cranial or peripheral
palsies), fever of unknown origin, pneumonitis, debilitating myalgia,
arthritis or arthralgia (affecting mostly women >20 years old), osteomyelitis (including multifocal disease), tendinitis, and dermatologic manifestations (including erythema nodosum [see Fig. A1-39], sometimes
TABLE 172-1 Bartonella Species Known or Suspected to Be Human Pathogens
BARTONELLA SPECIESa DISEASE(S)b RESERVOIR HOST(S)c ARTHROPOD VECTOR
B. henselae Cat-scratch disease, bacillary
angiomatosis, bacillary peliosis,
bacteremia, endocarditis
Cats, other felines Cat fleas (Ctenocephalides felis):
associated with cat-to-cat, but not with
cat-to-human, transmission
B. quintana Trench fever, chronic bacteremia,
bacillary angiomatosis, endocarditis
Humans Human body lice (Pediculus humanus
corporis)
B. bacilliformis Carrión’s disease Humans Sandflies (Lutzomyia verrucarum)
B. elizabethae Endocarditis Rats, dogs Unknown
B. grahamiid Lymphadenopathy Mice, voles Fleas
B. vinsonii subsp. arupensis Endocarditis, febrile illness Mice, dogs Ticks
B. vinsonii subsp. berkhoffii Endocarditis Domestic dogs, coyotes, gray foxes Ticks
B. washoensis Endocarditis, myocarditis, meningitis Squirrels, possibly other rodents Fleas
B. alsatica Endocarditis, lymphadenitis, vascular
graft infection
Rabbits Fleas
B. koehlerae Endocarditis Cats Unknown
B. clarridgeiae Possibly cat-scratch disease Cats Unknown
B. rochalimae Bacteremia, fever, splenomegaly Unknown Possibly fleas
B. tamiae Bacteremia, fever, myalgia, rash Unknown Unknown
B. melophagi Various clinical manifestations Sheep Sheep keds
B. ancashensis Verruga peruana Unknown Unknown
Candidatus B. mayotimonensise Endocarditis Bats Unknown
a
Many other Bartonella species exist but are not recognized as human pathogens. b
Animal-associated Bartonella species (B. henselae, B. doshiae, B. schoenbuchensis,
and B. tribocorum) were isolated from blood of patients who reported tick bites and chronic symptoms such as fatigue and myalgia. DNA of B. henselae, B. vinsonii subsp.
berkhoffii, B. koehlerae, or B. melophagi or co-infection with more than one Bartonella species was detected by polymerase chain reaction in blood samples from patients
with extensive arthropod and animal exposure who presented with chronic neurologic or neurocognitive syndromes. The causal relationship between bacteremia with
these pathogens, tick bites, and clinical manifestations needs to be established. c
Animals are implicated when existing evidence supports their infection with Bartonella
species. Data supporting animal-to-human transmission may be lacking. d
Retinitis may also be associated with B. grahamii. e
Candidatus is a taxonomic status for bacteria
that cannot be described in sufficient detail to warrant establishment of a novel taxon or cannot be cultured or propagated in culture media. The phylogenetic relatedness
of these bacteria has been determined by gene amplification and sequence analysis.
accompanying arthropathy). CSD-associated fever of unknown origin
is a unique syndrome that may be severe and debilitating, often mimics
malignancy, and may present with multiorgan involvement, including
hepatosplenic space-occupying lesions, abdominal/mediastinal lymphadenopathy, ocular disease, and multifocal osteomyelitis. Fever may be
continuous or relapsing. Other manifestations and syndromes (pleural
effusion, idiopathic thrombocytopenic purpura, Henoch-Schönlein
purpura, erythema multiforme [see Fig. A1-24], glomerulonephritis,
myocarditis) have also been associated with CSD. In elderly patients
(>60 years old), lymphadenopathy is more often absent but encephalitis and fever of unknown origin are more common than in younger
patients. In immunocompetent individuals, CSD—whether typical or
atypical—usually resolves without treatment and without sequelae,
although some of the ophthalmologic manifestations may occasionally
result in moderate to severe vision loss. Lifelong immunity is the rule.
■ DIAGNOSIS
Routine laboratory tests usually yield normal or nonspecific results.
Histopathology initially shows lymphoid hyperplasia and later demonstrates stellate granulomata with necrosis, coalescing microabscesses,
and occasional multinucleated giant cells—findings that, although
nonspecific, may narrow the differential diagnosis. Serologic testing
(immunofluorescence or enzyme immunoassay) is the most commonly used laboratory diagnostic approach, with variable sensitivity
and specificity. CSD serodiagnosis is often based on the presence of
IgG alone (i.e., in the absence of IgM), and seroconversion may take a
few weeks; these two factors may pose difficulties in the interpretation
of serologic results. Other tests are of low sensitivity (culture, WarthinStarry silver staining), of low specificity (cytology, histopathology), or
of limited availability in routine diagnostic laboratories (polymerase
chain reaction [PCR], immunohistochemistry). PCR of pus aspirated
from lymph nodes or the primary inoculation lesion is highly sensitive
and specific and is particularly useful for definitive and rapid diagnosis
in seronegative patients. PCR of a lymph node biopsy specimen may be
less sensitive, perhaps because of sampling error.
1330 PART 5 Infectious Diseases
FIGURE 172-1 Manifestations of cat-scratch disease. A. Primary inoculation
lesion. Axillary and epitrochlear lymphadenitis appeared 2 weeks later. B. Primary
inoculation lesion. Submental lymphadenitis appeared 10 days later. C. Axillary
lymphadenopathy of 2 weeks’ duration. The overlying skin appears normal. D.
Cervical lymphadenopathy of 6 weeks’ duration. The overlying skin is red. Thick,
odorless pus (12 mL) was aspirated. E. Preauricular lymphadenopathy. F. Left-eye
neuroretinitis. Note papilledema and stellate macular exudates (“macular star”).
A
B
C
D
E
F
1331CHAPTER 172 Bartonella Infections, Including Cat-Scratch Disease
APPROACH TO THE PATIENT
Cat-Scratch Disease
A history of cat contact, a primary inoculation lesion, and regional
lymphadenopathy—especially axillary/epitrochlear lymphadenopathy—are highly suggestive of CSD. A characteristic clinical course and
corroborative laboratory tests make the diagnosis very likely. Conversely,
when acute- and convalescent-phase sera are negative (as is the case in
10–20% of CSD patients), when spontaneous regression of lymph node
size does not occur, and particularly when constitutional symptoms
persist, malignancy must be ruled out. Pyogenic lymphadenitis, mycobacterial infection, brucellosis, syphilis, tularemia, plague, toxoplasmosis, sporotrichosis, and histoplasmosis should also be considered. In
clinically suspected CSD in a seronegative individual, fine-needle aspiration may be adequate and PCR can confirm the diagnosis. When data
are less supportive of CSD, lymph node biopsy rather than fine-needle
aspiration is preferred. In seronegative CSD patients with lymphadenopathy and severe complications (e.g., encephalitis or neuroretinitis),
early biopsy is important to establish a specific diagnosis.
TREATMENT
Cat-Scratch Disease
(Table 172-2) Treatment regimens are based on only minimal data.
Suppurative nodes should be drained by large-bore needle aspiration and not by incision and drainage to avoid chronic draining
tracts. Systemic antibiotics are recommended in immunocompromised patients.
■ PREVENTION
Avoiding cats (especially kittens) and instituting flea control are
options for immunocompromised patients and for patients with valvular heart disease.
TRENCH FEVER AND CHRONIC
BACTEREMIA
■ DEFINITION AND ETIOLOGY
Trench fever, also known as 5-day fever or quintan fever, is a febrile illness caused by B. quintana. It was first described as an epidemic in the
trenches of World War I; however, recent paleomicrobiological studies
have provided evidence that B. quintana has been associated with
human infection for 4000 years. This infection recently reemerged as
chronic bacteremia seen most often in homeless people, also referred
to as urban or contemporary trench fever.
■ EPIDEMIOLOGY
In addition to epidemics during World Wars I and II, sporadic outbreaks of trench fever have been reported in many regions of the world.
The human body louse has been identified as the vector and humans
as the only known reservoir. After a hiatus of several decades during
which trench fever was almost forgotten, small clusters of cases of B.
quintana chronic bacteremia were reported sporadically, primarily
from the United States and France, in HIV-uninfected homeless people. Alcoholism and louse infestation were identified as risk factors.
■ CLINICAL MANIFESTATIONS
The typical incubation period is 15–25 days (range, 3–38 days). “Classical” trench fever, as described in 1919, ranges from a mild febrile illness
to a recurrent or protracted and debilitating disease. Fever is often periodic, lasting 4–5 days with 5-day (range, 3- to 8-day) intervals between
episodes. Other symptoms and signs include headache, back and limb
pain, profuse sweating, shivering, myalgia, arthralgia, splenomegaly, a
maculopapular rash in occasional cases, and nuchal rigidity in some
cases. Untreated, the disease usually lasts 4–6 weeks. Death is rare. The
clinical spectrum of B. quintana bacteremia in homeless people ranges
from asymptomatic infection to a febrile illness with headache, severe
leg pain, and thrombocytopenia. Endocarditis sometimes develops.
TABLE 172-2 Antimicrobial Therapy for Disease Caused by Bartonella
Species in Adults
DISEASE ANTIMICROBIAL THERAPY
Typical cat-scratch
disease
Not routinely indicated; for patients with extensive
lymphadenopathy, consider azithromycin (500 mg PO on
day 1, then 250 mg PO once a day for 4 days)
Cat-scratch disease
neuroretinitis
Value of systemic antibiotics is controversial, particularly
when visual acuity is not significantly compromised. For
more severe cases, doxycycline (100 mg PO bid) plus
rifampin (300 mg PO bid) for 4–6 weeks is given. Consider
adding systemic glucocorticoids.
Other atypical catscratch disease
manifestationsa
As per neuroretinitis. Treatment duration should be
individualized.
Trench fever or
chronic bacteremia
with B. quintana
Gentamicin (3 mg/kg IV once a day for 14 days) plus
doxycycline (200 mg PO once a day or 100 mg PO bid for
6 weeks)
Suspected Bartonella
endocarditis
Gentamicinb
(1 mg/kg IV q8h for ≥14 days) plus
doxycycline (100 mg PO/IV bid for 6 weeksc
) plus
ceftriaxone (2 g IV once a day for 6 weeks)
Confirmed Bartonella
endocarditis
As for suspected Bartonella endocarditis minus
ceftriaxone
Bacillary
angiomatosis
Erythromycind
(500 mg PO qid for 3 months)
or
Doxycycline (100 mg PO bid for 3 months)
Bacillary peliosis Erythromycind
(500 mg PO qid for 4 months)
or
Doxycycline (100 mg PO bid for 4 months)
Carrión’s disease
Oroya fever Chloramphenicol (500 mg PO/IV qid for 14 days) plus
another antibiotic (β-lactam preferred)
or
Ciprofloxacin (500 mg PO bid for 10 days) +/– ceftriaxone
(1–2 g IV once a day for 10 days)
Verruga peruana Azithromycin (500 mg PO once a day for 7 days)
or
Ciprofloxacin (500 mg PO bid for 7–10 days)
or
Rifampin (10 mg/kg PO once a day, to a maximum of
600 mg, for 14 days)
or
Streptomycin (15–20 mg/kg IM once a day for 10 days)
a
Data on treatment efficacy for encephalitis and hepatosplenic cat-scratch
disease are lacking. Therapy similar to that given for neuroretinitis is reasonable.
b
Some experts recommend gentamicin at 3 mg/kg IV once a day. If gentamicin
is contraindicated, rifampin (300 mg PO bid) can be added to doxycycline for
documented Bartonella endocarditis. c
Some experts recommend extending oral
doxycycline therapy for 3–6 months. d
Other macrolides are probably effective and
may be substituted for erythromycin or doxycycline.
Source: Recommendations are modified from JM Rolain et al: Antimicrob Agents
Chemother 48:1921, 2004.
■ DIAGNOSIS
Definitive diagnosis requires isolation of B. quintana by blood culture.
Some patients have positive blood cultures for several weeks. Patients
with acute trench fever typically develop significant titers of antibody
to Bartonella, whereas those with chronic B. quintana bacteremia may
be seronegative. Patients with high titers of IgG antibodies should be
evaluated for endocarditis. In epidemics, trench fever should be differentiated from epidemic louse-borne typhus and relapsing fever, which
occur under similar conditions and share many features.
TREATMENT
B. quintana Bacteremia
(Table 172-2) In a small, randomized, placebo-controlled trial
involving homeless people with B. quintana bacteremia, therapy
with gentamicin and doxycycline was superior to administration
1332 PART 5 Infectious Diseases
of placebo in eradicating bacteremia. Treatment of bacteremia is
important, even in clinically mild cases, to prevent endocarditis.
Optimal therapy for trench fever without documented bacteremia
is uncertain.
BARTONELLA ENDOCARDITIS
■ DEFINITION AND ETIOLOGY
Coxiella burnetii (Chap. 187) and Bartonella species are the most
common pathogens in culture-negative endocarditis (Chap. 128). In
France, for example, Bartonella species were identified as the etiologic
agents in 28% of 348 cases of culture-negative endocarditis. Prevalence,
however, varies by geographic location and epidemiologic setting. In
addition to B. quintana and B. henselae (the most common Bartonella
species implicated in endocarditis, the former more commonly than
the latter), other Bartonella species have reportedly caused rare cases
(Table 172-1).
■ EPIDEMIOLOGY
Bartonella endocarditis has been reported worldwide. Most patients
are adults; more are male than female. Risk factors associated with
B. quintana endocarditis include homelessness, alcoholism, and body
louse infestation; however, individuals with no risk factors have had
Bartonella endocarditis diagnosed as well. B. henselae endocarditis is
associated with exposure to cats. Most cases involve native rather than
prosthetic valves; the aortic valve accounts for ~60% of cases. Patients
with B. henselae endocarditis usually have preexisting valvulopathy,
whereas B. quintana often infects normal valves.
■ CLINICAL MANIFESTATIONS
Clinical manifestations are usually characteristic of subacute endocarditis of any etiology. However, a substantial number of patients have a
prolonged, minimally febrile or even afebrile indolent illness, with mild
nonspecific symptoms lasting weeks or months before the diagnosis
is made. Initial echocardiography may not show vegetations. Acute,
aggressive disease is rare.
■ DIAGNOSIS
Blood cultures, even with use of special techniques (lysis centrifugation
or EDTA-containing tubes), are positive in only ~25% of cases—mostly
those caused by B. quintana and only rarely those caused by B. henselae.
Prolonged incubation of cultures (up to 6 weeks) is required. Serologic
tests—either immunofluorescence or enzyme immunoassay—usually
demonstrate high-titer (≥1:800) IgG antibodies to Bartonella. Because
of cross-antigenicity, routine serology does not distinguish between B.
quintana and B. henselae and may also be low-titer cross-reactive with
other pathogens, such as C. burnetii and Chlamydia species. Identification of Bartonella to the species level is usually accomplished by application of PCR and DNA sequencing methods to valve tissue.
TREATMENT
Bartonella Endocarditis
(Table 172-2) For patients with culture-negative endocarditis suspected to be due to Bartonella species, empirical treatment consists
of gentamicin, doxycycline, and ceftriaxone; the major role of ceftriaxone in this regimen is to adequately treat other potential causes
of culture-negative endocarditis, including members of the HACEK
group (Chap. 158). Once a diagnosis of Bartonella endocarditis has
been established, ceftriaxone is discontinued. Aminoglycosides, the
only antibiotics known to be bactericidal against Bartonella, should
be included in the regimen for ≥2 weeks. Indications for valvular
surgery are the same as in subacute endocarditis due to other pathogens; however, the proportion of patients who undergo surgery
(~60%) is high, probably as a consequence of delayed diagnosis.
BACILLARY ANGIOMATOSIS AND PELIOSIS
■ DEFINITION AND ETIOLOGY
Bacillary angiomatosis (sometimes called bacillary epithelioid angiomatosis or epithelioid angiomatosis) is a disease of severely immunocompromised patients, is caused by B. henselae or B. quintana, and
is characterized by neovascular proliferative lesions involving various
organs. Both species cause cutaneous lesions; hepatosplenic lesions
are caused only by B. henselae, whereas subcutaneous and lytic bone
lesions are more frequently associated with B. quintana. Bacillary
peliosis is a closely related angioproliferative disorder caused by B.
henselae and involving primarily the liver (peliosis hepatis) but also the
spleen and lymph nodes. Bacillary peliosis is characterized by bloodfilled cystic structures whose size ranges from microscopic to several
millimeters.
■ EPIDEMIOLOGY
Bacillary angiomatosis and bacillary peliosis occur primarily in
HIV-infected persons (Chap. 202) with CD4+ T-cell counts of <100/μL
but also affect other immunosuppressed patients and, in rare instances,
immunocompetent patients. The incidence has decreased since the
introduction of effective antiretroviral therapy and the routine use of
rifabutin and macrolides to prevent Mycobacterium avium complex
infection in AIDS patients. Contact with cats or cat fleas increases the
risk of B. henselae infection. Risk factors for B. quintana infection are
low income, homelessness, and body louse infestation.
■ CLINICAL MANIFESTATIONS
Bacillary angiomatosis presents most commonly as one or more
cutaneous lesions that are not painful and may be tan, red, or purple
in color. Subcutaneous, often tender nodules, superficial ulcerated
plaques (Fig. 172-2), and verrucous growths are also seen. Nodular
forms resemble those seen in fungal or mycobacterial infections.
Painful osseous lesions, most often involving long bones, may underlie
cutaneous lesions and occasionally develop in their absence. Other
organs are rarely involved. Patients usually have constitutional symptoms, including fever, chills, malaise, headache, anorexia, weight loss,
and night sweats. In patients with advanced immunodeficiency, B.
henselae and B. quintana are important causes of fever of unknown origin. In osseous disease, lytic lesions are generally seen on radiography,
and technetium scan shows focal uptake. The differential diagnosis of
cutaneous bacillary angiomatosis includes Kaposi’s sarcoma, pyogenic
granuloma, subcutaneous tumors, and verruga peruana. In bacillary
peliosis, hypodense hepatic areas are usually evident on imaging.
■ PATHOLOGY
Bacillary angiomatosis consists of lobular proliferations of small blood
vessels lined by enlarged endothelial cells interspersed with mixed
infiltrates of neutrophils and lymphocytes, with predominance of the
former. Histologic examination of organs with bacillary peliosis reveals
small blood-filled cystic lesions partially lined by endothelial cells that
can be several millimeters in size. Peliotic lesions are surrounded by
fibromyxoid stroma containing inflammatory cells, dilated capillaries,
and clumps of granular material. Warthin-Starry silver staining of
bacillary angiomatosis and peliosis lesions reveals clusters of bacilli.
Cultures are usually negative.
■ DIAGNOSIS
Bacillary angiomatosis and bacillary peliosis are diagnosed by histologic examination. Blood cultures may be positive.
TREATMENT
Bacillary Angiomatosis and Peliosis
(Table 172-2) Prolonged therapy with a macrolide or doxycycline
is recommended for both bacillary angiomatosis and bacillary
peliosis.
1333CHAPTER 172 Bartonella Infections, Including Cat-Scratch Disease
■ PREVENTION
Reasonable strategies for HIV-infected persons consist of control of
cat-flea infestation and avoidance of cat scratches (for prevention of B.
henselae) and avoidance and treatment of body louse infestation (for
prevention of B. quintana). Primary prophylaxis is not recommended,
but suppressive therapy with a macrolide or doxycycline is indicated in
HIV-infected patients with bacillary angiomatosis or bacillary peliosis
until CD4+ T-cell counts are >200/μL. Relapse may necessitate lifelong
suppressive therapy in individual cases.
CARRIÓN’S DISEASE (OROYA FEVER AND
VERRUGA PERUANA)
■ DEFINITION AND ETIOLOGY
Carrión’s disease is a biphasic disease caused by B. bacilliformis. Oroya
fever is the initial, bacteremic, systemic form, and verruga peruana is
its late-onset, eruptive manifestation.
■ EPIDEMIOLOGY AND PREVENTION
Infection is endemic to the geographically restricted Andes valleys of
Peru, Ecuador, and Colombia (~500–3200 m above sea level). Sporadic
epidemics occur. The disease is transmitted by the phlebotomine
sandfly Lutzomyia verrucarum. Maternal-fetal transmission as well as
transmission by blood transfusion have been reported. Humans are
the only known reservoir of B. bacilliformis. Sandfly control measures
(e.g., insecticides) and personal protection measures (e.g., repellents,
screening, bed nets) may decrease the risk of infection.
■ PATHOGENESIS
After inoculation by the sandfly, bacteria invade the blood vessel
endothelium and proliferate; the reticuloendothelial system and various organs may also be involved. Upon reentry into blood vessels,
B. bacilliformis invades, replicates, and ultimately destroys erythrocytes, with consequent massive hemolysis and sudden, severe anemia.
Microvascular thrombosis results in end-organ ischemia. Survivors
sometimes develop cutaneous hemangiomatous lesions characterized
by various inflammatory cells, endothelial proliferation, and the presence of B. bacilliformis (verruga peruana).
■ CLINICAL MANIFESTATIONS
The incubation period is 3 weeks (range, 2–14 weeks). Oroya fever may
present as a nonspecific bacteremic febrile illness without anemia or as
an acute, severe hemolytic anemia with hepatomegaly and jaundice of
rapid onset leading to vascular collapse and clouded sensorium. Myalgia, arthralgia, lymphadenopathy, and abdominal pain may develop.
Temperature is elevated but not extremely so; high fever may suggest
intercurrent infection. Subclinical asymptomatic infection also occurs.
In verruga peruana, red, hemangioma-like, cutaneous vascular lesions
of various sizes appear either weeks to months after systemic illness or
with no previous suggestive history. These lesions persist for months
up to 1 year. Mucosal and internal lesions may also develop.
■ DIAGNOSIS AND APPROACH TO THE PATIENT
Systemic illness (with or without anemia) or the development of cutaneous lesions in a person who has been to an endemic area raises the
possibility of B. bacilliformis infection. Severe anemia with exuberant
reticulocytosis—and sometimes thrombocytopenia—can occur. In systemic illness, Giemsa-stained blood films may show typical intraerythrocytic bacilli. Blood and bone marrow cultures may be positive, but
growth is slow (1−6 weeks) and requires lower incubation temperature.
Serologic assays may be helpful. Diagnosis of verruga peruana is largely
clinical, although biopsy may be required to confirm the diagnosis.
Several PCR assays have been described; however, their role in diagnosis remains to be clinically validated. Differential diagnosis includes
coendemic systemic febrile illnesses (e.g., typhoid fever, malaria,
brucellosis) and diseases producing cutaneous vascular lesions (e.g.,
hemangiomata, bacillary angiomatosis, Kaposi’s sarcoma).
FIGURE 172-2 Lesions of cutaneous bacillary angiomatosis (BA) in three severely immunocompromised AIDS patients. Left panel shows a 1.5-cm ulcerated, bleeding BA
lesion with an erythematous base; middle panel shows numerous small, 2-mm, scattered angiomatous BA lesions; right panel shows a 2.0-cm friable BA lesion on the thigh.
(Photos courtesy of Timothy Berger, MD; Jordan Tappero, MD, MPH; and Jane Koehler, MA, MD.)
1334 PART 5 Infectious Diseases
Donovanosis is a chronic, progressive bacterial infection that usually
involves the genital region. The condition is generally regarded as a
sexually transmitted infection of low infectivity. This infection has
been known by many other names, the most common being granuloma
inguinale.
■ ETIOLOGY
The causative organism has been reclassified as Klebsiella granulomatis
comb nov on the basis of phylogenetic analysis, although there is ongoing debate about this decision. Some authorities consider the original
nomenclature (Calymmatobacterium granulomatis) to be more appropriate in light of analysis of 16S rRNA gene sequences.
Donovanosis was first described in Calcutta in 1882, and the causative organism was recognized by Charles Donovan in Madras in 1905.
He identified the characteristic Donovan bodies, measuring 1.5 ×
0.7 μm, in macrophages and the stratum malpighii. The organism
was not reproducibly cultured until the mid-1990s, when its isolation
in peripheral-blood monocytes and human epithelial cell lines was
reported.
173 Donovanosis
Nigel O’Farrell
FIGURE 173-1 Ulcerogranulomatous penile lesion of donovanosis, with some
hypertrophic features.
TREATMENT
Carrión’s Disease
(Table 172-2) Antibiotic therapy for systemic B. bacilliformis infection usually results in rapid defervescence. Additional antibiotic
treatment of intercurrent infection (particularly salmonellosis) is
often required. Blood transfusion may be necessary. Treatment
of verruga peruana usually is not always required. Patients with
numerous lesions, especially lesions that have been present for only
a short period, may respond well to antibiotic therapy.
■ COMPLICATIONS AND PROGNOSIS
Mortality rates associated with Oroya fever have been reported to be as
high as 40% without treatment but are considerably lower (~10%) with
treatment. Complications such as bacterial superinfection and neurologic and cardiac manifestations occur frequently. Generalized massive
edema (anasarca) and petechiae are associated with poor outcome.
Permanent immunity usually develops.
■ FURTHER READING
Deng H et al: Molecular mechanisms of Bartonella and mammalian
erythrocyte interactions: A review. Front Cell Infect Microbiol 8:431,
2018.
Fournier PE et al: Epidemiologic and clinical characteristics of Bartonella quintana and Bartonella henselae endocarditis: A study of 48
patients. Medicine (Baltimore) 80:245, 2001.
Gomes C, Ruiz J: Carrion’s disease: The sound of silence. Clin Microbiol Rev 31:e56, 2018.
Koehler JE et al: Molecular epidemiology of Bartonella infections in
patients with bacillary angiomatosis-peliosis. N Engl J Med 337:1876,
1997.
Landes M et al: Cat scratch disease presenting as fever of unknown
origin is a unique clinical syndrome. Clin Infect Dis 71:2818, 2020.
Rolain JM et al: Recommendations for treatment of human infections
caused by Bartonella species. Antimicrob Agents Chemother 48:1921,
2004.
Rose SR, Koehler JE: Bartonella including cat scratch disease, in
Principles and Practice of Infectious Diseases, 9th ed, GL Mandell et al
(eds). Philadelphia, Elsevier, Inc. 2020, pp 2824-2843.
■ EPIDEMIOLOGY
Donovanosis has an unusual geographic distribution that has included
Papua New Guinea, parts of southern Africa, India, the Caribbean,
French Guyana, Brazil, and Aboriginal communities in Australia. In
Australia, donovanosis has been almost entirely eliminated through
a sustained program backed by strong political commitment and
resources at the primary health care level. In South Africa, donovanosis is also very close to elimination. Although few cases are now
reported in the United States, donovanosis was once prevalent in this
country, with 5000–10,000 cases recorded in 1947. The largest epidemic recorded was in Dutch South Guinea, where 10,000 cases were
identified in a population of 15,000 (the Marind-anim) between 1922
and 1952.
Donovanosis is associated with poor hygiene and is more common
in lower socioeconomic groups than in those who are better off and in
men than in women. Infection in sexual partners of index cases occurs
to a limited extent. Donovanosis is a risk factor for HIV infection
(Chap. 202).
Globally, the incidence of donovanosis has decreased significantly in
recent times. This decline probably reflects a greater focus on effective
management of genital ulcers because of their role in facilitating HIV
transmission.
■ CLINICAL FEATURES
A lesion starts as a papule or subcutaneous nodule that later ulcerates
after trauma. The incubation period is uncertain, but experimental
infections in humans indicate a duration of ~50 days. Four types of
lesions have been described: (1) the classic ulcerogranulomatous lesion
(Fig. 173-1), a beefy red ulcer that bleeds readily when touched; (2)
a hypertrophic or verrucous ulcer with a raised irregular edge; (3) a
necrotic, offensive-smelling ulcer causing tissue destruction; and (4) a
sclerotic or cicatricial lesion with fibrous and scar tissue.
The genitals are affected in 90% of patients and the inguinal region
in 10%. The most common sites of infection are the prepuce, coronal
sulcus, frenum, and glans in men and the labia minora and fourchette
in women. Cervical lesions may mimic cervical carcinoma. In men,
lesions are associated with lack of circumcision. Lymphadenitis is
uncommon. Extragenital lesions occur in 6% of cases and may involve
the lip, gums, cheek, palate, pharynx, larynx, and chest. Hematogenous
spread with involvement of liver and bone has been reported. During
pregnancy, lesions tend to develop more quickly and respond more
slowly to treatment. Polyarthritis and osteomyelitis are rare complications. In newborn infants, donovanosis may present with ear infection.
Cases in children have been attributed to sitting on the laps of infected
adults. As the incidence of donovanosis has decreased, the number of
unusual case reports has appeared to be increasing.
Complications include neoplastic changes, pseudoelephantiasis, and
stenosis of the urethra, vagina, or anus.
No comments:
Post a Comment
اكتب تعليق حول الموضوع