ARTICLE
Auteur(s) : Alexandro Bonifaz, Leonel
Fierro, Amado Saúl, Rosa María Ponce
Dermatology Service & Mycology Department, Hospital General
de México OD, Sánchez Azcona 317 int 202, Col del Valle, 03020
Mexito City, Mexico
accepté le 6 Août 2007
Sporotrichosis is a mycosis caused by a dimorphic fungus known
as Sporothrix schenckii. It usually begins with trauma-related
contact with the fungus; it is endemic in some regions with a humid
temperate climate. The diagnosis is usually based on the clinical
features, particularly in cutaneous lymphatic cases, and is
confirmed by isolation of the fungus in standard culture media
[1-3].
The treatment of sporotrichosis is generally easy since the
fungus is susceptible to most antifungal agents. Some authors
believe that the treatment of choice is still potassium iodide
(KI); however, according to others it has side effects and is not
really an antifungal, but rather an immunostimulant and it is not
available as a patented drug [4, 5]. Itraconazole is a triazole
derivative with good in vitro activity versus S. schenckii; and
according to several clinical reports it has an appropriate action
[4, 6].
This is a clinical therapeutic report of the action of
itraconazole administered intermittently or as pulse-therapy.
Material and methods
Patients with cutaneous sporotrichosis were enrolled, all of them
clinically and mycologically proven. The following mycological
tests were performed in each patient: direct KOH exam (20%), Giemsa
and Wright stains, and cultures (obtained by puncture and
extraction of exudates) in Sabouraud dextrose agar and Sabouraud
dextrose with antibiotics (Mycobiotic), incubated at 28 °C.
Intradermal reaction to mycelial sporotrichin was performed in each
of them (1,2000) with reading of the reaction at 48 h, using
the same criteria as for the tuberculin reaction (PPD), and biopsy.
Once sporotrichosis was proven, patients underwent the following
lab tests: complete blood count, urinalysis, and liver function
tests. These tests were repeated during the treatment at monthly
intervals (at each pulse) and at the end of therapy.
Once the cases of sporotrichosis were proven and the baseline
laboratory data were available, all patients received oral
itraconazole intermittently, i.e., 400 mg/day divided into two
intakes, 200 mg after breakfast and 200 mg after dinner,
for one week, and thereafter they went into a three-week break
(pulse). Patients were examined clinically and mycologically every
month before the administration of each pulse. The patients found
to be clinically and mycologically active, received another
itraconazole pulse. The patients who experienced adverse reactions
or laboratory test abnormalities were withdrawn from the protocol
and switched to a different treatment.
Patients who attained clinical and mycological cure (with
negative cultures) were followed up for 6 months-one year after the
last dose of the medication. Cure was considered as no clinical
activity and negative cultures.
Results
Five patients with proven sporotrichosis were enrolled. The
demographic data for each of them are presented in table 1. Three were males and two were females. The
youngest patient was 21 years old and the oldest, 68, for a mean
age of 39.4 years. The shortest duration of disease was 5 months,
and the longest 17, with a mean of 9.2 months. Three cases affected
the lower limbs and two the upper limbs; 4 of them corresponded to
the cutaneous lymphangitic form and one to the fixed cutaneous
form. Three patients had been previously treated; two of them with
KI (for 1 and 2 months, respectively), without an appropriate
response, and gastric irritation and vomiting in both cases; and
one with ketoconazole, with no specific data available on the dose
and duration of treatment.
The patients received variable pulses of itraconazole, with a
minimum of 2 and a maximum of 5 pulses, and a mean of 3.5 months (n
= 4 patients). Patient number 5 (table
1), received two itraconazole pulses and reported a
significant clinical improvement, but was lost to follow-up and
therefore her treatment outcome was unknown and was considered as
improvement. None of the patients experienced laboratory test
abnormalities during treatment. No patient reported side effects
throughout the course of therapy (figures 1 and 2).
Table 1 General data of the study
|
No
|
|
Weight (kg)
|
|
Gender
|
|
- Clinical variety
- (Cutaneous)
|
Previous treatment
|
Itraconazole pulses
|
Treatment response
|
|
1
|
28
|
72
|
8
|
M
|
Right leg
|
Lymphatic
|
None
|
4
|
Cure
|
|
2
|
48
|
60
|
5
|
M
|
Left arm
|
Lymphatic
|
Ketoconazole
|
3
|
Cure
|
|
3
|
32
|
52
|
17
|
F
|
Right Foot-leg
|
Lymphatic
|
KI
|
5
|
Cure
|
|
4
|
21
|
45
|
6
|
M
|
Hand (dorsum)
|
Fixed
|
None
|
2*
|
Cure
|
|
5
|
68
|
65
|
8
|
F
|
Right leg
|
- Lymphatic
- (Mycetoma-like)
|
KI
|
2
|
Improvement**
|
Discussion
Sporotrichosis is a subcutaneous, exceptionally deep mycosis. It is
reported in various regions of the world, usually in humid
temperate climates and regions with a mean temperature of
20-25 °C. The diagnosis is easy; the gold standard diagnostic
test continues to be the isolation of Sporothrix schenkcii in
standard media, like Sabouraud agar, with and without antibiotics
[1-3]. Direct examination and biopsy are complementary tests, since
the parasitic forms (yeasts) cannot usually be observed [1, 5, 7].
For many years the treatment of sporotrichosis consisted of
potassium iodide (KI), given orally as a concentrated solution; it
has high cure rates of up to 89% [9], and is inexpensive; however,
it cannot resolve all cases, e.g., the cutaneous hematogenous and
the systemic (pulmonary and disseminated) cases, as well as those
that occur in immunocompromised patients, given that it is not an
antifungal agent. Its mechanism of action remains unknown, but it
is thought to work as an immunostimulating agent [1, 5-8, 10].
Another drawback of KI is its side effects; rates as high as 40%
[10] have been reported, with the following most common side
effects: metallic flavor, gastritis, headache, vomiting and,
exceptionally, it may cause iodism, with symptoms that include
runny nose, crying, salivation and arthralgias. It may also cause
maculopapular rash, eosinophilia and angioedema [1, 5, 10].
Most of the common antifungals have been used to treat
sporotrichosis, i.e., amphotericin B (for serious and disseminated
cases), griseofulvin, ketoconazole, itraconazole, fluconazole, and
terbinafine [1, 4, 5, 10]. Some authors consider itraconazole as
one of the drugs with the best results, given the appropriate in
vitro susceptibility of S. schenckii to it, under minimum
inhibitory concentrations (MIC) ranging from 0.1 to 1.0 μg/L
[10-12], as well as its clinical and therapeutic results, and few
side effects. It is considered by some as the drug of choice and by
others as first-line therapy [1, 4, 6].
Itraconazole is a triazole derivative, usually given orally,
with some important pharmacological properties; it is rapidly
absorbed and is easily distributed to the skin, hair, nails, and
subcutaneous cell tissue [13, 14]. Undoubtedly one of its major
pharmacological properties is being considered as a depot or
reservoir drug, which allows prescribing high doses that last for a
certain period of time [15, 16]. In fact, intermittent or pulse
therapy resulted from this property; it is aimed basically at
treating onychomycosis and based on the fact that one week of
400 mg/day doses can maintain MICs for virtually one month; so
when given for 3-4 months, the drug concentrations can be
maintained for long enough [13-16]. Taking advantage of this
feature of itraconazole, we decided to administer the drug
intermittently to treat sporotrichosis, given that the latter is a
relatively easy-to-treat subcutaneous mycosis and the causative
fungus is drug-susceptible [11, 12]. Experiences with this drug
given as continuous therapy have been reported in the literature.
The first report of the use of itraconazole for cutaneous
sporotrichosis was a communication by Restrepo et al. [17], who
treated 17 patients at 100 mg/day doses for 90-180 days, with
a 100% cure rate. Currently there are a number of communications of
both immunocompetent and immunocompromised patients. Most authors
believe that the most appropriate dose is 200 mg/day until
clinical cure occurs [18-23]. Itraconazole has also been reported
as successful and safe in children, with the most commonly used
dose ranging between 25 and 100 mg/day. The recommended dose for
children is 5 mg/kg/day; it is often difficult to administer
itraconazole as capsules to children, but the oral solution is
currently available in many countries [10, 24, 25].
This is the first study testing itraconazole pulses to treat
sporotrichosis. However, this same intermittent regimen has
recently been reported in the treatment of chromoblastomycosis
[26], another subcutaneous mycosis much more difficult to treat
than sporotrichosis. Our results with itraconazole given as pulses
(one week per month) are quite similar to the ones obtained with
continuous therapy, i.e., at 200-300 mg/day doses. One of the
advantages of this regimen is that the intermittent treatment is
reduced approximately to half the total dosage of itraconazole,
especially if we compare with the scheme of 200 mg/day, with
the same end results and time period. According to our results, 4/5
patients (80%) achieved clinical and mycological cure. Case number
4 (table 1) achieved cure after only two
pulses; this rapid response was probably due to the fact that the
patient had the fixed cutaneous variety, which usually responds
more easily to various treatments [5, 24]. The remaining cases were
cutaneous lymphatic, and responded after a mean of 3.5 pulses.
Undoubtedly, it would have been useful to measure the levels of
itraconazole in the skin after pulse and decay times. We would have
obtained relevant data regarding the status of the medication in
the skin; however we currently do not have those techniques
available.
This type of therapy may be suggested for cutaneous
sporotrichosis because these cases responded well, but we do not
consider it appropriate for extracutaneous cases (pulmonary and
disseminated), which warrant continuous therapy. None of the
patients had side effects and the laboratory tests remained within
the normal ranges. It is important to emphasize that this type of
therapy should not be used in patients with gastric or liver
disorders, or who are on treatments that could cause drug-drug
interactions [15].
We consider this as a new treatment choice for sporotrichosis
that reduces the total treatment dose and produces cure rates
similar to other therapies. The pulse or intermittent therapy has
the advantage of being more economic when compared to continuous
therapy, since we are able to reduce the total dosage. The drawback
of this report is that it is a small series of clinical cases, and
therefore an increase in the number of cases would give us more
precise information about the use of intermittent itraconazole.
Moreover, it is also be important to know whether the strains
isolated elsewhere have a similar response to this therapy.
Acknowledgements
Conflict of interest: none. Financial support: none.
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