Clinical and Experimental Allergy, 37, 166–173
Continued need of appropriate betalactam-derived skin test reagents for themanagement of allergy to betalactams
M. Blanca , A. Romano , M. J. Torres , P. Demolyz and A. DeWeck‰Ã
Allergy Service, Carlos Haya Hospital, M ´
alaga, Spain, Department of Internal Medicine and Geriatrics, UCSC-Allergy Unit, Complesso Integrato Columbus, Rome
and IRCCS Oasi Maria S.S., Troina, Italy, zAllergy Department, Hopital Arnaud de Vileneuve, Montpellier, France and ‰Allergy Research Laboratory, Gerimmun
Immediate allergic reactions to betalactams (BLs) are due to IgE antibodies that recognize the
Experimental ring-derived penicilloyl determinant or side-chain structures of common BLs. The presence of
Allergy specific IgE antibodies can be demonstrated by skin testing, the determination of specific IgE
antibodies in sera or their binding to basophils with subsequent activation upon contact withpenicillins in vitro. Skin tests are still the most sensitive technique followed by in vitro tests,which may sometimes yield useful complementary information. The diversity of the responseto BLs has meant that in some instances, in addition to benzylpenicillin-derived determinants,testing for amoxycillin, cephalosporins or other BLs may also be required to establish thediagnosis. The recent withdrawal from the market of BL-derived materials for skin testing willhave a serious effect on public health, resulting in a return to the pre-1960 era before thesereagents became available. Because of their greater sensitivity, these skin tests cannot yet be
replaced by in vitro tests. Furthermore, skin tests are the most readily available form of allergy
testing for physicians. This paper reviews the results of skin tests in BL allergy and provides
s/n 29009 Malaga, Spain. E-mail: miguel.blanca.sspa@
Keywords allergy, betalactam, diagnosis, skin test
Submitted 20 July 2006; revised 13 October 2006; accepted 14 November 2006
diagnosis of penicillin allergy at the time; this was soonfollowed by the so-called minor determinant mixture
Allergic reactions were reported shortly after the intro-
(MDM) [9]. Unfortunately, BPO–PLL was removed from
duction of penicillins as therapeutic agents [1]. By the
the US market in 2004 by Hollister-Stier while Allergo-
1950s, increasing reports of anaphylactic reactions and
pharma ceased production of PPL and of MDM in Europe
other side-effects testified to a serious public health
in 2005. This means that these essential reagents are no
problem [1]. Fifty years later, penicillins and the other
longer available to the majority of allergologists. This
members of the betalactam (BL) family are still the drugs
review highlights the usefulness of skin tests with recom-
most commonly involved in allergic drug reactions. This
mendations about their adaptation to the current clinical
trend is expected to continue in the future [2, 3]. Immu-
requirements relating to allergy to penicillins and the
nological tests have been used since early times to
evaluate subjects with allergic reactions. Skin tests werethe first to be applied and both immediate and delayed
responses were soon observed [4, 5].
Skin testing with BL is currently a source of public
Immediate reactions to BL are still the most important
health concern because of the sudden lack of availability
cause of allergic drug reactions [2, 3]. Ten percent of
world-wide of appropriate reagents for in vivo testing.
ambulatory and hospitalized patients report allergies to
Benzylpenicilloyl–polylysine (BPO–PLL), also known as
medications containing BL antibiotics [2]. The incidence
penicilloyl–polylysine (PPL), was first developed in 1960/
of anaphylactic reactions varies from 0.004% to 0.015%
1961 [6–8] and afforded a major improvement to the
[5]. The use of alternative agents may adversely affect the
Appropriate betalactam-derived skin test reagents 167
MAJOR DETERMINANT Benzylpenicillin Benzylpenicilloyl MINOR DETERMINANTS Benzylpenicilloic Benzylpenicillenic Benzylpenalmadic Penicoyl Penicanyl Diketopiperazine
Fig. 1. Chemical structures of the penicillin molecule and proposed major and minor determinants.
ability to overcome anti-microbial resistance and the
choice of other antibiotics, such as vancomycin or quino-lones, is more costly and more likely to have adverse
The BL ring binds covalently to the free amino groups of
proteins, forming stable conjugates [19], such as the so-
BLs are also often prescribed in the absence of definite
called BPO determinant [20]. It was soon shown that the
clinical indications, leading to unnecessary high-expo-
bulk component of the immunological response was
sure rates [12, 13]. Allergic reactions may be merely
directed towards this structure [4, 21], hence the denomi-
coincidental to BL administration, with no causal rela-
nation of the major determinant, although other reactiv-
tionship. Subjects are often labelled as allergic to BL with
ities of the penicillin molecule had also been described [6,
no additional investigations, even though they are not in
22]. Later, it was noticed that some individuals with
fact allergic [14]. On the other hand, anaphylaxis to BL is
anaphylactic reactions did not respond to this penicilloyl
underreported [15]. Amoxycillin (AX) is considered
structure but reacted to Benzylpenicillin (BP) directly
nowadays the most frequent cause of anaphylaxis to BL
applied to the skin. This observation led to the discovery
[3, 16, 17]. For many physicians, penicillin skin testing
of other so-called MDM [9, 23]. Fewer than 10% of anti-
has become a component of antibiotic prescriptions [18].
body responses appear to be due to these minor determi-
Thus, it will be a major public health setback if optimal
nants [24]. Figure 1 shows the chemical structures of the
skin testing to BL is no longer possible.
penicillin molecule and the major and minor determinants.
c 2007 Blackwell Publishing Ltd, Clinical and Experimental Allergy, 37 : 166–173
For many years, PPL was sold in the USA as a research
history of penicillin allergy. Of these, 7.1% had positive
reagent ‘not for human use’ by Kremers-Urban, as the FDA
skin tests to penicillin determinants; 75% were positive to
obstinately refused to register it, requesting much addi-
PPL, 10% to MDM, and 14% to BPO and MDM [28]. In
tional information (toxicity studies, etc.) as relevant for a
summary, in all these studies there was a variable degree
new drug. Considering the restricted market and the fact
of response to major and minor determinants of BP, with
that this chemically well-defined reagent was injected
the response to PPL alone or in association with a response
intra-dermally into humans in nanogram quantities, these
to MDM being positive in over 50% of the cases evaluated.
requests seemed somewhat abusive. More so, as at the
The predictive value of a positive test indicated that 50%
same time allergologists were still allowed to use their
of the patients could develop another clinical reaction
own dust (dirt) extracts as skin test reagents. Under
after re-exposure while the predictive value of a negative
pressure from the National Institute of Allergy and In-
test indicated that in the event of further administration of
fectious Diseases (NIAID) and the American Academy of
BP, there would be good tolerance, or at least just a
Allergy, which had sponsored a large-scale study [25], the
FDA relented. PPL was introduced onto the US market by
Since the late 1980s, a number of further studies appear-
Kremers-Urban in 1973. In Europe, PPL had been pro-
ed determining the value of major and minor determinants
duced and distributed for about 10 years as a research
of BP plus the response to AX and AMP minor determi-
reagent by the Institute of Clinical Immunology of the
nants. The role of PPL and/or MDM in diagnosis became
University of Bern, Switzerland. It was finally registered,
lower than 50%, with an increasing role for AX over the
first for the French market by the Laboratoire des Staller-
years [29–33]. This most probably reflects the increasing
ge`nes in 1974, and subsequently taken over as PPL and
use of AX vs. the older penicillins in the United States and
MDM by Allergopharma around 1986. Since then, a large
Western Europe. Nevertheless, a recent retrospective study
number of studies plus innumerable individual reports
in France on 824 patients consulting between 1996 and
using both determinants have been published.
2004 for BL allergy revealed 136 with positive skin tests[32]. Among those, 14.7% were positive only to PPL and/orMDM and in an additional 27.6–32%, positive skin tests to
Consolidated experience in skin testing with penicillins
some other BL were confirmed by positive tests to PPL and/
The first large study was carried out by Green et al., who
or MDM. Accordingly, the withdrawal of PPL and MDM
evaluated 3000 subjects, of whom 1718 had symptoms
would have had the consequence of leaving 20/136 patients
compatible with penicillin allergy. PPL plus BP were used
undiagnosed, including some with anaphylactic reactions.
and 19% of the cases studied were positive to one or more
The situation may become even worse in some other regions
penicillin reagents. Among the patients who were posi-
of the world where exposure to the older BP still seems to be
tive, 54% were only positive to PPL, 22% to BP, and 25%
prevalent, as judged from skin testing of the population
to BPO and BP [25]. At that time, the recommended
[33], in which skin tests to PPL, MDM and BP combined
concentration was established at 5 Â 10 À 5 M for PPL in
yielded as much as 88.1% positive cases.
Europe and 6 Â 10 À 5 in USA and 10 000 U/mL for BP.
In Spain, a new PPL and MDM kit has been recently
In 1981, Sullivan reported a study involving 740
commercialized (Diater Laboratories, Madrid, Spain), with
patients, 63% of whom had a positive skin test to one or
equivalent results that can be used for the same purpose
more penicillin determinants. In this study, in addition to
and indications as the previous test [34].
BP, Penicilloic acid (PA) was also used. The percentage ofsubjects responding to PPL was 21%, to MDM 42%, and to
PPL plus MDM 45.2%. Interestingly, cases only positive toBP or to PA were observed, with 14.6% of cases respond-
Cephalosporins are currently the second most important
ing only to PA [26]. The use of ampicillin (AMP) for skin
group of BL antibiotics and their chemical structures are
testing added no additional information as all AMP-
more heterogeneous than those of penicillins. Increasing
positive cases were also positive to some BP determinants.
evidence supports the role of this group of antibiotics in
In a study carried out by Solley et al. with 778 subjects,
the induction of IgE-mediated responses [35, 36].
in addition to major and minor determinants of BP, AMP
Although conjugation of cephalosporins to albumin and
and methicillin were also used. PPL was positive in 8.2%
other proteins is less efficient, these compounds are also
of the cases, BP in 20.5%, PA in 10.2%, and both BP and
able to produce hapten-carrier conjugates [36].
PA (MDM) in 38.9% [27]. Interestingly, in this study skin
The first reactions to cephalosporins were attributed to
testing with the unmodified penicillins contributed to
cross-reactivity with penicillins [37], but increasing evi-
11.6% of the cases and their conjugation to PLL added a
dence has shown that some patients can respond to
further 13.9%, representing a total of 25.5%.
cephalosporins while tolerating penicillin derivatives
The largest study reported was published by Gadde et
[38–45]. Skin testing with cephalosporins raises a number
al., with 5063 subjects, of whom 776 had a previous
of problems; most oral cephalosporins are poorly soluble,
c 2007 Blackwell Publishing Ltd, Clinical and Experimental Allergy, 37 : 166–173
Appropriate betalactam-derived skin test reagents 169
skin tests are not widely standardized and different con-
However, cases who were in vitro positive but in vivo
centrations have been used by different groups. Concen-
negative have also been reported [50]. In a study carried
trations from 10 to 30 mg/mL have been recommended for
out in 290 cases, 13.8% were only RAST positive [61].
intra-dermal testing with some cephalosporins [46]. Data
Whether or not this demonstrates pathological sensitiza-
suggest that different patterns of positive responses may
tion remains unknown, as these skin test negative – RAST-
occur; while some cases develop cross-reactivity between
positive patients have not been BL challenged.
similar side chains [40, 43, 47], others experience a
Other in vitro biological tests exploit the capacity of
selective skin response to one cephalosporin only, and in
basophils from BL-allergic patients to become activated
others cross-reactivity between penicillins and cephalos-
and to release histamine and/or sulphidoleucotrienes
(CAST) in the presence of the hapten. In such tests,peripheral blood cells are first stimulated in vitro with thehapten. Basophil activation is determined by flow cyto-
Comparison between skin tests, specific immunoglobulin E
metry from the expression of the CD63 molecule on the
determinations and other biological tests
cell membrane,1 and the CAST assay quantitates the
In addition to skin testing, various in vitro methods are
leucotrienes released in the supernatant. Recently, data
also available for the diagnosis of immediate hyper-
have been reported about the usefulness of these two tests
sensitivity to BL. These methods can generally be con-
[62–64]. In patients with a positive history and a positive
sidered complementary, or in some instances alternative.
skin test, the basophil activation test is positive in about
There is a sizeable group of patients with a history of
48–51% of cases, while CAST is positive in 43–47%. When
penicillin allergy and negative skin tests but positive drug
both tests are combined, positivity increases to 68%, as
provocation tests and positive biological tests in vitro [50].
shown in a recent multi-centre study performed by the
Originally performed by radioimmunoassay, the first
European Network for Drug Allergy (ENDA) with 150
technique was designated RAST [51, 52]; nowadays, the
patients [65]. In the same patients, IgE determination was
fluoroimmunoassay is the most widely used test [53].
positive in 38%. Although the new biological tests can
In a strict sense, no detailed comparative studies have
give useful complementary information, skin testing re-
yet been carried out. Most studies compared results of
mains the method of choice and the first to perform,
in vivo tests, usually BP conjugated to PLL and BP or BP/
PA, to an in vitro conjugate of BP with human serumalbumin (HSA). The in vitro equivalent of BP, PA, or other
free determinants has never been used. Kraft et al. [54–56]
After more than 50 years, skin testing with BL determi-
found an excellent correlation between skin tests to BPO
nants has proved safe in the hands of experienced person-
and RAST to BPO, but in cases with skin tests only positive
nel and although fatalities have been described, they
to minor determinants the results were variable. Similar
concerned patients in whom no prick test was done before
results were reported by Basomba et al. [57]. This has been
the intra-dermal tests [66, 67]. Skin testing with BP
attributed to a high degree of in vitro cross-reactivity
determinants has shown a low incidence of side-effects,
between MDM and the major determinants [55]. However,
in the order of 0.12–1% [68]. However, as MDM-positive
it must be pointed out that the specificity of anti-penicillin
skin responses are mainly associated with anaphylaxis,
IgE antibodies can be assessed by comparing free deter-
systemic reactions may occur. In a recent retrospective,
minants with conjugates in RAST inhibition tests [58].
case–control study involving 147 skin-test-positive pa-
The conjugation of BPO to PLL has also been used, and
tients, 13 (8.8%) experienced a systemic reaction during
although this gave better results than with HSA, an
the tests. These 13 reactors were compared with non-
important number of cases still remained skin-test posi-
reactors (135 patients who had a positive skin test with no
tive but in vitro negative [50]. For side-chain-specific
systemic reactions). Anaphylaxis (69%) and a chronology
antibodies in particular, PLL or an amino spacer have
of less than 1 h after the drug intake (91%) were signifi-
been considered better carriers than HSA. In general, with
cantly more frequent in reactors as compared with non-
all these carriers, a good correlation has been found
reactors (43% and 35%, respectively) [69].
between the clinical situation and the results of the skintest and the in vitro test [59, 60]. In a study involvingsubjects who were skin-test positive to either BPO and/or
MDM, in vitro testing was positive to BP in 68% of cases
The two main methods used for the diagnosis of immedi-
and to AX in 52%, but when both haptens were used the
ate hyper-sensitivity to BL are prick and intra-dermal
positivity increased to 74%. On the other hand, in subjects
testing [68, 70]. Although patch testing is used by some,
with a selective response to AX, the sensitivity of thetest was 41% [53]. Thus, if only the IgE in vitro test is
1Basophil activation tests commercially available as BASOTEST (Orpegen,
performed, an important number of cases will be missed.
Heidelberg, Germany) or FLOW CAST (B ¨ulmann, Allschwil, Switzerland).
c 2007 Blackwell Publishing Ltd, Clinical and Experimental Allergy, 37 : 166–173
this is not considered to be a useful method for IgE-
the patients, though generally of lesser intensity, may
mediated reactions. Some perform patch tests in situations
require the skin test to be performed by experienced
where the type of clinical reaction reported by the patient
personnel and in an adequate emergency-ready setting.
With classic BP determinants (BPO, MDM), the reported
Prick testing is performed by pricking the skin with an
frequency of side-effects is low and reactions usually
appropriate needle or lancet through the allergen solution. If
mild, varying from 0.1% to 0.7% [25, 26, 28, 75]. In
the response is negative, intra-dermal tests are then carried
patients with positive skin tests, figures of 13% have been
out. This is done by the injection of 0.02–0.05 mL of the
hapten solution, raising a small bleb that is initially deli-neated. These are usually performed on the volar forearm,but may involve other parts of the body such as the back.
The drug to test has to be freshly re-constituted and
Penicillin allergy is a slowly subsiding phenomenon [56,
taken directly from the vial. Mandatory reagents used are
76, 77]. The natural history of BL hyper-sensitivity tells us
PPL and MDM. The maximum concentrations recom-
that allergic subjects tend to become negative after drug
mended for PLL are 5 Â 10 À 5 M and for MDM 2 Â 10 À 2 M.
avoidance for a variable time, a matter of 6–12 months for
In the USA, the concentration of PPL is 6 Â 10 À 5 M.
specific IgE [56] and of a few years for skin sensitivity [26,
Because MDM is not available in the USA for everyday
78]. Specific T cell reactivity, on the other hand, usually
practice, most authors have used BP at a maximum
persists for many years [79, 80]. In theory, although a very
low concentration of drug is used in skin tests, a possibi-
The appearance of side-chain-specific reactions to AX
lity for re-sensitization still exists. This has been reported
has necessitated the use of this antibiotic for testing. This
after slight contact with penicillins, at concentrations
is particularly relevant in some European countries, such
even lower than those used in skin testing [81].
as Spain or France, although it has also been reported to
Most studies involving re-sensitization include both
be relevant in other countries [68]. Concerning AMP, no
skin tests plus a drug provocation test. This implies that
specific reactions have been reported with this antibiotic,
in the event of re-sensitization, it cannot be easily
and it can therefore be considered optional [73, 74]. The
attributed to the role of skin testing [26]. Nevertheless, in
maximum concentrations recommended for aminopeni-
most studies, and even including drug provocation, fig-
ures are usually low [82, 76]. In a study carried out by
Cephalosporin skin testing is also becoming progres-
Nugent et al. [83] in a group of 329 cases, 2.5% of the
sively more necessary, not only to evaluate primary
initially negative cases converted to positive after skin
sensitization but also cross-reactivity. Great variability
exists with cephalosporins, especially with prick testing. In most instances, concentrations up to 2 mg/mL areconsidered non-irritant, although studies in negative
control groups show that concentrations as high as
Despite the advent of various complementary and alter-
native in vitro diagnostic methods, skin testing remains a
In patients reporting symptoms of severe reactions or in
central need for the diagnosis of BL allergy, a public
patients with special risk factors, intra-dermal testing and
health problem of continued importance. Some recent
even prick testing must be done first with several 10-fold
studies already show that the withdrawal of PPL and
dilutions that are gradually increased until the appearance
MDM will have deleterious effects on the diagnosis of BL
of a positive response or up to the maximum recom-
allergy. Public health authorities and physicians should
mobilize for continued access by the community to these
Readings are made 15–20 min after application of the
hapten. In the prick test, a weal larger than 3 mm indiameter accompanied by erythema with a negativeresponse to the control saline is considered positive. In
intra-dermal testing, the weal area is marked initially and15–20 min after testing. An increase in the diameter
1 Idsoe O, Guthe T, Wilcox RR, de Weck AL. Nature and extent of
penicillin side reactions, with particular reference to fatalities
greater than 3 mm is considered positive. Patients should
from anaphylactic shock. Bull WHO 1968; 38:159–88.
be advised of the possibility of a late reaction that may
2 Weiss ME, Adkinson NF. Immediate hypersensitivity reactions to
initiate or be patent as early as 6–8 h after drug applica-
penicillin and related antibiotics. Clin Allergy 1988; 18:515–40.
tion, with a maximal response at 24–48 h. Although not
3 Blanca M. Allergic reactions to penicillins. A changing world?
common, this mainly occurs with intra-dermal testing and
at maximum doses, though it may also occur with prick
4 De Weck AL, Blum G. Recent clinical and immunological aspects of
testing. Systemic reactions resembling those reported by
penicillin allergy. Int Arch Allergy Appl Immunol 1965; 27:231–56.
c 2007 Blackwell Publishing Ltd, Clinical and Experimental Allergy, 37 : 166–173
Appropriate betalactam-derived skin test reagents 171
5 Adkinson NF Jr, Thompson WL, Maddrey WC, Lichtestein L.
24 De Weck AL, Eisen HN. Some immunochemical properties of
Routine use of penicillin skin testing on an inpatient service. N
penicillenic acid. An antigenic determinant derived from peni-
cillin. J Exp Med 1960; 112:1227–47.
6 Parker CW, Shapiro J, Kern M, Eisen HN. Hypersensitivity to
25 Green GR, Rosemblum AH, Sweet LC. Evaluation of penicillin
penicillenic acid derivatives in human beings with penicillin
hypersensitivity: value of clinical history and skin testing
allergy. J Exp Med 1962; 115:821–38.
with penicilloyl–polylysine and penicillin G. A cooperative
7 Parker CW. Penicilloyl–polylysines: preparation, properties and
prospective study of the penicillin study group of the
analytical procedures with special reference to their use in
American Academy of Allergy. J Allergy Clin Immunol 1977; 60:
human skin testing. Methods Med Res 1964; 10:192–6.
8 Levine BB. The preparation of penicilloyl–polylysines, skin test
26 Sullivan TJ, Wedener HJ, Shatz GS, Yecies LD, Parker CW. Skin
reagents for the clinical evaluation of penicillin hypersensitivity.
testing to detect penicillin allergy. J Allergy Clin Immunol 1981;
9 Levine BB, Redmond AP. Minor haptenic determinant specific
27 Solley GO, Gleich GJ, Van Dellen RG. Penicillin allergy: clinical
reagins of penicillin hypersensitivity in man. Int Arch Allergy
experience with a battery of skin test reagents. J Allergy Clin
10 Lee CE, Zembower T, Fotis M et al. The incidence of antimicrobial
28 Gadde J, Spence M, Wheeler B, Adkinson NF Jr. Clinical
allergies in hospitalised patients: implications regarding pre-
experience with penicillin skin testing in a large inner-city STD
scribing patterns and emerging bacterial resistance. Arch Int Med
29 Blanca M, Vega JM, Garc´ıa J et al. Allergy to amoxicillin with
11 MacLaughlin E, Saseen J, Malone D. Cost of betalactam allergies.
good tolerance to other penicillins. Study of the incidence in
Selection and costs of antibiotics for patients with a reported beta
patients allergic to betalactams. Clin Exp Allergy 1990; 20:
lactam allergy. Arch Fam Med 2000; 9:722–6.
12 McCaig LF, Hughes JM. Trends in antimicrobial drug prescribing
30 Silviu Dan F, Mc Philiphs S, Warrington R. The frequency of skin
among office-based physicians in the United States. J Am Med
tests reactions to side chain penicillin determinants. J Allergy
13 Stone S, Ganzales R, Maselli J, Lowestein S. Antibiotics prescrib-
31 Torres MJ, Romano A, Mayorga C et al. Diagnostic evaluation of
ing for patients with colds, upper respiratory tract infections and
a large group of patients with immediate allergy to penicillins:
bronchitis. A national study of hospitalised emergency depart-
the role of skin testing. Allergy 2001; 56:850–6.
ments. Ann Emerg Med 2000; 36:320–7.
32 Bousquet PJ, Co-Minh HB, Arnoux B, Daures JP, Demoly P.
14 Salkind AR, Cuddy PG, Foxworth JW. Is this patient allergic to
Importance of mixture of minor determinants and benzylpeni-
penicillin?. An evidence based analysis of the likelihood of
cilloyl-poly-L-lysine skin testing in the diagnosis of b-lactam
penicillin allergy. JAMA 2001; 285:2498–505.
allergy. J Allergy Clin Immunol 2005; 115:1314–7.
15 Pumphrey RSH, David S. Under-reporting of antibiotic anaphy-
33 Atanaskovic-Markovic M, Velickovic TC, Gavrovic-Jankulovic
laxis may put patients at risk. Lancet 1999; 353:1157–8.
M, Vuckovic O, Nestorovic B. Immediate allergic reactions to
16 Vanderklauw MM, Stricker BH, Herings RMC, Cost WS, Valken-
cephallosporins and penicillins and their cross-reactivity in
burg HA, Wilson JHP. A population based case–cohort study of
children. Pediatr Allergy Immunol 2005; 16:341–7.
drug-induced anaphylaxis. Br J Clin Pharmacol 1993; 35:400–8.
34 Rodr´ıguez-Bada JL, Monta ˜n´es MI, Torres MJ et al. Skin testing
17 Kanny G, Guenard L, Demoly P et al. Severe drug allergy: the first
for immediate hypersensitivity to betalactams: comparison be-
100 cases declared to allergy vigilance network. J Allergy Clin
tween two commercial kits. Allergy 2006; 61:947–51.
35 Antunez C, Blanca-Lopez N, Torres MJ et al. Immediate allergic
18 Harris AD, Sauberman L, Kabbash L et al. Penicillin skin testing:
reactions to cephalosporins. Evaluation of cross-reactivity with a
a way to optimise antibiotic utilisation. AJM 1999; 107:166–8.
panel of penicillins and cephalosporins. J Allergy Clin Immunol
19 Batchelor FR, Dewdney JM, Gazzard D. Penicillin allergy. The
formation of the penicilloyl determinant. Nature 1965; 206:362–4.
36 Perez-Inestrosa E, Suau R, Montanez MI et al. Cephalosporin
20 Levine BB, Ovary Z. Studies of the mechanism of the formation
chemical reactivity and its immunological implications. Curr
of the penicillin antigen III. The N(D-(benzyl penicilloyl)) group
Opin Allergy Clin Immunol 2005; 5:323–30.
as an antigenic determinant responsible for hypersensitivity to
37 Batchelor FR, Dewdney JM, Weston RD, Wheeler AW. The
penicillin G. J Exp Med 1961; 114:875–904.
immunogenicity of cephalosporin derivatives and their cross-
21 Levine BB, Fellner MJ, Levytska V. Benzylpenicilloyl specific
reaction with penicillin. Immunology 1966; 10:21–33.
serum antibodies to penicillin in man. I. Development of a
38 Stenton SC, Dennis JH, Hendrick DJ. Occupational asthma due to
sensitive hemagglutination assay method and haptenic specifi-
ceftazidime. Eur Respir J 1995; 8:1421–3.
cities of antibodies. J Immunol 1966; 96:707–19.
39 Warrington RJ, McPhillips S. Independent anaphylaxis to Cefa-
22 Levine BB. Studies on the formation of the penicillin antigen II.
zolin without allergy to other betalactam antibiotics. J Allergy
Some reactions of D-benzylpenicillenic acid in aqueous solutions
at pH 7.5. Arch Biochem Biophys 1961; 93:50–5.
40 Romano A, Quarantino D, Venuti A, Venemalm L, Mayorga C,
23 Levine BB, Price VH. Studies on the immunological mechanisms
Blanca M. Selective type-1 hypersensitivity to cefuroxime. J
of penicillin allergy II. Antigenic specificities of allergic wheal-
Allergy Clin Immunol 1998; 101:564–5.
and-flare skin responses in patients with histories of penicillin
41 Gaig P, San Miguel MM, Enrique E, Garcia-Ortega P. Selective
allergy. Immunology 1964; 7:542–56.
hypersensitivity type-1 to cefixime. Allergy 1999; 54:901–2.
c 2007 Blackwell Publishing Ltd, Clinical and Experimental Allergy, 37 : 166–173
42 Ponvert C, Le Clainche L, de Blic J, Le Bourgeois M, Sscheinmann
61 Torres MJ, Mayorga C, Cornejo-Garcia JA, Romano A, Blanca M.
P, Paupe J. Allergy to betalactam antibiotics in children. Pedia-
IgE antibodies to pencillin in skin tests negative patients. Allergy
43 S´aenz de San Pedro B, Mayorga C, Torres MJ, Florido JF, Quiralte
62 Sanz ML, Gamboa PM, Antepara I et al. Flow cytometric basophil
J, Blanca M. Boosted IgE response after anaphylaxis to cefurox-
activation test by detection of CD63 expression in patients with
ime with cross-reactivity with cefotaxime. Ann Allergy Asthma
immediate-type reactions to beta-lactam antibiotics. Clin Exp
44 Sodhi M, Axtell SS, Callahan J, Shekar R. Is it safe to use
63 Torres MJ, Padial A, Mayorga C et al. The diagnostic interpreta-
carbapenems in patients with a history to penicillin? J Anti-
tion of basophil activation test in immediate allergic reactions to
betalactams. Clin Exp Allergy 2004; 34:1768–75.
45 Anne S, Reisman RE. Risk of administering cephalosporin anti-
64 Garcia-Aviles C, Sanz ML, Gamboa PM et al. Antigen specific
biotics to patients with histories of penicillin allergy. Ann Allergy
quantification of sulfidopeptideleukotrienes in patients allergic
to betalactam antibiotics. J Invest Allergol Clin Immunol 2005;
46 Empedrad R, Darter AL, Earl HS, Gruchalla RS. Non irritating
intradermal skin test concentrations for commonly prescribed
65 De Weck A, Sanz ML, Gamboa P et al. Diagnosis of immediate-
antibiotics. J Allergy Clin Immunol 2002; 112:629–30.
type betalactam allergy in vitro by flow-cytometry (FLOW-
47 Orhan F, Orhan F, Odemis E et al. A case of IgE-mediated
CAST) and sulfidoleukotriene production (CAST) a multicenter
hypersensitivity to cefepime. Allergy 2004; 59:239–41.
study. Congress of the European Academy of Allergology and
48 Adkinson NF. Betalactam cross reactivity. Clin Exp Allergy 1998;
Clinical Immunology. Abstract book 2006;196.
66 Lockey RF, Benedict LM, Turkeltaub PC, Bukantz SC. Fatalities
49 De Weck AL, Schneider CH. Allergic and immunological aspects
from immunotherapy (IT) and skin testing (ST). J Allergy Clin
of therapy with cefotaxime abd other cephalosporins. J Anti-
microb Chemother 1980; 6(Suppl. A):161–8.
67 Valyasevi MA, Van Dellen RG. Frequency of systematic reactions
50 Gamboa PM, Garcia-Aviles MC, Urraria L, Artepara J, Esparza R,
to penicillin skin tests. Ann Alergy Asthma Immunol 2000; 85:
Sanz ML. Basopil activation and sulfidoleukotriene production
in patients with immediate allergy to betalactam antibiotics and
68 Torres MJ, Blanca M, Fernandez J et al. Diagnosis of immediate
negative skin tests. J Investig Allergol Clin Immunol 2004; 14:
hypersensitivity reactions to betalactams. Allergy 2003; 58:
51 Wide L, Juhlin L. Detection of penicillin allergy of the immediate
69 Co-Minh HB, Bousquet PJ, Fontaine C, Kvedariene V, Demoly P.
type by radioimmunoassay of reagins (IgE) to penicilloyl con-
Systemic reactions during skin tests with b-lactams: a risk factor
jugated. Clin Allergy 1971; 1:171–6.
analysis. J Allergy Clin Immunol 2006; 117:466–8.
52 Juhlin L, Wide L. Detection of penicillin allergy by radioallergo-
70 Brochow K, Romano A, ENDA et al. General considerations for
skin test procedures in the diagnosis of drug hypersensitivity.
53 Blanca M, Mayorga C, Torres MJ et al. Clinical evaluation of
Pharmacia CAP SystemTM RAST FEIA amoxicilloyl and benzylpe-
71 Macy E, Ritcher PK, Falkoff R, Zeiger R. Skin testing with penicilo-
nicilloyl in patients with penicillin allergy. Allergy 2001; 56:862–70.
ate and penilloate prepared by an improved method: amoxicillin
54 Kraft D, Berglund A, Rumpold H, Roth A, Ebner H. Radio-
oral challenges in patients with negative skin test responses to
allergosorbent test with conjugates specific for minor haptenic
penicillin reagents. J Allergy Clin Immunol 1997; 100:586–91.
determinants in the diagnosis of IgE-mediated penicillin allergy
72 Barboud A, Tr´echot P, Reichert-Penetrat S, Comun N, Schmutz
in man. Clin Allergy 1981; 11:579–87.
JL. Relevance of skin tests with drugs in investigating cutaneous
55 Kraft D, Wide L. Clinical patterns and results of radioallergosor-
adverse drug reactions. Contact Dermatitis 2001; 45:265–8.
bent test (RAST) and skin tests in penicillin allergy. Br J Dermatol
73 Romano A, Blanca M, Mayorga C, Venuti A, Gasbarrini G. Imme-
diate hypersensitivity to penicillins. Studies on Italian subjects.
56 Kraft D, Roth A, Mischer P, Pichler H, Ebner H. Specific and total
serum IgE measurements in the diagnosis of penicillin allergy. A
74 Romano A, Fern ´andez J, Vega JM et al. Allergic reactions to
long term follow-up study. Clin Allergy 1977; 7:21–8.
ampicillin. Studies of the specificity and selectivity in subjects
57 Basomba A, Villalmanzo IG, Campos A, Pelaez A, Berglund A.
with immediate reactions. Clin Exp Allergy 1997; 27:1425–31.
IgE antibodies against penicillin as determined by Phadebas
75 Van Dellen RG, Walsh WE, Peters GA, Gleich GJ. Differing
RAST. Clin Exp Allergy 1979; 9:515–25.
patterns of wheal and flare skin reactivity in patients allergic to
58 Moreno F, Blanca M, Mayorga C et al. Studies of the specificities of
the penicillins. J Allergy 1971; 47:230–6.
IgE antibodies found in sera from subjects with allergic reactions to
76 Solensky R, Earl HS, Gruchalla RS. Lack of penicillin resensiti-
penicillins. Int Arch Allergy Immunol 1995; 108:74–81.
sation in patients with a history of penicillin allergy after
59 Blanca M, Mayorga C, Perez E et al. Determination of IgE
receiving repeated penicillin courses. Arch Intern Med 2002;
antibodies to the benzylpenicilloyl determinant. A comparison
between poly-L-lysine and human serum albumin as carriers. J
77 Patriarca G, Schiavino D, Nucera E, Milani A. Positive allergolo-
gical tests may turn negative with no further exposure to the
60 Blanca M, Moreno F, Mayorga C et al. The nature of the carrier in
specific allergen: a long term, prospective, follow up study in
the RAST assay influences the capacity for detecting IgE anti-
patients allergic to penicillin. Invest Allergol Clin Immunol 1996;
bodies to penicillins. J Clin Immunoassay 1994; 17:166–70.
c 2007 Blackwell Publishing Ltd, Clinical and Experimental Allergy, 37 : 166–173
Appropriate betalactam-derived skin test reagents 173
78 Blanca M, Torres MJ, Garcia JJ et al. Natural evolution of skin
81 Blanca M, Garc´ıa J, Vega JM et al. Anaphylaxis to penicillins
test sensitivity in patients allergic to betalactam antibiotics. J
after non-therapeutic exposure: an immunological investiga-
Allergy Clin Immunol 1999; 103:918–24.
tion. Clin Exp Allergy 1996; 26:335–40.
79 Pichler WJ. Delayed drug hypersensitivity reactions. Ann Intern
82 Mendelson LM, Ressler C, Rosen JP, Selcow JE. Routine elective
penicillin allergy skin testing in children and adolescents: study
80 Romano A, Di Fonso M, Papa G et al. Evaluation of adverse
of sensitization. J Allergy Clin Immunol 1984; 73:76–81.
cutaneous reactions to aminopenicillins with emphasis on
83 Nugent JS, Quin JM, McGrath CM et al. Determination of the
those manifested by maculopapular rashes. Allergy 1995; 50:
incidence of sensitisation after skin testing. Ann Allergy Asthma
c 2007 Blackwell Publishing Ltd, Clinical and Experimental Allergy, 37 : 166–173
JOHN S. MARCH, MD, MPH Program in Child and Adolescent Anxiety Disorders DUMC Box 3527 Durham, NC 27710 (919)-416-2400 InterNet: [email protected] OBSESSIVE-COMPULSIVE DISORDER IN CHILDREN AND ADOLESCENTS Approximately 1 in 200 children suffers from Obsessive-Compulsive Disorder (OCD). Children and adolescents with OCD experience unwanted intrusive thoughts, urges, or images (terme
* In order to avoid any potential confusion, we are now using more specific designations for our locations. Beginning in 2006, items received will use the new designations. For searching the library's online catalog as well as ERIC and other periodical databases, the following are suggested alternative subject headings (not an exhaustive list): For Webster (Maxwell Library's online catalog