Richard Warrington

The frequency of skin test reactions to side-chain penicillin determinants

BACKGROUND Skin testing for immediate hypersensitivity to penicillins is usually carried out with reagents prepared from benzylpenicillin, and it is believed that side-chain-specific reactions to semisynthetic derivatives are rare. Because some experimental and clinical data suggest that antibodies can be induced to immunogenic epitopes on the side chains of penicillins, we looked for side-chain-specific reactions to skin testing in patients with a history of allergy to penicillins or semisynthetic penicillins. METHODS One hundred twelve patients with a clinical history of allergic reactions to penicillins and other semisynthetic penicillins were skin tested an average of 4.9 +/- 0.7 years after their reactions with the major and minor determinants of benzylpenicillin and minor determinant mixtures of ampicillin, amoxicillin, or cloxacillin. RESULTS In these patients the most common clinical reactions were urticaria and angioedema (36.6%) and exanthema (48.8%). It was found that 21 cases (18.8%) still exhibited immediate hypersensitivity reactions on skin testing. But of these 21 patients, skin test reactivity was limited in 47.6% to the semisynthetic penicillin reagents derived from ampicillin, amoxicillin, or cloxacillin; that is, skin tests were negative with the benzylpenicillin derivatives. Ampicillin and amoxicillin were the semisynthetic beta-lactams causing most clinical reactions (24.1% and 33.9%, respectively), and ampicillin was the most common penicillin derivative to which skin test reactivity occurred (38.1%), other than the benzylpenicillin derivatives (52.3%). CONCLUSIONS IgE antibodies appear therefore to discriminate between benzylpenicillin and ampicillin or other semisynthetic penicillins in a significant proportion of patients allergic to penicillin. Although it has not been proved that side-chain-specific skin reactivity implies the presence of clinically significant immediate hypersensitivity to semisynthetic penicillins, it is possible that side-chain-specific reagents may be required to exclude possible immediate hypersensitivity to the penicillins in patients who reacted to these antibiotics clinically.

The immune effects of neuropeptides

Current evidence indicates that the neuroendocrine system is the highest regulator of immune/inflammatory reactions. Prolactin and growth hormone stimulate the production of leukocytes, including lymphocytes, and maintain immunocompetence. The hypothalamus-pituitary-adrenal axis constitutes the most powerful circuit regulating the immune system. The neuropeptides constituting this axis, namely corticotrophin releasing factor, adrenocorticotrophic hormone, alpha-melanocyte stimulating hormone, and beta-endorphin are powerful immunoregulators, which have a direct regulatory effect on lymphoid cells, regulating immune reactions by the stimulation of immunoregulatory hormones (glucocorticoids) and also by acting on the central nervous system which in turn generates immunoregulatory nerve impulses. Peptidergic nerves are major regulators of the inflammatory response. Substance P and calcitonin gene-related peptide are pro-inflammatory mediators and somatostatin is anti-inflammatory. The neuroendocrine regulation of the inflammatory response is of major significance from the point of view of immune homeostasis. Malfunction of this circuit leads to disease and often is life-threatening. The immune system emits signals towards the neuroendocrine system by cytokine mediators which reach significant blood levels (cytokine-hormones) during systemic immune/inflammatory reactions. Interleukin-1, -6, and TNF-alpha are the major cytokine hormones mediating the acute phase response. These cytokines induce profound neuroendocrine and metabolic changes by interacting with the central nervous system and with many other organs and tissues in the body. Corticotrophin releasing factor functions under these conditions as a major co-ordinator of the response and is responsible for activating the ACTH-adrenal axis for regulating fever and for other CNS effects leading to a sympathetic outflow. Increased ACTH secretion leads to glucocorticoid production. alpha-melanocyte stimulating hormone functions under these conditions as a cytokine antagonist and an anti-pyretic hormone. The sympathetic outflow, in conjunction with increased adrenal activity. leads to the elevation of catecholamines in the bloodstream and in tissues. Current evidence suggests that neuroimmune mechanisms are essential in normal physiology, such as tissue turnover, involution, atrophy, intestinal function, and reproduction. Host defence against infection, trauma and shock relies heavily on the neuroimmunoregulatory network. Moreover, abnormalities of neuroimmunoregulation contribute to the aetiology of autoimmune disease, chronic inflammatory disease, immunodeficiency, allergy, and asthma. Finally, neuroimmune mechanisms play an important role in regeneration and healing.

The Use of Immunoglobulin Therapy for Patients With Primary Immune Deficiency: An Evidence-Based Practice Guideline

The standard treatment for patients with primary antibody deficiency is immunoglobulin (IG), but the care of these patients is complex. These guidelines, initiated by the Canadian Blood Services and the National Advisory Committee on Blood and Blood Products, have been developed to facilitate and standardize the care of these patients by the various physician specialties that are responsible for their care. A panel of national expert immunologists and methodologists developed salient clinical questions; and a systematic, expert, and bibliography literature search up to July 2008 was conducted. One thousand eighty-seven citations were retrieved, and 102 reports were used in the preparation of this guideline. The recommendations provide guidance (1) on the complexity of the treatment of these patients; (2) the established benefits of IG on morbidity and mortality; (3) dosage, routes of administration, and management of reactions; (4) the various IG formulations available; (5) vaccination of these patients; and (6) research priorities.

Urticaria and angioedema

Urticaria (hives) is a common disorder that often presents with angioedema (swelling that occurs beneath the skin). It is generally classified as acute, chronic or physical. Second-generation, non-sedating H1-receptor antihistamines represent the mainstay of therapy for both acute and chronic urticaria. Angioedema can occur in the absence of urticaria, with angiotensin-converting enzyme (ACE) inhibitor-induced angioedema and idiopathic angioedema being the more common causes. Rarer causes are hereditary angioedema (HAE) or acquired angioedema (AAE). Although the angioedema associated with these disorders is often self-limited, laryngeal involvement can lead to fatal asphyxiation in some cases. The management of HAE and AAE involves both prophylactic strategies to prevent attacks of angioedema (i.e., trigger avoidance, attenuated androgens, tranexamic acid, and plasma-derived C1 inhibitor replacement therapy) as well as pharmacological interventions for the treatment of acute attacks (i.e., C1 inhibitor replacement therapy, ecallantide and icatibant). In this article, the authors review the causes, diagnosis and management of urticaria (with or without angioedema) as well as the work-up and management of isolated angioedema, which vary considerably from that of angioedema that occurs in the presence of urticaria.

Is Obesity Associated with an Increased Risk for Airway Hyperresponsiveness and Development of Asthma

We investigated the association between airway hyperresponsiveness (AHR) and obesity in adults referred for confirmation of asthma diagnosis. Data were analyzed for obesity class I (body mass index [BMI] 30-34.9 kg/m2), class II (BMI ≥ 35-39.9 kg/m2), and class III (BMI ≥ 40 kg/m2). Of 861 subjects, 401 demonstrated AHR; the mean dose of methacholine was 4.16 ± 2.55 mg/mL. A significant association between obesity and AHR was evident for all subjects: the odds ratio was 1.37 (95% CI 1.02-1.82; p = .0317). One unit of increased BMI (1 kg/m2) was associated with a 3.1% increase in AHR risk (95% CI 1.01-1.05, p < .005). The odds ratio increased from 1.86 (95% CI 1.27-1.76; p = .0012) for class I to 2.61 (95% CI 1.48-4.60; p = .0006) for class III. Obesity was found to be associated with AHR and appears to be a risk factor for asthma.

Immunologic studies in subjects with a serum sickness-like illness after immunization with human diploid cell rabies vaccine

Ten patients developing a serum sickness-like hypersensitivity reaction to human diploid cell rabies vaccine were studied and compared with control subjects matched for previous vaccination history and level of rabies virus-specific IgG response to immunization. The clinical reaction consisted of delayed onset, generalized urticaria, and angioedema, with some arthralgias. Skin biopsy specimens demonstrated a leukocytoclastic vasculitis. Individuals reacting to the vaccine possessed IgE antibodies to human diploid cell rabies vaccine, to mock vaccine lacking viral antigen, and to fetal calf serum (FCS), a vaccine trace contaminant. Increased levels of IgG antibodies to FCS, mock vaccine, and beta-propiolactone-modified FCS, and human serum albumin were also found. Such humoral responses to vaccine components other than rabies virus might be responsible for the hypersensitivity reactions developing after rabies vaccination.

Hormones in self Tolerance and Autoimmunity: A role in the Pathogenesis of Rheumatoid Arthritis?

Recent studies indicate that pituitary hormones play an important role in immunoregulation. The evidence that endocrine abnormalities are associated with, and may contribute to the development of autoimmune disease is reviewed and discussed. Patients suffering from rheumatoid arthritis show a number of endocrine abnormalities that indicate altered pituitary function. The decreased bioactivity of prolactin and possible inadequate glucocorticoid response to inflammation found in patients may have an etiological role in rheumatoid arthritis. The further clarification of the possible role of endocrine factors in the etiology of autoimmune disease is needed urgently.

Skin testing to evaluate oculo-respiratory syndrome (ORS) associated with influenza vaccination during the 2000–2001 season

A syndrome of red eyes and respiratory symptoms was noted following receipt of influenza vaccine in Canada during the 2000-2001 influenza season. We conducted intra-dermal skin testing to determine if oculo-respiratory syndrome (ORS) was related to failure of the splitting process during vaccine manufacturing, if it was associated with a particular viral strain and to identify individuals at risk for subsequent ORS reaction. Skin testing with minute quantities of vaccine antigen induced ORS symptoms at a higher rate amongst persons previously affected by this syndrome compared to previously unaffected persons. Skin test reaction size or quality could not identify persons at risk of ORS. Skin testing could not identify a specific strain or the stage in the manufacturing process during which the trigger may have been introduced.

Sustained Suppression of IL-13 by a Vaccine Attenuates Airway Inflammation and Remodeling in Mice

We previously reported that a recombinant IL-13 peptide-based virus-like particle vaccine significantly suppressed murine acute airway allergic inflammatory responses. The impact of this strategy on the development of chronic airway inflammation and remodeling has not been investigated. We evaluated whether the vaccine-mediated sustained suppression of IL-13 attenuates features of chronic airway inflammation and remodeling in mice repeatedly challenged with allergen. BALB/c mice received two intraperitoneal sensitizing injections of ovalbumin (OVA) and alum, followed by six consecutive 2-day intranasal OVA challenges at 12-day intervals and then a 4-week recovery period. Anti-IL-13 antibodies were induced with a vaccine before (preventive experiments) or after (interventional experiments) the OVA challenge commenced. Respiratory mechanics were assessed using low-frequency forced oscillation with a small animal ventilator. Cytokine concentrations in bronchoalveolar lavage fluid (BALF) and lung histology were also assessed. In the preventive experiments, vaccination significantly suppressed IL-13 concentrations, the accumulation of inflammatory cells in BALF, lung mucus production, and collagen deposition. Furthermore, vaccination significantly attenuated OVA challenge-induced increases in airway resistance, tissue resistance, and tissue elastance, both acutely and after a 4-week recovery from allergen challenges. In the interventional experiments, vaccination decreased IL-13, TGF-β1, and IL-12p40 concentrations in BALF, as well as mucus production and collagen deposition. Chronic inflammation and sustained airway hyperresponsiveness were not significantly reversed. The persistent suppression of IL-13 with a vaccine inhibits chronic airway inflammation and the development of several key components of airway remodeling, and this intervention is more effective at early stages than later during chronic inflammation.

Targeting IL-23 by employing a p40 peptide-based vaccine ameliorates murine allergic skin and airway inflammation

Studies have found that the IL‐23/Th17 pathway plays an important role in the pathogenesis of atopic dermatitis (AD) and severe and steroid‐resistant asthma. Targeting IL‐23/Th17 pathway with monoclonal antibodies (mAb) has been successful in the reduction of skin and airway inflammation in animal models. However, the mAb has a short half‐life, requiring repeated administrations. For the long‐term suppression of IL‐23/Th17 pathway, we have previously developed an IL‐23p40 peptide‐based virus‐like particle vaccine, which induces long‐lasting autoantibodies to IL‐23.