Aisling M. Flinn scite author profile

Adenosine deaminase (ADA) deficiency leads to an accumulation of toxic purine degradation by-products, most potently affecting lymphocytes, leading to adenosine deaminase-deficient severe combined immunodeficiency. Whilst most notable affects are on lymphocytes, other manifestations include skeletal abnormalities, neurodevelopmental affects and pulmonary manifestations associated with pulmonary-alveolar proteinosis. Affected patients present in early infancy, usually with persistent infection, or with pulmonary insufficiency. Three treatment options are currently available. Initial treatment with enzyme replacement therapy may alleviate acute symptoms and enable partial immunological reconstitution, but treatment is life-long, immune reconstitution is incomplete, and the reconstituted immune system may nullify the effects of the enzyme replacement. Hematopoietic stem cell transplant has long been established as the treatment of choice, particularly where a matched sibling or well matched unrelated donor is available. More recently, the use of gene addition techniques to correct the genetic defect in autologous haematopoietic stem cells treatment has demonstrated immunological and clinical efficacy. This article reviews the biology, clinical presentation, diagnosis and treatment of ADA-deficiency.

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Estimating the Endotracheal Tube Insertion Depth in Newborns Using Weight or Gestation: A Randomised Trial

Flinn¹,

Travers²,

Laffan

et al. 2015

Neonatology

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Background: When intubating newborns, clinicians aim to place the tip of the endotracheal tube (ETT) in the mid-trachea. Clinicians usually estimate the ETT insertion depth based on weight. ETT tips are often incorrectly positioned in newborns. Estimating the insertion depth based on gestation may be more accurate. Objective: To determine whether estimating the ETT insertion depth using gestation, compared to weight, results in more correctly placed ETTs. Methods: Newborn infants without congenital anomalies who were intubated orally were randomised to having their ETT insertion depth estimated using weight [insertion depth (cm) = weight (kg) + 6] or gestation [value determined from a table]. The primary outcome was correct ETT position, defined as an ETT tip between the upper border of the first thoracic vertebra (T1) and the lower border of the second thoracic vertebra (T2) on a chest X-ray. The primary outcome was determined by one paediatric radiologist who was masked to group assignment. Results: Ninety infants were enrolled and the groups were well matched. The proportion of correctly placed ETTs was not significantly different between the groups [weight, 25/49 (51%), vs. gestation, 16/41 (39%), p = 0.293]. We found no significant differences in the secondary outcomes measured. Conclusion: Estimating the ETT insertion depth in newborns using gestation compared to weight did not result in more correctly placed ETTs.

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Improved transplant survival and long-term disease outcome in children with MHC class II deficiency

Lum

Anderson

McNaughton

et al. 2020

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MHC class II deficiency is a rare, but life-threatening, primary combined immunodeficiency. Hematopoietic cell transplantation (HCT) remains the only curative treatment for this condition, but transplant survival in the previously published result was poor. We analyzed the outcome of 25 patients with MHC class II deficiency undergoing first HCT at Great North Children's Hospital between 1995 and 2018. Median age at diagnosis was 6.5 months (birth to 7.5 years). Median age at transplant was 21.4 months (0.1-7.8 years). Donors were matched family donors (MFDs; n = 6), unrelated donors (UDs; n = 12), and haploidentical donors (HIDs; n = 7). Peripheral blood stem cells were the stem cell source in 68% of patients. Conditioning was treosulfanbased in 84% of patients; 84% received alemtuzumab (n = 14) or anti-thymocyte globulin (n = 8) as serotherapy. With a 2.9-year median follow-up, OS improved from 33% (46-68%) for HCT before 2008 (n = 6) to 94% (66-99%) for HCT after 2008 (n = 19; P = .003). For HCT after 2008, OS according to donor was 100% for MFDs and UDs and 85% for HIDs (P = .40). None had grade III-IV acute or chronic graft-versus-host disease. Latest median donor myeloid and lymphocyte chimerism were 100% (range, 0-100) and 100% (range, 64-100), respectively. Latest CD4+ T-lymphocyte number was significantly lower in transplant survivors (n = 14) compared with posttransplant disease controls (P = .01). All survivors were off immunoglobulin replacement and had protective vaccine responses to tetanus and Haemophilus influenzae. None had any significant infection or autoimmunity. Changing transplant strategy in Great North Children's Hospital has significantly improved outcomes for MHC class II deficiency.

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Neonatal thymectomy in children—accelerating the immunologic clock?

Deyà‐Martínez

Flinn

Gennery

2020

Journal of Allergy and Clinical Immunology

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The thymus is critical for central tolerance and diverse T-lymphocyte repertoire development, to provide lifelong defense against pathogens while maintaining self-tolerance. Peak thymic output occurs in utero, during infancy, and in early childhood, diminishing throughout life. Infants with congenital heart disease requiring sternotomy often undergo thymectomy to clear the surgical field. The long-term effects of early thymectomy are just being appreciated. Many patients remain asymptomatic despite immunologic findings mirroring those of immunosenescence. Few develop increased infection or lymphoreticular malignancy risk. When considering the effects of infant thymectomy, patients with partial DiGeorge syndrome or hypomorphic recombinationactivating gene (RAG) mutations may be instructive. These patients are lymphocytopenic, with increased early-onset infection and autoimmunity risk that is not seen in most patients who underwent thymectomy during infancy. The thymic structure of patients with partial DiGeorge syndrome or hypomorphic RAG is abnormal, with disrupted architecture inclining to perturbation of central tolerance. Similar findings may be seen in patients with myasthenia gravis, although disrupted peripheral tolerance may play a greater role in autoimmunity development. In conclusion, thymectomy during infancy may increase future risk of infection or autoimmunity, with premature immunosenescence mediated through disruption of central and peripheral tolerance mechanisms initiated by early cessation or diminution of thymic output. Ideally, some thymic tissue should be preserved at the time of surgery.

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Aisling M. Flinn

Adenosine deaminase deficiency: a review

Estimating the Endotracheal Tube Insertion Depth in Newborns Using Weight or Gestation: A Randomised Trial

Improved transplant survival and long-term disease outcome in children with MHC class II deficiency

Neonatal thymectomy in children—accelerating the immunologic clock?

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