GO TO
Test By Category

Adenosine Deaminase Deficiency via the ADA Gene

Order Options and Pricing

START
Custom Panels

Summary and Pricing

Test Method

Sequencing and CNV Detection via NextGen Sequencing using PG-Select Capture Probes

Reflex to PGxome
AVAILABLE FOR THIS PANEL

Test Code	Test Copy Genes	Test CPT Code	Gene CPT Codes Copy CPT Codes	Base Price
ADA	81479	81479,81479	$990

Test Code	Test Copy Genes	Test CPT Code	Gene CPT Codes Copy CPT Code	Base Price
7563	ADA	81479	81479,81479	$990	Order Options and Pricing

EMAIL CONTACTS

Genetic Counselors

Genetic Counselor Team

Geneticist

Megan Piazza, PhD, FACMG

Pricing Comments

Testing run on PG-select capture probes includes CNV analysis for the gene(s) on the panel but does not permit the optional add on of exome-wide CNV analysis. Any of the NGS platforms allow reflex to other clinically relevant genes, up to whole exome or whole genome sequencing depending upon the base platform selected for the initial test.

An additional 25% charge will be applied to STAT orders. STAT orders are prioritized throughout the testing process.

This test is also offered via a custom panel (click here) on our exome or genome backbone which permits the optional add on of exome-wide CNV or genome-wide SV analysis.

Turnaround Time

3 weeks on average for standard orders or 2 weeks on average for STAT orders.

Please note: Once the testing process begins, an Estimated Report Date (ERD) range will be displayed in the portal. This is the most accurate prediction of when your report will be complete and may differ from the average TAT published on our website. About 85% of our tests will be reported within or before the ERD range. We will notify you of significant delays or holds which will impact the ERD. Learn more about turnaround times here.

Targeted Testing

For ordering sequencing of targeted known variants, go to our Targeted Variants page.

EMAIL CONTACTS

Genetic Counselors

Genetic Counselor Team

Geneticist

Megan Piazza, PhD, FACMG

Clinical Features and Genetics

Indications for Test

Ideal candidates have biochemical testing showing absence of ADA enzymatic activity in red blood cells. Flow cytometric analysis demonstrating depletion of T-, B-, and natural killer cell lineages differentiates ADA-SCID from other SCID subtypes (Hershfield et al. 2011). Testing is especially recommended for any newborns identified in T-cell receptor excision circles (TRECs) screening (La Marca et al. 2013). Carrier testing is available for individuals with a family history of the disease. This test may also be considered for the reproductive partners of individuals who carry pathogenic variants in ADA.

Clinical Features

Adenosine deaminase (ADA) deficiency is a systemic purine metabolic disorder. The clinical severity is variable and dictated by the degree of ADA dysfunction (Arredondo-Vega et al. 1998). Severe ADA deficiency is the most common form with disease onset by six months. Patients have loss of lymphoid tissues (tonsils, lymph nodes), severe combined immunodeficiency (SCID), persistent infections and fail to thrive. Symptom onset typically coincides with decreases in material immunoglobulin levels within the affected infant. About 15% of children with ADA deficiency have delayed onset with symptoms occurring after six months but during the first few years of life. Undiagnosed individuals may survive into the first decade of life but recurrent respiratory infections become more prevalent as affected individuals age. Partial ADA deficiency is a benign form of the disease with patients retaining between 2-50% of normal protein function (Hershfield et al. 2011).

Genetic testing is helpful in differential diagnosis of various SCID disease subtypes. Symptoms of ADA deficiency are also similar to purine nucleoside phosphorylase deficiency. Therefore, an accurate diagnosis is critical for employing the appropriate therapeutics. Enzyme replacement therapy, gene therapy and hematopoietic stem cell transplant have been used to restore T-cell and B-cell function in patients with ADA deficiency (Gaspar et al. 2009; Candotti et al. 2012).

Genetics

ADA deficiency is inherited in an autosomal recessive manner through causative mutations in the ADA gene. ADA deficiency affects an estimated one in 200,000 individuals. To date, mutations in the ADA gene are the lone cause for ADA deficiency (Hershfield et al. 2011). However, mutations in several other genes including RAG1, RAG2, IL2RG, JAK3, DLRE1C, IL7R, CD3D, CD3E, and ZAP70 cause SCID (Piirilä et al. 2006). The distribution of pathogenic variants is about 60% missense, 20% splicing, 9% small indels, 7% nonsense, and 3% large deletions (Santisteban et al. 1993; Santisteban et al. 1995; Arredondo-Vega et al. 1998). Null mutations include non-sense and frame-shift mutations. Deletions are indicative of severe forms of ADA deficiency. Somatic mosaicism has been reported leading to monoallelic reversion of pathogenic mutations and gradual improvements in ADA activity with age (Moncada-Vélez et al. 2011; Arredondo-Vega et al. 2002). Adenosine deaminase is a purine salvage enzyme that catalyzes deoxydenosine and adenosine to deoxyinosin and inosine respectively. Loss of ADA activity results in the accumulation of both deoxyinosine and deoxyadenosinetriphosphate which have deleterious effects in lymphocytes at elevated levels (Hershfield et al. 2011).

Clinical Sensitivity - Sequencing with CNV PG-Select

Mutations in the ADA gene are the only known causes of ADA deficiency. Sequencing is able to detect >95% of mutations (Piirilä et al. 2006). ADA deficiency is responsible for about 15% of all SCID cases.

Testing Strategy

This test provides full coverage of all coding exons of the ADA gene, plus ~10 bases of flanking noncoding DNA. We define full coverage as >20X NGS reads or Sanger sequencing.

Indications for Test

Gene

Official Gene Symbol	OMIM ID
ADA	608958

Inheritance	Abbreviation
Autosomal Dominant	AD
Autosomal Recessive	AR
X-Linked	XL
Mitochondrial	MT

Disease

Name	Inheritance	OMIM ID
Severe Combined Immunodeficiency Due To Ada Deficiency	AR	102700

Related Test

Name
Familial Hemophagocytic Lymphohistiocytosis (FHL) Panel

Citations

Arredondo-Vega FX, Santisteban I, Daniels S, Toutain S, Hershfield MS. 1998. Adenosine deaminase deficiency: genotype-phenotype correlations based on expressed activity of 29 mutant alleles. Am. J. Hum. Genet. 63: 1049�1059. PubMed ID: 9758612
Candotti F, Shaw KL, Muul L, Carbonaro D, Sokolic R, Choi C, Schurman SH, Garabedian E, Kesserwan C, Jagadeesh GJ, Fu P-Y, Gschweng E, et al. 2012. Gene therapy for adenosine deaminase-deficient severe combined immune deficiency: clinical comparison of retroviral vectors and treatment plans. Blood 120: 3635�3646. PubMed ID: 22968453
Gaspar HB, Aiuti A, Porta F, Candotti F, Hershfield MS, Notarangelo LD. 2009. How I treat ADA deficiency. Blood 114: 3524�3532. PubMed ID: 19638621
Hershfield M. 2011. Adenosine Deaminase Deficiency. In: Pagon RA, Adam MP, Bird TD, Dolan CR, Fong C-T, Smith RJ, and Stephens K, editors. GeneReviews�, Seattle (WA): University of Washington, Seattle. PubMed ID: 20301656
La Marca G, Canessa C, Giocaliere E, Romano F, Duse M, Malvagia S, Lippi F, Funghini S, Bianchi L, Della Bona ML, Valleriani C, Ombrone D, et al. 2013. Tandem mass spectrometry, but not T-cell receptor excision circle analysis, identifies newborns with late-onset adenosine deaminase deficiency. J. Allergy Clin. Immunol. 131: 1604�1610. PubMed ID: 23280131
Moncada-V�lez M, V�lez-Ortega A, Orrego J, Santisteban I, Jagadeesh J, Olivares M, Olaya N, Hershfield M, Candotti F, Franco J. 2011. Somatic mosaicism caused by monoallelic reversion of a mutation in T cells of a patient with ADA-SCID and the effects of enzyme replacement therapy on the revertant phenotype. Scand. J. Immunol. 74: 471�481. PubMed ID: 21671975
Piiril� H, V�liaho J, Vihinen M. 2006. Immunodeficiency mutation databases (IDbases). Hum. Mutat. 27: 1200�1208. PubMed ID: 17004234
Santisteban I, Arredondo-Vega FX, Kelly S, Debre M, Fischer A, P�rignon JL, Hilman B, elDahr J, Dreyfus DH, Gelfand EW. 1995. Four new adenosine deaminase mutations, altering a zinc-binding histidine, two conserved alanines, and a 5� splice site. Hum. Mutat. 5: 243�250. PubMed ID: 7599635
Santisteban I, Arredondo-Vega FX, Kelly S, Mary A, Fischer A, Hummell DS, Lawton A, Sorensen RU, Stiehm ER, Uribe L. 1993. Novel splicing, missense, and deletion mutations in seven adenosine deaminase-deficient patients with late/delayed onset of combined immunodeficiency disease. Contribution of genotype to phenotype. J. Clin. Invest. 92: 2291�2302. PubMed ID: 8227344

Ordering/Specimens

Ordering Options

We offer several options when ordering sequencing tests. For more information on these options, see our Ordering Instructions page. To view available options, click on the Order Options button within the test description.

myPrevent - Online Ordering

The test can be added to your online orders in the Summary and Pricing section.
Once the test has been added log in to myPrevent to fill out an online requisition form.
PGnome sequencing panels can be ordered via the myPrevent portal only at this time.

Requisition Form

A completed requisition form must accompany all specimens.
Billing information along with specimen and shipping instructions are within the requisition form.
All testing must be ordered by a qualified healthcare provider.

For Requisition Forms, visit our Forms page

If ordering a Duo or Trio test, the proband and all comparator samples are required to initiate testing. If we do not receive all required samples for the test ordered within 21 days, we will convert the order to the most effective testing strategy with the samples available. Prior authorization and/or billing in place may be impacted by a change in test code.

Specimen Types

Specimen Requirements and Shipping Details

ORDER OPTIONS

View Ordering Instructions

1) Select Test Type

Patient Only

2) Select Additional Test Options

STAT Testing - adds 25% to price. Tests will run concurrently unless otherwise instructed.

Total Price:

Show Patient Prompt Pay Price

Accept and Add to Cart