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There is limited information regarding
There is limited information regarding hyperargininemia incidence or prevalence. Reports of incidence vary by an order of magnitude: 0.5 to 5.0 per million [5], [6]. A relatively large U.S. study estimated 1.1 cases per million births [7], but it used an indirect methodology that introduces uncertainty about the precision of the result.
The advent of expanded newborn bloodspot screening (NBS) for amino gnrh antagonist disorders using tandem mass spectrometry (MS/MS) includes the possibility to determine arginine levels, thus allowing for the detection of increased risk for hyperargininemia at or near birth. The overlap between normal arginine levels in affected and unaffected newborns is sufficiently great so that determining optimal arginine cutoff levels in NBS is problematic. The goal of laboratory algorithms used in NBS is to minimize or eliminate late diagnosed (missed) cases (false negatives) while reducing unnecessary follow-up (false positives). Because MS/MS simultaneously detects many amino acids, the possibility for assessing various amino acid ratios as a second-tier screening strategy exists. Such ratios have been found useful in improving screening algorithm efficiency for some screened conditions [8], [9], including use of the arginine to ornithine ratio (Arg/Orn) for hyperargininemia [10]. The utilization of other individual amino acid ratios [e.g. Arginine to Alanine (Arg/Ala), Arginine to Phenylalanine (Arg/Phe), Citrulline to Arginine (Cit/Arg), etc.] are also possible and provide additional variables for consideration in establishing the most effective screening algorithm.
While NBS is widely acknowledged as a critical public health prevention strategy [11], currently capable of identifying in excess of 50 different congenital inherited disorders including hyperargininemia, a national newborn screening requirement does not exist in the U.S. Instead NBS is state-based with national recommendations provided by the Secretary of Health and Human Services in consultation with an Advisory Committee on Heritable Disorders in Newborns and Children (ACHDNC; previously called the SACHDNC) tasked with providing real time analysis of the national screening situation. In 2005, the SACHDNC accepted a report from the American College of Medical Genetics and Genomics (ACMGG), which included a Recommended Uniform Screening Panel (RUSP) to be considered for implementation by each state screening program [12], [13], and recommended its implementation by the Secretary. The RUSP was originally developed using an empirical scoring system and included both ‘core’ and ‘secondary’ conditions depending on treatability, screening test availability, family benefits, and other relevant information available at the time [12]. The Secretary accepted the SACHDNC recommendation and the RUSP now strongly influences the conditions included in state screening mandates, particularly the core conditions. A formal nomination and evidence review process has since evolved for nominating and adding conditions to the RUSP [14], [15]. Part of this process involves assessment of public health impact and readiness to include the proposed condition.
Methods
To evaluate the validity of the various hyperargininemia screening algorithms reported by state NBS programs (i.e. Arg cutoffs and second-tier amino acid ratios), we analyzed newborn screening data from California on newborns screened from July 2005 through December 2015 (n=5.4M). Preliminary to a broader data analysis we first evaluated archived laboratory data for the 9 confirmed cases of hyperargininemia diagnosed from newborn screening during this time period in order to determine the detection capability of the screening algorithms. Specifically, we used ratio data for six different amino acids (Arg, Cit, Orn, Ala, Phe, Leu) in combination with various Arg cutoff levels. For an additional comparison, we used the analysis tool (Tool Runner) available as part of the international MS/MS database, Region 4 Stork (R4S). Further, we approximated the impact on follow-up that might result if various combinations of Arg cutoffs, Arg cutoffs in combination with various amino acid ratio cutoffs, and the R4S Tool Runner were used by applying each combination to the 2015 California newborn screening data (n=486,591).