TABLE 2.
Suggested screening for inborn errors of metabolism (IEM) according to clinical suspicion
| The clinical similarities between many IEM makes it appropriate to cast a wide net as part of initial screening*.26 The first step should involve a review of newborn dried blood spot results (screened disorders vary among health systems). Thereafter, appropriate tests, depending on clinical suspicion, may include: |
| Suspected small molecule “intoxication” disorder |
| Serum ammonia level (may be normal outside of crises, especially in partial deficiency). |
| Urine organic acid analysis (detection of organic acidemias and some fatty acid oxidation defects) |
| Plasma and urine amino acids |
| Serum lactate |
| Suspected small molecule “energy deficit” disorder |
| Serum ketones and glucose (often both low during acute FAOD presentations) |
| Serum free fatty acids (FAOD) |
| Plasma acylcarnitine profile and serum free and total carnitines (low in disorders of carnitine transport) |
| Serum lactate:pyruvate ratio taken 1 hour after feeding (mitochondrial respiratory chain defects)27 |
| Cerebrospinal fluid lactate, pyruvate, amino acids and protein27 |
| Serum thymidine (especially in MNGIE)27 |
| mtDNA genetic testing |
| Tissue analysis may be necessary to seal the diagnosis27 |
| Suspected disorder of “complex molecule” metabolism |
| Lysosomal enzyme testing (most lysosomal storage disorders) |
| Plasma oxysterols (Niemann Pick type C) |
| Serum very long chain fatty acid, pristanic acid and phytanic acid analyses (peroxisomal disorders) |
*
Many of these tests are optimally performed after an overnight fast.26 Testing should be interpreted by a metabolic specialist, as it is oftentimes the pattern of abnormality, rather than the absolute individual values, which suggest the diagnosis.28
IEM, Inborn errors of metabolism; FAOD, fatty acid oxidation defects; MNGIE, mitochondrial neurogastrointestinal encephalopathy; mtDNA, mitochondrial DNA.