RESUMO
Hyperammonemic encephalopathy (he) is a rare complication of malignancy and chemotherapy. Although the cause of he is unclear, a functional arginine deficiency secondary to increased catabolism has been suggested as a possible mechanism. Either that deficiency or an undetermined metabolite could lead to inhibition of N-acetylglutamate synthase (nags), a urea cycle enzyme, resulting in hyperammonemia. We present a case of chemotherapy-induced he in a patient with no underlying primary urea cycle disorder. The patient had a successful trial of carglumic acid (a synthetic analog of the product of nags), which suggests that, at least in some cases, he can be treated by overcoming proximal inhibition of the urea cycle. Further, our case is the first in the literature to exclude genetic defects and disorders of the proximal urea cycle, suggesting that hyperammonemia in these patients is probably secondary to chemotherapy.
RESUMO
BACKGROUND: Hemoglobinopathies include thalassemia syndromes, where production of one or more globin subunits of hemoglobin (Hb) is reduced, and structural Hb variants. Over 1000 disorders of Hb synthesis and/or structure have been identified and characterized, with phenotypes ranging from having severe clinical manifestations to clinically silent. Various analytical methods are used to phenotypically detect Hb variants. However, molecular genetic analysis is a more definitive method for Hb variant identification. CASE REPORT: Here, we report a case of a 23-month-old male with results from capillary electrophoresis, gel electrophoresis (acid and alkaline), and high-performance liquid chromatography most consistent with HbS trait. Specifically, capillary electrophoresis showed slightly elevated HbF and HbA2, HbA of 39.4% and HbS of 48.5%. The HbS percentage was consistently higher than expected (typically 30-40%) for HbS trait with no concurrent thalassemic indices. The patient has not experienced any clinical complications due to the hemoglobinopathy and he is thriving. CONCLUSION: Molecular genetic analysis revealed the presence of compound heterozygosity for HbS and Hb Olupona. Hb Olupona is an extremely rare beta-chain variant that appears as HbA on all three common methods used for phenotypic Hb analysis. When the fractional concentration of Hb variants is unusual, more definitive methods should be used, such as mass spectrometry or molecular genetic testing. In this case, incorrectly reporting this result as HbS trait is unlikely to have a significant clinical impact, as current evidence suggests Hb Olupona is not a clinically significant variant.