The aim of the research was to define the role of MRS and ABR as early predictors of bilirubin-induced neurologic dysfunction (BIND) in full-term neonates who required intervention (phototherapy or exchange transfusion).
Neonatal jaundice is a prevalent condition. It's typically a harmless phase that occurs as the body adjusts to bilirubin levels after birth, representing a balance between its production and elimination. When there's an increase in bilirubin production and a decrease in elimination, infants become at risk for dangerous hyperbilirubinemia, potentially leading to bilirubin encephalopathy. The range of neurological issues caused by excessive bilirubin is referred to as bilirubin-induced neurologic dysfunction. Detecting this condition early is crucial to prevent irreversible brain damage. Some of the neurological effects include gliosis, demyelination, and interference with glutamate uptake by astrocytes in the basal ganglia. Magnetic resonance spectroscopy (MRS) is an advanced imaging technique that holds promise for identifying these metabolic changes and aiding in the diagnosis and evaluation of neonates with hyperbilirubinemia. Bilirubin neurotoxicity particularly affects the auditory system, starting with the brainstem cochlear nuclei, followed by the auditory nerve. This damage can occur even without the classic signs of bilirubin encephalopathy and is known as auditory neuropathy spectrum disorder (ANSD). ANSD is characterized by abnormal auditory neural function, while cochlear microphonics and otoacoustic emissions remain normal. The impact on hearing can vary from subtle issues in sound processing to complete deafness. Abnormal results in auditory brainstem response (ABR) tests can indicate the presence of acute bilirubin encephalopathy (ABE), serving as the most common and earliest sign of ABE.
Study Type
OBSERVATIONAL
Enrollment
76
Magnetic Resonance Spectroscopy and Auditory Brain- stem Response Audiometry
faculty of medicine,Tanta University
Tanta, Q2x2+cp Tanta 2, Egypt
Early detection of neurological abnormalities using MRS metabolic ratios in high-risk neonates without oblivious clinical signs
Early detection of neurological abnormalities in high-risk neonates, without oblivious clinical signs, chemically by using MRS metabolic ratio ( low NAA/Cr, NAA/Cho ratios, and high Lac/Cr ratio).
Time frame: 2 years
Early detection of neurological abnormalities using ABR parameters in high-risk neonates without oblivious clinical signs
Early detection of neurological abnormalities in high-risk neonates, without oblivious clinical signs, functionally through ABR parameters ( prolonged wave III peak latency, wave V peak latency, I-III interpeak interval, and I-V interpeak interval )
Time frame: 2 years
Bilirubin level and auditory abnormality
Finding out the lowest level of total serum bilirubin at which auditory pathway abnormality was found, in comparison to age.
Time frame: 2 years
Bilirubin level and MRS abnormality
Finding out the lowest level of total serum bilirubin at which MRS abnormalities were found, in comparison to age.
Time frame: 2 years
Discriminative capacity of MRS for acute bilirubin encephalopathy
Determining the discriminative capacity of MRS metabolic ratios (NAA/Cr and NAA/Cho) for neonates with acute bilirubin encephalopathy and those without it with identification of the cutoff value those ratios at which acute bilirubin encephalopathy is present.
Time frame: 2 years
Discriminative capacity of ABR for acute bilirubin encephalopathy
Determining the discriminative capacity of ABR wave latencies and interpeak intervals abnormalities for neonates with acute bilirubin encephalopathy and those without it with identification of the cutoff value those latencies and intervals at which acute bilirubin encephalopathy is present.
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Time frame: 2 years