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Cefepime‐induced encephalopathy: Neural mass modeling of triphasic wave‐like generalized periodic discharges with a high negative component (Tri‐HNC)
Author(s) -
Tamune Hidetaka,
Hamamoto Yu,
Aso Naofumi,
Yamamoto Naoki
Publication year - 2019
Publication title -
psychiatry and clinical neurosciences
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.609
H-Index - 74
eISSN - 1440-1819
pISSN - 1323-1316
DOI - 10.1111/pcn.12795
Subject(s) - cefepime , electroencephalography , neuroscience , interneuron , gabaergic , psychology , encephalopathy , medicine , anesthesia , audiology , inhibitory postsynaptic potential , chemistry , biochemistry , antibiotic resistance , imipenem , antibiotics
Aim Cefepime, a fourth‐generation cephalosporin, acts as a GABA A receptor antagonist. Cefepime‐induced encephalopathy (CIE) is frequently overlooked. We aimed to clarify the clinical features, characteristic electroencephalography (EEG), and mechanisms of CIE to aid in its early recognition. Methods CIE cases documented by a single‐center consultation–liaison team between April 2015 and March 2017 were retrospectively reviewed. For further investigation, neural mass modeling was performed in silico.Results Three patients with CIE refused medication/examination and showed overt pain, palilalia, and much greater deterioration of eye and verbal response than the motor response, which was possibly related to GABAergic dysfunction. Triphasic wave‐like generalized periodic discharges with a high negative component (Tri‐HNC) were identified on the EEG of all three cases. The simulation reproduced the characteristic feature of 2–3 Hz Tri‐HNC and recovery course on EEG, and a possible involvement of individual differences in pharmacological intervention. It also suggested that auto‐inhibition (synaptic inputs from interneuron to interneuron) dysregulation contributed to generating Tri‐HNC in CIE. Conclusion As CIE is iatrogenic and continues unless cefepime is stopped, early recognition is crucial. Physicians should be vigilant about altered mental status, pain, and verbal changes in patients taking cefepime. Tri‐HNC on EEG can expedite the diagnosis of CIE, and the association between Tri‐HNC and CIE suggests that an excitatory and inhibitory imbalance due to the dysfunction of GABAergic interneurons is the underlying mechanism. This modeling may offer a new method of investigating disorders related to GABAergic dysfunction.