The department runs specialized clinics for epilepsy management and autoimmune neurological diseases, utilizing state-of-the-art EEG monitoring and neuro-imaging.
Utilizing sophisticated Transcranial Doppler Sonography, teams analyze hemodynamic changes and autoregulatory functions in patients with internal carotid artery stenosis to better predict and prevent ischemic events. 2. Neurodegenerative and Cognitive Disorders neurology semmelweis
Semmelweis hypothesized that "cadaverous particles"—invisible bits of dead matter—were being transmitted from the hands of the students to the mothers. He called this substance "decomposing animal organic matter." The discovery of the role of bacteria in
For students at the Department of Neurology, a report must follow a structured medical format to be accepted by senior instructors. In his division (the First Clinic)
In the late 19th and early 20th centuries, neurologists such as Louis Pasteur, Robert Koch, and Jean-Martin Charcot built on Semmelweis's discoveries to develop new treatments and understandings of neurological disorders. The discovery of the role of bacteria in causing diseases such as meningitis, encephalitis, and neurosyphilis revolutionized the field of neurology.
Historically, Hungarian neurologists have made significant contributions to the understanding of the human brain. The department has preserved this legacy, fostering an environment where clinical practice and academic research go hand in hand. Walking through the halls of the university, you are following in the footsteps of giants who helped map the complexities of the nervous system.
Semmelweis, a young Hungarian doctor recently appointed as an assistant in the First Obstetrical Clinic, was a man of data, not superstition. He noticed a statistical anomaly that haunted him. In his division (the First Clinic), where medical students were trained, the mortality rate was often 10% to 15%. But just across the hall in the Second Clinic, where midwives were trained, the death rate was usually under 2%.