Zan Ahmad

Postgraduate Research Associate

I recently received a Bachelor's in Mathematics from NYU in December 2020. I worked on research focused on mathematical models and simulations of physiological systems under Dr. Charles S. Peskin and Dr. Charles Puelz.

I currently work as a computational neuroscience research associate at Yale School of Medicine in the Hal Blumenfeld Lab where I perform quantitative analysis of EEG recordings to distinguish between different seizure types.

Simulations

Action Potential Simulations
Trampoline Simulations

Reports

Increased Intracranial EEG Power and Duration in Medial Temporal Lobe Seizures with Impaired Consciousness

Feedback Regulation of Blood Pressure in a Pulsatile Heart Model

Mechanisms of Impaired Consciousness in Medial Temporal Lobe Seizures Investigated with Intracranial EEG

Mathematical Model for Optimally Fenestrated Fontan Circulation

Action Potential Propagation in Branched Cable Network

Optimal Fenestration of the Fontan Circulation in Patients with Hypoplastic Left Heart Syndrome

Optimal Fenestration of the Fontan Circulation in Patients with Hypoplastic Left Heart Syndrome

Simulation of Circulation Response to Gravitational Changes During Spaceflight

Presentations

Simulation of Circulation Response to Accelerational Forces During Spaceflight

Optimal Fenestration of the Fontan Circulation

Mathematical Modeling of Cardiac Circulation Under Hypergravity

Increased Intracranial EEG Power and Duration in Medial Temporal Lobe Seizures with Impaired Consciousness

Feedback Regulation of Blood Pressure in a Pulsatile Heart Model

Mechanisms of Impaired Consciousness in Medial Temporal Lobe Seizures Investigated with Intracranial EEG

Mathematical Model for Optimally Fenestrated Fontan Circulation

Action Potential Propagation in Branched Cable Network

Optimal Fenestration of the Fontan Circulation in Patients with Hypoplastic Left Heart Syndrome