Epiloid's Services
Epiloid's Services
Automated Electrographic Analysis
Automated Electrographic Analysis
Technique
Phase-amplitude cross-frequency coupling (PAC) is a method used in neuroscience research to study the interactions between different frequency components of neural oscillations in the brain. In the context of understanding mood disorders and depression, PAC analysis can provide valuable insights into the underlying neural mechanisms.
Outcome
Our organoid research and analysis has shown that patient-derived organoids retain the cross-frequency coupling patterns that resemble the original patient brain and disease states. This gives us powerful insight into how new therapeutics change the underlying disease on a functional level.
Outcome
Our organoid research and analysis has shown that patient-derived organoids retain the cross-frequency coupling patterns that resemble the original patient brain and disease states. This gives us powerful insight into how new therapeutics change the underlying disease on a functional level.
Technique
Phase-amplitude cross-frequency coupling (PAC) is a method used in neuroscience research to study the interactions between different frequency components of neural oscillations in the brain. In the context of understanding mood disorders and depression, PAC analysis can provide valuable insights into the underlying neural mechanisms.
Neurotoxicity
Ensuring safety is paramount in pharmaceutical development. Our neurotoxicity measures assess the potential adverse effects of drugs on neuronal function and viability, enabling early detection of potential safety concerns and facilitating informed decision-making throughout the drug development process.
Ensuring safety is paramount in pharmaceutical development. Our neurotoxicity measures assess the potential adverse effects of drugs on neuronal function and viability, enabling early detection of potential safety concerns and facilitating informed decision-making throughout the drug development process.
Neurotoxicity
Ensuring safety is paramount in pharmaceutical development. Our neurotoxicity measures assess the potential adverse effects of drugs
on neuronal function and viability, enabling early detection of potential
safety concerns and facilitating informed decision-making throughout the drug development process.
Mitochondrial Function
Mitochondrial Function
Leveraging the cutting-edge Seahorse analyzer technology, we offer precise mitochondrial function assays to evaluate the impact of pharmaceutical compounds on cellular energy metabolism. By assessing mitochondrial health and function, we provide critical insights into drug-induced neurotoxicity and neuroprotective effects, guiding the development of safer and more effective therapies.
Leveraging the cutting-edge Seahorse analyzer technology, we offer precise mitochondrial function assays to evaluate the impact of pharmaceutical compounds on cellular energy metabolism. By assessing mitochondrial health and function, we provide critical insights into drug-induced neurotoxicity and neuroprotective effects, guiding the development of safer and more effective therapies.
In addition to our core offerings, we provide Immunohistochemistry,
Western Blot Analysis, Mass Spectrometry, Next-Generation Sequencing
(RNASeq), and 2D Cell Cultures.
In addition to our core
offerings, we provide
Immunohistochemistry,
Western Blot Analysis,
Mass Spectrometry,
Next-Generation
Sequencing (RNASeq),
and 2D Cell Cultures.
