Cailynn Johnson

Cailynn Johnson added blog Health
2025-03-25 05:22:31 -

Engineered phages for biofilm removal applications
Engineered phages for biofilm removal applications are emerging as a powerful solution to combat persistent bacterial biofilms, which are resistant to traditional antibiotics. By modifying bacteriophages to target biofilm-associated bacteria, this technology effectively disrupts and eliminates biofilms in medical, industrial, and environmental settings. Engineered phages offer a precise,...

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Cailynn Johnson added blog Health
2025-03-25 05:21:38 -

Phage technology for tumor-targeting drug development
Phage technology for tumor-targeting drug development is revolutionizing cancer therapy by enabling precise delivery of therapeutic agents to tumor sites. Bacteriophages can be engineered to display peptides that specifically bind to cancer cells, improving drug targeting and reducing off-target effects. This approach enhances the efficacy and safety of treatments like chemotherapy and...

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Cailynn Johnson added blog Health
2025-03-25 05:20:58 -

Bacteriophage-based inorganic materials synthesis
Bacteriophage-based inorganic materials synthesis is an innovative approach that leverages the unique properties of phages to create advanced materials. By genetically engineering phages to bind specific inorganic particles, researchers can produce nanomaterials with precise structures and functions. This method is used in applications like biosensors, energy storage, and medical devices....

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Cailynn Johnson added blog Health
2025-03-25 05:20:22 -

Detection of bacteriophages in environmental samples
Detection of bacteriophages in environmental samples is a critical step in understanding their role in ecosystems and their potential applications in biotechnology and medicine. This process involves isolating and identifying phages from diverse sources like soil, water, and wastewater. Advanced techniques such as PCR, sequencing, and plaque assays are used to detect and characterize these...

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Cailynn Johnson added blog Health
2025-03-25 05:19:25 -

Neuronal plasticity assay for neuroscience research
Neuronal plasticity assay for neuroscience research is a powerful tool to study the brain’s ability to adapt and rewire itself. These assays evaluate synaptic strength, dendritic spine dynamics, and long-term potentiation (LTP) in response to stimuli. By analyzing these processes, researchers gain insights into learning, memory, and recovery from neurological injuries. Neuronal...

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Cailynn Johnson added blog Health
2025-03-25 05:18:39 -

Fragile X syndrome in vitro assay models
Fragile X syndrome in vitro assay models are essential for understanding the genetic and cellular mechanisms underlying this neurodevelopmental disorder. These assays use patient-derived cells or genetically modified models to study synaptic dysfunction, neuronal connectivity, and molecular pathways. By providing a controlled environment for testing potential therapies, they help identify...

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Cailynn Johnson added blog Health
2025-03-25 05:18:01 -

Epilepsy in vitro assay for drug screening
Epilepsy in vitro assay for drug screening is a vital tool for identifying potential therapies to manage and treat seizures. These assays use neuronal cultures to model epileptic activity, allowing researchers to test the efficacy and safety of new compounds. By analyzing factors like neuronal excitability and synaptic function, these assays provide insights into the mechanisms of...

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Cailynn Johnson added blog Health
2025-03-25 05:17:22 -

Ischemic stroke in vitro assay models
Ischemic stroke in vitro assay models are critical for studying the mechanisms of brain damage and testing potential neuroprotective therapies. These assays simulate ischemic conditions in a controlled environment, allowing researchers to evaluate cell viability, oxidative stress, and inflammatory responses. By providing detailed insights into the cellular and molecular effects of stroke, these...

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Cailynn Johnson added blog Health
2025-03-25 05:16:40 -

Duchenne muscular dystrophy in vitro assays
Duchenne muscular dystrophy in vitro assays are essential tools for studying disease mechanisms and evaluating potential therapies. These assays use cell-based models to assess muscle cell function, gene expression, and drug efficacy in a controlled environment. They provide valuable insights into the molecular and cellular pathways involved in DMD, helping researchers identify novel...

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Cailynn Johnson added blog Health
2025-02-20 07:25:03 -

iPSC Research: Enhanced Characterization and Reprogramming Techniques
Scientists continue to make progress with induced pluripotent stem cells (iPSCs), which have the potential to transform medicine due to their capacity to develop into numerous types of cells that can be employed for treatment. Reprogramming somatic cells to induce iPSCs has provided great value, which can be developed into a variety of tissue types. Researchers now have the resources they need...

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