Product References — Animal Serum

Heat Inactivation: What it is and Why Researchers May Use It

Posted by Adam Awdish on

Heat Inactivation: What it is and Why Researchers May Use It

In the realm of in vitro biological research, ensuring the integrity and consistency of samples is paramount. Serum and plasma, while rich sources of biomolecules, can harbor active enzymes that pose challenges in downstream experiments or assays, impacting the data and results. Heat inactivation presents a well-established technique to address this issue by selectively deactivating these enzymes. The Rationale for Heat Inactivation Enzymes, naturally present within serum and plasma, can introduce unintended enzymatic activity during experimentation. This activity may lead to the degradation of essential components within the sample or trigger unwanted reactions, compromising the validity of results. Heat inactivation...

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Top 5 Biologicals to Buy Right Now

Posted by Adam Awdish on

Top 5 Biologicals to Buy Right Now

Innovative Research is excited to share our top 5 biological products that are making waves in the scientific community right now. These products are designed to support your research and provide reliable, high-quality results. Cerebrospinal Fluid (CSF) Our Pooled Human Cerebrospinal Fluid (CSF) is an essential resource in neurology and neuroscience research and one of our current most popular products. Our CSF products are sourced as medical remnants and can be used for a variety of applications. Complement Serum Complement Serum is a vital component of the immune system and plays a crucial role in the body’s defense against infections. Taken from...

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Innovative Research Mouse Plasma used in University of Pittsburgh Study

Posted by Wendy Wise on

Innovative Research Mouse Plasma used in University of Pittsburgh Study

Researchers at the University of Pittsburgh published a study in the Journal of Immunology and Regenerative Medicine using mouse plasma from Innovative Research. Innovative Research offers a wide range of mouse plasma types, including genetically deficient and depleted plasmas, in addition to US Origin CD1, Balb C, C57BL/6 and others.The study examines three types of extracellular vesicles present in bone, blood and extracellular matrix. The results inform metrics for the categorization of EV and provide tools for the isolation of EV for potential diagnostic and therapeutic applications. Extracellular vesicles present in bone, blood and extracellular matrix have distinctive characteristics and...

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Low-Dose Self-Amplifying mRNA COVID-19 Vaccine Drives Strong Protective Immunity in Non-Human Primates Against SARS-CoV-2 Infection

Posted by Adam Awdish on

Low-Dose Self-Amplifying mRNA COVID-19 Vaccine Drives Strong Protective Immunity in Non-Human Primates Against SARS-CoV-2 Infection

Innovative Grade US Origin Monkey Rhesus Serum and Innovative Grade US Origin Mouse Balb C Serum from Innovative Research were used in the following study:   Low-Dose Self-Amplifying mRNA COVID-19 Vaccine Drives Strong Protective Immunity in Non-Human Primates Against SARS-CoV-2 Infection Amy R. Rappaport, Sue-Jean Hong, Ciaran D. Scallan, Leonid Gitlin, Arvin Akoopie, Gregory R. Boucher, Milana Egorova, J. Aaron Espinosa, Mario Fidanza, Melissa A. Kachura, Annie Shen, Gloria Sivko, Anne Van Abbema, Robert L. Veres & Karin Jooss Nature Communications June 7, 2022 As COVID-19 continues to be a global problem, people that were previously vaccinated or infected are getting...

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Anesthetic Pharmacology of the Mint Extracts L-Carvone and Methyl Salicylate

Posted by Adam Awdish on

Anesthetic Pharmacology of the Mint Extracts L-Carvone and Methyl Salicylate

Innovative Grade US Origin Rat Sprague Dawley Serum from Innovative Research was used in the following study:   Anesthetic Pharmacology of the Mint Extracts L-Carvone and Methyl Salicylate Robert J. Brosnan, Kimberly Ramos, Antonio Jose de Araujo Aguiar, Alessia Cenani, Heather K. Knych Pharmacology January 31, 2022 Many anesthetics in use today work via interactions with a select group of ion channel targets. Specifically, most anesthetics target γ-amino butyric acid type A (GABAA) and N-methyl-D-aspartate (NMDA) receptors, as well as type-2 voltage-gated sodium (Nav1.2) channels. While injectable anesthetics typically have a high affinity for one specific ion channel, inhaled anesthetics, on...

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