A generic drug is developed with the same dosage form, safety, strength, route of administration, quality, performance characteristics, and intended use as a brand-name medication. Generics are known as bioequivalent to the name-brand drug, so they demonstrate the same degree of clinical benefit.
Our speaker, Wenjie Xu, Ph.D., will present his publication data demonstrating how nCounter® technology can advance your infectious disease research faster and more accurately with unprec...
Parathyroid hormone testing is important to monitor the progress of chronic kidney disease (CKD) patients. This presentation will review the basic biochemistry that regulates the calcium, whi...
My research program focuses on building the technology to generate diverse human cell-types for application in regenerative medicine and drug toxicology testing. While embryonic stem cells (E...
The central nervous system (CNS) is a conglomerate of diverse, interconnected tissues that each contain cell phenotypes specific to their distinct anatomical region. Recent studies have demon...
In healthy liver, quiescent hepatic stellate cells (HSCs) participate in the homeostasis of extracellular matrix and store vitamin A. After injury, HSCs activate and participate in the wound-...
PrPC is a conserved lipid-raft associated, GPI-anchored cell membrane glycoprotein. Misfolding of cellular PrPC into the pathogenic PrPSc results in Prion disease, an untreatable and fatal ne...
Years of significant effort can go into generating key proof of concept data to support moving bench research to clinical development.Yet, much work remains in order to transition from POC to...
The isolation of human embryonic stem cells (hESCs) and the discovery of human induced pluripotent stem cell (hiPSC) reprogramming have sparked a renaissance in stem cell biology, in vitro di...
One of the ultimate goals in Regenerative Medicine is the generation of pluripotent stem cells (PSCs) directly from somatic cells obtained from patients. Although major findings in the defini...
A key aspect of translating great scientific discoveries to commercially viable cell therapies is the establishment of robust manufacturing processes that can produce the right quantity of ce...
In our previous preclinical studies, when neural stem progenitor cells (NS/PCs)-derived from hiPSCs were transplanted into mouse or non-human primate spinal cord injury (SCI) models, long-ter...
Mesenchymal stromal cell (MSC) therapy is a promising option to support endogenous regeneration and immunomodulation. However, the clinical results are contradictory. We think that the recent...
Most discussions about pluripotent stem cells center around their promise for regenerative medicine. The most remarkable quality of these cells is their ability to turn into all of the ...
In the last 10 years, PCSK9 emerged as a promising target for the treatment of autosomal dominant hypercholesterolemia (ADH). With the emergence of induced pluripotent stem (hiPS) cells and f...
Stem cells, specifically induced pluripotent stem cells (iPSCs), offer exciting potential for the future of cell therapy and regenerative medicine. More recently, genetic engineering of stem ...
Access this training to learn more about the evolution of pluripotent stem cell culture systems and which solution is best for your PSC culture goals....
The reprogramming of somatic cells into induced Pluripotent Stem Cells (iPSC) has great potential of applications, not only in basic research, but also in drug screening and cell therapy. Wit...
DATE: August 24th 2016TIME: 8:00AM PST, 11:00AM ESTPreclinical micro-computed tomography (microCT) imaging systems are utilized across a wide range of applications requiring imagi...
DATE: August 11, 2016
TIME: 11:00AM PST, 2:00PM ET, 7:00PM GMT
The central dogma that forms the backbone of molecular biology is that DNA codes for RNA (transcription) which then c...
Accelerating discoveries to improve human and environmental health often require the implementation of niche applications that may involve complex processes and working with challenging sampl...
Enzyme engineering is a powerful technology now widely used in laboratories around the world. The goal is to obtain improved proteins that will serve as better biocatalysts, biosensors or as ...
The NPS difference is how we most effectively convey to customers what makes us unique and different vs. the competition in how we solve their most pressing problems.
You...
This presentation is a rebroadcast of a previous webinar with live Q&A. Please confirm the start time and date in your time zone. We’ve included several examples below for your re...
The 68Ge / 68Ga generator is new to radiopharmacy practice but it will be a big part of our future world. The time will come in the not too distant future when we will be able to compou...
Our speaker, Wenjie Xu, Ph.D., will present his publication data demonstrating how nCounter® technology can advance your infectious disease research faster and more accurately with unprec...
Parathyroid hormone testing is important to monitor the progress of chronic kidney disease (CKD) patients. This presentation will review the basic biochemistry that regulates the calcium, whi...
My research program focuses on building the technology to generate diverse human cell-types for application in regenerative medicine and drug toxicology testing. While embryonic stem cells (E...
The central nervous system (CNS) is a conglomerate of diverse, interconnected tissues that each contain cell phenotypes specific to their distinct anatomical region. Recent studies have demon...
In healthy liver, quiescent hepatic stellate cells (HSCs) participate in the homeostasis of extracellular matrix and store vitamin A. After injury, HSCs activate and participate in the wound-...
PrPC is a conserved lipid-raft associated, GPI-anchored cell membrane glycoprotein. Misfolding of cellular PrPC into the pathogenic PrPSc results in Prion disease, an untreatable and fatal ne...
Years of significant effort can go into generating key proof of concept data to support moving bench research to clinical development.Yet, much work remains in order to transition from POC to...
The isolation of human embryonic stem cells (hESCs) and the discovery of human induced pluripotent stem cell (hiPSC) reprogramming have sparked a renaissance in stem cell biology, in vitro di...
One of the ultimate goals in Regenerative Medicine is the generation of pluripotent stem cells (PSCs) directly from somatic cells obtained from patients. Although major findings in the defini...
A key aspect of translating great scientific discoveries to commercially viable cell therapies is the establishment of robust manufacturing processes that can produce the right quantity of ce...
In our previous preclinical studies, when neural stem progenitor cells (NS/PCs)-derived from hiPSCs were transplanted into mouse or non-human primate spinal cord injury (SCI) models, long-ter...
Mesenchymal stromal cell (MSC) therapy is a promising option to support endogenous regeneration and immunomodulation. However, the clinical results are contradictory. We think that the recent...
Most discussions about pluripotent stem cells center around their promise for regenerative medicine. The most remarkable quality of these cells is their ability to turn into all of the ...
In the last 10 years, PCSK9 emerged as a promising target for the treatment of autosomal dominant hypercholesterolemia (ADH). With the emergence of induced pluripotent stem (hiPS) cells and f...
Stem cells, specifically induced pluripotent stem cells (iPSCs), offer exciting potential for the future of cell therapy and regenerative medicine. More recently, genetic engineering of stem ...
Access this training to learn more about the evolution of pluripotent stem cell culture systems and which solution is best for your PSC culture goals....
The reprogramming of somatic cells into induced Pluripotent Stem Cells (iPSC) has great potential of applications, not only in basic research, but also in drug screening and cell therapy. Wit...
DATE: August 24th 2016TIME: 8:00AM PST, 11:00AM ESTPreclinical micro-computed tomography (microCT) imaging systems are utilized across a wide range of applications requiring imagi...
DATE: August 11, 2016
TIME: 11:00AM PST, 2:00PM ET, 7:00PM GMT
The central dogma that forms the backbone of molecular biology is that DNA codes for RNA (transcription) which then c...
Accelerating discoveries to improve human and environmental health often require the implementation of niche applications that may involve complex processes and working with challenging sampl...
Enzyme engineering is a powerful technology now widely used in laboratories around the world. The goal is to obtain improved proteins that will serve as better biocatalysts, biosensors or as ...
The NPS difference is how we most effectively convey to customers what makes us unique and different vs. the competition in how we solve their most pressing problems.
You...
This presentation is a rebroadcast of a previous webinar with live Q&A. Please confirm the start time and date in your time zone. We’ve included several examples below for your re...
The 68Ge / 68Ga generator is new to radiopharmacy practice but it will be a big part of our future world. The time will come in the not too distant future when we will be able to compou...
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