Human development describes the stages of human life. Human development consists of 5 stages. Infancy (up to one year), toddler (age 1 - 5), childhood (age 3 - 11), adolescence (age 12 - 18), and adulthood. The study of human development aims to understand how people grow, develop, and change throughout their life.
The NIH BRAIN initiative, informed by the report from the scientific community (BRAIN 2025) is underway. The major funded efforts at this time fit into 3 main categories; 1) defining the comp...
DARPA’s investments aim to leverage brain-function research to alleviate the burden of illness and injury and provide novel, neurotechnology-based capabilities for military personnel an...
Since the discovery and maturing of in vitro techniques that characterized neurotransmitter receptor systems in animal and human brain and subsequent development of in vitro and in vivo autor...
Impulsivity can be defined as the tendency to act prematurely without foresight. Behavioural and neurobiological analysis of this construct, based on evidence from both animal and human studi...
Recent advances in noninvasive neuroimaging have set the stage for the systematic exploration of human brain circuits in health and disease. The Human Connectome Project (HCP) is systematical...
The hippocampal formation is one of the most extensively studied regions of the brain, with well described anatomy and basic physiology; moreover, aspects of human memory mediated by hippocam...
Schizophrenia is a severe psychiatric disorder affecting 1% of the world’s population, leading to high human, social and economic burdens. Understanding how the interaction of gene and...
An anesthesia system designed to accommodate the physiological characteristics of small animals, including rats and mice, has the potential to provide great practical value to the life scienc...
Laboratory animal surgical models are instrumental in biomedical research; therefore establishing healthy defined animal models is crucial to this research. Surgical procedures produce metab...
Many researchers are not aware of the critical importance of genetic background of mice, including the concept of inbred substrains, and how the genetic background of substrains can impact th...
The field of surgical research has been growing rapidly with the development of new surgical and disease models. An extremely important and often overlooked aspect of creating these models is...
Soiled-bedding sentinels are not always efficient in detecting pathogens in rodent colonies. In this context, PCR-based testing can be more sensitive and is being advocated as adjunct to trad...
Dr. Oliver Kepp will be presenting on:Immunogenic cell death fingerprinting utilizing a high-throughput screening approachThe strategy of immunogenic cell death fingerprinting has been design...
Mass spectrometry (MS)-based profiling of clinical specimens has been increasingly used in cancer research to characterize changes in protein expression between tumor and healthy tissue or be...
Uncovering the genetic lesions underpinning cancer through genomic profiling in a clinical setting could provide insights into possible treatment options for oncologists and their patients. N...
The era of omics has ushered in the hope for personalized medicine. Proteomic and genomic strategies that allow unbiased identification of genes and proteins and their post-transcriptional a...
Over the last decade we have witnessed tremendous advances in our understanding of the underlying molecular alterations in human cancer. This has stimulated excitement for our ability to deve...
Illumina next-generation sequencing (NGS) and microarray technologies are revolutionizing cancer research, enabling cancer variant discovery and detection and molecular monitoring. Join u...
Proteomics technology has improved dramatically over the last decade. The technology developments have largely been directed around instrument hardware, where instruments have been developed...
The comprehensive, multidimensional molecular characterization of tumors and the individuals in which they have developed is transforming cancer definition, diagnosis, treatment, and preventi...
Post-translational methylations play central roles in epigenetic gene regulation pathways that are central to stem cell regulation. Lysine methylations are turn-on switches for hundreds of di...
The effective implementation of personalised cancer therapeutic regimens depends on the successful identification and translation of informative biomarkers to aid clinical decision-making. An...
Opportunities for plant science to contribute to global food security include increasing the yield and quality of crops, making plants less susceptible to pests and and more resistant to her...
Master regulatory transcription factors localize to the genome in a manner influenced by chromatin accessibility and influencing global chromatin structure. With an interest in understanding...
The NIH BRAIN initiative, informed by the report from the scientific community (BRAIN 2025) is underway. The major funded efforts at this time fit into 3 main categories; 1) defining the comp...
DARPA’s investments aim to leverage brain-function research to alleviate the burden of illness and injury and provide novel, neurotechnology-based capabilities for military personnel an...
Since the discovery and maturing of in vitro techniques that characterized neurotransmitter receptor systems in animal and human brain and subsequent development of in vitro and in vivo autor...
Impulsivity can be defined as the tendency to act prematurely without foresight. Behavioural and neurobiological analysis of this construct, based on evidence from both animal and human studi...
Recent advances in noninvasive neuroimaging have set the stage for the systematic exploration of human brain circuits in health and disease. The Human Connectome Project (HCP) is systematical...
The hippocampal formation is one of the most extensively studied regions of the brain, with well described anatomy and basic physiology; moreover, aspects of human memory mediated by hippocam...
Schizophrenia is a severe psychiatric disorder affecting 1% of the world’s population, leading to high human, social and economic burdens. Understanding how the interaction of gene and...
An anesthesia system designed to accommodate the physiological characteristics of small animals, including rats and mice, has the potential to provide great practical value to the life scienc...
Laboratory animal surgical models are instrumental in biomedical research; therefore establishing healthy defined animal models is crucial to this research. Surgical procedures produce metab...
Many researchers are not aware of the critical importance of genetic background of mice, including the concept of inbred substrains, and how the genetic background of substrains can impact th...
The field of surgical research has been growing rapidly with the development of new surgical and disease models. An extremely important and often overlooked aspect of creating these models is...
Soiled-bedding sentinels are not always efficient in detecting pathogens in rodent colonies. In this context, PCR-based testing can be more sensitive and is being advocated as adjunct to trad...
Dr. Oliver Kepp will be presenting on:Immunogenic cell death fingerprinting utilizing a high-throughput screening approachThe strategy of immunogenic cell death fingerprinting has been design...
Mass spectrometry (MS)-based profiling of clinical specimens has been increasingly used in cancer research to characterize changes in protein expression between tumor and healthy tissue or be...
Uncovering the genetic lesions underpinning cancer through genomic profiling in a clinical setting could provide insights into possible treatment options for oncologists and their patients. N...
The era of omics has ushered in the hope for personalized medicine. Proteomic and genomic strategies that allow unbiased identification of genes and proteins and their post-transcriptional a...
Over the last decade we have witnessed tremendous advances in our understanding of the underlying molecular alterations in human cancer. This has stimulated excitement for our ability to deve...
Illumina next-generation sequencing (NGS) and microarray technologies are revolutionizing cancer research, enabling cancer variant discovery and detection and molecular monitoring. Join u...
Proteomics technology has improved dramatically over the last decade. The technology developments have largely been directed around instrument hardware, where instruments have been developed...
The comprehensive, multidimensional molecular characterization of tumors and the individuals in which they have developed is transforming cancer definition, diagnosis, treatment, and preventi...
Post-translational methylations play central roles in epigenetic gene regulation pathways that are central to stem cell regulation. Lysine methylations are turn-on switches for hundreds of di...
The effective implementation of personalised cancer therapeutic regimens depends on the successful identification and translation of informative biomarkers to aid clinical decision-making. An...
Opportunities for plant science to contribute to global food security include increasing the yield and quality of crops, making plants less susceptible to pests and and more resistant to her...
Master regulatory transcription factors localize to the genome in a manner influenced by chromatin accessibility and influencing global chromatin structure. With an interest in understanding...
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