The unique blend of stem and regenerative cells which exist in the adipose tissue are then isolated and prepared for intravenous delivery utilizing a closed / sterile, fully automated CGMP
cell processing system.
At Okyanos, Adipose - Derived Stem and Regenerative Cells (ADRCs) are isolated and prepared for intravenous delivery utilizing a closed / sterile, fully automated CGMP
cell processing system.
This cell processing system is used to produce a cell solution which can engraft to the damaged tissue or bone, further aiding the healing process.
Not exact matches
Just as the digital information stored on a disc is useless without a device for reading the disc, so too is the information on DNA useless without the
cell's information -
processing system.
Processed sugars can be very damaging to the immune
system and can even feed cancer
cells.
In Mexico, Minebea Intec will offer an extensive range of weighing and inspection products, solutions and services for diverse manufacturing
processes — from goods in to goods out, including platform scales, vessel and silo scales (load
cells), checkweighers and equipment for detecting foreign objects (metal detectors and x-ray inspection
systems), as well as software solutions for statistical
process control and formulation applications.
Healthier
cell membranes results in more efficient nutrient delivery
systems and faster nerve transmission
processes.
For unknown reasons our immune
system attacks healthy
cells, tissues and organs in a
process called autoimmunity, which can result in diseases such as multiple sclerosis, type 1 diabetes, lupus or rheumatoid arthritis.
The scientists started with metabolically relevant
cells — hepatocytes and adipocytes — representing major functions of the liver and adipose tissues, and thus important aspects of the body's energy
processing and storing
system.
Neurobiology is the study of
cells of the nervous
system and the organization of these
cells into functional circuits that
process information and mediate behavior.
The researchers showed that the synapse - eating
process requires a protein in the complement
system — a part of the immune response that helps «tag» unwanted
cells and other debris for destruction.
Meanwhile, recent human studies indicate that aging is associated with an increase in somatic mutations in the hematopoietic
system, which gives rise to blood
cells; these mutations provide a competitive growth advantage to the mutant hematopoietic
cells, allowing for their clonal expansion — a
process that has been shown to be associated with a greater incidence of atherosclerosis, though specifically how remains unclear.
«We want to start looking
system by
system to see how widely acting this
process is on different types of
cells,» he says.
The presence of the dead, snarled nerve
cells and sticky protein fragments characteristic of Alzheimer's in the main smell -
processing structures of these deceased patients could suggest the disease gets its start in the olfactory
system.
«However, cholesterol is involved with many key
processes and structures in the body like
cell membranes, bone health and the immune
system.»
The authors believe that these tools and methods will lay the foundation for crucial breakthroughs in the flatworm model
system and in our understanding of stem
cell biology and the
process of regeneration.
«Our studies imply that the change of oxygen levels in different tissues can be sensed by Treg
cells and that this
process is critically important for maintaining the correct balance between activation and suppression of the immune
system,» says Liu.
Óscar Llorca and his team have used this technique to learn about the structure and functioning of a complex
system called R2TP, which is involved in various key
processes for
cell survival such as the activation of the kinases mTOR, ATR and ATM, proteins that are the target of various cancer drugs currently being developed.
Two recent studies describe these kinds of mechanisms: one of them, published in the journal Molecular
Systems Biology, describes the
process through which
cells stop growing due
cell differentiation; the second one, published in Journal of Cell Science, describes plants» cell replenishment after being dama
cell differentiation; the second one, published in Journal of
Cell Science, describes plants» cell replenishment after being dama
Cell Science, describes plants»
cell replenishment after being dama
cell replenishment after being damaged.
Lysing the red blood
cells diminishes the tendency of blood to clog the
system, a common problem that slows
processing time in similar CTC filtering devices.
Initial projects (both theoretical and practical) include seeking evidence for the existence of biomolecules and
cells in the upper atmosphere, as well as in comets and interstellar dust; looking for evidence of biological molecules and
processes in material recovered from space; and investigating the effect of space conditions on living
systems.
The ICELL8 Single -
Cell System can isolate thousands of single
cells and
process specific
cells for analysis, including NGS.
Ipilimumab interferes with a
process by which the immune
system controls the activation of T
cells that destroy diseased tissues.
Researchers in the Departments of Biomedicine and Nephrology at the University Hospital and the University of Basel have discovered that the immune
system uses a molecular biological clock to target intolerant T
cells during their maturation
process.
«However, with the capability to image live
cells in the
process of dividing, stopping, and then continuing to divide, under different conditions, the fruit fly
system allows us to understand the steps necessary in this very basic
process of
cell biology.»
His research group focuses on big data network biology, exploring biological
systems by developing and deploying algorithms aimed to predict
cell behavior, in particular looking at cellular signal
processing and decision making.
This
process could form the basis of a practical solar - energy storage
system, Nocera says, in which electric current from a solar
cell passes through water to the catalyst, breaking the water into oxygen and hydrogen through electrolysis.
A strategic focus is to continue to develop computational tools (such as KinomeXplorer, NetworKIN, and NetPhorest) and to deploy these on genome - scale quantitative data obtained by, for example, mass spectrometry, genomic, and phenotypic screens to understand the principles of how spatio and temporal assembly of mammalian signaling networks transmit and
process information at a
systems level in order to alter
cell behavior.
Opioid receptors are part of the different
systems of
cell communication and are capable of regulating physiological
processes that require a high degree of coordination and communication between the different
cell and tissue types.
Previous studies in the lab showed that once HCMV is inside the
cell, it quickly becomes latent by entering the
cell's nucleus and co-opting a cellular protein called Daxx — part of the intrinsic immune
system — to shut down its own replication, the
process of reproducing its genetic material to make more copies of itself.
Such an autocatalytic
system also provides an entirely novel mechanism for the growth of ring - shaped structures, which differs fundamentally from that used for daughter
cell segregation in eukaryotic
cell division: In eukaryotes, specific motor proteins which attach to the
cell membrane and undergo active contraction are essential for this
process, Denk points out.
To better understand this
process, the researchers created an experimental
system in which they induced, in a controlled fashion, breaks in the DNA of different chromosomes in living
cells.
Duke scientist are learning more about the
process in which melanoma
cells hijack dendritic
cells, allowing cancer to avoid detection by the immune
system.
We can also make central nervous
system cells, as the blood to neural conversion technology we developed creates neural stem
cells during the
process of conversion.»
One holds that it is an active
process in which paternal mitochondria are selectively degraded by a «self - eating»
system known as autophagy, in which vesicles called autophagosomes engulf the
cell's unwanted structures.
Many different
cells are involved in the complex
processes: skin
cells (keratinocytes) and
cells of the immune
system, among others T lymphocytes, macrophages, mast
cells and others.
«One of the least understood aspects of this
process is how the excess milk and large numbers of dead
cells are removed from the mammary gland without substantial activation of the immune
system,» says Matthew Naylor, a cancer biologist at the University of Sydney in Australia.
Using her new culture
system, she joined forces with colleagues to research which
cells in an embryo contribute to which parts of the adult animal, a
process called fate - mapping.
In the new study, Lee and his colleagues studied piRNAs produced by
cells in the reproductive
system of the nematode worm, C. elegans, a classic model organism studied by scientists to understand basic biological
processes.
The scientists found that GDF10 promotes brain
cells» ability to form new connections, and they identified the signaling
systems that control the
process.
Low temperatures activate the brown - fat thermogenesis
process via the sympathetic nervous
system: Nerve ends in brown fat tissue release the neurotransmitter norepinephrine, and that triggers a shift in metabolism within the brown fat
cells, which are densely packed with tiny biological energy reactors called mitochondria.
The studies, conducted separately on the East and West coasts of the United States, attempt to make the immune
system resistant to HIV by crippling a receptor, known as CCR5, on T
cells that the virus uses during the infection
process.
The
system can help scientists determine more about how a
cell reacts to its immediate environment, Bissell says, and how that
process goes wrong in growing or spreading tumors, in which
cells lose their ability to read signals from their environment that would prevent them from dividing.
Half to 90 percent of glioblastoma
cells use this cellular
process so indoximod helps a patient's own immune
system to find and attack their tumors.
It disrupts a cellular
process that cancer
cells use to hide from the immune
system and allows the immune
system to recognize and attack the cancer.
The rarity of latently infected
cells and the lack of a marker for latent HIV - 1 infection necessitate the use of in vitro model
systems for detailed studies of this
process.
Since HIV infection itself alters epigenetic
processes in the immune
system, the research team wondered whether a distinct DNA methylation profile, a major epigenetic modification where methyl groups are added to DNA, occurs in those with HIV associated - cognitive impairment and whether it exists in distinct immune
cell populations from the blood.
But the
process, which is often set in motion by
cells of the immune
system, can also occur whenever tissue is damaged — even in the absence of a pathogenic organism — as, for example, when you stub your toe or, more seriously, suffer a heart attack.
This murine model
system offers a superior source of immortalized
cell populations as many of the difficulties associated with the in vitro transfection
process are eliminated (e.g., initial requirement for many
cells, different sites of gene integration, multiple copy number; Ref.
This effort will combine deep knowledge of immunological lineages, clinical expertise and infrastructure needed to procure and
process diverse samples, genomic and computational expertise to resolve the hundreds of finely differentiated
cell - types that compose all facets of the immune
system, and the genomic signatures that define them.