Even though Alzheimer's is classified as a degenerative disease, the immune system plays
a significant role in the disease process.
Not exact matches
The advent of rice varieties bearing genes with resistance to the
disease has changed the perception about the
disease: the incorporation of host - plant resistance genes
in rice varieties, their adoption and deployment
in the world's main rice - producing environments is probably one of the most
significant evidences of the
role of plant pathology
in agricultural development.
Ali has a passion to create public awareness regarding the
significant role diet plays
in our overall health and believes everything we put
in our body can contribute towards optimal health or dysfunction and
disease.
Human breast milk that is frozen or stored for longer than 48 hours loses a
significant amount of its antioxidant content, making it less able to help infants fight off free radicals that play a
role in allowing infections and other
diseases.
Packed with
disease - fighting components, breast milk plays a
significant role in boosting your baby's immunity to offer protection from several illnesses.
Packed with
disease - fighting components, breast milk plays a
significant role in boosting your baby's immunity to offer protection from several illnesses.Some mothers may want -LSB-...]
DNMT3A is among the most frequently mutated genes
in an aggressive type of leukemia, and it plays a
significant role in how this
disease develops.
And
in previous work, Poinar and his wife, Roberta, implicated malaria and the evolution of blood - sucking insects as
disease vectors that could have played a
significant role in the extinction of the dinosaurs.
If SOCE operates similarly
in mammalian cells, it might have some
role to play
in diseases where dopamine plays a
significant role such as Parkinson's, Attention Deficit Syndromes (ADS) and even schizophrenia.
Firearms play a
significant role in both suicide and homicide, accounting for slightly more than half of all suicide deaths and two - thirds of homicide deaths, according to 2009 data from the 16 - state National Violent Death Reporting System, which is run by the U.S. Centers for
Disease Control and Prevention.
«Not only does it add
significant weight to the growing body of evidence that PCV prevents
disease, but it suggests that vaccines may have a
role to play
in the fight against antibiotic resistance.»
Scientists from Trinity College Dublin have made a
significant breakthrough
in understanding the regulation of immune cells that play a pivotal
role in allergic
diseases such as asthma and eczema.
Research findings indicate that abnormal CaSR function and / or abundance play a
significant role in the development or progression of several non-communicable
diseases (or NCDs) such as Alzheimer's
disease, cardiovascular
diseases, diabetes, cancer, and degenerative muscle loss.
Astrocytes, the supporting cells of the brain, could play a
significant role in the pathogenesis of Alzheimer's
disease (AD), according to a new study from the University of Eastern Finland.
«High levels of the cell signalling protein TNF have been reported
in JDM patients with a long
disease course, suggesting this immune cell regulator may play a
significant role in refractory
disease,» said Dr Raquel Campanilho - Marques of the Institute of Child Health, University College London, UK.
A human protein known as prohibitin may play a
significant role in infection of the nervous system by EV71, one of several viruses that can cause hand, foot, and mouth
disease.
This discovery provides a
significant opportunity not only to enhance our understanding of how miRNAs regulate a variety of biological processes
in an important model species for studying human
diseases, but can lead to further, similar research into the
role that miRNAs play
in animal domestication.
«Stem cell biology has become one of the most exciting and promising areas of research, with real impact on how we treat human
disease,» said Gladstone President R. Sanders Williams, MD. «With its meetings and journals, ISSCR has developed a
significant role in communicating and promoting groundbreaking advances
in the field.
Given its
significant role in pathogenesis of cancer and cardiovascular
diseases, CD47 signalling has been heavily investigated for new targeted therapeutics.
«Microbes play a
significant role in the health of the digestive tract and many digestive
diseases result when the microbial environment is out of balance,» said Griffin P. Rodgers, M.D., M.A.C.P., director of the National Institute of Diabetes and Digestive and Kidney
Diseases (NIDDK), and co-chair of the Human Microbiome Project's Implementation Group.
The SDF - 1 / CXCR4 axis is gaining
significant attention mainly due to its important
roles in pathological processes, such as HIV entry, tumor metastasis, cell trafficking
in autoimmune
diseases and inflammatory conditions [10].
The study, published July 21, 2016,
in Scientific Reports, also showed
significant changes
in the gut microbiome after antibiotic treatment, suggesting the composition and diversity of bacteria
in the gut play an important
role in regulating immune system activity that impacts progression of Alzheimer's
disease.
Importantly, these mice still had
significant improvement
in survival compared with immunized mice receiving placebo treatment (average survival 9 d), indicating that IFN - γ continues to play an important
role in mortality
in enhanced HLH
disease.
In the summer of 2010, we posted an entry about a significant advance in basic mitochondrial biology that held within it a tantalizing promise: a potentially new approach to obviating the problem of age - related accumulation of mutations in mitochondrial DNA (mtDNA), which are widely suspected to play an important role in the age - related rise in oxidative stress, Parkinson's disease, and age - related muscle degeneratio
In the summer of 2010, we posted an entry about a
significant advance
in basic mitochondrial biology that held within it a tantalizing promise: a potentially new approach to obviating the problem of age - related accumulation of mutations in mitochondrial DNA (mtDNA), which are widely suspected to play an important role in the age - related rise in oxidative stress, Parkinson's disease, and age - related muscle degeneratio
in basic mitochondrial biology that held within it a tantalizing promise: a potentially new approach to obviating the problem of age - related accumulation of mutations
in mitochondrial DNA (mtDNA), which are widely suspected to play an important role in the age - related rise in oxidative stress, Parkinson's disease, and age - related muscle degeneratio
in mitochondrial DNA (mtDNA), which are widely suspected to play an important
role in the age - related rise in oxidative stress, Parkinson's disease, and age - related muscle degeneratio
in the age - related rise
in oxidative stress, Parkinson's disease, and age - related muscle degeneratio
in oxidative stress, Parkinson's
disease, and age - related muscle degeneration.
There is increasing evidence that rare and unique mutations have a
significant role in the etiology of many
diseases such as autism, congenital heart
disease, and cancer.
Although the results were not statistically
significant, certain SNPs emerged that have been suggested to play a
role in other studies of septic perianal Crohn's
disease.
The short form of the serotonin transporter gene promoter does not explain autism, insists Dr. Cook, who heads a nationwide consortium of researchers looking for the genetic underpinnings of this
disease, but it does appear to play a
significant role, perhaps
in concert with other abnormalities which we've not yet uncovered.
The researchers say using the CCR5 mutant donation and / or the presence of graft versus host
disease, which results
in the elimination of HIV - positive reservoir cells that survive irradiation, played a
significant role in curing the Berlin patient.
In 2005, the identification of an activating mutation in JAK2 (the V617F mutation) as a STAT5 - activating and disease - causing genetic alteration in a significant proportion of patients with myeloproliferative neoplasms (MPNs) has emphasized the oncogenic role of the JAK tyrosine kinases in hematologic malignancies.2 — 5 JAK2 is a member of the Janus tyrosine kinase family comprising three other mammalian non-receptor tyrosine kinases (JAK1, JAK3 and TYK2) that associate with cytokine receptors lacking intrinsic kinase activity to mediate cytokine - induced signal transduction and activation of STAT transcription factors.6 All JAKs share a similar protein structure and contain a tyrosine kinase domain at the C - terminus flanked by a catalytically inactive pseudokinase domain with kinase - regulatory activity, by an atypical SH2 domain and by a FERM domain that mediates association to the membrane - proximal region of the cytokine receptors.7, 8 Soon after the discovery of JAK2 V617F, we and others described that activating JAK1 mutations are relatively common in adult patients with T - cell acute lymphoblastic leukemia (ALL) and participate in ALL development allowing for constitutive activation of STAT5.9 — 11 Several STAT5 - activating JAK1 mutations were also reported in AML and breast cancer patients.
In 2005, the identification of an activating mutation
in JAK2 (the V617F mutation) as a STAT5 - activating and disease - causing genetic alteration in a significant proportion of patients with myeloproliferative neoplasms (MPNs) has emphasized the oncogenic role of the JAK tyrosine kinases in hematologic malignancies.2 — 5 JAK2 is a member of the Janus tyrosine kinase family comprising three other mammalian non-receptor tyrosine kinases (JAK1, JAK3 and TYK2) that associate with cytokine receptors lacking intrinsic kinase activity to mediate cytokine - induced signal transduction and activation of STAT transcription factors.6 All JAKs share a similar protein structure and contain a tyrosine kinase domain at the C - terminus flanked by a catalytically inactive pseudokinase domain with kinase - regulatory activity, by an atypical SH2 domain and by a FERM domain that mediates association to the membrane - proximal region of the cytokine receptors.7, 8 Soon after the discovery of JAK2 V617F, we and others described that activating JAK1 mutations are relatively common in adult patients with T - cell acute lymphoblastic leukemia (ALL) and participate in ALL development allowing for constitutive activation of STAT5.9 — 11 Several STAT5 - activating JAK1 mutations were also reported in AML and breast cancer patients.
in JAK2 (the V617F mutation) as a STAT5 - activating and
disease - causing genetic alteration
in a significant proportion of patients with myeloproliferative neoplasms (MPNs) has emphasized the oncogenic role of the JAK tyrosine kinases in hematologic malignancies.2 — 5 JAK2 is a member of the Janus tyrosine kinase family comprising three other mammalian non-receptor tyrosine kinases (JAK1, JAK3 and TYK2) that associate with cytokine receptors lacking intrinsic kinase activity to mediate cytokine - induced signal transduction and activation of STAT transcription factors.6 All JAKs share a similar protein structure and contain a tyrosine kinase domain at the C - terminus flanked by a catalytically inactive pseudokinase domain with kinase - regulatory activity, by an atypical SH2 domain and by a FERM domain that mediates association to the membrane - proximal region of the cytokine receptors.7, 8 Soon after the discovery of JAK2 V617F, we and others described that activating JAK1 mutations are relatively common in adult patients with T - cell acute lymphoblastic leukemia (ALL) and participate in ALL development allowing for constitutive activation of STAT5.9 — 11 Several STAT5 - activating JAK1 mutations were also reported in AML and breast cancer patients.
in a
significant proportion of patients with myeloproliferative neoplasms (MPNs) has emphasized the oncogenic
role of the JAK tyrosine kinases
in hematologic malignancies.2 — 5 JAK2 is a member of the Janus tyrosine kinase family comprising three other mammalian non-receptor tyrosine kinases (JAK1, JAK3 and TYK2) that associate with cytokine receptors lacking intrinsic kinase activity to mediate cytokine - induced signal transduction and activation of STAT transcription factors.6 All JAKs share a similar protein structure and contain a tyrosine kinase domain at the C - terminus flanked by a catalytically inactive pseudokinase domain with kinase - regulatory activity, by an atypical SH2 domain and by a FERM domain that mediates association to the membrane - proximal region of the cytokine receptors.7, 8 Soon after the discovery of JAK2 V617F, we and others described that activating JAK1 mutations are relatively common in adult patients with T - cell acute lymphoblastic leukemia (ALL) and participate in ALL development allowing for constitutive activation of STAT5.9 — 11 Several STAT5 - activating JAK1 mutations were also reported in AML and breast cancer patients.
in hematologic malignancies.2 — 5 JAK2 is a member of the Janus tyrosine kinase family comprising three other mammalian non-receptor tyrosine kinases (JAK1, JAK3 and TYK2) that associate with cytokine receptors lacking intrinsic kinase activity to mediate cytokine - induced signal transduction and activation of STAT transcription factors.6 All JAKs share a similar protein structure and contain a tyrosine kinase domain at the C - terminus flanked by a catalytically inactive pseudokinase domain with kinase - regulatory activity, by an atypical SH2 domain and by a FERM domain that mediates association to the membrane - proximal region of the cytokine receptors.7, 8 Soon after the discovery of JAK2 V617F, we and others described that activating JAK1 mutations are relatively common
in adult patients with T - cell acute lymphoblastic leukemia (ALL) and participate in ALL development allowing for constitutive activation of STAT5.9 — 11 Several STAT5 - activating JAK1 mutations were also reported in AML and breast cancer patients.
in adult patients with T - cell acute lymphoblastic leukemia (ALL) and participate
in ALL development allowing for constitutive activation of STAT5.9 — 11 Several STAT5 - activating JAK1 mutations were also reported in AML and breast cancer patients.
in ALL development allowing for constitutive activation of STAT5.9 — 11 Several STAT5 - activating JAK1 mutations were also reported
in AML and breast cancer patients.
in AML and breast cancer patients.10
Three recent experimental studies focused on low consumption / exposure.949596
In one study, 29 smokers each consumed a single cigarette, immediately after which they had a significant decrease in blood vessel output power and significant increase in blood vessel ageing level and remaining blood volume 25 minutes later, as markers of atherosclerosis.94 In another study, human coronary artery endothelial cells were exposed to the smoke equivalent to one cigarette, which led to activation of oxidant stress sensing transcription factor NFR2 and up - regulation of cytochrome p450, considered to have a role in the development of heart disease.95 These effects were not seen when heart cells were exposed to the vapour from one e - cigarette.95 A study exposed adult mice to low intensity tobacco smoke (two cigarettes) for one to two months and found adverse histopathological effects on brain cells.
In one study, 29 smokers each consumed a single cigarette, immediately after which they had a
significant decrease
in blood vessel output power and significant increase in blood vessel ageing level and remaining blood volume 25 minutes later, as markers of atherosclerosis.94 In another study, human coronary artery endothelial cells were exposed to the smoke equivalent to one cigarette, which led to activation of oxidant stress sensing transcription factor NFR2 and up - regulation of cytochrome p450, considered to have a role in the development of heart disease.95 These effects were not seen when heart cells were exposed to the vapour from one e - cigarette.95 A study exposed adult mice to low intensity tobacco smoke (two cigarettes) for one to two months and found adverse histopathological effects on brain cells.
in blood vessel output power and
significant increase
in blood vessel ageing level and remaining blood volume 25 minutes later, as markers of atherosclerosis.94 In another study, human coronary artery endothelial cells were exposed to the smoke equivalent to one cigarette, which led to activation of oxidant stress sensing transcription factor NFR2 and up - regulation of cytochrome p450, considered to have a role in the development of heart disease.95 These effects were not seen when heart cells were exposed to the vapour from one e - cigarette.95 A study exposed adult mice to low intensity tobacco smoke (two cigarettes) for one to two months and found adverse histopathological effects on brain cells.
in blood vessel ageing level and remaining blood volume 25 minutes later, as markers of atherosclerosis.94
In another study, human coronary artery endothelial cells were exposed to the smoke equivalent to one cigarette, which led to activation of oxidant stress sensing transcription factor NFR2 and up - regulation of cytochrome p450, considered to have a role in the development of heart disease.95 These effects were not seen when heart cells were exposed to the vapour from one e - cigarette.95 A study exposed adult mice to low intensity tobacco smoke (two cigarettes) for one to two months and found adverse histopathological effects on brain cells.
In another study, human coronary artery endothelial cells were exposed to the smoke equivalent to one cigarette, which led to activation of oxidant stress sensing transcription factor NFR2 and up - regulation of cytochrome p450, considered to have a
role in the development of heart disease.95 These effects were not seen when heart cells were exposed to the vapour from one e - cigarette.95 A study exposed adult mice to low intensity tobacco smoke (two cigarettes) for one to two months and found adverse histopathological effects on brain cells.
in the development of heart
disease.95 These effects were not seen when heart cells were exposed to the vapour from one e - cigarette.95 A study exposed adult mice to low intensity tobacco smoke (two cigarettes) for one to two months and found adverse histopathological effects on brain cells.96
The advent of rice varieties bearing genes with resistance to the
disease has changed the perception about the
disease: the incorporation of host - plant resistance genes
in rice varieties, their adoption and deployment
in the world's main rice - producing environments is probably one of the most
significant evidences of the
role of plant pathology
in agricultural development.
«It's also believed that sleep effects cholesterol levels, which plays a
significant role in heart
disease.»
A recent study found that polyphenols from foods such as blueberries, coffee, and extra-virgin olive oil play a
significant role in the prevention of degenerative
diseases by improving your microbiome environment.
A recent study found that nutrients called polyphenols (found
in many of the foods we focus on
in the elimination diet) play a
significant role in the prevention of degenerative
diseases by improving your microbiome environment.
It's often suspected that a chronic overgrowth
in the gut is frequently misdiagnosed as
diseases like chronic fatigue syndrome and that it might play a
significant role in inflammatory bowel
diseases like ulcerative colitis.
Ajwa, types of dates that is only cultivated
in Saudi Arabia / Al - Madinah Al - Munawara and have
significant value
in several types of
diseases cure and also show protective
role in hepatic [liver] toxicity.
GSH is unique
in that it plays a crucial
role in protecting us from a wide variety of substances that can do
significant damage to our tissues Those suffering from many chronic
diseases such as AIDS, advanced diabetes, and cancer have very low levels, hence the obvious importance
in human health and why researchers continue to study it.
Researchers found the
role sunlight plays
in preventing cardiovascular
disease is very
significant — they discovered cardiovascular
disease is higher during winter and
in countries far away from the equator, when and where there's less sunlight.
When you consider the fact that the gut - brain connection is recognized as a basic tenet of physiology and medicine, and that there's no shortage of evidence of gastrointestinal involvement
in a variety of neurological
diseases, it's easy to see how the balance of gut bacteria can play a
significant role in your psychology and behavior as well.
This will not only contribute to your weight gain, but also increase your risk of many chronic illnesses, as leptin resistance plays a
significant, if not primary,
role in heart
disease, obesity, diabetes, osteoporosis, autoimmune
diseases, reproductive disorders, and perhaps the rate of aging itself.
Hormones also have a
significant role in many
diseases, like cancer and depression.
Other Benefits of Pomegranate: Anti-inflammatory: Like many chronic degenerative
diseases, inflammation plays a
significant role in cardiovascular
disease pathogenesis.
There is increasing evidence that free radical - induced oxidative damage plays a
significant role in the pathogenesis of Alzheimer's
disease.
Cocoa is also one of the richest food sources of flavonoids, antioxidants which play a
significant role in the prevention of certain
diseases such as cancer and help fight against premature cell - ageing.
Cadmium is another toxic metal that plays a
significant role in stimulating vascular
disease.11 Cadmium is used
in rechargeable batteries and during construction.
High leptin levels are very pro-inflammatory, and leptin also helps to mediate the manufacture of other very potent inflammatory chemicals from fat cells that also play a
significant role in the progression of heart
disease and diabetes.
One study showed that after a 3 day juice cleanse, participants showed
significant changes
in the intestinal microbiota that are associated with weight loss, decreased lipid oxidation (free radical damage), and higher levels of nitric oxide
in the blood and urine which play a
significant role in reducing cardiovascular
disease.
For example, KBs were recently reported to act as neuroprotective agents by raising ATP levels and reducing the production of reactive oxygen species
in neurological tissues, 80 together with increased mitochondrial biogenesis, which may help to enhance the regulation of synaptic function.80 Moreover, the increased synthesis of polyunsaturated fatty acids stimulated by a KD may have a role in the regulation of neuronal membrane excitability: it has been demonstrated, for example, that polyunsaturated fatty acids modulate the excitability of neurons by blocking voltage-gated sodium channels.81 Another possibility is that by reducing glucose metabolism, ketogenic diets may activate anticonvulsant mechanisms, as has been reported in a rat model.82 In addition, caloric restriction per se has been suggested to exert neuroprotective effects, including improved mitochondrial function, decreased oxidative stress and apoptosis, and inhibition of proinflammatory mediators, such as the cytokines tumour necrosis factor - α and interleukins.83 Although promising data have been collected (see below), at the present time the real clinical benefits of ketogenic diets in most neurological diseases remain largely speculative and uncertain, with the significant exception of its use in the treatment of convulsion disease
in neurological tissues, 80 together with increased mitochondrial biogenesis, which may help to enhance the regulation of synaptic function.80 Moreover, the increased synthesis of polyunsaturated fatty acids stimulated by a KD may have a
role in the regulation of neuronal membrane excitability: it has been demonstrated, for example, that polyunsaturated fatty acids modulate the excitability of neurons by blocking voltage-gated sodium channels.81 Another possibility is that by reducing glucose metabolism, ketogenic diets may activate anticonvulsant mechanisms, as has been reported in a rat model.82 In addition, caloric restriction per se has been suggested to exert neuroprotective effects, including improved mitochondrial function, decreased oxidative stress and apoptosis, and inhibition of proinflammatory mediators, such as the cytokines tumour necrosis factor - α and interleukins.83 Although promising data have been collected (see below), at the present time the real clinical benefits of ketogenic diets in most neurological diseases remain largely speculative and uncertain, with the significant exception of its use in the treatment of convulsion disease
in the regulation of neuronal membrane excitability: it has been demonstrated, for example, that polyunsaturated fatty acids modulate the excitability of neurons by blocking voltage-gated sodium channels.81 Another possibility is that by reducing glucose metabolism, ketogenic diets may activate anticonvulsant mechanisms, as has been reported
in a rat model.82 In addition, caloric restriction per se has been suggested to exert neuroprotective effects, including improved mitochondrial function, decreased oxidative stress and apoptosis, and inhibition of proinflammatory mediators, such as the cytokines tumour necrosis factor - α and interleukins.83 Although promising data have been collected (see below), at the present time the real clinical benefits of ketogenic diets in most neurological diseases remain largely speculative and uncertain, with the significant exception of its use in the treatment of convulsion disease
in a rat model.82
In addition, caloric restriction per se has been suggested to exert neuroprotective effects, including improved mitochondrial function, decreased oxidative stress and apoptosis, and inhibition of proinflammatory mediators, such as the cytokines tumour necrosis factor - α and interleukins.83 Although promising data have been collected (see below), at the present time the real clinical benefits of ketogenic diets in most neurological diseases remain largely speculative and uncertain, with the significant exception of its use in the treatment of convulsion disease
In addition, caloric restriction per se has been suggested to exert neuroprotective effects, including improved mitochondrial function, decreased oxidative stress and apoptosis, and inhibition of proinflammatory mediators, such as the cytokines tumour necrosis factor - α and interleukins.83 Although promising data have been collected (see below), at the present time the real clinical benefits of ketogenic diets
in most neurological diseases remain largely speculative and uncertain, with the significant exception of its use in the treatment of convulsion disease
in most neurological
diseases remain largely speculative and uncertain, with the
significant exception of its use
in the treatment of convulsion disease
in the treatment of convulsion
diseases.
If you are living with Herpes and looking to date, it is important what you say and how you say your partner about the
disease plays a
significant role in your dating.
Along with exercise, nutrition, and proper veterinary care, massage can play a
significant role in keeping pets beginning to show joint stiffness, those with joint
disease or congenital joint malformation mobile and comfortable.