Clinical Trial Details
— Status: Recruiting
Administrative data
| NCT number |
NCT05953818 |
| Other study ID # |
2022-P2-090-01 |
| Secondary ID |
|
| Status |
Recruiting |
| Phase |
|
| First received |
|
| Last updated |
|
| Start date |
May 30, 2023 |
| Est. completion date |
May 30, 2024 |
Study information
| Verified date |
July 2023 |
| Source |
Beijing Friendship Hospital |
| Contact |
WenHu LIU |
| Phone |
15011393263 |
| Email |
wenhuliu[@]mail.ccmu.edu.cn |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Observational
|
Clinical Trial Summary
In recent years, due to the frequent occurrence of kidney disease and diabetes, the number of
patients entering maintenance hemodialysis is increasing. With the economic development and
dialysis quality improving year by year, the survival time of uremic patients is
significantly prolonged, and the hazards of various complications are increasingly prominent.
Cognitive impairment is a common complication of maintenance hemodialysis patients, and its
specific mechanism is not yet clear. Type 2 diabetes mellitus (T2DM) and chronic kidney
disease (CKD) are independent risk factors for cognitive impairment. The prevalence of
cognitive impairment is higher in patients with type 2 diabetes and advanced chronic kidney
disease, especially in patients with diabetes and end-stage renal disease (ESKD). T2DM and
ESKD independently increase the risk of cerebrovascular disease and cognitive impairment.
However, the relationship between diabetes mellitus and cognitive function in maintenance
hemodialysis patients is unclear. However, compared with the general population, patients
with type 2 diabetes mellitus (T2DM) and patients with advanced chronic kidney disease (CKD)
had more severe brain atrophy, and the severity of white matter lesions on brain MRI
increased. To sum up, the study of cognitive dysfunction is very important in maintenance
hemodialysis patients with diabetes. It is urgent for us to explore the changes of cognitive
impairment and brain magnetic resonance in maintenance hemodialysis patients with diabetes,
so as to help detect brain cell damage and improve the survival rate and quality of life in
the early stage of the disease.
Description:
In recent years, due to the frequent occurrence of kidney diseases and diabetes, the number
of patients entering maintenance hemodialysis is increasing. With the economic development
and the improvement of dialysis quality year by year, the survival period of uremia patients
is significantly prolonged, and the hazards of various complications are increasingly
prominent. Cognitive dysfunction is a common complication of maintenance hemodialysis
patients, and its specific mechanism is still unclear.
Firstly, let's talk about cognitive impairment and changes in brain magnetic resonance
imaging.Cognitive function refers to the ability of the brain to perform advanced activities,
including sensory perception, attention, memory, language, thinking, consciousness, and even
emotions. Cognitive dysfunction is one or more aspects of the cognitive process that are
impaired, mainly due to developmental and learning delays, brain trauma or brain diseases
(such as stroke, brain trauma, Parkinson's disease, Alzheimer's disease, multiple sclerosis,
schizophrenia, and other chronic diseases), or sociocultural conditions (such as malnutrition
or environmental deprivation). Cognition is an important aspect of functional status and a
determinant of patients' ability to control disease, live independently, and participate in
nursing decision-making. Scholars have pointed out that patients' cognitive impairment is
directly related to the degree of white matter injury, and is in direct proportion .
Moreover, cognitive impairment can lead to changes in the hippocampus, gray matter, and white
matter of the brain. Therefore, effective monitoring of the patient's brain, especially the
white matter, is the key to implementing treatment. Brain magnetic resonance imaging can
fully display the heterogeneity of water molecular dispersion in brain tissue. The new
non-invasive three-dimensional arterial spin labeling (ASL) imaging technology provides a
means to detect local hemodynamic changes. Compared to PET, its advantages lie in its
non-invasive nature and rapid acquisition time under high magnetic field intensity (3.0 T).It
can more effectively observe patients' early brain injury and diagnose early cognitive
impairment. Previous studies have shown that for patients with early cognitive impairment,
compared with healthy controls, MRI shows a symmetrical decrease in CBF values, mainly in the
frontoparietal temporal lobe region, followed by marginal brain regions such as the cingulate
gyrus and hippocampus, with the occipital lobe least affected.
Next, let's talk about cognitive impairment and changes in brain magnetic resonance imaging
in maintenance hemodialysis patients. As a special group of people, maintenance hemodialysis
(MHD) has been found to have widespread cognitive impairment. Tang Xiaojun's research found
that the incidence of cognitive dysfunction in MHD patients can reach 61.84%, further proving
that cognitive dysfunction is common in MHD populations. Once complicated with cognitive
dysfunction, it not only seriously affects the treatment, daily life, and work of maintenance
hemodialysis patients, but also affects their psychological status, nutritional status, and
immune function, which may lead to poor prognosis such as death.
Cognitive dysfunction is affected by many aspects. Maintenance hemodialysis patients have
many known risk factors for cognitive dysfunction, including risk factors associated with a
variety of cardiovascular and cerebrovascular diseases and cardiovascular and cerebrovascular
diseases, such as hypertension, diabetes and dyslipidemia, the neurotoxicity of uremic
toxins, massive fluid and osmotic changes during dialysis, fluctuating uremic toxin titers.
As MHD has become the main life-sustaining treatment for patients with end-stage renal
disease (ESRD), the low perfusion volume caused by long-term MHD treatment will cause acute
cerebral ischemia, and the decrease in cerebral blood flow is significantly associated with a
decrease in overall and executive function and progress in the burden of white matter
disease. Some studies have pointed out that the presence of cognitive impairment is one of
the high-risk factors for adverse outcomes such as hospitalization, exacerbation, and
termination of dialysis in MHD patients, while patients with cognitive impairment have a
higher risk of death than patients without cognitive impairment. Therefore, early assessment
of cognitive function and intervention therapy for MHD patients is of great significance.
Because early symptoms of cognitive dysfunction are not obvious and it is difficult to
attract attention from patients, it is necessary to observe the brain damage of patients as
early as possible through magnetic resonance imaging methods to detect early cognitive
dysfunction. Previous studies have shown that patients with ESRD undergo magnetic resonance
imaging of the brain, and compared to normal individuals, the results suggest an increase in
local cerebral blood flow (CBF), widespread gray matter atrophy, and a decrease in the volume
of white matter in local brain regions. Moreover, maintenance hemodialysis may exacerbate
brain atrophy in patients with ESRD, which is also accompanied by a decline in cognitive
function.
Then let's talk about the cognitive dysfunction and brain MRI changes of diabetes patients.
In recent years, with the rapid increase in the prevalence of diabetes and chronic kidney
disease, the proportion of diabetes patients in hemodialysis patients in China is increasing.
At present, a considerable number of diabetes patients have cognitive dysfunction, and in the
coming decades, the number of diabetes patients with cognitive dysfunction will continue to
increase. However, the hyperglycemia caused by diabetes will lead to increased plasma osmotic
pressure, increased blood viscosity, and decreased metabolic rate of brain tissue, which will
eventually lead to the reduction of local cerebral blood flow. In addition, diabetes patients
have changes in microvascular basement membrane, extensive decline in neuronal function, and
decline in brain metabolism, which can affect cognitive function. In 1966, Reske Nielsen
carried out autopsy on 16 diabetes patients with cognitive impairment, and found that their
brain tissue had severe diffuse degeneration of gray matter and white matter, and put forward
the concept of "diabetes encephalopathy" for the first time.
Some studies believe that there is a relationship between cerebral perfusion and cognitive
function in diabetes patients. Dai found that compared with the control group, diabetes
patients had decreased cerebral blood flow in the resting default network, visual and
cerebellar networks. The decline of blood flow in these brain regions was related to
pleasure, memory, executive function, insulin resistance at baseline and cognitive
dysfunction, indicating that diabetes patients had a correlation between resting local
cerebral perfusion and cognitive function, and insulin resistance might promote the decline
of local cerebral perfusion in diabetes patients.
Finally, let's talk about the cognitive dysfunction and brain MRI changes in patients with
maintenance hemodialysis and diabetes. Type 2 diabetes (T2DM) and chronic kidney disease
(CKD) are independent risk factors for cognitive dysfunction. The prevalence of cognitive
dysfunction is higher in patients with type 2 diabetes and advanced chronic kidney disease,
especially in patients with diabetes and end-stage kidney disease (ESKD). T2DM and ESKD
independently increase the risk of cerebrovascular disease and cognitive impairment. The
accumulation of advanced glycation end products in T2DM patients triggers vascular
endothelial dysfunction, which may lead to more fragile and permeable cerebral blood vessels.
However, the proinflammatory environment in ESKD patients causes vascular endothelial
dysfunction and cerebral blood flow damage, leading to clinical and subclinical
cerebrovascular diseases. Therefore, investigator speculate that T2DM may increase the risk
of cognitive impairment in ESKD patients. However, there is currently limited data on the
combined effects of T2DM and ESKD on neurocognition. Previous studies have shown that
compared with patients without diabetes, MHD patients with diabetes have a significantly
higher incidence of overall cognitive impairment, and perform poorly in overall cognition,
visuospatial/executive function, naming, language, abstraction and orientation tasks.
However, after adjusting multivariable factors, diabetes cannot independently predict the
increased risk of overall cognitive impairment in MHD patients. Data on the relationship
between diabetes and cognitive function in hemodialysis patients are still limited and
controversial. The correlation between diabetes and cognitive function in MHD population is
still unclear.
The situation of brain MRI in maintenance hemodialysis patients with diabetes is unknown at
present. However, compared with the general population, brain atrophy is more serious in
patients with type 2 diabetes (T2DM) and patients with advanced chronic kidney disease (CKD),
and the severity of white matter lesions on brain magnetic resonance imaging (MRI) has
increased.
To sum up, because cognitive dysfunction is related to the increased mortality of maintenance
hemodialysis patients, compared with patients without cognitive dysfunction, patients with at
least one cognitive impairment have a death risk of 77% or even higher, and type 2 diabetes
may increase the risk of cognitive impairment in patients with end-stage renal disease.
Therefore, the study of cognitive dysfunction in maintenance hemodialysis patients with
diabetes is very important. It is urgent for investigator to explore the changes of cognitive
dysfunction and brain magnetic resonance in maintenance hemodialysis patients with diabetes,
so as to help detect brain cell damage at the early stage of disease and timely treatment,
and improve the survival rate and quality of life of patients. Therefore, the purpose of this
study was to analyze the changes of cognitive function and brain MRI in maintenance
hemodialysis patients with diabetes.
