Keyphrases
Glycaemia
75%
Pancreas Islet
50%
Insulin Replacement
50%
Chronic Hyperglycemia
50%
Implantation Sites
50%
Double Emulsion
50%
Replacement Therapy
50%
Autonomous Control
50%
β-cell Dysfunction
50%
Interdisciplinary Therapeutic Approach
50%
Donor Organs
50%
Protective Devices
50%
Used Material
50%
Immunoprotective Effect
50%
Glucose Sensitivity
50%
Differentiation Protocol
25%
Glycation Stress
25%
Engineered Device
25%
Bioartificial Organs
25%
Core-shell Silica
25%
Chemical Resistance
25%
Droplet-based
25%
Droplet Microfluidics
25%
Insulin Injection
25%
Immunosuppressant Drugs
25%
Langerhans
25%
Hybrid Capsules
25%
Glucose-responsive Insulin
25%
Emulsion System
25%
Persistent Hyperglycemia
25%
Emulsion Synthesis
25%
Insulin Deficiency
25%
Insulin Production
25%
In Vitro Cell Viability
25%
Gel Matrix
25%
Microfluidic Droplet
25%
Microfluidic Technique
25%
Rat Animal Model
25%
Tunable Porosity
25%
Alloxan
25%
Nutrient Metabolite
25%
2D Culture
25%
2-design
25%
Glucose-insulin System
25%
Adaptive Stiffness
25%
Medicine and Dentistry
Insulin Dependent Diabetes Mellitus
100%
Beta Cell
100%
Induced Pluripotent Stem Cell
50%
Stem Cell
50%
Biocompatibility
50%
Autoimmune Disease
50%
Type 1 Diabetes
50%
Immunosuppressive Drug
50%
Cell Viability
50%
In Vitro
25%
Immune System
25%
Oxygen Consumption
25%
Oxidative Stress
25%
Disease
25%
Matrigel
25%
Cytotechnology
25%
Insulin Deficiency
25%
Oximetry
25%
Immunocompetent Cell
25%
Silicon Dioxide
25%
Metabolite
25%
Biological Functions
25%
Organ Donor
25%
Streptozocin
25%
Kidney Nerve
25%
Cell Destruction
25%
Cell Death
25%
Organ Transplantation
25%
Biological Activity
25%
Cytokine
25%
Alloxan
25%
Insulin Release
25%
Hyperglycemia
25%
Protein Glycosylation
25%
INIS
diabetes mellitus
100%
stem cells
100%
encapsulation
100%
pancreas
40%
solutions
40%
insulin
40%
origin
20%
control
20%
matrices
20%
organs
20%
hyperglycemia
20%
shortages
20%
therapy
20%
devices
20%
drugs
20%
chemical properties
20%
diseases
20%
porosity
20%
reviews
20%
permeability
20%
elasticity
20%
alloxan
14%