No abstract avaiable.
Glucose* ; Homeostasis*

No abstract available.
Adipocytes* ; Homeostasis*

BACKGROUND: As dental implants receive masticatory stress, the distribution of stress is very important to peri-implant bone homeostasis and implant survival. In this report, we created a saddle-type implant and analyzed its stability and ability to distribute stress to the surrounding bone. METHODS: The implants were designed as a saddle-type implant (SI) that wrapped around the alveolar bone, and the sizes of the saddles were 2.5, 3.5, 4.5, and 5.5 mm. The X and Y displacement were compared to clarify the effects of the saddle structures. The control group consisted of dental implants without the saddle design (CI). Using finite element modeling (FEM), the stress distribution around the dental implants was analyzed. RESULTS: With saddle-type implants, saddles longer than 4.5 mm were more effective for stress distribution than CI. Regarding lateral displacement, a SI of 2.5 mm was effective for stress distribution compared to lateral displacement. ASI that was 5.6 mm in length was more effective for stress distribution than a CI that was 10 mm in length. CONCLUSIONS: The saddle-type implant could have a bone-gaining effect. Because it has stress-distributing effects, it might protect the newly formed bone under the implant.
Dental Implants ; Homeostasis

No abstract available.
Calcium* ; Homeostasis* ; Phosphorus*

No abstract available.
Homeostasis* ; Kidney* ; Sodium*

Autophagy is a highly conserved cellular self-digestion pathway, by which intracellular damaged proteins or organelles are delivered to lysosomes for degradation, so as to protect from various dangerous stimuli and maintain cellular homeostasis. Inflammation is a defensive response to injury or pathogens, through which various inflammatory mediators coordinate host defense and repair. However, uncontrolled inflammatory responses can lead to secondary damage and pathogenesis of inflammatory disease. Recent studies indicate that autophagy pathway and related proteins may play important roles in regulating immune response and controlling excessive inflammation. This review introduced research progress in the role of autophagy in regulating excessive inflammation and possible mechanisms.
Autophagy ; Homeostasis ; Humans ; Inflammation

Homeostasis ; Taste/physiology* ; Zinc

Autophagy is an important homeostatic cellular recycling mechanism responsible for degrading injured or dysfunctional subcellular organelles and proteins in all living cells. The process of autophagy can be divided into three relatively independent steps: the initiation of phagophore, the formation of autophagosome and the maturation/degradation stage. Different morphological characteristics and molecular marker changes can be observed at these stages. Morphological approaches are useful to produce novel knowledge that would not be achieved through other experimental methods. Here we summarize the morphological methods in monitoring autophagy, the principles in data interpretation and the cautions that should be considered in the study of autophagy.
Autophagy ; Homeostasis ; Humans ; Organelles ; Phagosomes

No abstract available.
Ear, Inner* ; Homeostasis* ; Meniere Disease*

Glucose is the central nutrient for energy metabolism and life support in the human body. As the main energy substance of the body, glucose is essential for the normal function of immune cells and their proliferation; when glucose homeostasis is disrupted in the body, it may lead to impaired immune system function and pathological conditions. Exploring the relationship between glucose metabolism and immune regulation can help establish the gene regulatory network and figure out potential pathogenic mechanisms under physiological and pathological conditions. This article reviews the current scientific research progress on glucose metabolism and immunity, mainly focusing on the physiological regulatory functions of glucose in maintaining the homeostasis of innate and acquired immunity; and summarizes the research progress on the effects and mechanisms of glucose on tumor immunity and its related therapies under pathological conditions, taking tumors as an example.
Humans ; Glucose/metabolism* ; Homeostasis/physiology*