DAA763 |
Prolongation of calcium signals in nerve cells |
— |
brain |
Human |
|
DAA677 |
Proportion of apoptotic cells may be increased |
— |
mesenchymal stem cell |
Human |
|
DAA668 |
Proteoglycan alterations in cartilage |
— |
cartilage |
Human |
|
DAA702 |
Ratio of oxidized to unoxidized plasma albumin increases |
— |
plasma |
Human |
|
DAA1980 |
Reaction time for a visually paced simple motor task increases with age |
— |
brain |
Human |
|
DAA960 |
Receptor expression alterations |
— |
grey matter |
Human |
|
DAA785 |
Reduced hippocampal activity and functional connectivity in tests for verbal familiarity |
— |
brain |
Human |
|
DAA2040 |
Reduced type II muscle fiber |
— |
skeletal muscle |
Human |
|
DAA2020 |
Reduction in renal function |
— |
kidney |
Human |
|
DAA840 |
Reduction in small intestine absorption rate |
— |
small intestine |
Human |
|
DAA2049 |
Reduction in total body protein |
— |
whole body |
Human |
|
DAA2015 |
Regulation of the acid-base equilibrium of the blood unchanged |
— |
blood |
Human |
|
DAA885 |
Renal blood flow declines |
— |
renal vasculature |
Human |
|
DAA932 |
Renewal capacity declines |
— |
hematopoietic stem cells |
Human |
|
DAA2598 |
Renewal rate of cardiomyocytes decreases with age |
— |
heart |
Human |
|
DAA811 |
Respiratory drive decreases |
— |
respiratory system |
Human |
|
DAA810 |
Respiratory muscle strength declines |
— |
respiratory system, muscle |
Human |
|
DAA812 |
Responses to hypoxemia and hypercapnia are decreased |
— |
respiratory system |
Human |
|
DAA897 |
Response to antidiuretic hormone decreased |
— |
renal tubule |
Human |
|
DAA708 |
Response to beta-adrenergic stimulation decreased |
— |
heart |
Human |
|
DAA859 |
Responsiveness of cholinergic receptors is decreased |
— |
ileum |
Human |
|
DAA861 |
Resting and squeeze pressures in anal canal decrease |
— |
anus |
Human |
|
DAA2594 |
Resting metabolic rate decreases with ageing |
— |
whole body |
Human |
|
DAA977 |
ROS production in response to stimuli unchanged |
— |
neutrophil |
Human |
|
DAA1981 |
Selective increase in oxidative damage and decrease in antioxidant function during aging in the substantia nigra |
— |
substantia nigra |
Human |
|