Add to ORKGNational audienceThis article presents an initial study of the Guyton Circulatory Model using BioRica. This model consists of 18 connected modules, each of which caracterise a separate physiological subsystem. We have focused the present analysis in the Renin- Angiotensin-Aldosterone System (RAAS). The use of BioRica allowed us to build an hierarchical model for this system by means of directly mapping modules to BioRica nodes. The results of each node were validated by comparison with published results
Our model successfully uses the ventricles to pump blood across the blood vessels, lungs, and an org...
Kidneys produce a number of substances that affect intrarenal blood circulation; however, the key sy...
Kidneys produce a number of substances that affect intrarenal blood circulation; however, the key sy...
The renal system is known to participate in the natural regulation of blood pressure. A renal system...
The cardiovascular system is modelled as a fluid flow system consisting of networks of pumps and pip...
Blood pressure levels are tightly controlled in the body by a variety of interconnected mechanisms ...
Blood pressure levels are tightly controlled in the body by a variety of interconnected mechanisms ...
Blood pressure levels are tightly controlled in the body by a variety of interconnected mechanisms ...
Blood pressure levels are tightly controlled in the body by a variety of interconnected mechanisms ...
Multiple humoral and nervous mechanisms, each influencing the cardiovascular system (CVS) with its s...
The overall goal of this dissertation was to assess the utility of Biochemical Systems Theory to mod...
The asserted dominant role of the kidneys in the chronic regulation of blood pressure and in the eti...
A mathematical model of human cardiovascular system is presented in this study. The closed-loop mode...
There is a relationship between arterial blood pressure, cardiac output and vascular resistance whic...
Kidneys produce a number of substances that affect intrarenal blood circulation; however, the key sy...
Our model successfully uses the ventricles to pump blood across the blood vessels, lungs, and an org...
Kidneys produce a number of substances that affect intrarenal blood circulation; however, the key sy...
Kidneys produce a number of substances that affect intrarenal blood circulation; however, the key sy...
The renal system is known to participate in the natural regulation of blood pressure. A renal system...
The cardiovascular system is modelled as a fluid flow system consisting of networks of pumps and pip...
Blood pressure levels are tightly controlled in the body by a variety of interconnected mechanisms ...
Blood pressure levels are tightly controlled in the body by a variety of interconnected mechanisms ...
Blood pressure levels are tightly controlled in the body by a variety of interconnected mechanisms ...
Blood pressure levels are tightly controlled in the body by a variety of interconnected mechanisms ...
Multiple humoral and nervous mechanisms, each influencing the cardiovascular system (CVS) with its s...
The overall goal of this dissertation was to assess the utility of Biochemical Systems Theory to mod...
The asserted dominant role of the kidneys in the chronic regulation of blood pressure and in the eti...
A mathematical model of human cardiovascular system is presented in this study. The closed-loop mode...
There is a relationship between arterial blood pressure, cardiac output and vascular resistance whic...
Kidneys produce a number of substances that affect intrarenal blood circulation; however, the key sy...
Our model successfully uses the ventricles to pump blood across the blood vessels, lungs, and an org...
Kidneys produce a number of substances that affect intrarenal blood circulation; however, the key sy...
Kidneys produce a number of substances that affect intrarenal blood circulation; however, the key sy...