Get Adobe Flash player

Get Adobe Flash player

Module Two: GRS-GROUND REGULATING SYSTEM



Module Two: Ten video recordings of mini lectures (30 minutes each)

A postgraduate specialisation course in Bioregulatory Medicine consists of seven modules. The entire specialisation course can be taken in your chosen order. However, in order to become board registered specialist you need to complete all seven modules in no given time before taking specialist exam. You can enroll to a specific prerecorded short lecture of 30-45 minutes, and book single lecture at time, or live streaming of individual modules or entire course on the registration page.

Module Two main lectures are about Ground regulating system of Cellular and Intercellular space.
Introductory lectures are describing organisation and functions of the GRS, followed by the lectures dedicated to the main homeostatic parameters like alkalinity, antioxidants function and homeostasis of microcirculation.
Emphasis is on presentation of the GRS normoregulation by a detoxification process at cellular levels, membrane receptors and matrix in general. It presents a clinical aspects of therapeutical protocols to mantain parameters of Ground regulating systems according to Bioregulatory medical principles.






Lecture One

    
🎥 Pre-recorded lecture

INTRODUCTION TO GROUND REGULATING SYSTEM (GRS)

The Ground Regulating System (GRS) is a tissue space at the matrix level, comprising of intracellular and extracellular space, bound by cellular membrane. This lecture delivers topography of anatomy and tissue organisation of this space vital for cellular nourishment and survival. The main topic is the GRS functions and factors that influene normal physiology of the space and the way it is in communication with higher homeostasis systems and principles of its control.
Click to book lecture...

Lecture Two

    
    

🎥 Pre-recorded lecture

GROUND REGULATING SYSTEM PARAMETERS

This lecture explains physiology and biochemistry and the ways of communications via active biological molecules and cellular receptors. It is also in biofeedback relationship with Higher Systems of control or PNEI (psycho-neuro-immuno-endocrine) and it is important to understand mechanism of biofeedback and it is also listing physiological parameters which determines normoregulation.
Click to book lecture...

Lecture Three

    
🎥 Pre-recorded lecture

ALKALINITY AND MICROCIRCULATION

This lectures explores two key parameters for GRS normofunction. It discerns that balance of hydrogen ions present in tissue result in bioregulatory disruption. Intracellular imbalance of pH is also disrupting intracellular signalling and organella functioning.
Microcirculation of the arterio-venous and lymphatic capillary flow that caries out body fluids is instrumental of nutrients supply, but also for removal of side metabolites of cellular detoxification. This lecture applies understanding of this parameters, relation to a disease process and factors of theraputical principles.

Click to book lecture...

Lecture Four

    
    

🎥 Pre-recorded lecture

TISSUE FREE RADICALS AND TOXICITY

One of the most detrimental factors to bioregulatory dysregulation that leads to a pathogenesis are various toxic substances known as free radicatls that are impairing molecular structure of cells by removing electrons and causing damage.
This lectures comes up with a list and origin of these substances as well as a ways for neutralisation of these powerful pathogenesis factors which is develop further in the next lecture.

Click to book lecture...

Lecture Five

    
🎥 Pre-recorded lecture

GRS CELLULAR AND INTERCELLULAR DETOXIFICATION

This lecture describes the process of physiological detoxification of the cellular and intercellular space. Detoxification follows Golgie apparatus and membrane chanells, followed by capillary and lymphatic cappilaries that carry toxic debris towards elimination pathways of blood and lymph circulation.
It explains therapeutical ways to accelerate blocked pathways of clearance at the matrix level and detoxification methodology of GRS.

Click to book lecture...

Lecture Six

    
    

🎥 Pre-recorded lecture

CELLULAR RECEPTOR DESENSITISATION

This lectures explains detoxification of the receptors at the cellular membrane level. Electromagnetically charged receptors, stops trandsducing signalling rendering hormones or cytokines signalling ineffective.
We discuss detoxificaton and desensitisation of receptors and bioregulatory protocols for allergies and hormonal dysregulation.

Click to book lecture...

Lecture Seven

    
    
🎥 Pre-recorded lecture

PRINCIPLES OF INFLAMMATION

In this lecture we revise inflammation, history of medical understanding of inflammatory response, purpose and objectives of inflammation and the main symptoms with mechanism that controlls pro-inflammatory and anti-inflammatory mechanism.
Click to book lecture...

Lecture Eight

    
    
🎥 Pre-recorded lecture

ANTIINFLAMMATORY PRINCIPLES - Part 1

Bioregulatory therapeutical principles are based on the inflammatory stage of disease progression. We discuss symptoms and sign of this phase and basic Bioregulatory principles of therapeutical modalities.
We include nutritional and detoxifying principles of subduing inflammation and some application of biological informational molecules like hormones and other inflammatory mediators in theraputical modulation.

Click to book lecture...

Lecture Nine

    
    
🎥 Pre-recorded lecture

ANTIINFLAMMATORY PRINCIPLES - Part 2

In the second part which is a continuation of Lecture Eight, we further explore ways of inflammatory control by T helper lymphocytes and their cytokines.
Bioregulatory therapy is explained in theory and practical case studies modulation of inflammatory response.

Click to book lecture...

Lecture Ten

    
    
🎥 Pre-recorded lecture

DISEASE PROGRESSION PHASES

This is a second lecture on disease progression and we shall dwell more into a specificity of each phase characterised with ever increasing dysregulation.
Presomatic phase is a dysfunctional phase which is often self-corrected, but if dysfunction persists it progresses into the Inflammatory phase.
Chronic inflammation and rigidity of it's mechanism precipitate into degeneration and ultimately Dedifferentiation phase of malignancy.

Click to book lecture...


Go to Module Three ↗