Can I adapt to any situation?
The recent Mesoderm differs from all other embryonic sheets because it is more affected by traumatic events. But is it always like this?
RECENT MESODERM: A STICK IN THE MUD?
Certainly, the recent mesoderm appears to be the most debated embryonic leaflet in the environment of biological laws. The recurrence and, above all, the exuberant tissue typical of the reparative phases of the biological programmes regulated by the brainstem make any kind of investigation difficult, if it is not carried out immediately or at least shortly after the biphasic process has been triggered. It is also interesting that there is uncertainty as to where the biological sense of these programmes lies. Hamer believed that the sense lay in the solution phase, as he thought that surplus tissue made the organ stronger. However, tissue functionality is actually greater in the active phase, when necrosis makes tissue more pliable and elastic in relation to the needs that a specific event requires. Overcoming a defender and scoring, getting rid of an uncomfortable emotional relationship, getting rid of a colleague who is always breathing down my neck. In all these cases, the brain aims to help the subject overcome these situations and consequently, if the perception is that of devaluation, it will activate special programmes that will lead to the active phase necrosis of certain organs.
The problem, as we have already ascertained, is the fact that once the programme has been activated, and thus the repair with redundant tissue (up to 20%), an eventual return to the 'home situation' is no small objective. Moreover, any constant recurrence over time can lead to such a weakening of the tissue involved in the emotional conflict that it is permanently damaged. This is the case with non-traumatic fractures, the rupture of a ligament or a trivial muscle tear.
The emotional resentment linked to the tissues of the recent mesoderm, as already explained, is that of devaluation. Moreover, in organs such as bones, muscles, veins and connective tissue resides all the value an individual places on himself.
In a competitive society such as the western one, it is easy to see how this tissue can be the most affected, as every day we find ourselves in situations where we have to display our value. At home, with a partner or with one's employer. Sometimes even with children.
However, the recent mesoderm is structured in such a way that the subject can adapt to the situations that reality imposes and consequently it is also very difficult to die in the first symptomatic phase (reparative phase A) or even worse during the epileptoid crisis. It is also very difficult for the subject to die in these programmes due to cerebral oedema, i.e. the mass of water that the brain 'recalls' to re-establish the electro-chemical balance that the emotional shock has caused. Death is the solution for those who no longer see a solution. It comes when the resentment of devaluation is absolute and the sponge is literally thrown in.
LYMPHATIC SYSTEM AND SPLEEN
In this article I want to address another structure of the body, part of the tissues regulated by the white substance of the neo-brain, namely the lymphatic system. This is an intricate set of vessels, parallel to the circulatory system, where lymph flows, a liquid that fills the interstices between body cells. The function of the lymphatic system is to drain the lymph found in various parts of the body. The lymph effectively collects what can be called the 'waste product' of cell metabolism. In addition to the 'watery' part, the lymph is also composed of lymphocytes, already mentioned in the article on the leukaemic process, which complete their formation as they pass through other organs of the lymphatic system such as the thymus, spleen and lymph nodes. Unlike the circulatory system, where blood is pumped through the action of the heart, lymph is made to flow within the lymph vessels through the action of the muscles, which is why in situations of constant lack of movement, lymphatic oedemas, i.e. accumulations of undrained lymph in a certain region of the body, can form.
In practice, to imagine the function that the lymphatic system performs within the body, you have to think of the rubbish truck that passes by every morning to collect the waste you have placed outside your door. There is the day they come to collect the plastic, another for the paper and yet another for the wet waste. The lymph has more or less the same function as the rubbish collector: it takes away the rubbish and generally everything that no longer has any function within the organism.
In addition, the lymphatic system also fulfils metabolic functions, as it provides for the absorption of triglycerides and to some extent the metabolisation of proteins.
To all intents and purposes, the lymphatic system is an extension of the circulatory system, as it takes in its contents that have not been absorbed by the tissues, and then filters them through the lymph nodes and other lymphatic organs and reintroduces them back into the bloodstream via the thoracic and right lymphatic ducts. Unlike the circulatory system, the lymphatic system is not a circular apparatus, but works 'one-way'. In fact, the peripheral vessels, which are responsible for feeding the product from the circulatory system into the lymphatic flow, are said to begin at the 'blind end'. The vessels then continue in the direction of the thorax where they get bigger and bigger and pour the lymph into the venous system via the above-mentioned ducts. For this reason, physical activity is very important to keep the muscles active and consequently make the lymph flow efficient and fluid, the muscles being, as specified above, the only and effective 'motors' of the whole lymphatic system.
From the point of view of the biological sense, we are obviously in the realm of 'devaluation'. Both for the lymph nodes and more generally for the entire lymphatic system, Hamer attributed to these programmes a devaluation conflict related to social relations, even in the affective sphere. However, it is the location of the biological activation that speaks of the conflict, which is why an axillary lymphoma will certainly not have the same origin as a spleen lymphoma, where, for example, emotional resentment is objectively linked to the blood, as we saw in the article on bone marrow.
The spleen, in fact, has the important role of filtering blood and storing excess platelets that might otherwise lead to blood clots within the circulatory system. It can be activated when the perception is that a serious haemorrhage has occurred or that the blood is not where it should be.
The spleen programme has the same course as all tissues of the recent mesoderm and the process that leads to excess tissue in this case is called 'splenomegaly'.
Indeed, observing this programme, it is particularly difficult to think that the biological sense lies in the repair phase, where the spleen appears not only enlarged, but also at high risk of tissue rupture with consequent spillage of blood into the abdomen. Necrosis of the active phase, on the other hand, ensures the storage of excess platelets to prevent them from flowing further into the circulatory system.
As for the lymph nodes, the situation is different. They are in fact closely linked to the skeletal district adjacent to them. In fact, the location of the brain areas of the lymph node centres are in close proximity to their skeletal centres. Even the course is practically the same as that of bone, with the classic necrosis in the active phase making the lymph node tissue spongy and full of cavities. In the repair phase, excess tissue is rebuilt. The tumour of the lymph nodes is called 'lymphoma' and is very often confused with the swellings due to lymphatic stagnation mentioned above. Normally, swellings due to stagnation are considered 'benign tumours' and can become radically worse in conjunction with activation of the kidney collectors (refugee conflict). In contrast, true lymphomas, i.e. those with cell mitosis, are defined in official medicine as 'malignant tumours'. A particular type of tumour of the lymph nodes is Hodgkin's lymphoma, the cause of which is traced back to B lymphocytes, but about which there is obviously not much clarity. It is actually a phase of the lymph nodes' special programme and Hamer interpreted the mitotic development as a strengthening and thus an increase in the functionality of the lymph nodes.
Actually, if the meaning lies in the active phase of the conflict, it can be interpreted as the need to filter more lymph in order to ensure greater 'cleansing' in the cellular interstices, but above all in the blood, through the necrosis of the lymph node inner tissue. The enlargement of the lymph vessels that occurs in the reparative phase only leads to lymphatic congestion, increasing the risk of possible stagnation.
It is unclear at this point how it can be possible to ascribe the biological meaning of the programme to the phase in which the organ's functionality is, to all intents and purposes, diminished. It cannot be ruled out that Hamer may have caught a small crab in this case! Of course, this is only a hypothesis and I would be delighted to be proved wrong in this respect, should anyone come up with a more plausible explanation.
THYMUS: THE HAPPINESS GLAND?
Another organ of enormous importance but on which Germanic medicine has not yet spent much effort is the thymus. It is an organ that can be classified as being part of two systems simultaneously: lymphatic and endocrine (glandular). It performs several functions, including the completion of the maturation of lymphocytes produced by the bone marrow and released into the lymphatic flow. Moreover, if we are to take up the metaphor of the rubbish collector, the thymus represents the dump where waste is stored and finally disposed of. In this case, it has the arduous task of eliminating any cells infected by viruses, fungi, parasites and microbes in general that have survived the activity of macrophages. As a location, we find it exactly above the pericardium, behind the sternum, below the thyroid gland. Exactly like the latter, the thymus consists of three main tissues: medullary, cortical and lymphatic. The fact that it is also vascularised and innervated further complicates any analysis of biological activations involving it. From the point of view of biological sense, however, I have not personally had the opportunity to investigate this issue directly by questioning people who have had problems with the aforementioned gland, nor have I been able to find any documentation on how Hamer and in general the popularizers of biological laws have ever interpreted the specific conflict involving the tissue.
However, in the world of esoteric popularisation, there is a lot of talk about this gland, and the thing that struck me most is that for many cultures the thymus is linked to the concept not so much of healing, but of the 'will to heal' from something that somehow grips an individual's life.
There is probably a lot of literature on this subject that I have not yet had a chance to focus on, but I have found a site where there is some information, which I find very interesting, on the different readings that have been given over the centuries on the thymus, both from a physiological and an esoteric point of view. I therefore suggest that the reader click on the following link, should he or she feel the need to delve deeper into this enormous subject.
ARTERIAL AND VENOUS INTIMA
As in the spleen, we can be much more precise by looking at the intima of the venous and arterial vessels. Again, the brain areas that regulate the various districts are close to the skeletal areas where the vessels themselves develop. The process of necrotisation of the venous vessels occurs in conflicts of self-evaluation due to not feeling free to move as one would like. "I don't feel free to do what I want". The part of the body affected obviously allows us to be even more specific in the analysis, so if it were to involve the ankle veins, we could assume a situation like the following: 'a ball and chain'. If, on the other hand, it were to occur on the arms, we would be faced with a resentment such as 'my arms and hands are tied'. The course involves necrosis and atrophy in the active phase, the purpose of which is to make the blood flow more smoothly and consequently encourage movement that the subject is unable to do. In this phase there are no symptoms, unless we are faced with a relapsing process where the varicose veins formed in the course of the various conflicts cause cramps and acute pain. In repair, as usual, excess tissue is rebuilt, becoming thicker and stiffer. The problem in this case is that venous contractions can rupture it causing varicose ulcers with possible haemorrhage or even worse, release solid components of the excess tissue into the bloodstream that can develop 'thrombi' and block blood circulation.
The same programme is implemented for the mesodermal intima of arterial vessels, with the difference that in the repair phase the tissue uses a lipo-calcareous compound, better known as cholesterol, forming plaques in the areas involved in the necrotic process. These are known as 'arterio-sclerotic plaques', which are also very dangerous as they increase the risk of releasing solid compounds into the blood stream that can cause what is known as 'arterio-sclerosis', i.e. occlusion and stasis of the blood circulation.
In cases of local conflicts, as in the case of a severe blow suffered, it is easy for the mesencephalic smooth muscle programmes to be activated (see article on the midbrain and germ cells). This happens because the traumatic necrosis makes the vein (or artery) weaker and consequently the musculature strengthens in order to ensure and maintain the functioning of the vein (or artery) and prevent it from rupturing. As you will have realised by now, even in the absence of emotional shocks, the body is perfectly organised to cope with any contingent need, whatever its origin.
However, even in this case Hamer argued that the programme was intended to strengthen arterial and venous tissue, when in fact a larger vein (or artery) is more susceptible to rupture and is also dangerous for the above reasons. You be the judge.
CONCLUSION
To quote Katia Bianchi, biological laws are a science of complexity. In the interview with Alessandro Brocculi, the researcher specified how it is not enough to go and discover the biological meaning of a particular organ in a purely academic way, by looking in some book for what someone else has written. This is because a vertebra is composed of different structures and a bone is not a muscle, just as it is not a ligament, just as it is not a disc. Every biological activation has to be investigated in depth and the more careful the search for the origin of the conflict, the easier it will be to find the biological meaning that, in my opinion, underlies everything.
This is so true. The recent mesoderm challenges everyone from every angle and Hamer was certainly right when he said that tissues regulated by the white substance possess the peculiarity of adaptation. In fact, all tissues in the body are structured in such a way as to allow the body to self-regulate, but in the recent mesoderm this characteristic is strongly accentuated. It is not for nothing that the tissue that is being repaired is always redundant, which is why Hamer called these tissues 'luxury organs' and the exuberant cells are a demonstration of how the body has the capacity to adapt, according to the dictates of the brain, so that the subject can always be able to cope with any situation in life with which he or she enters into relation.
Biological sense serves to introject biological programmes. Sometimes we cannot understand them, but this does not mean that sense is lacking because in nature nothing happens without a purpose. Rather, we can say that we are unable to understand them or even worse, that we do not want to see them.