In cooperation with Björn, it is splitted on "Disease is Different" into the sections by organ systems and combined with the real cases of our international testimonial / report archive of the related organ system.
HEART
The approximately fist-sized heart lies behind the breastbone in the pericardial cavity or pericardium. The heart is made up of two halves: the strong-muscled left side and the thin-walled right side. Those are divided by a wall called the cardiac septum.
Each of the two halves of the heart is divided into a fore-chamber (or atrium) and a main chamber (or ventricle). The chambers are connected via the mesodermal atrioventricular (AV) valves.
The semilunar valves, which are also mesodermal, are found between the heart chambers and the large pulmonary and aortic arteries.
According to Dr. Hamer, the atria are mainly made of involuntary muscles and are controlled by the midbrain. The ventricles are made up of striated muscles and are controlled by the cerebral white matter (metabolism) and the cerebral cortex (motor) respectively. The pericardium (cerebellum-mesoderm) serves as protective wrapper and friction bearings. Its inner layer (epicardium) grows together with the surface of the heart. Its outer layer is the actual pericardium.
CM recognizes just one type of heart attack: Clogged coronary vessels restrict the supply of oxygen to the heart muscle tissue, which leads to their demise. If large areas are affected, the patient dies.
But why do post-mortem examinations of heart attack victims reveal “pristine coronary arteries,“ while complaint-free, living persons have severely clogged coronary vessels (arteriosclerosis)?
Why do stent-operated patients have no complaints at all, although their stents are already completely clogged after just a few years?
Once again, it was Dr. Hamer who cleared up this contradiction: He discovered that there are two types of heart attacks with differing conflict contents and differing control centers in the brain. One can die of both and one can survive both, depending on the severity and duration of the conflict.
The cerebral white matter-controlled conflict of being overwhelmed or outsmarted affects the heart muscle and causes the death of tissue in the active-phase.
The cerebral cortex-controlled territorial-loss conflict affects the coronary vessels and causes arteriosclerosis in the repair phase.
Ventricles – musculature
Overwhelmed conflict
Pericardium
Attack to the heart
Atria – Musculature
Chunk conflict, inability
to move the blood
Aortic Arch
Male territory-loss conflict
Atrioventricular Node (AV)
(Control of the ventricles)
Sinoatrial Node (SA)
(Control of the atria)
Side note: The heart is not a pump
The technical data of the heart and blood circulation casts doubt on CM’s pump theory: A pump, weighting 300 g (11 oz) and operating at 70 W, is supposed to push blood, which has five times the viscosity (thickness) of water, through thousands of kilometers – CM‘s estimate: 1000-100,000 km!) of vessels? 99% of these are capillaries, which for the most part are so narrow that the red-blood cells are pressed into single-file in order to pass through.
As early as 1860, Chauveau and Lortet observed that during the systolic phase, the pressure in the left ventricle is lower than the aortic pressure, which, according to the pump theory, is impossible.
Bremer observed the blood circulation of very young chick embryos before the formation of the heart valves. He determined that the blood, without any apparent driving mechanism, moved forward around the chick’s own vertical axis in spiral form. The spiral-forming stream of blood is only strengthened by the pulsating heart.
A medium alone, however, cannot generate a vortex: There must be two unevenly viscous materials. Blood contains oxygen, carbon dioxide, nitrogen, etc. It is likely that these gases play a role in the generation of the vortex.
The Austrian water researcher, Viktor Schauberger, came to similar conclusions about fluid dynamics by examining whirlpools in rivers like Chaveau, Lortet and Rudolf Steiner did when they were observing the circulation of the blood.1
Conclusion: The pumping capacity of the heart is only sufficient for a few meters. The rest – let‘s say 10,000
kilometers – is pushed forward by the blood by means of peristaltic vessel impulses, vortices, and largely unknown suction forces. The heart’s role may be better understood as the organ responsible for giving the impulses and keeping the beat.
1 See Raum und Zeit 1998, article series “Das Herz ist keine Pumpe“ No. 91, 92, 93.
Coronary Arteries (red)
Male loss-of-territory
conflict
Coronary veins (blue)
Female-sexual loss-
of-territory conflict
Aortic Arch, Carotid Artery,
Ascending Aorta
Male loss-of-territory conflict
Atrioventricular (AV) Nodes
(control of the ventricles)
Angina (pectoris) – chest pain/pressure/squeezing1
Conflict | Male loss-of-territory conflict or female loss-of-territory conflict (dependent on sex, “handedness,” previous conflicts, hormone levels and age). Male loss-of-territory conflict means: loss of the entire territory or the contents of the territory. For example, someone loses his partner, his job or his rank. Someone loses his house, his business or his money. In the case of male loss-of-territory conflict, it is about the “external territory,“ in contrast to the female loss-of-territory conflict. |
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Example | For male loss-of-territory conflict (examples of female loss-of-territory conflict, see: p.205): A 50-year-old, right-handed man has a bad argument with his boss = loss-of-territory conflict. He feels that his territory has been taken away from him. (Archive B. Eybl) The father of a 9-year-old schoolboy is unfaithful. Afterwards, the marriage of the parents no longer functions – there is constant arguing = loss-of-territory affecting the coronary arteries of the boy. The intact family territory is gone. (Archive B. Eybl) Whenever the early-retired teacher (left-handed, 56-years-old), thinks about her former boss, an authoritarian school principal, she gets angina. She has suffered from this affliction ever since one morning three years ago when she came to school too late and was confronted by the principal. On the outside, she was able to remain calm but inside she was extremely tense. On the way to school, she had a head-on collision, which she only survived by a miracle. Besides that, she was abandoned by her boyfriend, the “great love of her life,“ just a few days before. Because of this powerful combination, she suffered a male loss-of-territory conflict affecting the coronary arteries. (Archive B. Eybl) A 55-year-old, right-handed, professional printing worker has been suffering for the last 2½ years from cardiac arrhythmias (brief lapses). Conflict history: Five years ago, the old printing machine was replaced by a new one. The machine was the patient‘s sole responsibility and he grew attached to it. Now, the new machine is used by several coworkers at the same time. In addition, his salary has been reduced = territorial-loss-conflict affecting the coronary arteries. This has made the patient mildly depressed. Then, 2½ years ago, the patient was given a new job in the company and he came into persistent repair > cardiac arrhythmias. Therapy: decouple one’s identity from company, strophanthin. (Archive B. Eybl) |
Conflict-active | Cell degradation (ulcer) of the sensitively supplied squamous epithelium on the inner surfaces of the coronary arteries (intima). > Increase in cross-section. The “hollowing out“ of these vessels is practically never diagnosed because CM looks for narrowing (instead of enlargement). Squeezing pain in the heart (angina pectoris). Possibly recurrent conflict. An active territorial conflict has the tendency to make someone authoritarian, domineering; one underscores their power. |
Bio. function | The luminal diameter of the coronary arteries is increased > better blood supply to the heart > increased heart performance in order to be able to win back the lost territory or territorial content. For instance, to be able to win back a job or partner (= second change through “BioTuning“). |
Repair phase | Repair and restoration of the squamous epithelium of the coronary arteries. Narrowing (stenosis) of the coronary arteries due to healing swelling = CM‘s “coronary heart disease“ and/or “arteriosclerosis.“ |
Repair crisis | Small heart attack (little conflict mass): Slowed, irregular heartbeat at rest or larger heart attack 2 – 6 weeks after the beginning of the repair phase, if not in constellation. |
Questions | Chest pain since when? (Conflict occurred shortly before this). What territory is this about? (Partner, family, employment)? Does it feel better on vacation? (Indication of conflict in daily life). When is it the worst? (Focus of the conflict). Which stress is the hardest for me to deal with? Which feelings do I have during this stress? Similar feelings in childhood? (Determine the conditioning, e.g., mother wasn’t there when I needed her the most or I was ignored during my childhood). Do ancestors also have heart problems? (Indication of family issue). Which similarities do I have with this/these ancestors? (Identify a common pattern). |
Therapy | Determine the conflict and consider if one should resolve it, because when it has been singularly (without constellation) active for longer than 6 – 9 months, it may be followed by a heart attack. Consider: Should I focus on my development and take the chance of suffering a heart attack? My personal opinion is that it’s worth the risk. When the conflict hasn’t lasted too long, is low intensity or is a part of a constellation, the repair phase crisis is usually uneventful (e.g., short, stabbing sensations in the heart area while at rest). For your reassurance: The vast majority of us are in a safe constellation mode. In my experience, you can hardly control keeping conflicts unresolved anyway. (Goethe wrote: All theory, dear friend, is gray, but the golden tree of life is green.) Mental preparation: stay calm. Physical preparation: ouabain, in homeopathic form as g-strophanthin. All health inducing and strengthening measures, such as sufficient sleep, alkaline nutrition, etc. Heart strengthening foods: asparagus, honey, onions, red wine, red grape juice. Tea: rosemary, hawthorn, mistletoe, arnica, rose-blossom petals, etc. Hildegard: galangal powder and galangal-honey special recipe. |
Heart attack coming from the coronary arteries (coronary heart attack),
arteriosclerosis of the coronary arteries
Same SBS as above. (See previous pages)
Example | When a man, now 54-years-old, separated from his wife 7 years ago, his daughters also turned their backs on him. = Territorial loss due to losing his daughters. Two years ago, he married the woman that he loves. This year, he celebrated Christmas for the first time with his new partner’s two children. It was the first time since his divorce that he felt “like he’s in a real family” again = immediate resolution of his territorial-loss conflict (even though they aren’t his own children). Five weeks later, he suffered a heart attack and he barely survived. However, he quickly felt much better afterwards. Regardless, his doctors still wanted to perform a bypass surgery on him. After thinking about it, he decided against having the operation. To be on the safe side, he ordered a homeopathic mother tincture of ouabain (g-strophanthin) to have on his nightstand. He also takes hawthorn (Crataegus) – the g-strophanthin native to northern latitudes – every day. (Archive B. Eybl) |
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Phase | Repair phase crisis: 2 – 6 weeks after the beginning of the repair phase, the patient suffers a coronary infarction (CM: “heart infarction“ or “heart attack“). Feelings of fear and the fear of death, intense chest pain, possibly extending into the back and the left arm, chills. Small heart attacks are much more common than a massive heart attack and are much less drastic in their effects. The pain does not come from the narrowing or closure of the coronary vessels, but from the strong sympathicotonic cramps of the vessel walls controlled by the cerebrum (according to Dr. Hamer: voluntary musculature) = local “vessel-muscle-epilepsy,“ which can also be generalized. With this type of heart attack, one finds “arteriosclerotic“ coronary vessels, but no damaged or atrophied muscle tissue. Possible conscious absences (blackouts) or unconsciousness (syncope/fainting). The rhythm center for the slow heartbeat also lies in the male-territorial part of the cerebral cortex. This is why the pulse is irregularly slow during a heart attack. The pulse can drop to 3 – 4 beats per minute and is accompanied by very shallow breathing (earlier: “apparent death“). |
Therapy | If a heart attack is to be expected, see therapy on the previous page. Stay calm, procure ouabain. During/before a heart attack: ingest ouabain. If necessary, admission to a hospital for acute care. However, it is a judgement call, because CM’s emergency care often does/administers much too much. Afterward: After intensive care for this SBS, CM will often try to perform bypasses or implant stents, which, from the perspective of the 5 Biological Laws of Nature, probably only make sense in the exceptional cases where one of the three major vessels is blocked. One must know that in the case of a blocked blood vessel, the body immediately forms parallel or bypass vessels (anastomosis) when a vessel is no longer passable due to injury or blockage = “natural bypass.“ A well-kept secret of cardiology is that stents or bypasses close up after a few months – nevertheless the patient continues to do well. See also p. 151. > Consider these types of interventions very carefully. Even though the heart attack is a repair phase symptom, after surviving one, the patient should nevertheless work out the causal conflict in detail (see questions, p. 152). One should be sure that no recurrences are going to take place (because this would also mean further episodes). We can only be sure of this when we know the causes of the conflict. > “I’m going to use my second chance.” |
AV block (atrioventricular block)
Same SBS as above. (See p151) AV block is an unnecessary CM term based on the false assumption that the drop in heart rate is due to a conduction disturbance between the atria and the ventricles.
From the view of the 5 Laws of Nature, the AV node, which controls the pulse rate of the ventricles, is directed by the right and left cerebral cortex and reacts to territorial conflicts. The AV node is the “sparkplug of the main chambers.“
Symptom Dramatic drop in the pulse rate (bradycardia) or cardiac arrest.
Phase | Repair phase – repair phase crisis: The pulse can sink very low, together with very shallow breathing (earlier “apparent death“). With longer conflict activity, it results in cardiac arrest. |
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Therapy | In CM, a pacemaker is implanted after emergency care. Pacemakers are probably useful in some cases: in chronic, recurrent, intractable conflicts. Their use must be considered carefully in each case. In my opinion – the symptoms should be the decisive factor rather than the patient‘s readings. For additional therapeutic measures, see: p.163. |
1 See Dr. Hamer, Charts, p. 113
Myocardial infarction (infarction of the heart muscle)1
In the second type of heart attack, the heart muscle is affected, not the blood vessels.
Conflict | Conflict of being overwhelmed or outsmarted (cheated). Explanation: Being overwhelmed or outsmarted must also be seen in a social context, i.e., it has to do with other living beings (humans, animals). Being purely physically overwhelmed (e.g., sports, shovelling snow) is not enough. The fact that one has “too much to do“ does not lead to a conflict of being overwhelmed or outsmarted. There needs to be a boss, for instance, that puts a person under too much pressure. A common situation according to Ranier Körner: Someone wants to help another but cannot. > Helper syndrome: One can’t stand to see others suffering and can’t say “No.”> Danger of burnout. |
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Examples | ➜ One “gets robbed blind by someone“ = conflict of being outsmarted. The son of a right-handed patient is a “permanent student“ = conflict of being overwhelmed, affecting the right heart muscle > cell degradation in the muscle tissue, myocardial infarction in the repair phase crisis during the repair phase. (Archive B. Eybl) A man has been together with a woman for 7 years when he realizes that she is just using him to support her = conflict of being outsmarted and three other conflicts. (Archive B. Eybl) A father learns that his son is probably going to lose his job, because he is unreliable = conflict of being overwhelmed – he cannot prevent the failure of his son. (Archive B. Eybl) A 64-year-old, right-handed, already divorced patient meets a man and falls in love with him. The beginning the relationship is very good, but as years go by her boyfriend gradually pulls away from her. He is often unfaithful and there are frequent arguments. The patient feels used and suffers from the rejection by her partner. Her weight drops to 49 kg (108 lbs). Conflict of being outsmarted or overwhelmed affecting the left partner–heart muscle. (Archive B. Eybl) A 54-year-old, right-handed man has a particularly good relationship with his grandson. He regards him as “his own child.“ They are like one in mind and spirit. When the boy is five years old, his daughter meets a man and decides to move far away to be with him = conflict of being overwhelmed by his grandson moving away affecting the RIGHT heart muscle (mother/child side – see note below). Three months later the man begins suffering severe heart attacks, which last for half a year = repair phase crisis = heart attacks. Then, everything is all right again. (Archive B. Eybl) A mother of three has one highly gifted child who always skipped school. She was constantly caught between struggling to make her son comply with attendance requirements and avoiding the threats of the child welfare authorities (revocation of her custody rights). On the day the situation with her son was finally settled once and for all, she began to experience a regular series minor heart attacks. = Resolution of her feeling-overwhelmed conflict. After every heart attack, she was a total wreck. It took 10 years before she could finally resolve the conflict. (Archive Antje Scherret) |
Conflict-active | Demise (necrosis) of the heart muscle cells in one or several parts of the heart muscle = muscle atrophy. Athletic and physical performance drops more or less markedly. One should not burden oneself, for this could lead to a break (rupture) of the thinned-out heart wall – however, only during a massive conflict of being overwhelmed. |
Repair phase | Restoration of heart muscle tissue in the affected area – beyond the original state = increase in muscle (CM: “myocarditis,“ “myocardial sarcoma“). |
Repair crisis | Smaller or more severe myocardial infarction (CM: “heart attack“) according to the size of the conflict mass = local epileptic seizure of the heart muscle: increased, irregular heart beat (= CM: tachycardia dysrhythmia), heart trembling, ventricular flutter, ventricular fibrillation, possibly chills. Light progression: increased pulse (tachycardia), “Heart throbbing, quaking in one’s chest.” Infarction of the left ventricle: acute drop in blood pressure, so-called “circulatory collapse.” Infarction of the right ventricle: acute rise in blood pressure, due to the coupling of the muscle of the right ventricle with the left diaphragm (breathing assistance muscle) and the bronchial musculature, breathing is impaired: breathing pauses in the night (sleep apnea), respiratory distress, possibly respiratory arrest. |
Bio. function | Thickening and strengthening of the heart muscle in order to better deal with future demands (= luxury group). The heart then has higher performance than before. (This only applies to a clean, two-phase process, not in the case of a recurring conflict). |
Note | The cardiac system goes through a turnover during the course of embryonic development. For this reason, in the heart muscle and the other mesodermal parts of the heart (valves) the mother/child and partner sides are reversed. This means for the right-handed, a crisis of being overwhelmed or outsmarted with regard to the mother/child will affect the right heart muscle. With regard to the partner, it is the left heart muscle. For the left-handed, the mother/child relationship that affects the left heart muscle and in the partner relationship, the right heart muscle is affected. With this kind of heart infarction, the coronary arteries are not “arteriosclerotic“ – i.e., “pristine, unclogged blood vessels.“ In this, CM performs no stents or bypasses, yet they find perished or damaged heart muscle tissue (and don’t know why). We can also see this link between heart muscles and diaphragm in the so-called Roemheld syndrome. The heart muscle infarction can generalize, meaning the heart muscle convulsions can spread to the musculature of the musculoskeletal system > pattern of a “normal“ epilepsy |
Questions | To distinguish between coronary arteries and heart muscle: Was a coronary angiography carried out? (If arteries are OK > heart muscle). Pain during the infarction? (If yes > coronary arteries) Decreased pulse during the infarction? (If yes > coronary arteries). When was the cardiac arrhythmia/infarction? (An overwhelmed conflict must have been resolved shortly before). First occurrence of the symptoms? (If no: Go back to the first episode and determine the conflict that happened/was happening at the time). What overwhelmed/stressed me? Did it have anything to do with helping? Why couldn’t I deal with it? (Determine conditioning, e.g., during pregnancy, birth, childhood). Who “ticks” the same way in the family? (Find the conditioning). What formed this family member? Will I allow myself to leave this conditioning behind me? Is the conflict permanently resolved? (Estimation of recurrences). What do I definitely want to change in my inner/in my outer life? |
Therapy | See: p.163. Questions see: p.155. |
Inflammation of the heart muscle (myocarditis)
Same SBS as above.
Phase | Repair phase – restoration of heart muscle tissue. Symptoms: weakness, fatigue, shortness of breath, possibly racing heart (= infarction). |
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Therapy | The conflict is resolved. Support the healing. Bed rest. Hydrogen peroxide (H2O2) 3% internally. Ouabain, possibly in homeopathic form as g-strophanthin (see www.strophantus.de). Qestions see: p.155. |
1 See Dr. Hamer, Charts, pp. 61, 72
Sudden cardiac death (SCD)
According to CM, during the autopsy, clogged coronary arteries are found in 80% of those who die from sudden cardiac death.
This is a clear sign of a male territorial conflict affecting the coronary arteries.
The remainder – probably more than 20% – are thus attributed to crises of being overwhelmed in relation to the heart muscle.
The characteristics of sudden heart death show that it occurs during the vagotonic phase, namely during sleep, in one‘s free time, while resting and in the recovery phase following sport activities.
Both kinds of heart infarction can occur here:
- Heart infarction coming from the coronary arteries (80%), loss-of-territory conflict – repair phase crisis: the center for the slow heartbeat (cerebrum right side) lowers the pulse rate toward zero > apparent or real death.
- Infarction of the heart muscle (about 20%), conflict of being overwhelmed – repair phase crisis.
- Sudden cardiac death during activity (for example, an athlete collapses on the field): usually a break (rupture) of the heart wall in the active-phase of a conflict of being overwhelmed > thinning of the heart wall > rupture through heavy strain.
Heart Valves
Self-esteem conflict related to the heart
General HeART VALVE DEFECT (valvular heart disease – vhd)
The four heart valves prevent the backflow of blood during and after a heartbeat. The tissue belongs to the mesodermal inner wall lining of the heart (endocardium).
Conflict | According to Dr. Hamer: self-esteem conflict related to the heart. Dr. Sabbah: self-devaluation, also in a figurative sense through reproaches such as: “You are heartless!” |
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Example | ➜ Somebody suffers from angina pectoris and other heart problems. ➜ Somebody hears the diagnosis that something is wrong with his heart. ➜ “My heart‘s no good anymore!“ |
Conflict-active | Degradation of tissue (necrosis) in the heart valve tissue. |
Repair phase | Restoration through increased metabolism and cell division = inflammation of the heart valve = filling up of “holes.“ Most often a recurrent conflict. |
Bio. function | Strengthening of the valve. |
Therapy | Questions: see below. See also p. 163. |
Inflammation of the heart valves (endocarditis valvularis)
Same SBS as above. These diseases are regarded as being heart valve defects (mitral valve defect).
Phase | Persistent repair. Due to recurrences, scarred calcifications occur, usually at the edges of the valves. The scar tissue can diminish the tightness of the seal, reduce the closing function of the valves (valve insufficiency) or narrow the lumen (stenosis). |
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Note | A narrowing (stenosis) of the aortic valve hinders the thrust of blood from the left ventricle into the main circulatory system > this can cause the ventricle to widen (= pressure hypertrophy). The mitral valve lies between the left atrium and the left ventricle. If the mitral valve is narrowed (stenosis) or if the seal is not tight (insufficiency), the left ventricle is no longer completely filled up > the body increases the volume of the left atrium or ventricle (dilatation). Chronic mitral or aortic valve insufficiency becomes noticeable when a patient has difficulty breathing when strained (dyspnea). |
Questions | When did the symptoms begin? (Conflict usually began long before the first symptoms). What was I thinking about my heart at the time? Was I sympathizing a lot with someone who had heart disease? Did I or did a loved one receive a serious diagnosis with regard to their blood or circulation? Were there those kind of worries during the pregnancy or in childhood? Have family members suffered from heart problems? If yes, am I similar to this family member? Do I carry these symptoms out of solidarity? (Work out the cause). |
Therapy | Find out what the conflict and conditioning are and, if possible, resolve them in real life so that the persistent repair comes to an end. Guiding principles: “I trust my heart.“ “I won‘t let anybody tell me anything else.“ Read “The heart is not a pump“ on p. 151. Hydrogen peroxide (H2O2) 3% internally. Ouabain, possibly in homeopathic form as g-strophanthin (see www.strophantus.de). Heart valve surgery, if the symptoms make it necessary. |
The following perspectives, in the style of Dr. Sabbah, should only be considered by open-minded people (nothing for strict 5BLN dogmatists). Also, the conflict descriptions are not yet supported by their own case studies and are therefore uncertain.
The blood corpuscles represent the child/one’s self (see also: ch. Blood p. 164ff.).
The heart as a whole represents parents/parental home – “the stable we come from.“
The right (weaker) side of the heart with tricuspid valve and pulmonary valve represents the mother: The mother nourishes us with love. She (the right half of the heart) receives the deoxygenated blood from the circulatory system and sends it to the lungs for 02 enrichment in the lungs. We take her love (02 ) with us on life’s path (in the greater circulatory system).
The left (stronger) side of the heart with aortic valve and mitral valve stands for the father: The father sends us out into the wide world (the greater circulatory system) with power, so that we can prove ourselves and share our love (02 ).
The heart valves represent the doors to/into the “father’s room” (left heart side) and “mother’s room” (right heart side).
Note: In other descriptions, Dr. Sabbah assigned the atria to the mother and the main chambers to the father.
AORTIC VALVE AND MITRAL VALVE
are found on the left side of the heart and resonate with the father principle.
Mitral valve leakage (mitral regurgitation)
The mitral valve is the “door” between the atrium and main chamber (ventricle) on the left side of the heart. Due to leakage, the main chamber cannot be completely filled. > Increase in volume of left atrium and left ventricle.
Main symptoms | Shortness of breath with exertion (exertional dyspnea), auscultation: specific heart murmur. |
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Conflict | issue Sabbah: Devaluation – my father kicked me out, but I am coming back because of my mother. |
Narrowing (stenosis) of the mitral valve
A reduction in the diameter of the mitral valve – one of the most common heart valve defects.
Main symptoms | Decreased performance on exertion, auscultation: specific heart murmur. |
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Conflict | issue Devaluation – my father/husband does not let the child/me come to him/shuts himself off. |
Aortic valve leakage (aortic insufficiency)
The aortic valve releases the blood into the larger circulatory system. If it leaks, a portion of the blood flows back into the heart.
Main symptoms | Shortness of breath with exertion, increased heart rate (the heart attempts to compensate for the reduced output). |
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Conflict | issue Sabbah: Devaluation – my father kicked me out, but I want to return to my parents. |
Aortic valve stenosis
Narrowing of the aortic valve (aortic valve stenosis) means the blood is obstructed as it is pushed into the greater circulation. > Restriction of the oxygen supply first becomes noticeable in the brain. As a result, the main chamber can widen pathologically (= pressure hypertrophy)..
Main symptoms | Shortness of breath with exertion, reduced physical performance, dizziness (due to reduced 02 i supply to the brain). |
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Conflict | issue Devaluation – I want out, but my father/husband/parental home won’t let me go/is holding me tightly. |
tricuspid valve and pulmonary valve
are on the right side of the heart and resonate with the mother principle..
Tricuspid valve leakage (Tricuspid regurgitation)
The tricuspid valve is the “door” between the atrium and the main chamber (ventricle) on the right side of the heart.
In tricuspid regurgitation, the leakage is usually caused by an abnormally enlarged right ventricle due to blood backing-up from the lungs due to emphysema (p. 199), COPD (p. 202) or lung embolism (p. 205).
If these causes (called pulmonary hypotension) are not present, the problem lies with the valve itself.
Main symptoms | Blood backing-up in the right atrium > water retention, especially in legs and pleura. |
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Conflict | issue Devaluation – my mother/wife kicked me out, but I am not ready to go/I want to return. |
Narrowing of the tricuspid valve (tricuspid valve stenosis)
Through a narrowing of the tricuspid valve, the right ventricle cannot be filled with blood sufficiently and this can lead to venous blood backing-up in the body.
Main symptoms | Venous congestion, especially in the neck and upper abdomen (congested liver), in severe cases abdominal dropsy (ascites), reduced physical performance. |
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Conflict | issue Devaluation – my mother/wife does not let the child/me come to her/shuts herself off. |
Pulmonary valve leakage (pulmonary insufficiency)
The pulmonary valve is the “door” between the right ventricle and the pulmonary arteries.
This valve rarely causes problems and if it is affected, hardly any symptoms. If it does, a type of high blood pressure in the pulmonary arteries is usually the cause (pulmonary hypotension, see leakage of the tricuspid valve).
Conflict | issue Devaluation – my mother kicked me out, but I am coming back because of my father. |
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Narrowing of the pulmonary valve (pulmonary valve stenosis)
Through a narrowing of the pulmonary valve, the blood backs up in the right ventricle > increase in pressure > thickening of the right heart muscle (myocardium).
Main symptoms | Usually without symptoms. In serious cases, shortness of breath, chest pain (sternum), fainting, heart murmur. |
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Conflict | issue Devaluation – I want out, but my mother/wife won’t let me go/is holding me tight. |
Example | ➜ A child is born with pulmonary valve stenosis. During the pregnancy, the parent’s main issue boils over again and again: He wants more freedom, she wants to have him close to her (the parents had already separated for a short time because of this). During an argument, the man tells his partner that they shouldn’t argue, their son would feel that. Note: Of course, their son did exactly that and reacted (out of love for his parents) with his pulmonary valve. (Archive B. Eybl) |
Heart valve defect, heart valve leakage (heart valve insufficiency)
Possible causes
- Cicatricial growths on the heart valve: Persistent self-esteem conflict with regard to the heart > chronic heart valve insufficiency (see: p.156).
- Pericardial effusion: Deformation of the heart due to pressure from the outside. Changes in the pericardial layers can cause tensile stress on the heart > temporary leakage of the heart valve > heart valve “insufficiency“ (see: p.161).
- Cell degradation or cell growth in the heart muscle (myocardium). Shrinking of the heart muscle tissue (active-phase) and thickening in the heart muscle (repair phase) can “tense“ the heart so that the heart valves leak temporarily or chronically (see: p.154).
Hole in the heart (ventricular septal defect, VSD, atrial septal defect, ASD, patent foramen ovale, PFO, atrioventricular septal defect, AVSD)
A hole between the heart’s atria (the so-called foramen ovale) is necessary for a child’s circulation when it is in the womb. This valve normally closes naturally in the first days after birth. In every fourth person it does not close completely.
Only larger holes in the septum between the atria or ventricles are problematic, because oxygen-rich blood mixes with oxygen-poor blood with every heartbeat (= most common congenital heart defect).
In our view, “hereditary” means inherited from parents/ancestors or karmically (from past lives).
Conflict | 1. Substitution conflict, when communication between the parents (right heart = mother/left heart = father) no longer functions. 2. According to Dr. Sabbah, family conflict due to “mixing blood”: Fighting/stress due to an “improper” marriage or marriage between people not belonging to the same religion or nationality. |
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Example | ➜ The parents fighting/separating during the pregnancy. a Missing cardiac septum in infant: While still in the womb, a baby girl is diagnosed with a missing cardiac septum and an underdeveloped aortic arch. Immediately after birth, the baby undergoes a successful operation. Family history: The father also had a heart defect as a baby (= indication of an inherited conflict from one of the father’s ancestors).Therefore, the focus is on the father‘s parents: The grandfather of our little patient left his wife one night when he learned they were expecting a child. = Conflict that there is no communication/connection between the mother and father. The barely formed aortic arch represents the lost father. (The left side of the heart, i.e., the aorta, is related to the father/husband.) It is interesting that for the girl, 6 years old now, the most important thing is that the family is always together. (Archive B. Eybl) |
Conflict active | Incomplete closure of the opening between the atria (foramen ovale) after birth. Only large holes make themselves noticeable: Shortness of breath, poor physical performance due to 02 – deficiency. |
Bio. function | Attempt by the child to improve the connection/communication between parents/families. |
Repair/healing | Closure or shrinkage of the opening > Improvement/restoration of physical performance. |
Therapy | Substitution conflict, determine family belief structures and resolve. Look for where the love is – that’s where the resolution is. Usually there is no immediate need for an operation > wait and see if the symptoms improve through conflict resolution. |
Atrial fibrillation (paroxysmal atrial fibrillation, arrhythmia absoluta)1
The atria of the heart are controlled by the midbrain via the sinoatrial nodes; the ventricles are controlled by the cerebral cortex through the AV nodes. The atria consist predominantly of smooth muscles related to the intestines. The intestine’s principle of motion is rhythmically undulating (peristaltic) forward transportation. The rhythmic tightening and loosening of the atria corresponds with this principle.
Conflict | Chunk conflict (see explanations p. 15, 16) of believing that the heart cannot take care of the blood supply or does not pump enough. Fear that something is wrong with the heart. Possible substitution on behalf of a relative/friend. “Retired athlete or sports addict” conflict. Also in the figurative sense: conflict that someone can’t keep the operation/business running (work or money turnover seen as pumping blood). |
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Examples | ➜ Someone hears the diagnosis: “Narrowing of the carotid.“ ➜ “Your coronary vessels are 80% congested!“ ➜ “We have found a blood clot in your daughter‘s brain!“ (Substitute conflict) A 61-year-old man is an avid mountain climber. In the course of a hernia examination in the hospital, the doctor measures his pulse and notices irregularities. Suddenly, he is regarded as an acute heart patient. Hectically, they put him on a stretcher and transport him to the coronary care unit, although he had just ridden his bicycle to the hospital. Twice, he is hooked to a 24-hour electrocardiogram > conflict, that the heart does not pump enough. He tells himself: “What is wrong?“ Since then, the patient suffers from atrial fibrillation. (Archive B. Eybl) An ambitious, 69-year-old, amateur racing cyclist is the oldest in his cycling group. This summer he had trouble keeping up with the others (pulse up to 190 according to his heart rate monitor). = Conflict that his heart can’t keep up with his circulation needs. Since then he has atrial fibrillations. (Archive B. Eybl) A 60-year-old entrepreneur had been primed for performance by his father. In recent years though, it had been an increasing struggle for him to keep his business running. Every weekend (relaxation) he experienced atrial fibrillation. By recognizing the cause and now taking it easy on himself, he was able to heal himself. (Archive B. Eybl) |
Conflict-active | Strengthening and thickening of the smooth musculature of the atrium. Increased muscle tension. |
Bio. function | With strong atrial muscles, the blood can be thrust forward more easily – thus, circulation is improved. |
Repair phase | Normalization of the muscle tension. The thickened atrial musculature remains. |
Repair crisis | Attacks of strongly accelerated peristalsis (“heart colic“). Atrial flutter, atrial fibrillation: racing heart, feeling disquieted. Up to 600 beats per minute, clearly diagnosed with the electrocardiogram, the so-called peristaltic waves being absent. Possibly chills. Usually a recurring conflict. |
Note | Atrial fibrillation is among the most common heart rhythm disturbances, but it is not life-threatening. Sometimes it is seen simply as “an irregular pulse“ or it is not noticed at all. Vicious circle: “Something is wrong with my heart!“ > Often, an inner urge to always have control over the heart. (Blood pressure measurements, heart rate monitor, visits to the cardiologist, etc.) |
Questions | Is the diagnosis correct? (According to my experience, 50% of those affected do not have atrial fibrillation, but are experiencing an overwhelmed conflict or a female territorial conflict in resolution instead, see: pp. 154 and 205). If the diagnosis is confirmed: Atrial fibrillation since when? (Conflict previous). Which stress did I have in relation to my heart or my circulation? Will I always remain top fit? (Sports addict conflict). Am I worried about someone else? (Substitute conflict). Do I have similar ancestors? Did my mother or father have problems with their heart/circulation during the pregnancy or in my early childhood? (Conditioning). |
Therapy | The conflict is resolved. In case of recurrence, find out what the conflict and the conditioning are and resolve them. Guiding principles: “My blood circulation functions perfectly.“ “I won‘t let anybody tell me anything else.“ “I’m going to slow down a little and enjoy life.” Read “The heart is not a pump” on p. 151. Ouabain, possibly in homeopathic form as g-strophanthin. (For information and sources see www.strophantus.de). For steps in the repair phase crisis, see heart attack on p. 163. CM’s current electrical cardioversion is rarely successful and, therefore, not recommended. The pharmacological (chemical) cardioversion using antiarrhythmic drugs is only sensible for short term use. |
1 See Dr. Hamer, Charts pp. 37, 38
Inflammation of the pericardial sac (pericarditis)1
Conflict | Attack-to-the-heart or anxiety about the heart (usually from a diagnosis). |
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Examples | ➜ A real blow to or stab to the heart (blow, stab, electrical shock). Fear before a heart OP. ➜ Mental attack: “You have a sick heart!“ Or, “I have a bad heart.“ “I felt it deep in my heart!“ Notification of a heart OP. May also be experienced vicariously. ➜ Pain in the heart region due to angina pectoris or heart attack (very frequent). A little boy loves his father, who has a heart condition, above all else. From the age of two years, he experiences, up close and personally, his father‘s attacks of angina pectoris. He is present when his father is taken to the hospital in an ambulance because of a “suspected heart attack“ = attack-to-the-heart conflict, experienced as a proxy for his father. When he begins school, the conflict is resolved. The healing Hamer focus is diagnosed as a “brain tumor.“ The boy dies from the effects of CM treatment. (See Dr. Hamer, Goldenes Buch, vol. 1, p. 246). A 52-year-old farmer raises geese. Suddenly, in the middle of the night, the dog begins to bark. The patient runs outside to see what is going on. It is his neighbor, who is trying to steal his geese. At this moment, he is hit on the chest next to the left nipple with an axe = a real attack to the heart. 23 years later, after leaving his farm due to old age, he comes into conflict resolution with a major effusion of the pericardial sac. Over the intervening years, “his finger was on the trigger,” i.e., conflict-active. (See Dr. Hamer, Goldenes Buch, vol. 2, p. 488) A 43-year-old woman wakes up at 3 AM because of a heart attack (repair phase crisis – right heart attack). She thinks she is dying. This happens several nights in a row. She is suffering from an attack-to-the-heart conflict. (Archive B. Eybl) |
Conflict-active | Cell division, growth of a pericardial tumor (= pericardial mesothelioma), usually unnoticed. |
Bio. function | Thickening and strengthening of the pericardium in order to better fend off an attack. |
Repair phase | Tubercular degradation of the tumor (pericardial tuberculosis) = pericarditis. Pain behind the breastbone, fever, night sweats. If the patient has no syndrome (see p. 277ff), the pericarditis is dry in the first part of the repair phase (pericarditis sicca). Afterwards, it is always moist (pericarditis exudativa). The border to the pericarditis effusion is seamless. |
Repair crisis | Chills, severe pain. |
Note | After the healing is complete, calcium deposits may remain. Following relapses, spotty or extensive adhesions of the pericardial layers (obliteratio percardii) can be found. A severe callosity of the pericardium (pericarditis constrictiva) leads to a lessening of cardiac performance due to reduced movement of the heart. Vicious circle due to diagnosis. |
Therapy | The conflict is resolved, support the healing process. Guiding principle: “My heart is only temporarily weak. The heart itself is all right. It is only momentarily inflamed, which is a good sign. Everything will be fine again.“ Ouabain or in homeopathic form as g-strophanthin (info, sources of supply: www.strophantus.de). Lymph drainages (see p. 68). Enzyme preparations, MMS (see p. 68). As necessary, CM pain medication. Hydrogen peroxide (H2O2). |
Pericardial effusion (exsudative or transudative pericardial effusion)
Same SBS as above, but with syndrome (active refugee conflict – kidney collecting-tubules, p. 277ff) in addition.
Phase | Repair phase: Buildup of tissue fluid between the two layers of the pericardial sac during the degradation of a tumor = pericardial effusion. In CM, this is often an indication of heart weakness (heart insufficiency). The heart is not weak, but rather, its motion is restricted in the full pericardial sac or, in the case of a pericardial tamponade, it can barely move > continually high pulse rate compensating for the reduced amount of thrust, labored breathing by strain. Usually a recurring conflict. In some people, the pericardial sac is separated into left and right parts; for others, it is open. Accordingly, there can be a right or a left pericardial effusion or an encompassing one (= circular pericardial effusion). The right pericardial effusion causes breathing difficulties, because the right side of the heart, which receives blood from the lungs, is impaired. Only in the case of syndrome (active kidney collecting tubules, p. 277ff) can it come to a pericardial tamponade (massive effusion of the pericardium – one of the most frequent causes of heart-related deaths. |
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Note | The pericardial sac can also fill up with tissue fluid coming from the surroundings (usually the ribs or breastbone during healing). This kind of pericardial effusion is called transudative pericardial effusion. Here lies the danger of a vicious circle: A patient, who hears a diagnosis of pericardial effusion or “heart insufficiency“ often sees this as a new attack to the heart. |
Questions | Effusion since when? Which attack-to-the-heart conflict is being resolved? (E.g., diagnosis, heart ailments)? Are there indications of active kidney collecting tubules? (Water retention, weight problems, increased creatine levels)? Since when? (Possibly for a long time). What happened at the time? (Did I feel lonely as a child or shut out by my classmates)? Did my parents go through tight spots)? |
Therapy | Resolve refugee conflict (kidney collecting tubules). Therapeutic possibilities, see: p.163 and p. 279. Guiding principles: “I am safe and well provided for.” “I am thinking about people who are completely alone and have no roof over their heads.” Visualization: The effusion drains away over the lymphatic system and becomes less and less. Do not take cortisone. If necessary, nonsteroidal, anti-inflammatory diuretic medications (diuretics). MMS (see p. 68). Puncture if necessary. |
1 See Dr. Hamer, Charts pp. 47, 52
Cardiac insufficiency (heart weakness)
Possible causes
• Pericardial effusion: Attack to the heart: Heart insufficiency caused by reduced fullness of the heart (= diastolic heart insufficiency). Since the pericardium is filled with fluid, the chambers cannot fill up properly in the relaxed (diastolic) phase > performance drops even though the heart muscle is strong enough to pump. Effusion of the left pericardium “left heart insufficiency“ > poor bodily circulation > lowered blood pressure, if severe: lung edema.
Effusion of the right pericardium “right heart insufficiency“ > weakened circulation in the lungs.
• Heart muscle weakness (= systolic cardiac insufficiency). SBS of the heart muscle (myocardium) in conflict activity > demise of heart muscle cells = myatrophy > weak performance (see: p.154).
• Heart valve defects: the most serious of these is a non-functioning aortic valve (see: p.156).
Heart rhythm disturbances (arrhythmia)
Possible causes
• Repair phase crisis of the coronary arteries: decelerated, irregular heartbeat (bradycardia).
Control of the slow heartbeat in the right side of the cerebral cortex = male territorial area (p. 151).
• Repair phase crisis of the coronary veins: accelerated, irregular heartbeat (tachycardia). Control of the fast heartbeat in the left side of the cerebral cortex = female territorial area (see: p.205).
• Repair phase crisis of the heart ventricles: accelerated, irregular or regular pulse, “Heart pounding in one’s throat,“ tachycardia (see: p.154).
• Repair phase crisis of the atria: atrial fibrillation (see: p.178).
Therapy for heart attacks (both kinds)
The CM approach
Medicines that promote blood flow in the coronary arteries (nitroglycerin), tranquilizers against fear (benzodiazepines), pain medication (morphine) and beta blockers for stabilizing the heart rhythm. These are followed by a stent or balloon catheter surgery and/or anticoagulants (heparin and enzyme-containing medication).
Dr. Hamer is against this massive intervention. It seems better to accept the rhythm of “Mother Nature“ and wait until the repair phase crisis has passed. However, one must honestly say that for lack of a New Medicine Hospital, we know very little about the right procedure in the case of an acute heart infarction.
The fact remains, CM’s false assumptions have led to nonsensical therapies, which have not increased the chances of survival.
According to my experience, and those of thousands of patients, the botanical hormone ouabain, also known as g-strophanthin, not only helps with heart attacks, but it also helps with all kinds of heart conditions.
It appears that this extraordinarily effective medication was removed from the market by the pharmaceutical industry during the 1960s for the sake of more profit.
As it stands in 2020, g-strophanthin is difficult to obtain except in homeopathic strengths. For information and sources see www.strophantus.de.
Follow-up treatment
In CM, anticoagulants are given. They “work“ because they put the body under artificial stress (constant poisoning). Coumarins are used as rat poison and are even more damaging than ASA. From the point of view of the 5 Biological Laws of Nature: bed rest is what is most important. Blood thinners for a few weeks maximum.
The current state of my knowledge according to the 5 Biological Laws of Nature
- Calm the patient and have them lie down with their trunk raised slightly.
- Give biological dextrose and maltodextrine 19 at short intervals.
- Cool the head: cold affusions, cold compresses, ice pack.
- Give ouabain/g-strophanthin.
- Possibly inject cortisone.
- Enzyme preparations (Wobenzym, for example), emergency drops (Bach Flowers, see p. 59).
- If breathing stops (right heart), injections of respiratory analeptics and cold affusions.
- Mental level > Guiding principles: “It is good that I have resolved my conflict. Now I will get through the repair phase crisis as well. I will try to stay calm and relaxed, in spite of the pain.“ “I put myself in God’s hands.”
- Bed rest, if necessary for six weeks. If one gets out of bed during strong vagotony, the blood can sink into the legs and lead to heart failure.
General heart-strengthening remedies
- Ouabain or in homeopathic form as g-strophanthin ingested best in combination with magnesium chloride (MgCl2) – foot bath.
- MMS (see p. 68).
- Hydrogen peroxide (H2O2) 3% internally.
- Cod liver oil (see p. 68), linseed oil.
- Colloidal gold.
- Teas: rosemary, hawthorn, mistletoe, arnica, rose petals and motherwort among others.
- Natural borax internally.
- Food: asparagus, honey, onion, red wine, red grape juice, among others.
- Garlic-lemon drink cure.
- Kanne Bread Drink.
- Hildegard von Bingen: galangal powder (Thai ginger), parsley-honey wine and galangal honey special recipe.
- Breathing exercises.
All experience reports on the organ system “Heart” from the International Report Archive:
Author | Title and Overview | Keywords | ||||
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2024/12/11 | ||||||
2024/07/21 | ||||||
2023/08/27 A few months ago, my partner enthusiastically took over the management of a plant that was in a bad way. He eagerly began to motivate the employees again and tried to revitalize the company with new concepts. Then the following incident occurred: ... | ||||||
2018/11/17 The young woman had a menstrual cycle-linked string on the heart for several months. The last occurrence could be accurately predicted as such in terms of time, because the rhythm had been precisely analyzed and the underlying loss of territory topic had been concluded - and no further recurrences were to be expected. |