00:00:10: Welcome to a new podcast episode from Laksa made GMB H. My name is Patrick Valicek and today we're talking about something that seems rather technical at first glance, but actually makes huge difference in practice between therapy works one basically just runs without anything happening.

00:00:34: Specifically, it's about the application with electrodes meaning the electrode placement.

00:00:40: Many of you know this.

00:00:42: You're shown a picture A template A placement Maybe from a seminar From a book Or for my colleague And then take exactly that picture and apply to every patient who has similar symptoms.

00:00:57: Yes That sounds practical But to be honest It sometimes is exact opposite of therapy.

00:01:04: This episode is intentionally a bit more detailed than usual because electrode placement Is one of the topics where in over twenty years Of practice and teaching I most frequently see therapists get insecure as soon As The standard placement simply doesn't work anymore.

00:01:24: So today let's take the time to really sort this out from the ground up From the historical development to the theory, all the way to very concrete decision-making aids for your daily practice.

00:01:35: Meaning...for your application practical application of microcurrent therapy.

00:01:42: Internally we have a saying that I also bring up again and again in our seminars which is copy & paste quickly becomes copy&waste.

00:01:52: What's behind this?

00:01:53: If you simply copy an electrode placement from patient to patient without adapting it into individual situation You get what you could call a diverse redundancy.

00:02:06: You repeat a pattern that might have fit the last patient, but simply doesn't fit the cause for the current one.

00:02:14: The result is then a systematic error not because the device doesn't work But simply because the placement is in the wrong place.

00:02:23: and That is exactly the point.

00:02:24: I want to go into a bit deeper today.

00:02:27: An electrode placement is an idea NOT A recipe.

00:02:33: If the placement is correct but success still fails to materialize, let's look a bit closer into that now.

00:02:40: Imagine a chronic knee pain patient?

00:02:43: The obvious reaction electrodes on the knee start therapy locally focused exactly where it hurts by the way historically That was also the first approach we ever worked with in microcurrent therapy.

00:02:57: You basically put the pain across hair to achieve the greatest possible effect there.

00:03:04: A very intuitive and understandable approach, we started establishing this approach specifically with The Clinic Master back in the year two thousandth.

00:03:15: This can work wonderfully if the cause is actually In the knee postoperatively for example after a clear injury where you don't have To look long for the cause then the local placement Is exactly right.

00:03:29: direct influence on the tissue, targeted scan fast reaction.

00:03:34: But if the knee pain actually... let's look at example comes from the hip and foot of an ankle or a bio-mechanical chain that only shows up in the knee but doesn't originate there then I can treat the knee therapeutically until, let's call it... ...I'm blue in the face.

00:04:12: But first, it's worth taking a close look at what microcurrent therapy can actually achieve physiologically and what it can't.

00:04:19: With the classic conduction anesthesia... ...the transmission of stimuli in a nerve is interrupted.

00:04:25: Clear case!

00:04:26: To put it simply… The pain is blocked on its way to brain regardless where actual cause lies.

00:04:33: That not comparable to microcurrent even if effect rapid-pain relief is perceived.

00:04:39: similarly We do not interrupt stimulus transmission.

00:04:42: we influence metabolic processes locally, directly in the treated tissue.

00:04:47: so things like ATP production membrane transport cell communication.

00:04:52: that is a fundamental difference.

00:04:55: conduction anesthesia works wherever the nerve runs regardless of the location of the cause.

00:05:00: microcurrent works where the electrodes are placed and only there.

00:05:05: If the actual problem lies elsewhere, the therapeutic success logically simply fails to materialize no matter how precisely the placement is positioned on the knee itself.

00:05:16: The fact that muscle and joint pain can actually originate in a completely different place than where it's felt also well described outside of microcurrent therapy.

00:05:25: In frequently cited review article in the Deutsches Ersteblatt Pain researcher Siegfried Menses showed persistence.

00:05:34: irritation of pain receptors in a muscle can lead to hyper excitability of nerve cells and the spinal cord, and so-called central sensitization.

00:05:44: This could lead to pain being projected into completely different regions than where actual source of irritation lies.

00:05:53: And Mensa published that muscular tension is more often consequence for painful lesion than its actual cause.

00:06:05: This aligns very closely with the clinical observation I just spoke about, The knee can hurt without the cause being there at all.

00:06:14: Also from movement and fascia research There are anatomical explanatory models for this.

00:06:20: Thomas Myers With his standard work Anatomy Trains Which many of you surely know a really highly recommended book We'll also be linked here in show notes And on our website described continuous myofascial chains that simply extend across multiple joints and muscle groups.

00:06:39: And Richter & Hepkin, in their work on trigger points and muscle function chains in osteopathy systematically documented how such chains can be used diagnostically or therapeutically in manual therapy published by Richter&Hepkin.

00:07:00: Recent biomechanical studies using ultrasound motion analysis were able to directly show that movement in the ankle joint propagates measurably up into thigh muscles via exactly these myofascial connections Myers talks about.

00:07:17: In other words, The idea of a chain from foot through knee-to hip is not just practical experience but can now also be proven bio mechanically.

00:07:28: What is also interesting at this point, even if you work purely locally on the knee.

00:07:33: The cellular mechanism of action of microcurrent can now be described relatively concretely which in turn explains why a local placement Also makes sense cell biologically for an actually local joint problem.

00:07:47: A study published in twenty-twenty four, in biomedical engineering letters showed that micro stimulation on cartilage cells inhibits the pro inflammatory signaling cascade via so called NFKB signalling pathway thereby reducing both production of cartilage degrading enzymes and an animal model of osteoarthritis reduces degradation subchondral bone structures.

00:08:13: This was published by Lee et al.

00:08:17: This is a concrete cellular mechanism for why local microcurrent application on the joint itself can achieve something precisely because it acts directly on inflammatory processes in treated joints.

00:08:32: Only this mechanism naturally doesn't solve problem whose cause does not lie under the electrodes at all but before or after it.

00:08:41: A second example from practice that makes this principle even clearer A shoulder problem.

00:08:48: Here too, the intuitive reaction is to work locally in the shoulder.

00:08:51: but shoulder problems very often have a structural background meaning poor posture and muscular imbalance that pulls the entire shoulder girdle into an unfavorable position If you work systemically Instead, in such a case meaning you regulate the entire system.

00:09:10: The shoulder girdle naturally moves into a better position and the shoulder joint simply functions better again And can regenerate.

00:09:18: of course This is not a contradiction to the local placement.

00:09:21: It is simply a different strategy that depending on the cause Can be the better choice?

00:09:28: That Is the core.

00:09:29: A fixed placement without context is often risky Not because it would be wrong, but because it is a probability.

00:09:37: Yes let's call it a fifty-fifty chance you could say and not a guarantee.

00:09:42: today You can use a certain placement on a patient with excellent results.

00:09:46: It works great tomorrow On the next patient with similar symptoms not at all.

00:09:51: And the difficult part about it The worst result that can happen With the device Is not damage But simply nothing happens.

00:10:03: No reaction no progress.

00:10:05: And then you have to ask yourself, did I perhaps choose the wrong program?

00:10:09: Or for those working in the FSM field of course.

00:10:11: Did i perhaps chose the wrong um FSM combinations a wrong FSM recipe so-to speak.

00:10:17: or did I simply overlook something?

00:10:20: because microcurrent therapy works?

00:10:23: We have proven this in many podcast episodes and studies that we can de facto evoke a cell metabolic reaction here now.

00:10:31: The only question is If I have a problem with the patient, work locally or however but have no reaction.

00:10:38: there are actually only three possibilities.

00:10:40: Either i didn't evaluate condition before and after correctly so that im basically giving away results.

00:10:48: I've seen it quite often too.

00:10:51: Another variant is The device isn't working at all maybe has defect A cable is broken.

00:10:55: That can happen of course!

00:10:57: Third Variant Is that I overlooked something.

00:11:03: Therefore we basically distinguish between two strategies of electrode placement.

00:11:09: The local electrode placement, meaning direct influence on the affected tissue ideal for trauma post-operative situations so where the cause is clearly definable and you can focus closely.

00:11:24: And the so called global placement.

00:11:26: Let's call it a holistic therapy which by the way can also be combined very well with manual therapy or osteopathic techniques, stretching techniques and so on.

00:11:36: And above all a causal therapy!

00:11:39: Here it's not about location of symptom but chain behind it.

00:11:46: Historically developed like this... The original approach over twenty years ago was called Davos method meaning where it hurts, right?

00:11:55: Where the pain is.

00:11:56: So exactly the local symptom oriented placement we started with and then over the years of exchange in courses and seminars completely different schools let's call them emerged.

00:12:09: yes We had or we have users one as an osteopath another is a non-medical practitioner Another is classic orthopedist another works more according to whatever manual technique procedure But they all work with the same device, but with completely different basic assumptions.

00:12:30: And that is also a very important aspect.

00:12:33: An osteopath in our network for example treats any problem consistently via other fascia areas and Is successful within my longtime friend?

00:12:43: Also partner Matthias Rother on the other hand works almost exclusively with a system placement.

00:12:49: This runs from the feet to cervical spine, sacrum in frontal area and combines whole thing with light therapy on reflex muscle points starting at diaphragm then via lower extremities.

00:13:05: His reasoning behind it?

00:13:06: The actual basic problem is usually completely elsewhere than where symptom shows up.

00:13:12: And with the system placement plus the combination of light therapy, we simply combine manual therapy techniques relatively simple techniques.

00:13:21: With that you often reach the goal much faster and above all more sustainably than a pure symptom treatment.

00:13:29: A third school I'd like to mention at this point because it simply completes the picture is the regulation concept as represented for many years by non-medical practitioner Burkhard Hock who has also been pushing and using microcurrent therapy in his practice for almost twenty years.

00:13:45: Many of you might know him from Hock Payne Therapy or the excellent books I must say that he published, The basic idea behind it is almost philosophical.

00:13:56: every cell in human body basically wants to work physiologically correctly.

00:14:02: if a cell or group cells are not functioning properly there must be concrete cause according to the principle of cause and effect.

00:14:12: The symptom is then often simply observed, observable effects.

00:14:18: based on these thoughts this concept is about searching for identifying specifically treating the cause.

00:14:26: I'm not talking here about choice any programs or frequency states or frequency protocols.

00:14:35: it's concretely about placement electrodes.

00:14:39: And in doing so, three basic conditions for healthy cell regulation are distinguished.

00:14:44: First the supply and disposal of nutrients and waste products respectively.

00:14:49: Second-the provision sufficient energy.

00:14:51: Third-coordination processes meaning actual cell control.

00:14:56: If these three conditions met according to this model there is no longer a cause for pathological condition in tissue.

00:15:03: A Regulation disorder then corresponds exactly to painful condition you could say.

00:15:10: Let me make the first point of these three points, The supply and disposal a bit more concrete because it simply shows well how practical this actually quite abstract model is meant to be.

00:15:21: A central mechanism behind It Is the osmotic pressure ratio at the cell membrane.

00:15:27: Through diffusion liquids And particles dissolved in them can pass through the semi permeable meaning semi permeability cell membrane.

00:15:36: This is a basic prerequisite for the cell to be able to regulate itself at all so that nutrients can be transported in and waste products can simply be transported out.

00:15:47: If these basic conditions of the cell boundary are not sufficiently met, exactly this could lead to disruption of cell regulation with results that complaints or solid symptomatology may occur.

00:16:05: Exactly this can lead to a disruption of cell regulation with the result that complaints or solid symptomatology occur.

00:16:13: This is not vague thought, but very concrete idea what goes wrong on cellular level when tissue isn't functioning properly?

00:16:22: and this exactly where the regulation concept intervenes therapeutically Not primarily at the symptoms But restoring basic cellular condition.

00:16:33: I'm not telling you this to present one of these schools as the only correct ones, on the contrary.

00:16:38: The exciting thing about it is that all three approaches –the local Davos method– the systematic and systemic placement and regulation concept can work in practice with the same device or patient but completely different logic behind them.

00:16:50: This shows very clearly there's no single correct electrode placement.

00:16:56: There are different self-consistent models which should know and consciously choose instead of simply blindly adopting a template using the copy and paste method.

00:17:07: By the way, A study in The Journal Of Body Work And Movement Therapies also shows that a conscious broader not purely local approach to myofascial complaints is clinically documented.

00:17:18: It was published by Carolyn MacMacon on the treatment of chronic myofacial lower back pain In therapy, resistant patients who had previously not responded sufficiently to other procedures.

00:17:29: A significant pain reduction that lasted over several treatment sessions was achieved with a specific frequency-specific microcurrent application

00:17:37: here.".

00:17:38: Yes!

00:17:38: That's already published in two thousand four.

00:17:42: This underscores once more the choice of strategy.

00:17:46: local systemic or combined can actually make measurable difference in treatment success especially in patients where a yes, first closely local attempt did not work sufficiently.

00:18:01: Another controlled study from the Journal of Biological Regulators and homeostatic agents investigated pulsed low-intensity electrical neuromuscular stimulation in patients with myofascial pain syndrome exactly that symptom profile, that is simply characterized by multiple trigger points and fascial tension across multiple chains.

00:18:31: Within two weeks the pain score on the visual analog scale in the treatment group dropped from seven to an average of three point eight points while the control group benefited significantly less.

00:18:43: this was published in twenty sixteen.

00:18:47: The authors attributed the effect among other things of the cell's bioelectricity, a thought that aligns strikingly closely with what we will discuss in a moment regarding the regulation concept.

00:19:03: I think a good example is systemic not pinpoint precise logic for example with classic lymph placement.

00:19:14: there it isn't about hitting an exact point but stimulating lymph peristalsis.

00:19:23: Historically, the placement developed in such a way that we used certain areas like the acupuncture point large intestine for between the thumb and index finger.

00:19:31: And on the upper end lower extremities kidney one under-the-foot.

00:19:37: It is a systemic approach not a pinpoint Not a pinpoint precise one.

00:19:42: The exact millimeter position of the electrode Is actually secondary here compared to the question Of whether limb flow is stimulated In the correct region.

00:19:52: now let's come To another area And that is actually also the conclusion of why a global placement actually works.

00:20:03: So, Why does a Global Causal View Work at All?

00:20:07: Behind it's concept we refer to in our seminars as the Tensegrity Model The term tensegrity is composed of tensional integrity so something you could say tension-integrity.

00:20:24: The basic principle of this originally comes from architecture and sculpture, structures that are stable not through rigid connections but through a balanced interplay of tension-and compression ratios distributed throughout the entire system.

00:20:40: That is the basic principle!

00:20:43: If the tension changes in one place... ...the tension automatically changes in completely different seemingly unconnected places as well because everything is connected to each other through the same structure.

00:20:56: Applied to the human body, this means we don't function like a chain of individual independent components that can be repaired separately similar to a car where you replace a defective part.

00:21:09: We are continuously tensioned.

00:21:11: network system On a cellular level.

00:21:14: This shown very concretely via three interconnected structural levels That Is The membrane matrix meaning the cell membrane itself.

00:21:22: The cytoskeleton, meaning the internal supporting framework of every cell and the extracellular matrix.

00:21:27: Meaning the connective tissue and fascia structures between the cells.

00:21:32: These three levels are continuously connected to each other mechanically and biochemically via small connecting structures so-called tubules horizontally within a tissue layer And vertically across multiple tissue layers.

00:21:48: in very practical terms this means A mechanical change in one place, such as a scar or an old injury –a chronic malposition-in the ankle joint propagates through this network of fascia, cytoskeleton and connective tissue–and can manifest as symptoms in completely different places.

00:22:10: The knee itself is completely unremarkable in the sense of being structurally intact.

00:22:15: it only carries tension that originated elsewhere.

00:22:22: That is exactly why a problem in the ankle joint can end up on the knee.

00:22:26: The body isn't a sorting box of independent parts, but it's an attention network system where local stimuli have systemic effects and vice versa.

00:22:38: Systemic interventions become locally effective.

00:22:43: This image also well established outside of microcurrent therapy.

00:22:49: A review paper published in twenty-twenty six on fascia directed intervention in rehabilitation explicitly describes the fascia system as a three dimensional continuum throughout the body, In which tensions can be transmitted from one region to distant areas.

00:23:10: So a tensegrity like biomechanical model Published in twenty twenty six and in frontiers published by Bordoni and Escher, And on a cellular level.

00:23:24: exactly this principle as we have just described it is confirmed in a systematic review On fascia and tensegrity.

00:23:33: Tensegrity principles control the mechanobiological behavior of the cell there via the cytoskeleton network and enable It to react adaptively To mechanical stress.

00:23:46: clinically This fascia tensegrity model also supports, among other things the use of myofascial release therapy and targeted stretching techniques to simply restore function and integrity across the entire tension network.

00:24:11: And why this methodology, which originally comes from classic BCR therapy.

00:24:19: We actually established the term it come us BCR Biological Cell Regulation Therapy is not a rigid recipe book but model of thinking that must be individually adapted.

00:24:32: Once you have understood the tensegrity principle It also becomes understandable Why purely local symptom oriented placement simply reaches its limit.

00:24:40: sometimes You treat spot where tension become visible not necessarily the spot where it originates.

00:24:52: A small but exciting digression at the end of this topic block, many know the rule red.

00:24:58: so if we stay with the channels for a moment meaning that cables were connect to adhesive electrodes We have anode and cathode Red meaning the anode always applied distally black the cathode approximately.

00:25:11: That is idea actually carried along for long time let's say until maybe twenty ten So ten years Good ten years.

00:25:21: This idea goes back to a basic principle of Robert Becker, and his book The Body Electric in which the human being is described as an electrically charged system with a polarization towards extremities.

00:25:36: Becker was an orthopedist and researcher who investigated bioelectric phenomena.

00:25:48: His work is part of the early scientific foundation on which classic BCR therapy actually relies.

00:25:56: In practice, however it turns out.

00:25:59: with automated systems like the Luxembourg for example this polarity de facto no longer plays a role if only because in our automatic mode we don't use constant fixed polarities at all And the device automatically determines this polarity in automatic mode via feedback process, via therapy algorithm.

00:26:21: If polarity were actually crucial yes you have to keep that in mind it would show up and practice inconsistent results but logically is not the case.

00:26:35: Combinations of the placement, so red distal black proximal is therefore rather let's say a historically grown consistency that Is no longer necessary in The actual therapeutic presentation today and A small note on That.

00:26:49: you always have to consider that polarity has a significant influence On whether we are In a hypo or hyper metabolic state in the tissue.

00:26:58: So it should de facto under No circumstances be neglected.

00:27:02: We also just spoke about the osmotic pressure ratios.

00:27:04: It has a very large influence on that, and it is not the frequencies which determine this influence but in this case concretely actually polarity The human being indeed if you will be charged DC system.

00:27:18: But tissue resistance we have Is capacitive resistance And not direct current resistance Precisely from this electro-technical principle also by changing the polarity here correspondingly.

00:27:34: neglect this.

00:27:38: Interestingly, the question of polarity is not clearly decided in one direction in research right?

00:27:45: A biomechanical and histopathological study on tendon healing published in The Journal Of Advanced Research specifically investigated the influence of polarities in microcurrent application.

00:28:02: This shows it was published in twenty twelve.

00:28:05: polarity is not fundamentally meaningless physiologically.

00:28:08: I also explained that in connection with the The capacitive resistance, but whether an automatically changing polarity in daily use absolutely requires red to be distal and blacked To be proximal.

00:28:21: Is exactly this distinction?

00:28:23: That Fundamentally simply plays no role for us.

00:28:28: What is very clearly proven on the other hand especially in relation to the proven is that the position of the electrodes itself has a measurable influence on the actual field strength in target tissue.

00:28:42: A veterinary study on use microcurrent, on superficial digital flexor tendon and horses was able to show that electrode placement significantly influences effective field strength with clear differences depending on direction such as proximal distal vs medialateral is simply clearly different.

00:29:05: In other words, and this was published in two thousand six by Lind et

00:29:09: al.,

00:29:10: where exactly the electrodes are placed functionally and bio, biomechanically or biostatically.

00:29:37: And why it is indeed not a matter of indifference whether you apply locally or systemically.

00:29:44: I'm NOT telling this to downplay history but because It's beautiful example how important it is to regularly question assumptions.

00:29:52: we do that too.

00:29:53: We are regularly active in research.

00:29:55: instead simply passing things on just becuase has always been done.

00:30:01: So let's move on to the next part.

00:30:03: Since we are already in technical details, a question I am frequently asked at seminars is whether four channels... We have always had a four-channel microcurrent device and another one will be added in very short time but fundamentally work with four channels which also important for reaching structures well especially systemically.

00:30:31: And the question is, can the channels interfere with each other?

00:30:35: For example if you combine several placements at the same time.

00:30:39: for example a local placement on the knee and knee in that they seem to have a limp placement.

00:30:43: yes The answer here quite clearly no.

00:30:48: we've always had galvanically isolated circuits so interference between the channel's?

00:30:53: technically simply not possible.

00:30:56: Yes, neither constructive nor destructive interference.

00:30:59: So you can combine several strategies at the same time without hesitation—without the channels influencing each other.

00:31:06: if that were the case then you'd also have to be a bit careful.

00:31:09: especially in the field of FSM frequency-specific microcurrent therapy.

00:31:13: it is of course important that the frequency on my one channel so let's say tissue frequency.

00:31:24: So technically speaking, this is very important.

00:31:28: A second practical point concerns the light channels.

00:31:32: That's an important aspect.

00:31:34: The light channel are assigned.

00:31:35: in our system We have two light channels and four microcurrent channels.

00:31:39: so we've got a fixed assignment here.

00:31:41: Light Channel One is assigned to our A-channel And Light Channel Two is assigned on C-channels.

00:31:46: that means the colors, the color In which a light head shines also indirectly gives you information about how the polarity of channel is currently assigned, which in practice can be a useful and small feedback signal when you are working on an automatic range without having to look at the display specifically.

00:32:13: And while we're on the subject of pinpoint application—an older but still relevant paper from The Craneo Journal deals with the identification using microcurrent.

00:32:27: It's by DuPont at Iyaleh, nineteen ninety-nine.

00:32:30: The core idea there Before you even decide on a placement it is worth actively palpating for trigger points meaning For the small Hyper irritable nodules in the muscle tissue that typically radiate to other regions when pressure Is applied.

00:32:48: this is basically A very practical bridge between our block on myofascial chains and the concrete question of where you should actually place in the radiation area.

00:33:09: There of course you can also bring in the dermatomes, use any areas if as a non-medical practitioner work more on the field of TCM or take these aspects and bring in organ areas from the visceral osteopathic corner.

00:33:25: so to conclude this practical block note an alternative in electrode placement that is often overlooked.

00:33:38: There are also conductive gloves and socks.

00:33:41: Instead of the classic adhesive electrodes, you can simply use conductive textiles for certain applications—for example on the hands or feet which are woven with a fine metal thread.

00:33:53: The advantage is that you put them in and take off quickly.

00:33:56: especially when patients sit quietly and be treated over longer periods of time.

00:34:01: It's important to know if you as a practitioner are involved.

00:34:07: So if you use it as a practitioner, of course because you are holding an electrode in your hand while working manually Therapeutically.

00:34:15: Of course that is harmless But you are after all included in the circuit.

00:34:20: You can off course solve that simply with classic disposable latex or Yes gloves.

00:34:26: from a hygienic point-of-view however It should be born in mind here that such textile electrodes unlike the adhesive electrodes Fundamentally must be cleaned before they are used on the next patient.

00:34:37: That should of course, Be taken into account.

00:34:41: What do you practically take away from this episode now?

00:34:44: I have written down four concrete points for You here.

00:34:48: first With every placement ask yourself The three basic questions that we also Ask again and Again in our seminars what is the idea Of the local application In This case?

00:35:00: What Does a Local Application Do?

00:35:03: does it Make sense at all?

00:35:04: And what should I keep in mind?

00:35:06: In particular, have i really already ruled out the actual cause or am I only treating the place where this symptom shows up.

00:35:14: These three questions might cost a minute of reflection before treatment but they can make difference between therapy that has lasting effect and one that simply brings short-term effects for patient.

00:35:36: actively ask questions instead of just looking at the symptom mentioned to you by a patient.

00:35:41: Patients don't automatically report everything.

00:35:44: An old scar, I've experienced this an old appendix scar from over twenty five years ago.

00:35:49: Appendix out Of course almost forgotten actually had an influence A previous trauma.

00:35:54: So The classic example of course cervical whiplash trauma From rear end collision car accident or other accidents A fall year that was never really treated.

00:36:07: Appendix out, of course almost forgotten actually had an influence.

00:36:10: A previous trauma.

00:36:11: so the classic example Of course cervical whiplash trauma from a rear-end collision car accident or other accidents a fall years ago that was never really treated.

00:36:21: Especially non medical practitioners who work with the concept of interference fields know how relevant such overlooked factors can simply be.

00:36:30: a Scar depending on its location and history Can form a local interference field that affects the completely different region of the body without The patient coming up with the idea of mentioning it on their own if they don't suspect.

00:36:44: That's why I commit to a placement so-to speak.

00:36:48: third if I'm supposed not To change this strategy that is for personal persons, right?

00:36:53: If you do see reaction one or let's say maybe two to See an adequate response.

00:37:03: That is simply my experience, model of the last well over twenty-five years.

00:37:10: And that's no reason to just keep going as before.

00:37:13: but you can get a very clear signal to question placement.

00:37:17: maybe switch from local to systemic combine both or vice versa and thanks for the four galvanically isolated channels technically not problem at all without placements influencing each other being influenced.

00:37:34: use your own individually adapted placements instead of adopting every template unchanged.

00:37:40: The system gives you the option to save your own electrode placements, You can record them.

00:37:46: that is exactly what this function is intended for.

00:37:49: and at the end of day I always say... and ask specifically here.

00:38:08: Yes, that is indeed a... That's basically the professional answer to this question of copy-and-paste.

00:38:14: so not blind copying someone else' template but the conscious building on one's own justified repertoire which I think we have discussed in detail Here In This Episode.

00:38:28: So an electrode placement does NOT a template you simply transfer.

00:38:32: It Is An Idea A Starting Point.

00:38:34: You Have To Adapt the anamnesis, and findings of your respective patient.

00:38:41: Local if the cause is local, global if it's simply not sometimes both at same time precisely thanks to the possibility you naturally have here Thanks to technical possibilities that you have all pre-requisites And also always think about combination with light therapy.

00:38:57: That a very important aspect.

00:38:59: I hope this somewhat more detailed episode gives you confidence in adopting placements but really understanding whether you lean more towards the symptom-oriented Davos logic, or the systemic view with a regulation concept.

00:39:16: Or what happens most frequently in practice anyway?

00:39:19: A completely unique one because that's where this whole system comes from.

00:39:23: It has developed through our advanced training and seminars Through the exchange of many hundreds of doctors not only in Germany.

00:39:31: we are also very active abroad.

00:39:33: I spent a lot of time in Italy for many years, met many great therapists and doctors there.

00:39:39: Especially in the field of osteopathy... ...in my perception it is also different in Italy.

00:39:45: There's all more university based And they were very very great points of discussion Also good approaches and combination ideas.

00:39:54: That how whole thing came about.

00:39:59: In that sense i say thank you very much For listening.

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00:40:19: Yes in that sense Thank you very much.