This Privacy Policy was last updated on October 26, 2025, and applies to citizens and legal permanent residents of the European Economic Area and Switzerland.
1. Who we are
Our website address is: https://www.academymkt.info.
Contact details:
Viacheslav Shafranov
Email: shafranslv@gmail.com
Phone: +38 0677100429
2. Comments
When visitors leave comments on the site, we collect the data shown in the comments form, as well as the visitor’s IP address and browser user agent string to help detect spam.
An anonymized string created from your email address (also called a hash) may be provided to the Gravatar service to check if you are using it. The Gravatar service privacy policy is available here: https://automattic.com/privacy/. After approval of your comment, your profile picture is visible to the public in the context of your comment.
3. Media
If you upload images to the website, you should avoid uploading images with embedded location data (EXIF GPS) included. Visitors to the website can download and extract any location data from images on the website.
4. Cookies
If you leave a comment on our site, you may opt-in to saving your name, email address, and website in cookies. These are for your convenience so that you do not have to fill in your details again when you leave another comment. These cookies will last for one year.
If you have an account and log in to this site, we will set a temporary cookie to determine if your browser accepts cookies. This cookie contains no personal data and is discarded when you close your browser.
When you log in, we will also set up several cookies to save your login information and your screen display choices. Login cookies last for two days, and screen options cookies last for one year. If you select “Remember Me,” your login will persist for two weeks. If you log out of your account, the login cookies will be removed.
If you edit or publish an article, an additional cookie will be saved in your browser. This cookie includes no personal data and simply indicates the post ID of the article you just edited. It expires after one day.
For more information about cookies, see our [Cookie Policy]([cmplz-policy id=”cookie-policy”]).
5. Embedded content from other websites
Articles on this site may include embedded content (e.g., videos, images, articles, etc.). Embedded content from other websites behaves in the same way as if the visitor has visited the other website.
These websites may collect data about you, use cookies, embed additional third-party tracking, and monitor your interaction with that embedded content, including tracking your interaction with the embedded content if you have an account and are logged in to that website.
6. Who we share your data with
If you request a password reset, your IP address will be included in the reset email.
7. How long we retain your data
If you leave a comment, the comment and its metadata are retained indefinitely. This is so we can recognize and approve any follow-up comments automatically instead of holding them in a moderation queue.
For users who register on our website (if any), we store the personal information they provide in their user profile. All users can see, edit, or delete their personal information at any time (except they cannot change their username). Website administrators can also see and edit that information.
8. What rights you have over your data
You have the following rights with respect to your personal data:
– You have the right to know why your personal data is needed, what will happen to it, and how long it will be retained for.
– Right of access: You have the right to access your personal data that is known to us.
– Right to rectification: You have the right to supplement, correct, have deleted, or blocked your personal data whenever you wish.
– If you give us your consent to process your data, you have the right to revoke that consent and to have your personal data deleted.
– Right to transfer your data: You have the right to request all your personal data from the controller and transfer it in its entirety to another controller.
– Right to object: You may object to the processing of your data. We comply with this, unless there are justified grounds for processing.
To exercise these rights, please contact us using the contact details below. If you have a complaint about how we handle your data, we would like to hear from you, but you also have the right to submit a complaint to the supervisory authority (the Data Protection Authority).
9. Where your data is sent
Visitor comments may be checked through an automated spam detection service.
10. Contact details
For questions and/or comments about this Privacy Policy, please contact us:
Viacheslav Shafranov
Ukraine
Website: https://www.academymkt.info
Email: shafranslv@gmail.com
Phone: +38 0677100429
This Privacy Policy was synchronized with cookiedatabase.org on October 25, 2025.
Objective:
Mastering the latest methods of manual support for vital body functions, developed by the methodology’s author, Daniel Grosjean.
Program:
Physiology and Biology:
Issues of ontogenesis: individual development of the organism and its disorders.
Fundamental mechanisms of adaptation, compensation, and elimination (suppression of dysfunctions).
Practical Skills:
Micropalpation to identify disruptions in fundamental functions.
Manual support techniques for restoring vital processes.
Stimulation of adaptation and elimination mechanisms.
Identification of priority dysfunctions and correction algorithms.
Result:
Ability to support vital body functions in severe chronic pathologies using the latest microkinesitherapy approaches.
Objective:
Study of extra-embryonic processes and the interaction of the organism with its environment.
Program:
Physiology and Biology:
Development of the organism at the extra-embryonic level (micro- and macromeres).
Holobiotic programs: interaction of the organism with its own biota (microflora).
Interaction of the organism with mineral substances.
Negentropic and entropic development.
Fundamental, dynamic, and immanent programs of the organism.
Practical Skills:
Micropalpation for diagnosing dysfunctions related to extra-embryonic development.
Correction of disorders caused by imbalances in holobiotic processes.
Identification of priority dysfunctions and correction algorithms.
Result:
Skills in working with extra-embryonic processes and restoring balance between the organism and its biota.
Objective:
Mastering methods for diagnosing and correcting congenital, acquired, and induced lesions at the tissue and cellular levels.
Program:
Etiology and Pathology:
Congenital, acquired, and induced lesions of tissues and cells.
Endemic level: genetic programs and reactions misaligned with the environment.
Xenotic etiologies: impact of endocrine disruptors unrecognized by the body.
Physiology:
Fundamental mechanisms of adaptation and compensation in the body.
Practical Skills:
Micropalpation to identify “traces” of lesions at the tissue and intracellular levels.
Correction techniques to restore adaptive processes.
Identification of priority dysfunctions and algorithms for selecting the sequence of corrections.
Result:
Ability to diagnose and correct complex lesions related to genetic and external factors, enhancing the body’s adaptive capabilities.
Objective:
Mastering methods for working with fundamental mechanisms of self-regulation and body protection.
Program:
Physiology and Biology:
Negentropy and entropy: their impact on self-regulation and functional restoration.
Primary etiologies and specific protective mechanisms of the body.
Fundamental protective programs (immune and behavioral).
Advanced self-regulation mechanisms for restoring natural balance.
Practical Skills:
Micropalpation to identify primary etiologies and their traces in tissues.
Correction of dysfunctions related to impaired protective mechanisms.
Stimulation of natural self-regulation and regeneration processes.
Identification of priority dysfunctions and correction algorithms.
Result:
Ability to work with fundamental protective mechanisms and stimulate natural body restoration in chronic and complex pathologies.
Objective:
In-depth study of psychosomatic pathologies and transpersonal aspects, including work with stem cells.
Program:
Physiology and Biology:
Negentropic processes and their role in body restoration.
Omnipotency of cells: the ability of stem cells to transform into any tissue.
Multipotency of cells in embryonic development.
Psychosomatics:
Transpersonal processes: the influence of the collective unconscious.
Archetypes and their role in the formation of pathologies.
“Life” patterns affecting behavior and health.
Anthropogenesis, autogenesis, anastogenesis, psychogenesis, topogenesis, metamorphogenesis.
Practical Skills:
Diagnosis of psychosomatic disorders related to transpersonal processes.
Correction of dysfunctions caused by “life” patterns and archetypes.
Micropalpation for working with stem cells and their regenerative potential.
Result:
Skills in diagnosing and correcting complex psychosomatic disorders, including transpersonal aspects and work with cellular regeneration.
Objective:
Mastering methods for diagnosing and correcting dysfunctions at the cellular level with an emphasis on psychosomatic aspects.
Program:
Physiology and Biology:
Negentropy and entropy: their impact on cellular processes and self-regulation.
Interaction of organs with fluids (blood, lymph, interstitial fluid).
Organogenesis in a phylogenetic context.
Hormonal axes: interrelationship between brain hormones and sex hormones.
Regeneration and the role of stem cells.
Apoptosis (programmed cell death).
Acceleration/deceleration of the body’s biological “clock.”
Psychosomatics:
Distortion of reality perception.
Behavioral stereotypes and their impact on health.
Formation of a “vision” of the future.
Working with phobias.
Generation and evolution of personality.
Interaction of personality with society.
Practical Skills:
Micropalpation to identify traces of dysfunctions at the cellular level.
Correction techniques aimed at restoring regenerative processes.
Diagnosis of psychosomatic disorders and their impact on the body.
Result:
Ability to work with intracellular processes and psychosomatic disorders affecting regeneration and the overall state of the body.
Objective:
Mastering methods for addressing hereditary dysfunctions and chronic conditions.
Program:
Etiology:
Hereditary “weaknesses” of organs related to extra-embryonic mesoblast (blood, gametes).
Impact of viruses, intoxications, trauma, and other factors initiating new inheritable disorders.
Emotional-psychological traumas affecting regenerative processes.
Practical Skills:
Palpation of extra-embryonic mesoblast for diagnosing hereditary disorders.
Identification and correction of “traces” of negative experiences at various developmental stages (intrauterine period, childhood, adolescence).
Diagnosis and treatment of “blockages” in the regenerative capabilities of organs.
Identification of priority dysfunctions and correction algorithms.
Result:
Ability to diagnose and correct chronic diseases and hereditary disorders, including their connection to emotional and external factors.
Objective:
Study of psychosomatic pathologies related to emotional stress and familial predisposition.
Program:
Etiology:
Existential and communicative stresses influencing personality formation.
Psychosomatic pathologies, including hereditary and acquired conditions.
Impact of the intrauterine period and family ties on psychological issues.
Anatomy and Physiology:
Embryological features of the adrenal cortex and brain.
Interrelationship between organs and psycho-emotional state.
Practical Skills:
Diagnosis of the timing and causes of internal organ dysfunctions.
Correction of issues related to self-realization and interpersonal relationships.
Testing the balance of time and space in organ functioning.
Identification of priority dysfunctions and correction algorithms.
Result:
Skills in identifying and addressing psychosomatic disorders, including hereditary factors affecting internal organs and the psyche.
Objective:
Mastering methods for diagnosing and correcting dysfunctions caused by external factors and emotional stress.
Program:
Etiology:
Diagnosis of external influences: infections (viruses, bacteria), toxins (mineral, plant, animal), trauma, electromagnetic waves, radiation (X-ray, MRI, CT), chemotherapy, thermal injuries (burns, frostbite), climatic factors.
Psychosomatic disorders: stress causing endocrine pathologies, autonomic disorders, neuroses, or psychoses.
Principles:
Understanding the mechanism of “recording” traces of external and internal influences in tissues.
Differentiating etiologies into external (infections, toxins) and internal (psychosomatic).
Practical Skills:
Micropalpation to identify zones specific to various etiologies (microorganisms, toxins, electromagnetic load, trauma, stress).
Testing the “body’s memory” for traces of physical and psychosomatic influences.
Identification of priority dysfunctions and algorithms for selecting the sequence of corrections.
Result:
Ability to diagnose and correct dysfunctions caused by external factors and emotional stress, taking into account their phylogenetic registration in tissues.
Objective:
Mastering Methods for Working with Dysfunctions of the Nervous System, Mucous Membranes, and Urogenital System
Program:
Embryology:
Specifics of the development of the neocortex, paleocortex, sympathetic, and parasympathetic nervous systems.
Etiology:
Specific factors affecting various levels of the nervous system (stress, trauma, psychoemotional disorders).
Anatomy and Dysfunctions:
Disorders in the functioning of the nervous system.
Scoliosis: connection with the embryology of the urogenital system and stress levels.
Dysfunctions of parenchymal organs and mucous membranes of hollow organs.
Practical Skills:
Palpatory diagnosis and correction of nervous system dysfunctions.
Testing protocols for the nervous system, considering muscular interrelationships.
Identification of priority dysfunctions and correction algorithms.
Result:
Ability to diagnose and correct disorders of the urogenital and nervous systems, including psychosomatic and neurological issues.
Objective:
Study the interrelationships between peripheral muscles and internal organs, and their correction.
Program:
Embryology:
Features of Limb Formation (Lateral Mesoblast). Features of the Embryology of the Facial Skull Bones. Muscular System of the Neck.
Anatomy:
Smooth muscle structure of internal organs, ligamentous apparatus, and their fascial connections with the bones of the torso.
Types of Dysfunctions:
Traumatic (limb injuries).
Psychosomatic (impact on visceral organs).
Practical Skills:
Diagnosis of dysfunctions in skeletal and smooth muscle tissues of internal organs.
Micropalpation techniques for identifying visceral-muscular disorders.
Testing protocols for the entire muscular system within a single session.
Identification of priority dysfunctions and correction algorithms.
Relationship of the embryonic-muscular chain with the joints of the arm or leg.
Outcomes:
Skills in diagnosing and correcting dysfunctions of peripheral muscles and their connections with internal organs.
Objective: Understand the embryonic development of the deep muscles of the body, their connection with cutaneous zones, and the diagnosis and correction of muscle and related structure dysfunctions.
Program: Embryology:
Anatomy:
Types of Dysfunctions:
Practical Skills:
Outcomes:
