See if the question is whether I care to elaborate or no, I’d tell you there are multiple paragraphs and walls of text within this thread that explain everything in details.
have you tried summarizing the full detailed concept introduced in the beginning with AI?
summary of full detailed analysis (1)
The Socio-Magickal approach focuses on enhancing facial appearance and social dominance through innovative methodologies targeting the skeletal system. This includes a wear methodology inspired by exoskeletons and elemental balance techniques for facial construct refinement. It aims to establish luxury and royalty essence through facial enhancement.
The Smart Objective Analysis employs a multiscale bone model to analyze bone properties and mechanical stimuli effects. Computational biomechanical analysis and mathematical intelligence adjust facial structures according to royal standards. Surgical approaches include craniofacial reconstructive surgery and deep plane facelifts to reshape facial tissues, induce symmetry, and enhance oral-motor physiological effects for optimal facial harmony.
Concept Summary
Socio-Magickal Approach:
- Development of an endo-skeleton ‘wear’ method inspired by exoskeletons, targeting the full skeletal system including facial bones.
- Future facial identification techniques utilized for subconscious appearance registry.
- Restoration of elemental balance in the facial construct, replenishing blood and capillary systems with purified blood and mana.
- Establishment of social and power dominance through facial features.
- Infusion of the essence of luxury and royalty into facial aesthetics.
Smart Objective Analysis:
- Utilization of a multiscale model of bone to determine the effects of alternative material parameters on bone properties.
- Application of geometric morphometrics and computational biomechanical analysis to understand bone behavior and adaptability.
- Conducting analysis to measure stress distribution, deformation, and areas of weakness, and deploying interventions accordingly.
- Activation of signals like Neuromedin U to initiate bone resorption as a protective measure.
- Measurement of torsional behavior, compressive strength, and elasticity in facial regions to ensure proper mechanical properties.
- Implementation of mathematical intelligence to adjust facial structures according to royal standards.
- Measurement of fluid pressure and stress to address fluid mechanics and bone health.
Surgical Approach:
- Objective to achieve craniofacial reconstruction and address bone resorptive diseases.
- Procedures include deep neck sculpting, endoscopic brow lift, and eye beautification through reshaping and contouring.
- Deep tissue sculpture targets fat compartments and sagging cheek areas for reversal.
- Extension of neck and chin muscles for symmetry and firmness.
- Focus on oral-motor physiological effects to enhance speech motor systems.
- Aim to create facial harmony through shifting visual weight and maintaining tissue firmness.
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summary of full detailed analysis (2)
The mechanobiology approach involves applying specific loads and forces to the facial skeleton to correct defects and promote bone healing. Techniques include reattaching facial attachments, shifting load points, enforcing muscle length, and identifying motion defects. Additionally, growth factors are increased to aid in bone repair. This approach aims to address facial asymmetry and prevent bone loss through targeted exercises and adjustments to bone geometry.
Concept Summary
Mechanobiology: This approach focuses on applying specific loads and forces to the facial skeleton to correct defects and promote bone healing. Techniques include reattaching facial attachments, shifting load points, enforcing muscle length, identifying motion defects, and increasing growth factors for bone repair.
- Applying a midline mandible load at the coronal plane and a posterior load at the sagittal plane to reattach six attachments in the zygomatic area.
- Shifting load points towards areas with less density while considering arch bar sensitivity.
- Enforcing ideal muscle length at the sarcomere level in the facial region to promote optimal muscle function.
- Identifying and preventing defects associated with the six motions of the zygomatic zone.
- Reversing defects in the zygomaticular complex to correct facial asymmetry.
- Increasing mechanosensitive growth factor MGF24E to stimulate MSAD phosphorylation and express osteogenic genes.
- Repairing mechanosensitivity at multiple levels such as cytoskeleton, integrin-based focal adhesions, and ECM.
- Increasing GLAST in osteoblasts as a result of mechanical loading.
- Inducing changes to bone geometry via mechanotransduction to increase trabecular volume and cortical thickness.
- Training tissues of the middle-lower third of the face and neck with targeted exercises.
- Readjusting cortical porosity to prevent bone loss.
Application of Force: It involves adjusting bone metabolism and applying forces to the cranium and facial skeleton from different directions. The goal is to rebuild bone structure and stabilize dental formations by increasing load sensitivity and applying force strategically.
Application of Force:
- Adjusting bone metabolism, fluid movements, muscle traction, and ground/impact reactions.
- Applying forces to the cranium and facial skeleton from various directions.
- Applying midline mandible and posterior loads to reconnect specific areas.
- Increasing load sensitivity for rebuilding bone structure and function.
- Applying force at angular distributions of dental formations for stabilization and support.
Nervous System Approach: This approach aims to establish communication between the brain and bones to promote healing. Methods include releasing specific proteins to establish the bone-brain axis, increasing acetylcholine stimulation, and activating neurons to enhance bone formation and deter resorption.
- Establishing the bone-brain axis through the release of osteocalcin, OSTEOPONTIN, lipocalin2, and FGF-23.
- Increasing stimulation of acetylcholine to establish brain-bone communication.
- Inhibiting B-2AR to increase osteoblast formation and function.
- Activating neurons in the paraventricular nucleus and the MC4R pathway.
- Promoting parasympathetic innervation of bone through AchR types like MLO-Y4.
- Restraining bone resorption via releasing nAchR agonists and promoting parasympathetic nervous system healing.
- Increasing production of Semaphorins, particularly sema3A, to promote bone mass gain and deter osteocyte elongation.
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summary of full detailed analysis (3)
The cellular approach aims to refine mechanical energies within the facial skeletal system, enhancing bone resilience and regeneration through strategies like increasing proliferative capacity and repairing sensitivity in mechanosensitive structures.
In contrast, the biological approach addresses bone remodeling by targeting endocrine and paracrine stimulations, employing various interventions such as stimulating osteoblast activity, suppressing osteoclastogenesis, and modulating hormone signaling to regulate bone resorption and formation.
Concept Summary
Cellular Approach:
This approach focuses on refining mechanical energies within the facial skeletal system at the cellular level, aiming to enhance bone resilience, adaptation, and regeneration. Key strategies include:
- Increasing proliferative and differentiative capacity through activation of nuclear factor xB receptor by Rank Ligand.
- Regulating osteoclast function and expression of RANKL by osteoprogenitor cells via mechanical stimulation.
- Repairing sensitivity in mechanosensitive structures such as cytoskeleton, focal adhesions, ion channels, and extracellular matrix (ECM).
- Inhibiting sclerostin and DKK1 while activating the Wnt ligands pathway to stimulate osteoblastogenesis.
- Promoting integrin release and ECM repair to regulate bone mechanobiology.
- Preventing osteocytes apoptosis and promoting ERK activation.
- Modulating extracellular vesicles (EVs) cargo to induce a biological response in target cells.
Biological Approach:
This approach addresses endocrine and paracrine stimulations and deficiencies related to bone remodeling, employing various biological interventions such as:
- Stimulating osteoblast proliferation and activity via CGRP and substance P.
- Utilizing RNA approach with miR-26a, miR148b, and Sema4d for bone regeneration and communication.
- Suppressing osteoclastogenesis through inhibition of tumor progression locus 2 (Tpl2) and deletion of sestrin 2.
- Employing macrophage therapy and RNA delivery to enhance bone formation.
- Targeting MALPs for bone resorption and increasing collagen production.
- Inducing hormone signaling with arginine-vasopressin (AVP) and adrenocorticotropic hormone (ACTH).
- Inhibiting DKK1, FGF-23, and M-CSF to regulate bone resorption.
- Using peptide therapy with NOV004 and inducing skeletal mechanosensory regulation with PIEZO1 and MicroRNA-103a.
- Modulating bone remodeling with hormones like arginine-vasopressin (AVP) and adrenocorticotropic hormone (ACTH).
- Inducing biomineralization of hydroxyapatite with PFD5 peptide and enhancing osteoblast activity through Agouti-related peptide.
- Modulating bone remodeling via the YAP/Taz protein system as mechanosensors and transducers.
summary of full detailed analysis (4)
Facial aesthetics and muscular balance involve specific adjustments to enhance facial features and proportions:
Concept Summary
- Increasing the prominence of the cheek (malar eminence).
- Considering the geometry of impactors (circular, cylindrical, flat) for facial bone impact.
- Creating an upward tilt of the canthal angle.
- Setting targets for the width of the face at the cheekbones (bizygomatic width).
- Performing browlift endoscopy to adjust the position of the eyebrows.
- Addressing lip volume, shape, and proportion, including reshaping the cupid’s bow.
- Increasing the width of the eyes.
- Individualizing the width-to-height ratio to achieve a desired facial appearance.
- Increasing the tilt between the inner corners of the eyes (intercanthal tilt) and ensuring a smooth transition between the eyelid and cheek.
- Elongating and sharpening the ramus bone with a specific angle, targeting a certain height for men and women.
All of these details have been mentioned in the thread; re-introduced into a summarized passage to help distinguish the Deep Facial Remodeling as a niche product.