Networks for healing soft tissues
Muscles, tendons, ligaments and connective tissues forming very large and diverse biological frameworks for enabling people and animals to thrive and function. However, aging, injuries, disorders and diseases are perpetual processes which surely and continually weaken, damage and destroy said components of said biological frameworks of all living.
The status quo managements of supra are deficient in basic and clinical sciences. Therefore, billions of people heretofore lacked the system and method provided by the present invention.
The present invention uses networked servers, computers and mobile communication devices to prescribe, render and fabricate diverse specific electronic and real 2-D and 3-D frameworks for reinforcing, supporting and healing said biological components based on scientific and real data being used and processed in networked servers, computers and mobile communication devices having touchscreens.
The present invention heals, rejuvenates, restores and improves the quality and standard of life and lengthens the longevity of billions of people and other living.
Networks having a system and method for healing soft tissues disorders. Said system having a plurality of repositories for prescribing electronic digital frameworks based the associations of data on medical histories attached to data on anatomical landmarks in images and videos and data on the functional anatomy and biomechanics in storage means in said networks. Based on individual prescriptions in said networks, said repositories instruct manufacturing machines and 3-D printers how to fabricate and render specific real frameworks for said disordered soft tissues and for functionally and biomechanically related body parts of specific patients.
Uniquely, the present invention applies the immense knowledge and data basic and clinical sciences and medicine on the functional anatomy, biomechanics, ergonomic and related disorders and diseases of human uniquely known to and accumulated for 4 decades by this author who is a practicing physical medicine and pain management physician. In addition, modern hardware, software, apps, networking, telecommunication and information technologies are applied to supra to enable all humans—through whom other livings benefit from the present invention—about 7 billions to benefit from the present invention.
Electronically percolating and expanding in and through networks infra, said digital data on disordered soft and hard tissues of body parts relating to their physiology, pathology, gross, microscopic and functional anatomy, biomechanics and ergonomics of individual and functionally and biomechanically related body parts of people are generated and improved through research in a network of servers networked to servers, computers and mobile communication devices including smartphones having touchscreens and manufacturing machines and 3-D printers in USA and other nations. Said servers, computers, devices and machines have repositories comprising storage and processing means.
Billions of people can use computers and mobile devices including billions of smartphones having touch-sensitive aka touchscreens to generate, comment, mark, highlight and edit of images, videos and selfies of their body parts whose anatomical parts and landmarks can be electronically highlighted, marked, tagged and accentuated by common and commercially available such as, but not limited to, fingers, pointers, pens, colors and lights of diverse wavelengths and the like for achieve said means for conveying, communicating, transmitting, storing, sharing and retreiving said data in and among said repositories.
Based on information and data in the aforementioned paragraphs, there are infinite compositions, designs and variations of the real frameworks, structures or lattices for accommodating, fitting, healing and treating and any combinations thereof—achievable, doable and deliverable only by the present invention—for said people and livings.
So, cameras of said computers and mobile devices, smartphones touch-sensitive smartphones are used to take images, videos and selfies of body parts—afflicted part and functionally and biomechanically related parts—whose anatomical landmarks of issue can be electronically highlighted, marked, tagged and accentuated by common and commercially available such as, but not limited to, fingers, pointers, pens, colors and lights to online convey, communicate, transmit, store, share and get said digital data in and among said repositories.
Attached to said transmitted data stored in said repositories and storage means are data of past and current and past medical and surgical histories including, but not limited to, repetitive strain injuries, cumulative trauma disorders, overuse syndromes, chronic pain, acute, subacute and chronic traumas, injuries, degenerative diseases, diverse musculoskeletal, connective tissue, soft tissue, origins and insertions of soft tissues to bones and cartilages and the likes and autoimmune diseases henceforth collectively known as medical history or histories. Further attached, are bodily dimensions and sizes of individuals directly and indirectly related to said submitted data.
Said server repositories have computer programs having attached processing means created by the present invention to prescribe specific electronic frameworks also known as digital frameworks for specific disordered soft tissues of specific body parts—which may be functionally and biomechanically related to other body parts—of specific individuals by associating and analyzing said specific data to prescribe specific electronic frameworks—adaptable and editable to effect the features, properties and characters of the frameworks described in this specification—based on said knowledge and data basic and clinical sciences and medicine stored in said server repositories.
So, in said repositories in said networks, each specific electronic framework stored in said storage means is seen, used and adapted, modified and edited by relating repositories such as, but not limited to, requesting and server repositories in said networks. Therefore, the characters, features and properties of each related real framework to supra is accordingly affected and modified and reproduced.
For example, said server repositories prescribing specific adaptable and editable electronic frameworks and braces and said prescribing repositories instruct networked manufacturing machines and 3-D printers how to fabricate and render specific real frameworks for fixing specific disordered body parts of specific patients. Said machines and printers fabricate and render said specific real frameworks whose fabrications, renderings and constructions are composed of various commercially available materials having diverse physical compositions and properties to manufacture, fabricate, render and print diverse types, configurations, designs, dimensions and strengths of specific frameworks or lattices. One of said preferred embodiments uses, but not limited to, common commercial and hypoallergenic tapes, fabrics and wires for physically reinforcing and supporting disordered soft tissues of body parts of patients. The tapes, fabrics and wires are flexible, extendable and rigid tapes, fabrics and wires having adhesive, nonadhesive, strand, thread and energy means for gluing, stitching, attaching and anchoring said tapes, fabrics, wires and body parts. Said components composed of all possible physical compositions, configurations such as, but not limited to, long and short strips, round and triangular patches, and appearances and designs such as, but not limited to, colors, visual stimuli and identifications and labels for enabling the optimal applications and effectiveness on said patients.
Very often, a disordered body part of an individual is functionally and biomechanically related to ipsilateral and contralateral proximal and distal body parts. In other words, in certain circumstances, a disordered body part may and can be caused by or related to the functions and biomechanics of related parts. So, said first digital data can and will also include similar first data on functionally and biomechanically related body parts in images and videos of specific patients and are similarly processed by said requesting repositories and server repositories based on data association in the storage means as described in the specification. Consequently, electronic frameworks and real frameworks are generated, fabricated and rendered and, subsequently, adapted, edited, modified, as described herein.
Said electronic frameworks appear as digital 2-D and 3-D images and videos with and without associating with relating body parts as described infra in the viewing screens and touchscreens of said computers and devices. These interactive images and videos can be marked, edited, commented, highlighted, manipulated and rotated in 3 dimensions with all said appearances and designs in said screens of said computers and devices by repositories described herein.
Said server repositories to calculate and request and accept electronic fee payments from said requesting repositories and grant permissions for said fee payments associated with said renderings and fabrications to be debited from individual patients' accounts. Said debits are credited and transferred to assigned accounts in and among banks and financial institutions. In addition, said server repositories record and tally said transactions through said networks.
Although various preferred embodiments of the present invention have been described, it will be appreciated by those skilled in the art that adaptations, variations and derivatives of said embodiments are and will be made and achieved for people and animals without departing from the spirit and scope of the specification of the present invention.