Terral
Terral Corp CEO
- Mar 4, 2009
- 2,493
- 92
- 83
- Banned
- #1
Greetings to All:
Okay, so the "Big Bang/Myth" OP was not a 'Science and Technology' Topic. :0) Here is a presentation of Pressure-Sheath TechnologyTM describing a new series of methods and devices that might fit into this category. I am interested in knowing if anybody has advocating or opposing views to my 'pressure' methodology and if anyone has ideas on how you would bring these things to market. Thanks in advance:
Pressure-Sheath TechnologyTM
Pressure-Sheath TechnologyTM relates to methods and apparatus for creating Controlled Pressurized Environments (CPEs) inside and outside the body for enhancing healthcare-related activities ranging from doctor checkups to surgical procedures in the operating room on location and via remote control. Terral Corporation is currently searching for the best possible candidates to integrate Pressure-Sheath TechnologyTM methodology into the current healthcare system by offering information packages to Urological Research and Development Organizations, because the urinary system represents the best closed-end body system network perfectly suited for the implementation of this advanced technology. Pressure Sheath TechnologyTM was invented in 1993 in Press Medical Corporation Laboratories under the supervision of Dr. Mohammad Shibli, a Tristan da Cunha Government Medical Officer, commissioned to complete tissue, animal and human research and development testing. Terral Corporation has recently filed for patent protection with the U.S. Patent and Trademark Office in preparation for beginning again to bring Pressure-Sheath TechnologyTM into the healthcare system allowing doctors and patients every opportunity to reap benefits from utilizing this advanced surgical system.
Operating room procedures are enhanced using endoscopes and probes equipped with expandable dilator cuffs (Fig 1 @ 16, 18, 20, 22) filling an orifice/passageway creating the CPE through timed body cavity tissue dilation. Upper renal kidney stone removal procedures are initiated and enhanced by inserting the Secondary Pressure Sheath (Fig 2 @ 17) into the urethral passageway (64) and dilating the expandable dilator cuff (18) creating the CPE inside the bladder environment (67). Urologists have difficulty locating the ureteral orifices in many cases using current endoscopic methodology, because the ureteral openings are very small and difficult to distinguish against the seemingly vast bladder wall. A simple Pressure-Sheath TechnologyTM procedure overcomes this problem by allowing the surgeon to time-dilate the bladder environment (67) using a dye material saline solution, until a retrograde fluid column enters the ureteral environment (68) creating a second CPE in the ureteral junction passageway and proximal ureter. The surgeon switches out the original dyed saline solution from the primary bladder CPE environment while maintaining constant internal pressure until the bladder environment clears. Then the surgeon lowers the pressure inside the primary bladder CPE for the retreating die to provide the ureteral opening location every time.
The doctor locates the ureter orifice (65) and inserts the endoscope hydrodilating the ureteral junction creating space for sheath placement (19) and cuff dilation (20). He then creates the CPE inside the ureteral environment (68) and may extend the Remote Press Pack (Fig1 @ 29) through a length of ureter, dilate the hollow rubber pack and create a temporary CPE in the lower ureteral junction if needed (not shown); or navigate the enhanced flexible endoscope up the ureter, while maintaining a constant internal pressure eliminating the possibility of mucosal tears and abrasions. In cases of kidney stone removal, the doctor utilizes the Alligator Forceps (24) removing kidney stone debris through the Evacuation Conduit (27); while maintaining the CPE by simultaneously introducing new saline solution through the Liquid Supply Channel Conduit (26).
Oftentimes upper renal surgery is hampered by internal bleeding, but a high percentage of these visibility problems are eliminated by creating the optimal CPE; by regulating internal pressure to greatly reduce or stop encroachment into the upper renal cavity CPE. The doctor removes the kidney stone debris and retracts his endoscope to the urethral junction location to begin depressurization of the upper renal cavity and ureter, before removing the pressure sheath from the ureteral orifice. He then retracts the pressure sheath to the urethral location for depressurization of the bladder environment, depressurization of the primary pressure cuff, and removal of the pressure sheath from the urethra.
The missing link in remote control surgical systems is the creation of the CPE made possible by the use of expandable dilator cuffs around the circumference of the scopes and probes complemented by the use of tethered Remote Press-Packs (Fig 1 @ 29). A Pressure-Sheath Technician creates a sterile environment in an office setting, or at the patients home and sets up the Remote Observation/Surgery Station (Fig 1 @1). Setup includes establishing the uplink connection to our doctor sitting before a monitor and joystick preparing to repeat the above procedure via remote control. The technician hydrodilates the Secondary Pressure Sheath (17) into the urethral passageway, dilates the Secondary Pressure Cuff (18), and monitors patient vital signs throughout the procedure administering pain medication if required. Upon stone removal and procedure completion, the technician deflates the dilator cuff and removes the pressure sheath from the urethral orifice.
Pressure Sheath TechnologyTM has application in all orifices, passageways and cavities of the body where CPEs are created to remove obstructions, enhance observational or surgical procedures. The surgeon navigates the press pack-supported endoscope, or remote pressure-sheath probe, through the throat, esophagus, stomach and duodenum for accessing gall stones through the bile duct, according to similar procedures described above for kidney stone extraction without the need for a single incision. Our surgeon creates the primary CPE in the cervix via the vagina enlarging the endometrial cavity for accessing and establishing a secondary CPE in the fallopian tube once the Remote Press Pack accessory is extended into the optimum passageway position. The surgeon then completes the fallopian tube procedure, or depressurizes the temporary CPE, and retracts the Remote Press Pack to manage external pressures via Press Jacket (Fig 2 @ 50) CPE manipulation and internal pressures using simultaneous hydrodilation and evacuation techniques.
The difference is that the upper renal cavity represents a closed-end system, while the infundibular orifice on the ovarian end of the avian oviduct opens into the larger body cavity making traditional CPE creation an improbability. These cases require careful low-pressure surgeon manipulation of the immediate endoscope/probe environment by creating required space through saline hydrodilation, while simultaneously evacuating surplus fluid out of body cavity environment once the space is no longer required. Advanced application of Pressure-Sheath TechnologyTM includes in vivo fertilization by egg cell collection combined with sperm collection, after running the specimen inside a flow-through apparatus, mimicking the fallopian tube flows, for determining optimum sperm cell genetic selection; according to predetermined doctor/patient prescribed guidelines.
Creating CPEs inside the body oftentimes requires the surgeon to create another CPE outside the body using a multi-zoned Press Jacket (50) applying counter pressure to support dilating internal cellular tissues. A percentage of small-diameter kidney stones in lower-ureter hydronephrosis cases, particularly in women, can oftentimes be removed by manipulating a full bladder environment sending a retrograde fluid column to meet the obstruction by creating needed space for stone passage. Some cases include a small diameter smooth stone blocking the hair-thin ureteral orifice, particularly in men, causing upper renal cavity distension from kidney urine secretion into the naturally-created CPE. Distension of the ureteral membrane tissue creates a pencil balloon effect lengthening the upper ureter along with the growing diameter, until an acute hydronephrosis scenario is created by the lower ureter passing itself and kinking near the ureteral junction location near the bladder.
Many of these cases require no invasive surgical procedure whatsoever, but necessitate manipulation of a CPE inside the bladder environment while applying simultaneous outside body pressure to the bladder itself sending the retrograde fluid column to meet the obstruction; while also maneuvering the patients feet above his head to lengthen the ureter and aid in the stone-passing process. Practically all of these small impacted kidney stones cases are resolved by simple hydrodilation of the lower ureter causing stone release and sometimes violent stone expulsion from the lower ureter with the evacuating urine. Advanced endoscopes and probes include corneal aperture components that open and close to protect sensitive camera lens and illumination accessories damaged by sudden stone release into the bladder environment.
Dilator cuffs may be positioned around the circumference of endoscopic surgical devices and probes in a variety of locations for obtaining the same patient outcomes. The components comprising this Pressure-Sheath TechnologyTM integrated surgery system may be assembled in an operating room environment where surgeon specialists are called in via remote control to perform the operation, assist in a single facet of the operation, or combined within the Technicians Remote Control Surgery Station at a remote location. This technology allows members of the our Doctors Association to become trained, licensed and certified online via remote control in direct connection with members of the Technicians Association simultaneously training to become their on-location eyes and hands.
Figure 3 shows the Press Jacket (50) divided into twelve zones (7-12 on reverse side) containing individual Subcompartments (51) allowing micromanagement of Press Jacket CPEs providing counter pressure support for internal body cavity CPE environments. Military uses for this device include inner liner Horizontal Passageways (52) allowing Remote Probe (56) access from the Onboard Remote Control Surgery Station (53) positioned in the small of the soldiers back. The Remote Probe (56) is launched at Press Jacket system breach identified by the reduction in internal passageway CPE pressure where the Primary Cuff (57) fills the void and launches the Dilator-enhanced Remote Probe (56) into the internal body cavity. Internal Dish (54) components vibrate and use sonar sounding technology receiving information on solid high-density objects lodged within the internal body cavity, while the Press Jacket constricts around the body using outside air resources to reduce and manage internal bleeding. Advanced applications include inflatable Press Pack (55) components within the individual Subcompartments (51) designed to inflate and fill the void using combined Press Jacket resources when available. Traditional Press Jacket applications in Remote Control Surgery include the twelve-zoned jacket omitting the Horizontal Passageways (52) and inflatable Press Packs (55), for creating eternal CPEs to support internal CPE creation. All surgical work in any open-end system requires Press Jacket support for maintaining low-pressure CPEs like in the fallopian tube example.
Terral Corporation is currently searching for the best Tampa Bay Area Urological Research and Development Team with the vision to begin integrating Pressure-Sheath TechnologyTM methods into practice. Terral Corporation has secured a provisional patent in lieu of submitting a non-provisional patent within a twelve month period, which represents your golden opportunity to become a vested co-patent partner; according to investor capital investment and R&D contributions to this project.
Elementary methods include using Foley Catheters and saline solution to create CPEs within the primary bladder environment and utilizing outside CPEs created using abdominal straps over pressure cuffs for sending a retrograde fluid column to meet observed ureteral obstructions. I personally have used this simple method to pass multiple impacted small-diameter stones to gain instant relief from painful hydronephrosis, as the stones were released to strike against the opposite-side bladder wall. In fact, I was having regular yearly kidney stones attacks, until my entire urinary system was pressurized for the removal of all forming kidney stone debris, as my cleaned urinary system remains stone-free to this day. My firm conviction is that your patients deserve the same kind of treatment that will make your urologists the most sought-after in the entire world; and the best part is our Association Doctors and Technicians can serve a global market via remote control.
Free Online Download
GL,
Terral
Okay, so the "Big Bang/Myth" OP was not a 'Science and Technology' Topic. :0) Here is a presentation of Pressure-Sheath TechnologyTM describing a new series of methods and devices that might fit into this category. I am interested in knowing if anybody has advocating or opposing views to my 'pressure' methodology and if anyone has ideas on how you would bring these things to market. Thanks in advance:
Pressure-Sheath TechnologyTM
Pressure-Sheath TechnologyTM relates to methods and apparatus for creating Controlled Pressurized Environments (CPEs) inside and outside the body for enhancing healthcare-related activities ranging from doctor checkups to surgical procedures in the operating room on location and via remote control. Terral Corporation is currently searching for the best possible candidates to integrate Pressure-Sheath TechnologyTM methodology into the current healthcare system by offering information packages to Urological Research and Development Organizations, because the urinary system represents the best closed-end body system network perfectly suited for the implementation of this advanced technology. Pressure Sheath TechnologyTM was invented in 1993 in Press Medical Corporation Laboratories under the supervision of Dr. Mohammad Shibli, a Tristan da Cunha Government Medical Officer, commissioned to complete tissue, animal and human research and development testing. Terral Corporation has recently filed for patent protection with the U.S. Patent and Trademark Office in preparation for beginning again to bring Pressure-Sheath TechnologyTM into the healthcare system allowing doctors and patients every opportunity to reap benefits from utilizing this advanced surgical system.
Operating room procedures are enhanced using endoscopes and probes equipped with expandable dilator cuffs (Fig 1 @ 16, 18, 20, 22) filling an orifice/passageway creating the CPE through timed body cavity tissue dilation. Upper renal kidney stone removal procedures are initiated and enhanced by inserting the Secondary Pressure Sheath (Fig 2 @ 17) into the urethral passageway (64) and dilating the expandable dilator cuff (18) creating the CPE inside the bladder environment (67). Urologists have difficulty locating the ureteral orifices in many cases using current endoscopic methodology, because the ureteral openings are very small and difficult to distinguish against the seemingly vast bladder wall. A simple Pressure-Sheath TechnologyTM procedure overcomes this problem by allowing the surgeon to time-dilate the bladder environment (67) using a dye material saline solution, until a retrograde fluid column enters the ureteral environment (68) creating a second CPE in the ureteral junction passageway and proximal ureter. The surgeon switches out the original dyed saline solution from the primary bladder CPE environment while maintaining constant internal pressure until the bladder environment clears. Then the surgeon lowers the pressure inside the primary bladder CPE for the retreating die to provide the ureteral opening location every time.
The doctor locates the ureter orifice (65) and inserts the endoscope hydrodilating the ureteral junction creating space for sheath placement (19) and cuff dilation (20). He then creates the CPE inside the ureteral environment (68) and may extend the Remote Press Pack (Fig1 @ 29) through a length of ureter, dilate the hollow rubber pack and create a temporary CPE in the lower ureteral junction if needed (not shown); or navigate the enhanced flexible endoscope up the ureter, while maintaining a constant internal pressure eliminating the possibility of mucosal tears and abrasions. In cases of kidney stone removal, the doctor utilizes the Alligator Forceps (24) removing kidney stone debris through the Evacuation Conduit (27); while maintaining the CPE by simultaneously introducing new saline solution through the Liquid Supply Channel Conduit (26).
Oftentimes upper renal surgery is hampered by internal bleeding, but a high percentage of these visibility problems are eliminated by creating the optimal CPE; by regulating internal pressure to greatly reduce or stop encroachment into the upper renal cavity CPE. The doctor removes the kidney stone debris and retracts his endoscope to the urethral junction location to begin depressurization of the upper renal cavity and ureter, before removing the pressure sheath from the ureteral orifice. He then retracts the pressure sheath to the urethral location for depressurization of the bladder environment, depressurization of the primary pressure cuff, and removal of the pressure sheath from the urethra.
The missing link in remote control surgical systems is the creation of the CPE made possible by the use of expandable dilator cuffs around the circumference of the scopes and probes complemented by the use of tethered Remote Press-Packs (Fig 1 @ 29). A Pressure-Sheath Technician creates a sterile environment in an office setting, or at the patients home and sets up the Remote Observation/Surgery Station (Fig 1 @1). Setup includes establishing the uplink connection to our doctor sitting before a monitor and joystick preparing to repeat the above procedure via remote control. The technician hydrodilates the Secondary Pressure Sheath (17) into the urethral passageway, dilates the Secondary Pressure Cuff (18), and monitors patient vital signs throughout the procedure administering pain medication if required. Upon stone removal and procedure completion, the technician deflates the dilator cuff and removes the pressure sheath from the urethral orifice.
Pressure Sheath TechnologyTM has application in all orifices, passageways and cavities of the body where CPEs are created to remove obstructions, enhance observational or surgical procedures. The surgeon navigates the press pack-supported endoscope, or remote pressure-sheath probe, through the throat, esophagus, stomach and duodenum for accessing gall stones through the bile duct, according to similar procedures described above for kidney stone extraction without the need for a single incision. Our surgeon creates the primary CPE in the cervix via the vagina enlarging the endometrial cavity for accessing and establishing a secondary CPE in the fallopian tube once the Remote Press Pack accessory is extended into the optimum passageway position. The surgeon then completes the fallopian tube procedure, or depressurizes the temporary CPE, and retracts the Remote Press Pack to manage external pressures via Press Jacket (Fig 2 @ 50) CPE manipulation and internal pressures using simultaneous hydrodilation and evacuation techniques.
The difference is that the upper renal cavity represents a closed-end system, while the infundibular orifice on the ovarian end of the avian oviduct opens into the larger body cavity making traditional CPE creation an improbability. These cases require careful low-pressure surgeon manipulation of the immediate endoscope/probe environment by creating required space through saline hydrodilation, while simultaneously evacuating surplus fluid out of body cavity environment once the space is no longer required. Advanced application of Pressure-Sheath TechnologyTM includes in vivo fertilization by egg cell collection combined with sperm collection, after running the specimen inside a flow-through apparatus, mimicking the fallopian tube flows, for determining optimum sperm cell genetic selection; according to predetermined doctor/patient prescribed guidelines.
Creating CPEs inside the body oftentimes requires the surgeon to create another CPE outside the body using a multi-zoned Press Jacket (50) applying counter pressure to support dilating internal cellular tissues. A percentage of small-diameter kidney stones in lower-ureter hydronephrosis cases, particularly in women, can oftentimes be removed by manipulating a full bladder environment sending a retrograde fluid column to meet the obstruction by creating needed space for stone passage. Some cases include a small diameter smooth stone blocking the hair-thin ureteral orifice, particularly in men, causing upper renal cavity distension from kidney urine secretion into the naturally-created CPE. Distension of the ureteral membrane tissue creates a pencil balloon effect lengthening the upper ureter along with the growing diameter, until an acute hydronephrosis scenario is created by the lower ureter passing itself and kinking near the ureteral junction location near the bladder.
Many of these cases require no invasive surgical procedure whatsoever, but necessitate manipulation of a CPE inside the bladder environment while applying simultaneous outside body pressure to the bladder itself sending the retrograde fluid column to meet the obstruction; while also maneuvering the patients feet above his head to lengthen the ureter and aid in the stone-passing process. Practically all of these small impacted kidney stones cases are resolved by simple hydrodilation of the lower ureter causing stone release and sometimes violent stone expulsion from the lower ureter with the evacuating urine. Advanced endoscopes and probes include corneal aperture components that open and close to protect sensitive camera lens and illumination accessories damaged by sudden stone release into the bladder environment.
Dilator cuffs may be positioned around the circumference of endoscopic surgical devices and probes in a variety of locations for obtaining the same patient outcomes. The components comprising this Pressure-Sheath TechnologyTM integrated surgery system may be assembled in an operating room environment where surgeon specialists are called in via remote control to perform the operation, assist in a single facet of the operation, or combined within the Technicians Remote Control Surgery Station at a remote location. This technology allows members of the our Doctors Association to become trained, licensed and certified online via remote control in direct connection with members of the Technicians Association simultaneously training to become their on-location eyes and hands.
Figure 3 shows the Press Jacket (50) divided into twelve zones (7-12 on reverse side) containing individual Subcompartments (51) allowing micromanagement of Press Jacket CPEs providing counter pressure support for internal body cavity CPE environments. Military uses for this device include inner liner Horizontal Passageways (52) allowing Remote Probe (56) access from the Onboard Remote Control Surgery Station (53) positioned in the small of the soldiers back. The Remote Probe (56) is launched at Press Jacket system breach identified by the reduction in internal passageway CPE pressure where the Primary Cuff (57) fills the void and launches the Dilator-enhanced Remote Probe (56) into the internal body cavity. Internal Dish (54) components vibrate and use sonar sounding technology receiving information on solid high-density objects lodged within the internal body cavity, while the Press Jacket constricts around the body using outside air resources to reduce and manage internal bleeding. Advanced applications include inflatable Press Pack (55) components within the individual Subcompartments (51) designed to inflate and fill the void using combined Press Jacket resources when available. Traditional Press Jacket applications in Remote Control Surgery include the twelve-zoned jacket omitting the Horizontal Passageways (52) and inflatable Press Packs (55), for creating eternal CPEs to support internal CPE creation. All surgical work in any open-end system requires Press Jacket support for maintaining low-pressure CPEs like in the fallopian tube example.
Terral Corporation is currently searching for the best Tampa Bay Area Urological Research and Development Team with the vision to begin integrating Pressure-Sheath TechnologyTM methods into practice. Terral Corporation has secured a provisional patent in lieu of submitting a non-provisional patent within a twelve month period, which represents your golden opportunity to become a vested co-patent partner; according to investor capital investment and R&D contributions to this project.
Elementary methods include using Foley Catheters and saline solution to create CPEs within the primary bladder environment and utilizing outside CPEs created using abdominal straps over pressure cuffs for sending a retrograde fluid column to meet observed ureteral obstructions. I personally have used this simple method to pass multiple impacted small-diameter stones to gain instant relief from painful hydronephrosis, as the stones were released to strike against the opposite-side bladder wall. In fact, I was having regular yearly kidney stones attacks, until my entire urinary system was pressurized for the removal of all forming kidney stone debris, as my cleaned urinary system remains stone-free to this day. My firm conviction is that your patients deserve the same kind of treatment that will make your urologists the most sought-after in the entire world; and the best part is our Association Doctors and Technicians can serve a global market via remote control.
Free Online Download
GL,
Terral
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