Abstract:
According to one general aspect, there is a medical device including a locking mechanism that is used to connect a plurality of catheters, a multi-balloon inflator that inflates multiple balloons on a single catheter, an extraction point used to remove human fluids from the human body, and a connecting point that allows a syringe or a machine to insert liquid saline solution or radioactive isotopes into the multi-balloon inflator.

Description:
FIELD OF THE INVENTION 
     The invention is related to a multi-purpose catheter that is used to deliver dose, measure the dose and remove human waste while providing an easy connection module. 
     BACKGROUND 
     In medicine, a catheter is a tube that can be inserted into a body cavity, duct, or vessel. Catheters thereby allow drainage, injection of fluids, or access by surgical instruments. The process of inserting a catheter is catheterization. In most uses, a catheter is a thin, flexible tube (“soft” catheter), though in some uses, it is a larger, solid (“hard”) catheter. A catheter left inside the body, either temporarily or permanently, may be referred to as an indwelling catheter. A permanently inserted catheter may be referred to as a permcath. 
     The ancient Syrians created catheters from reeds. “Katheter—καθετ{acute over (η)}ρ” originally referred to an instrument that was inserted such as a plug. The word “katheter” in turn came from “kathiemai—ηαθ{acute over (ι)} εμαι” meaning “to sit”. The ancient Greeks inserted a hollow metal tube through the urethra into the bladder to empty it and the tube came to be known as a “katheter”. 
     Prior catheters were used only for single functions, such as removing human remains and enlarging an area inside the human body. The single functioning catheters require that medical personnel remove one catheter and insert another catheter into the patient when multiple functions are required to be performed on the patient. This removal and insertion process creates much discomfort to the patient, because the removal of one catheter and insertion of another catheter creates pain. Also, when multiple catheters need to be inserted into a patient, each catheter is inserted into the patient. However, the catheter&#39;s excessive length can cause confusion, and the medical personnel may perform a function on the wrong catheter. 
     Thus, the need exists to have a catheter that can provide multiple functions and which is less traumatic than current procedures involving insertion and removal. The present invention meets that need without the risk of causing damage or producing pain. 
     SUMMARY OF THE INVENTION 
     According to one general aspect, there is a medical device including a locking mechanism that is used to connect a plurality of catheters, a multi-balloon inflator that inflates multiple balloons on a single catheter, an extraction point used to remove bodily fluids, e g human fluids from the human body, and a connecting point that allows a syringe or a machine to insert liquid saline solution or radioactive isotopes into the multi-balloon inflator. 
     The medical device that contains the locking mechanism can be affixed to any male or female connection attached to any type of catheter. 
     The medical device that contains the multi-balloon inflator is connected to each individual connecting point to allow a volume for inflation. 
     The medical device that contains the said locking mechanism when affixed to another catheter creates a vacuum seal that does not allow the fluids or any air to pass through any said connecting point. 
     The medical device that contains the extraction point contains an inner seal within the opening that only allows for a single direction flow for only removal of fluids which does not allow for fluids to be inserted into the human body. 
     The medical device that contains the extraction point is large enough to contain a measuring device used to measure the amount of dose radiated to human tissue while said extraction point is removing fluids from the human body. 
     The medical device contains a multi-balloon inflator that includes a plurality of connections, wherein at least one connection of the multi-balloon inflator contains radioactive isotopes while the remaining one or more connections of the multi-balloon inflator contain air or any other liquid, such as a liquid saline solution, for inflation of the corresponding balloon. 
     The medical device that contains a plurality of catheters can be inserted into both the rectum and the urethra with a plurality of measuring devices to take dose measurements while applying dose therapy through the multi-balloon inflator. 
     According to another general aspect, there is a method of operating a multi-functional catheter, wherein said method comprises connecting a plurality of catheters, inflating multiple balloons on a single catheter, removing human fluids from the human body, and pumping liquid saline solution or radioactive isotopes into said multi-balloon inflator. 
     The connecting includes affixing any male or female connection to the catheter. 
     The inflating is provided to each individual connecting point to allow the volume for inflation. 
     The affixing to another catheter creates a vacuum seal that does not allow the fluids or any air to pass through any said connecting point. 
     The removing fluids by an inner seal within the opening that only allows for a single direction flow for only removal of fluids which does not allow for fluids to be inserted into the human body. 
     The removing includes a measuring device used to measure the amount of dose radiated to human tissue while the extraction point is removing bodily fluids, such as from the human body. 
     The radiating includes providing by a multi-balloon inflator through a corresponding connection radioactive isotopes, while the other one or more of the connections of the multi-balloon inflator contains air or any other liquid, such as a liquid saline solution, for inflation of the corresponding balloon on a medical device that contains a multi-balloon inflator having a plurality of connections. 
     A plurality of said medical devices can be inserted into both the rectum and urethra with a plurality of said measuring devices take dose measurements while applying dose therapy through said multi-balloon inflator. 
    
    
     
       DESCRIPTION OF THE DRAWINGS 
         FIG. 1  is an illustration of a first position rectum balloon attached to a rectum catheter and a first position urethra catheter balloon attached to a urethra catheter. 
         FIG. 2  is an illustration of a rectum catheter including a first position rectum balloon and a measuring device, such as a metal-oxide-semiconductor field-effect transistor (MOSFET), attached to a urethra catheter that includes a measuring device and a first position urethra catheter balloon. 
         FIG. 3  is an illustration of a rectum catheter including a first position rectum balloon and a second position rectum balloon attached to a urethra catheter that includes a first position urethra catheter balloon. 
         FIG. 4  is an illustration of a rectum catheter including a first position rectum balloon, a second position rectum balloon and a measuring device, such as metal-oxide-semiconductor field-effect transistor (MOSFET), attached to a urethra catheter that includes a measuring device and a first position urethra catheter balloon. 
         FIG. 5A  is an illustration of a rectum catheter including a first position rectum balloon, a second position radiation balloon and a third position rectum balloon attached to a urethra catheter that includes a first position urethra catheter balloon.  FIG. 5B  is a sectional view of the rectum catheter  1 - 11  taken at the section A-A of  FIG. 5A . 
         FIG. 6A  is an illustration of a rectum catheter including a first position rectum balloon, a second position radiation balloon, a third position rectum balloon and a measuring device, such as a metal-oxide-semiconductor field-effect transistor (MOSFET), attached to a urethra catheter that includes a measuring device and a first position urethra catheter balloon.  FIG. 6B  is a sectional view of the rectum catheter  1 - 11  taken at the section A-A of  FIG. 6A . 
         FIG. 7  is an illustration of a first position rectum balloon and a second position rectum balloon in the human body and a first position urethra catheter balloon in the human body. 
         FIG. 8  is an illustration of a rectum catheter including a first position rectum balloon and a second position rectum balloon attached to a urethra catheter that includes a first position urethra catheter balloon. 
     
    
    
     Throughout the drawings and the detailed description, unless otherwise described, the same drawing reference numerals will be understood to refer to the same elements, features, and structures. The relative size and depiction of these elements may be exaggerated for clarity, illustration, and convenience. 
     DETAILED DESCRIPTION 
     The following detailed description is provided to assist the reader in gaining a comprehensive understanding of the methods, apparatuses and/or systems described herein. Accordingly, various changes, modifications, and equivalents of the systems, apparatuses, and/or methods described herein will likely suggest themselves to those of ordinary skill in the art. Also, descriptions of well-known functions and constructions are omitted to increase clarity and conciseness. 
       FIG. 1  shows an exemplary medical device including a rectum catheter  1 - 11  that includes of a first position rectum balloon  1 - 2 , as well as a balloon inflator  1 - 20  having connections  1 - 7  and  1 - 8 ; the rectum catheter  1 - 11  being attached to a urethra catheter  1 - 10 , the urethra catheter  1 - 10  including a urethra catheter balloon  1 - 1 , as well as a balloon inflator  1 - 30  having connections  1 - 5  and  1 - 6 . The rectum catheter  1 - 11  that includes the rectum balloon  1 - 2  has multiple uses and features. The rectum balloon  1 - 2  can be used to deliver radiation, such as by radioactive isotopes that can be inserted via the connection  1 - 7 , and a measuring device, e.g., a sensor, (not shown in  FIG. 1 ), as can be associated with the rectum catheter  1 - 11  or with the urethra catheter  1 - 10 , that can simultaneously measure the radiation that is being delivered to the abnormal growth and a connection of the rectum catheter  1 - 11  can remove bodily fluids, e.g., human waste. The rectum catheter  1 - 11  has a female or a male connection  1 - 8  of a balloon inflator  1 - 20  that is used to insert any form of a sensor for dose measurement and simultaneously remove human waste by an extraction opening  1 - 12  in the rectum catheter  1 - 11 . The extraction opening  1 - 12  contains an inner seal  1 - 17  that only allows for a single direction flow for removal of bodily fluids and does not allow for fluids to be inserted into a body cavity, such as the rectum. The human waste removed travels through a the tube  1 - 3  that is associated with the male or female connection  1 - 8 . Furthermore, the rectum catheter  1 - 11  has a luer lock connection  1 - 7  of the balloon inflator  1 - 20  that is used to inflate the rectum balloon  1 - 2  to a predetermined size. The balloon inflation of the rectum balloon  1 - 2  may be used as a locking mechanism for the rectum catheter  1 - 11  in the patient or can be used to push internal organs in a certain direction. The rectum catheter  1 - 11  may be attached by a locking mechanism  1 - 9  to the urethra catheter  1 - 10 . The locking mechanism  1 - 9  may be attached by either a male or a female connection, and the locking mechanism  1 - 9  is associated with the balloon inflator  1 - 20  and the balloon inflator  1 - 30 . The locking mechanism  1 - 9  allows for medical personnel to have an easier control of the rectum catheter  1 - 11  and the urethra catheter  1 - 10  to provide delivery and extraction guidance for the catheters within a single area. The urethra catheter  1 - 10  has a urine or bodily fluid extraction opening  1 - 4  that communicates with a tube  1 - 15  that is used to remove fluids in the bladder that are taken out by an extraction opening connection  1 - 5  of the balloon inflator  1 - 30  and by the associated tube  1 - 15 . The extraction opening  1 - 4  contains an inner seal  1 - 18  that only allows for a single direction flow for removal of bodily fluids and does not allow for fluids to be inserted into a body cavity, such as the bladder. Furthermore, a measuring device (not shown in  FIG. 1 ) may be inserted into the extraction opening connection  1 - 5  and into the tube  1 - 15  while removing the urine or bodily fluid. The advantage allows for simultaneously measuring a dose and removing urine by the urethra catheter  1 - 10 . The urethra catheter balloon  1 - 1  is an inflatable balloon. The balloon inflation can be performed via a male or a female luer lock connection  1 - 6  of the balloon inflator  1 - 30  of the urethra catheter  1 - 10 . Further drawings will show modifications to both the urethra catheter  1 - 11  and the rectum catheter  1 - 10 . 
       FIG. 2  shows an exemplary medical device, similar to that shown in  FIG. 1 , including of a rectum catheter  1 - 11  attached to a urethra catheter  1 - 10 . Upon further review, the rectum catheter  1 - 11  balloon allows for a measuring device  2 - 1  for dose measurement, such as a metal-oxide-semiconductor field-effect transistor (MOSFET), to be inserted into a the center valve of a connection  1 - 8  of a balloon inflator  1 - 20  of the rectum catheter  1 - 11 . The rectum catheter  1 - 11  may be attached by a locking mechanism  1 - 9  to the urethra catheter  1 - 10 , as described. The advantage for inserting the measuring device  2 - 1  will allow medical personnel to measure the dose simultaneously while delivering the radiation to the tumor region. Furthermore, a second measuring device  2 - 2  may be inserted into the urethra catheter  1 - 10  through an extraction opening connection  1 - 5  of a balloon inflator  1 - 30  and into an associated tube  1 - 15  of the extraction opening connection  1 - 5 . Inflating the rectum balloon  1 - 2  allows for determining the organ region and for providing a fixing or locking mechanism. The inflating rectum balloon  1 - 2  on the rectum catheter  1 - 11  can also be filled with a radioactive material, e.g., radioactive isotopes, via the connection  1 - 7  of the balloon inflator  1 - 20  that delivers dose while being measured by the measuring device  2 - 1 . This is a big advantage since the dose can be measured and the volume of radioactive isotopes can be reduced depending on the inflating size of the inflating rectum balloon  1 - 2 . Next, the second measuring device  2 - 2  can also be inserted into the urethra catheter  1 - 10  through the extraction opening connection  1 - 5  of the balloon inflator  1 - 30  into the associated tube  1 - 15  and, along with the measuring device  2 - 1  in the rectum catheter  1 - 11 , can allow medical personnel to measure the dose from two different locations at the same time. Also, as described, the urethra catheter  1 - 10  has a urine extraction opening  1 - 4  that communicates with the tube  1 - 15  and is used to remove fluids in the bladder that are taken out by the extraction opening connection  1 - 5  of the balloon inflator  1 - 30  and by the associated tube  1 - 15 . The extraction opening  1 - 4  contains an inner seal  1 - 18  that only allows for a single direction flow for removal of bodily fluids and does not allow for fluids to be inserted into a body cavity, such as the bladder. The rectum catheter  1 - 11  has a female or a male connection  1 - 8  of a balloon inflator  1 - 20 , that can be used to insert any form of a sensor for dose measurement and simultaneously remove human waste by an extraction opening  1 - 12  in the rectum catheter  1 - 11 . The extraction opening  1 - 12  contains an inner seal  1 - 17  that only allows for a single direction flow for removal of bodily fluids and does not allow for fluids to be inserted into a body cavity, such as the rectum. The human waste removed travels through a tube  1 - 3  associated with the male or female connection  1 - 8 . 
       FIG. 3  shows an exemplary medical device that includes a rectum catheter  1 - 11  attached to a urethra catheter  1 - 10 . The rectum catheter  1 - 11  includes sample of a first position rectum balloon  1 - 2  and second position rectum balloon  4 - 1 , as well as a balloon inflator  1 - 20 , as a multi-balloon inflator, having connections  1 - 7 ,  1 - 8  and  4 - 2 ; and the urethra catheter  1 - 10  includes a first position urethra catheter balloon  1 - 1  as well as a balloon inflator  1 - 30  having connections  1 - 5  and  1 - 6 . The rectum catheter  1 - 11  may be attached by a locking mechanism  1 - 9  to the urethra catheter  1 - 10 , as described. The rectum catheter  1 - 11  contains two balloons, which allows for the first position rectum balloon  1 - 2  to be used for fixing or locking. The second position rectum balloon  4 - 1  can be filled with a radioactive material, e.g. radioactive isotopes, via the connection  4 - 2 . The second position rectum balloon  4 - 1  can deliver the radiation after the first position rectum balloon  1 - 2  has been inflated via the connection  1 - 7 . Another advantage for double inflatable balloons can be the first position rectum balloon  1 - 2  can be used to move sensitive organs out of the region, and which the second position rectum balloon  4 - 1  can deliver the dose. Each balloon has the ability to be filled up via its with male or female connection. Specifically, the second position rectum balloon  4 - 1  is enlarged via the male/female connection  4 - 2 ; and, the first position rectum balloon  1 - 2  is enlarged via the male/female connection  1 - 7 . By allowing each balloon to have its respective connection, an advantage of such connection is that it will allow medical personnel to control the size of each balloon independently. Also, as described, the urethra catheter  1 - 10  has a urine or bodily fluid extraction opening  1 - 4  that communicates with a tube  1 - 15  that is used to remove fluids in the bladder that are taken out by an extraction opening connection  1 - 5  of the balloon inflator  1 - 30  and the associated tube  1 - 15 . The extraction opening  1 - 4  contains an inner seal  1 - 18  that only allows for a single direction flow for removal of bodily fluids and does not allow for fluids to be inserted into a body cavity, such as the bladder. The rectum catheter  1 - 11  has the female or a male connection  1 - 8  of the balloon inflator  1 - 20 , that can be used to insert any form of a sensor for dose measurement and while removing human waste by an extraction opening  1 - 12  in the rectum catheter  1 - 11 . The extraction opening  1 - 12  contains an inner seal  1 - 17  that only allows for a single direction flow for removal of bodily fluids and does not allow for fluids to be inserted into a body cavity, such as the rectum. The human waste removed travels through a tube  1 - 3  associated with the male or female connection  1 - 8 . 
       FIG. 4  shows an exemplary medical device, similar to that shown in  FIG. 3 , that includes a rectum catheter  1 - 11  attached to a urethra catheter  1 - 10 . The rectum catheter  1 - 11  includes sample of a first position rectum balloon  1 - 2  and a second position rectum balloon  4 - 1 , as well as a balloon inflator  1 - 20 , as a multi-balloon inflator, having connections  1 - 7 ,  1 - 8  and  4 - 2 ; and the urethra catheter  1 - 10  includes a first position urethra catheter balloon  1 - 1 , as well as a balloon inflator  1 - 30  having connections  1 - 5  and  1 - 6 . The rectum catheter  1 - 11  may be attached by a locking mechanism  1 - 9  to the urethra catheter  1 - 10 , as described. The rectum catheter  1 - 11  contains two balloons. The second position rectum balloon  4 - 1  contains radioactive isotopes, provided via the connection  4 - 2 , while the first position rectum balloon  1 - 2  can contain air or liquid, such as a liquid saline solution, to fill the balloon via the connection  1 - 7 . The rectum catheter  1 - 11  contains a measuring device  5 - 1  for dose measurement, as can be inserted through the connection  1 - 8  of a balloon inflator  1 - 20 , similar to that previously described, that allows for measuring the dose that is applied to the patient. Next, a measuring device  5 - 2  for dose measurement, similar to that previously described, can also be inserted through an extraction opening connection  1 - 5  of a balloon inflator  1 - 30  and into an associated tube  1 - 15  of the urethra catheter  1 - 10 , and along with the measuring device  5 - 1 , as can be inserted through an extraction opening connection  1 - 8  of the balloon inflator  1 - 20  in the rectum catheter  1 - 11 , can allow medical personnel to measure the dose from two different locations at the same time. Also, as described, the urethra catheter  1 - 10  has a urine or bodily fluid extraction opening  1 - 4  that is used to remove fluids in the bladder that are taken out by the extraction opening connection  1 - 5  of the balloon inflator  1 - 30  and into the associated tube  1 - 15  of the extraction opening connection  1 - 5 . The extraction opening  1 - 4  contains an inner seal  1 - 18  that only allows for a single direction flow for removal of bodily fluids and does not allow for fluids to be inserted into a body cavity, such as the bladder. The rectum catheter  1 - 11  has the female or a male connection  1 - 8  of the balloon inflator  1 - 20 , that can be used to insert any form of a sensor for dose measurement and simultaneously remove human waste by an extraction opening  1 - 12  in the rectum catheter  1 - 11 . The extraction opening  1 - 12  contains an inner seal  1 - 17  that only allows for a single direction flow for removal of bodily fluids and does not allow for fluids to be inserted into a body cavity, such as the rectum. The human waste removed travels through a tube  1 - 3  associated with the male or female connection  1 - 8 . 
       FIG. 5A  shows an exemplary medical device, similar to those previously described, that includes a rectum catheter  1 - 11  attached to a urethra catheter  1 - 10 . The urethra catheter  1 - 10  includes a first position urethra catheter balloon  1 - 1 , as well as a balloon inflator  1 - 30  having connections  1 - 5  and  1 - 6 . The rectum catheter  1 - 11  includes a first position rectum balloon  1 - 2 , a second position radiation balloon  4 - 1 , a third position rectum balloon  7 - 1  and is attached to the urethra catheter  1 - 10 , as well as including a balloon inflator  1 - 20 , as a multi-balloon inflator  1 - 20 , having connections  1 - 7 ,  1 - 8 ,  7 - 3  and  4 - 2 . The rectum catheter  1 - 11  may be attached by a locking mechanism  1 - 9  to the urethra catheter  1 - 10 , as described. The rectum catheter  1 - 11  has three balloons; however, there can be any number of balloons depending upon the length of the catheter. The rectum catheter  1 - 11  has the second position radiation balloon  4 - 1  that contains radioactive isotopes, inserted via the connection  4 - 2 , while the first position rectum balloon  1 - 2  and the third position rectum balloon  7 - 1  may contain no dose delivery mechanism. The first position rectum balloon  1 - 2  can be inflated via the male/female connection  1 - 7 , and the second position rectum balloon  4 - 1  can be inflated via the male/female connection  4 - 2 . The third position rectum balloon  7 - 1  can be inflated via the male/female connection  7 - 3 . Referring to  FIG. 5B , an A-A view  7 - 2  of the rectum catheter  1 - 11  provides a further illustration of when there are a plurality of balloons on a single catheter, such as the rectum catheter  1 - 11 . The A-A view  7 - 2  shows a cross-sectional view of the rectum catheter  1 - 11  and the respective tubes, or connections,  4 - 2 ,  7 - 3 ,  1 - 7  for inflating or deflating the respective balloons, as well as the connection  1 - 8  that communicates with an opening  1 - 12 . By having multiple balloons on a single catheter, the shape of each balloon can be changed relative to the location of the catheter, such as the rectum catheter  1 - 11 , in the human body to allow for a proper fixture. Also, as described, the urethra catheter  1 - 10  has a urine or bodily fluid extraction opening  1 - 4  associated with a tube  1 - 15  that is used to remove fluids in the bladder that are taken out by an extraction opening connection  1 - 5  of the balloon inflator  1 - 30  and the associated tube  1 - 15 . The extraction opening  1 - 4  contains an inner seal  1 - 18  that only allows for a single direction flow for removal of bodily fluids and does not allow for fluids to be inserted into a body cavity, such as the bladder. The rectum catheter  1 - 11  has the female or a male connection  1 - 8  of a balloon inflator  1 - 20 , that can be used to insert any form of a sensor for dose measurement and simultaneously remove human waste by the opening  1 - 12  in the rectum catheter  1 - 11 . The extraction opening  1 - 12  contains an inner seal  1 - 17  that only allows for a single direction flow for removal of bodily fluids and does not allow for fluids to be inserted into a body cavity, such as the rectum. The human waste removed travels through a tube  1 - 3  associated with the male or female connection  1 - 8 . 
       FIG. 6A  shows an exemplary medical device, similar to that shown in  FIG. 5A , that includes a rectum catheter  1 - 11  attached to a urethra catheter  1 - 10 , as well as a balloon inflator  1 - 20 , as a multi-balloon inflator, having connections  1 - 7 ,  1 - 8 ,  7 - 3  and  4 - 2 . The urethra catheter  1 - 10  includes a first position urethra catheter balloon  1 - 1 , as well as a balloon inflator  1 - 30  having connections  1 - 5  and  1 - 6 . The rectum catheter  1 - 11  may be attached by a locking mechanism  1 - 9  to the urethra catheter  1 - 10 , as described. The rectum catheter  1 - 11  includes a collapsed first position rectum balloon  1 - 2  as a collapsed balloon  8 - 1  as can be inflated via the connection  1 - 7 , a second position radiation balloon  4 - 1  as can be inflated or filled with a radioactive material, e.g. radioactive isotopes, via the connection  4 - 2  of the balloon inflator  1 - 20 , and a third position rectum balloon  7 - 1  as can be inflated via the connection  7 - 3 . The collapsed balloon  8 - 1  allows for minimum expansion of the balloon, such as by inflation thereof via the connection  1 - 7 , to keep the human tissue from being moved into any direction. Furthermore, a measuring device  8 - 2 , similar to those previously described, can be inserted into an the open section  1 - 3  associated with the connection  1 - 8  in the rectum catheter  1 - 11  of the balloon inflator  1 - 20 . The benefit for having multiple balloons allows the control of how much dose can be given. Next, a measuring device  8 - 3 , similar to those previously described, can also be inserted into the urethra catheter  1 - 10  through an extraction opening connection  1 - 5  of the balloon inflator  1 - 30  and into an associated tube  1 - 15  of the extraction opening connection  1 - 5 , along with a measuring device  8 - 2 , in the rectum catheter  1 - 11  to allow medical personnel to measure the dose from two different locations at the same time. Referring to  FIG. 6B , an A-A view  7 - 2  of the rectum catheter  1 - 11  provides a further illustration of when a plurality of balloons are on a single catheter, such as the rectum catheter  1 - 11 . The A-A view  7 - 2  shows a cross-sectional view of the rectum catheter  1 - 11  and the respective tubes, or connections,  4 - 2 ,  7 - 3 ,  1 - 7  for inflating or deflating the respective balloons, as well as the connection  1 - 8  that communicates with an extraction opening  1 - 12 . By having multiple balloons on a single catheter, the shape of each balloon can be changed relative to the location of the catheter, such as the rectum catheter  1 - 11 , in the human body to allow for a proper fixture. The advantage for having multiple balloons allows medical personnel to have more control. Also, as described, the urethra catheter  1 - 10  has a urine or bodily fluid extraction opening  1 - 4  that is used to remove fluids in the bladder that are taken out by the extraction opening connection  1 - 5  of the balloon inflator  1 - 30  and by the associated tube  1 - 15 . The extraction opening  1 - 4  contains an inner seal  1 - 18  that only allows for a single direction flow for removal of bodily fluids and does not allow for fluids to be inserted into a body cavity, such as the bladder. The rectum catheter  1 - 11  has the female or a male connection  1 - 8  of the balloon inflator  1 - 20 , that can be used to insert any form of a sensor for dose measurement and simultaneously remove human waste by the extraction opening  1 - 12  in the rectum catheter  1 - 11 . The extraction opening  1 - 12  contains an inner seal  1 - 17  that only allows for a single direction flow for removal of bodily fluids and does not allow for fluids to be inserted into a body cavity, such as the rectum. The human waste removed travels through a tube  1 - 3  associated with the male or female connection  1 - 8 . 
       FIG. 7  is an illustration of how both a urethra catheter  10 - 1  and a rectum catheter  10 - 6  are inserted into the human body. The urethra catheter  10 - 1  is inserted into the penis via the urethra. Thereafter, the medical personnel inflates a balloon  10 - 2  on the urethra catheter  10 - 1 . This will allow the surrounding tissue to expand and move out of the way to create space near the prostate  10 - 5 . Furthermore, the rectum catheter  10 - 6  can be inserted into the rectum of the patient. The rectum catheter  10 - 6  has a first position rectum balloon  10 - 3  and a second position rectum balloon  10 - 4 . Looking specifically at this illustration of  FIG. 7 , but not limiting it to just the second position rectum balloon  10 - 4 , the second position rectum balloon  10 - 4  contains radioactive isotopes. This can be used to dose the prostate  10 - 5 , and the first position rectum balloon  10 - 3  can be used as a locking or fixing mechanism to the hold the rectum catheter  10 - 6  in place. Furthermore, a measuring device for dose measurement similar to those previously described, can be inserted into both the urethra catheter  10 - 1  and the rectum catheter  10 - 6 . 
       FIG. 8  is another illustration of how both the urethra catheter  10 - 1  and the rectum catheter  10 - 6  are inserted into the human body. The urethra catheter  10 - 1  is inserted all way into the male bladder and inflated with a balloon  11 - 1 . The inflation of the balloon  11 - 1  will not allow for the urethra catheter  10 - 1  to slip out of the bladder. Furthermore, the rectum catheter  10 - 6  has a first position rectum balloon  10 - 3  and a second position rectum balloon  10 - 4 . Looking specifically at this illustration of  FIG. 8 , but not limiting it to just the second position rectum balloon  10 - 4 , the second position rectum balloon  10 - 4  contains radioactive isotopes. This second position rectum balloon  10 - 4  can be used to dose the prostate  10 - 5 , and the first position rectum balloon  10 - 3  can be used as a locking or fixing mechanism to the hold the rectum catheter  10 - 6  in place. Furthermore, a measuring device for dose measurement, similar to those previously described, can be inserted into both the urethra catheter  10 - 1  and the rectum catheter  10 - 6 . 
     The above disclosure is intended to be illustrative and not exhaustive. This description will suggest many variations and alternatives to one of ordinary skill in this art. All these alternatives and variations are intended to be included within the scope fo the claims where the term “comprising” means “including, but not limited to”. Those familiar with the art may recognize other equivalents to the specific embodiments described herein which equivalents are also intended to be encompassed by the claims. 
     Further, the particular features presented in the dependent claims can be combined with each other in other manners within the scope of the invention such that the invention should be recognized as also specifically directed to other embodiments having any other possible combination of the features of the dependent claims. 
     With this description, those skilled in the art may recognize other equivalents to the specific embodiments described herein. Such equivalents are intended to be encompassed by the claims attached hereto.