The present invention relates generally to therapeutic devices and, more particularly, to a therapeutic device and a method of use therefor that is believed herein to enhance blood circulation as well as intraocular, lymph and neural fluid flows throughout a person's body and particularly in his or her hands and arms.
Various types of devices have been used for enhancing blood flow through selected portions of human cardiovascular systems. This has been done for the purpose of alleviating various symptoms associated with different types of diseases or conditions. For example, enhanced external counter-pulsation (hereinafter “EECP”) utilizes pressure cuffs around various portions of a person's lower extremities and buttocks. The pressure cuffs are sequentially and abruptly inflated and then deflated in sync with the person's heart rate such as to implement a reverse pulsation of blood flow back toward the person's upper torso and head immediately following systole. This results in pressure spikes of as much as 50 mmHg being imposed upon any partial arterial blockages that may be present in those portions of the person's body, and may in fact enable formation of collateral circulation passages around such partial blockages. In order to be effective, EECP is typically administered to a person over a series of 35 one-hour treatments during a seven-week period. During their abrupt inflation the pressure cuffs can often inflict significant discomfort in the person however, thereby causing him or her to be distressed and perhaps counteracting the therapeutic effect for which the device was intended. Furthermore, there has apparently been no suggestion that EECP is helpful in promoting enhancement of intraocular, lymph and neural fluid flows within a person's eyes.
Another device was described in a book entitled “Surgical Nursing” by Eliason, Ferguson and Farrand and published as early as 1929 by the J.B. Lippincott Company. It was called a “Sander's oscillating bed for treatment of peripheral vascular disease”. In describing the Sander's oscillating bed and its use the authors stated the following:
“The Sander's oscillating bed is a method of administering passive exercises to allow intermittent filling and emptying of capillaries, venules and arterioles. The bed is set upon a rocker operated by a motor so that it tilts on its long axis at regular intervals. The intervals may be adjusted according to the needs of the patient and the wishes of the physician. This method of administering passive postural exercises may be carried out day and night and is claimed by some to have produced relief of the rest pain and of the pain associated with ulcers and gangrene. It may be used not only in arteriosclerosis and thrombo-angitis obliterans but also in minor degrees of arterial embolism.”
The Sander's oscillating bed was also described in the Aug. 4, 1951 issue of the Journal of the American Medical Association as being utilized at “high frequency” as a “vasoscillator”—thus implying that it was useful for dilating clogged blood vessels. It is believed herein that when it was utilized for this purpose, the Sander's oscillating bed was driven at a relatively high frequency significantly beyond 20 cycles/minute. On the other hand, other articles published during the 1950s detailed its use for augmenting ventilation in patients with poliomyelitis. This was obtained via internal manipulation of the patient's lungs obtained as a result of alternating gravitational forces cyclically displacing his or her intestines such as to cyclically elevate and depress the patient's diaphragm. In this case, the Sander's oscillating bed was driven at a “relatively low frequency” of perhaps 20 cycles/minute that was considered to be compatible with a normal rate of breathing.
As will be fully explained hereinbelow, it is believed herein that operation of such a bed at the high frequencies noted above would be grossly inappropriate. First of all, it would most likely induce discomfort in the patient. More significantly, there would most likely be insufficient time to substantially drain pooled venous blood from selected portions of a person's venous system during the portion of each cycle when they are subject to pressure values lower than atmospheric pressure, or later during the cycle, to totally fill the veins comprised in those portions of the person's venous system with new venous blood coming from associated arterioles, capillaries and venules—when otherwise those veins would have dilated and become subject to pressure values greater than atmospheric pressure. Thus, implementation of even the basic concept of blood pressure modulation as explained below would not be possible on a Sander's oscillating bed operated the high frequencies noted above. But as is also explained below and in some cases of perhaps even more significance, such high frequency operation would likely be incompatible with enhancing operation of a person's lymph system.
Further, it is also believed herein that all versions of the Sander's oscillating bed were implemented with a flat (e.g., planar) bed and, as implied above, “set upon a rocker operated by a motor so that it tilts on its long axis at regular intervals”. Because of such construction, it is also believed herein that shoulder and/or foot constraints were typically utilized for longitudinally restraining patients so that they wouldn't slide “up or down” excessively. It is believed herein that use of such artificial shoulder and foot constraints would also tend to induce discomfort in the patient. Perhaps because of the requirement for such artificial constraints, or because of the above explained high frequency misapplication in its use, or even simple patient discomfort associated with the high frequency operation, or because of safety concerns relating to the open rocker construction, the Sander's oscillating bed obviously fell out of favor.
An alternate type of therapeutic device that includes a bench or support member upon which a person can lie down is described in detail in U.S. Pat. No. 6,261,250. Harnesses are attached to each arm and leg of the person. The harnesses are attached to cables actuated by a gearmotor in a manner that cyclically and synchronously raises and lowers all of the person's limbs. The change in elevation of the person's limbs causes a moderate modulation of blood pressure in both of the arterial and venous networks of the person's cardiovascular system. Although it runs at a cyclic rate of slightly over 20 times/minute, this therapeutic device is none-the-less believed to be somewhat effective in enhancing blood and neural fluid flows throughout the person's circulatory system, including his or her coronary system as well as in his or her brain and eyes. However, it does require an amount of coordinated muscle activity on the person's part to properly position him- or her-self on the bench and [to] maintain his or her limbs within the harnesses, as well as to properly interact with the device. For some people, such interactions can be stressful and could even somewhat counteract the therapeutic effect for which the device is intended. Furthermore, the therapeutic device depicted in the '250 patent comprises an open counter-balanced flywheel that for safety reasons would obviously be of concern.
It is important to understand that utilization of any of these example therapeutic devices does not impose a medically oriented treatment upon a person similarly to that such as he or she would typically experience via utilizing invasive types of treatment provided by a medically licensed physician through his or her prescription of medication, or by execution of a surgical procedure. Rather, their use is generally non-invasive in nature, and with the exception of EECP, any person could use them in a self-operated manner at his or her own volition. Alternately of course, such self-operated apparatus could also be utilized with the assistance of an alternative medicine practitioner, or even at the suggestion of a medically licensed physician. Their use by any person can most accurately be described as that of non-invasively conditioning that person in a manner essentially similar to him or her exercising on exercise apparatus in a gym, so that his or her body could be enabled for improving, or even for possibly curing, itself.
It is believed herein that the human body is capable of achieving amazing self-curative powers. Thus it is also believed herein that an improved therapeutic device and an improved method are needed for enhancing blood, lymph and neural fluid flows throughout the human circulatory, lymph and nervous systems, as well as within the brain itself without inducing unacceptable levels of stress and/or discomfort.
The present invention relates to an improved therapeutic method and self-operated apparatus intended for enhancing blood, lymph and neural fluid flows in a person's body and brain. The person places him or herself in a supine position on a longitudinally pivoting support member, such as a bed or table formed in a contoured manner whereupon a person can comfortably lie without artificial constraints. In addition, a pair of upper extremity towlines are affixed to the support member and routed back and affixed to the person's hands such that the person's arms and hands (hereinafter “upper extremities”) move in a counter-directional manner with respect to the upper torso and head supporting end of the longitudinally pivoting support member. The support member is then cyclically rocked or tilted in a seesaw manner so that the person is tilted from an upper torso and head-elevated position to a upper and lower extremities-elevated position.
A drive mechanism is used to cyclically move the support member in a seesaw manner and the upper extremity towlines in order to elevate the person's head above his or her upper and lower extremities, and then to elevate the person's upper and lower extremities above his or her head. The cyclical rate of motion can range between 2 to 10 cycles/minute and is preferably about 6 cycles/minute. The total angular range of motion of the support member relative to its nominally centered horizontal position can range between 10° and 60° and is preferably around 30°.
Again, it should be emphasized that utilization of the therapeutic method and self-operated apparatus does not impose a medically oriented treatment upon a person similarly to that such as he or she would typically experience via utilizing invasive types of treatment provided by a medically licensed physician through his or her prescription of medication, or by executing a surgical procedure. Rather, its use is generally non-invasive in nature and can be used by any person at his or her own volition. Alternately of course, it can be utilized with the assistance of an alternative medicine practitioner, or even at the suggestion of a medically licensed physician. In fact, its use by any person can more accurately be described as that of non-invasively conditioning that person via an internal massaging of his or her tissues and various fluid flow channels, so that his or her body can be enabled for improving, or even for possibly curing, itself.
Other benefits, features and aspects of the present invention will become apparent from a review of the following description of preferred embodiments, when viewed in accordance with the attached drawings and appended claims.
A first step 12 of the example BPM therapy method 10 includes providing a BPM machine, which BPM machine comprises a longitudinally pivoting but generally horizontal and preferably contoured support member (hereinafter referred to as a “bed”) configured for retaining a person generally in a supine position thereupon along a longitudinal axis such that his or her head are longitudinally spaced apart from his or her lower extremities, and additionally having a pair of upper extremity towlines affixed to the upper torso and head supporting end of the bed and routed back and affixed to the person's upper extremities such that they move in a counter-directional manner with respect to the upper torso and head supporting end of the longitudinally pivoting support member. The BPM machine also comprises necessary support structure as well as a gearmotor and drive mechanism for pivotally supporting and moving the bed in a cyclical manner to be described in detail hereinbelow. A second step 14 includes positioning the person on the bed so that he or she lies supinely thereupon with his or her head, and lower extremities spaced apart generally along the longitudinal axis and with his or her upper extremities affixed to the upper extremity towlines.
A third step 16 includes activating the gearmotor for the purpose of cyclically moving or tilting the bed, and of course the person, in a “seesaw” manner in order to activate BPM therapy. This causes the person's upper torso and head to be elevated above his or her upper and lower extremities, and then the person's upper and lower extremities to be elevated above his or her upper torso and head, and vice-versa. In one example, the cyclical rate of alternate elevation of the person's upper torso and head, and the person's upper and lower extremities (hereinafter “cyclical rate”) can range between 2 and 10 cycles/minute and is preferably about 6 cycles/minute while the total angular range of motion (hereinafter “angular range”) of the support member relative to its nominally centered horizontal position can range between 10° and 60° and is preferably around 30°.
As described in detail below, this procedure modulates blood pressure in both of the arterial and venous networks of the cardiovascular system. It is believed herein that resultant modulation of venous blood pressure within positive values thereof or even more dramatic switching of venous blood pressure between positive and negative values and back again with respect to atmospheric pressure (hereinafter “venous blood pressure modulation and/or switching events”) during each cycle of venous blood pressure modulation is principally responsible for enhancement of blood, lymph and neural fluid flows within the human body and brain, which enhancement of blood, lymph and neural fluid flows is believed herein to account for the above-mentioned anecdotally observed improved quality of life for persons having various types of physical and neural diseases or conditions such as heart or other forms of cardiovascular disease, Parkinson's disease, Alzheimer's disease, essential tremor, muscular dystrophy, autism, migraine headaches, traumatic brain injuries, varicose veins, fibromyalgia, diabetic circulation problems, diabetic neuropathy, open wounds, and lymphedema with abnormal tissue swelling.
Utilizing lesser angular ranges than the preferred 30° would of course result in a reduced modulation of blood pressure. Although it is believed herein that this would also be effective in enhancing blood, lymph and neural fluid flows within the human body and brain, it might materially compromise the desired venous blood pressure modulation and/or switching event functions over significant potions of the body. Thus, achieving an equivalent improvement therein could require extended treatment times and/or an extended series of treatments.
On the other hand, utilizing greater angular ranges than the preferred 30° would result in increased modulation of blood pressure. But this might require the person to be strapped or “velcroed” to the bed, in order to preclude him or her from sliding either upwards or downwards and would almost certainly be required in cases wherein a selected angular range of motion resulted in the person's torso assuming even a relatively modest negative angular attitude whenever the bed approached its extreme lower extremities-elevated position. In any case, it has been anecdotally observed that the preferred 30° angular range is quite sufficient for achieving desired therapeutic results. Furthermore, greater angular ranges might require the cyclical rate to be reduced in order to maintain a comfortable and relaxed state of the person. This of course would reduce the number of venous blood pressure modulation and/or switching events, and thus could even be counterproductive. In any case, it has been anecdotally observed that the preferred 30° angular range is quite sufficient for achieving desired therapeutic results.
The fourth step 18 of the example BPM therapy method 10 includes establishing and maintaining a comfortable and relaxed state of the person. In a preferred example, in spite of the fact that the person's upper extremities are in constant slow motion, such a comfortable and relaxed state may correspond to establishing a sleep state of the person while he or she is experiencing BPM therapy. In another example, the comfortable and relaxed state corresponds to a consistent “at rest” blood pressure state of the person, determined according the person's age, weight, height, or other factors. In yet another example, the comfortable and relaxed state corresponds to the heart rate of the person, such as an “at rest” heart rate determined according the person's age, weight, height, or other factors. Factors involved in establishing and maintaining the comfortable and relaxed state of the person include: locating the BPM machine in a relatively isolated and quite environment; avoiding any contact with the person (i.e., such as talking to him or her) during his or her treatment period with the purpose of inducing him or her to fall into a sleep state; and/or failing that, engaging in quiet and relaxing conversation with the person for the purpose of calming him or her if he or she exhibits hyperactivity, hypersensitivity or hyperirritability symptoms.
Properly selecting angular range and cyclical rate values is also important in establishing and maintaining the comfortable and relaxed state of the person. The combination of angular range and cyclical rate is chosen such as to preclude dizziness or other discomforts in the person and is a definite factor in inducing a comfortable and relaxed state conducive to the person attaining a state of sleep. In general, it has been found through anecdotal observation that the combination of angular range and cyclical rate should be chosen such that their product is between 90 degree-cycles/minute and 270 degree-cycles/minute. Consistently, the preferred combination of an angular range of 30° and a cyclical rate of about 6 cycles/minute results in their product being 180 degree-cycles/minute, which values have been anecdotally observed to provide the above noted improvements in quality of life without inducing discomfort. Other combinations chosen from within the above mentioned angular ranges of 10° and 60°, and cyclical rates between 2 to 10 cycles/minute could certainly be acceptable for therapeutic use however.
Because a person's dominant weight supporting points are continually moving between different areas of his or her buttocks and lower torso as a function of instant tilt angles obtained during the rocking motion of a BPM machine, it has been anecdotally observed that the phenomenon of forming bed sores is highly unlikely or even impossible, irregardless of how long the person remains on the rocking apparatus. This suggests a totally different method of utilization for a BPM machine wherein its use by a bedridden patient would avoid his or her forming bed sores. Because such use would be non-therapeutic, this in turn suggests utilization of very low cyclical rates—perhaps even lower than the above stated range of two to ten cycles per minute. The method would include the additional steps of providing a BPM machine enabled for cyclic operation at a low cyclic rate, placing a bedridden person on the bed of the BPM machine, and activating it for cyclic motion.
Prior to beginning any treatment using the present invention, a preliminary workup comprising noting a person's vital statistics and perhaps performing any pertinent neurological testing could be done in order to establish a baseline status for that person as of the start of that particular treatment session. One might note a person's age, blood pressure, heart or neurological disease history or conduct and record any appropriate blood count, neuropathy or other tests should that person be diabetic for instance. In addition, special precautions should be taken in the case of a brain injured person or perhaps for one having Alzheimer's disease. Further, it would be desirable to do a comparative post treatment workup as well in order to record any changes related to the person having experienced BPM therapy during that session. And still further, it would be desirable to compile each person's workup documentation in order to establish that person's progress over time.
Layers of smooth spirally oriented muscle cells (not shown) are comprised in the arteries 42. They serve to maintain finite values of arterial blood pressure between systolic events. Similar but much finer layers of smooth spirally oriented muscle cells (also not shown) are also comprised in the arterioles 44. These finer layers of smooth spirally oriented muscle cells are utilized by a cardiovascular control center (not shown) in the brain for selectively controlling arteriole size and thus blood flow resistance. Further as illustrated in the highly magnified schematic view of
Additionally, the brain indirectly controls heart rate via generating neural inputs to sympathetic and parasympathetic nerve fibers (not shown) in the heart 26. Although the complexity of this control system is truly amazing, it has a rather slow response time. One indication of this slowness is the length of time (i.e., in the order of a minute or more) for a minor scrape to be serviced by the arrival of fresh blood that occurs via the opening of a multitude of juxtaposed pre-capillary sphincters 48.
As will be discussed in greater detail below, blood flows through the open ones of the capillaries 46 wherefrom oxygen, sugar and protein bearing plasma flows into surrounding interstitial space 50 through micro-pores 52 located near the moderately pressurized arteriole/sphincter ends 54 of the capillary walls 56. Carbon dioxide and waste bearing plasma then flows back into the capillaries 46 via osmosis generated pressure through other micro-pores 58 located near the downstream or venule ends 60 of the capillary walls 56. Finally, the then oxygen depleted blood flows through venules 62 and into the venous system 28a/28b, which venous system 28a/28b acts as a reservoir containing about 65% of the body's total blood volume.
As shown schematically in
The volumetric size of the venous system 28a/28b is controlled such that average venous blood pressure at the entrance to right atrium 24 of the heart 26 is maintained at a level just slightly above atmospheric pressure in response to signals emanating from a cardiopulmonary mechanoreceptor 68 located in the right atrium 24 of the heart 26. This results in average venous blood pressure being maintained at a zero value relative to atmospheric pressure at a horizontal plane 70 (e.g., described below and depicted in
As a result, venous blood pressure present at any particular point within a person's venous system 28a/28b can be determined by the formula
P=1.875 h
where P is the difference between venous blood pressure at that particular point and atmospheric pressure (in mmHg), and h is the vertical distance between that particular point and the vertical position of his or her zero venous pressure plane 70 (in inches). Thus, portions of the venous system 28a/28b that are instantly positioned vertically below the zero venous pressure plane 70 have positive pressure (e.g., relative to atmospheric or zero pressure) whereby there is a positive differential pressure value imposed between them and the outside of the person's body. On the other hand, portions of the venous system 28a/28b that are instantly positioned vertically above the zero venous pressure plane 70 have negative pressure whereby there is a negative differential pressure value imposed between those portions of the venous system 28a/28b and the outside of the person's body. This compresses those veins and causes previously “pooled” venous blood contained therein to freely move through the above described check valves 66 and “drain” back toward the person's vena cavas (i.e., the veins that convey the venous blood into right atrium of the heart) with the result that those veins are compressed or even somewhat flattened out.
Then later in the cyclic motion, when those portions of the venous system 28a/28b are again positioned below the zero venous pressure plane 70, they fill with oxygen depleted blood flowing from juxtaposed capillaries 46 and venules 62 (e.g., not back down through the larger veins 64 themselves because of the one-way flow nature of the valves 66) and expand. In either of these cases, it is believed herein that it is necessary to provide adequate time for allowing these “draining and filling” functions to substantially occur. Thus the relatively slow preferred cyclic rate of operation of about 6 cycles/minute is herein deemed to be appropriate for this reason alone.
This general principle can be demonstrated by observing what happens to a visible peripheral vein running along the back of one's hand and arm as that hand and arm are slowly raised toward shoulder height. Portions of that vein will soften and contract, and even begin to flatten out as they reach a few inches below shoulder height and then remain flattened while they are above that height. In fact, as one slowly raises the hand and arm he or she may even feel the progression of this flattening as different portions of the vein suffer a transition from positive to negative pressure. It is believed herein that substantially the same action occurs within the fine venous structures comprised in the upper torso 72 and head 82, the lower extremities 86, and most particularly, the eyes 84 of a person whenever he or she is supinely disposed upon a cyclically moving BPM machine. And as is explained below, it is further believed that this cyclically varying venous pressure is a significant factor in causing a concomitant modulation of interstitial fluid pressure and volume as well.
Such variations of venous blood pressure are illustrated in
Assuming that a combination comprising the preferred angular range and cyclical rate values of about 30° and 6 cycles/minute is chosen, gravitational forces resulting from alternating cyclical elevation of the person 78's upper torso 72 and head 82, and then upper and lower extremities 84 and 86 rhythmically modulate the venous blood pressure in the upper torso 72 and head 82, and also of course the upper and lower extremities 84 and 86, over a range of perhaps up to 20-30 mmHg. Thus, when the upper torso 72 and head 82, and alternately the upper and lower extremities 84 and 86, attain peak elevation above the zero venous pressure plane 70 as respectively depicted in
On the other hand, as the upper torso 72 and head 82, or alternately, the upper and lower extremities 84 and 86 are lowered as respectively depicted in
As described in a book entitled “Exercise Physiology” by William D. McArdle, Frank I. Katch and Victor L. Katch and published by Williams & Wilkins of Baltimore, Md. and Media, Pa. (and again with reference to
In general and especially in view of the compliant nature of the surrounding tissue itself, all of these factors result in a rather complex modulation of interstitial fluid volume and pressure as a function of the cyclic motion of the BPM machine 80. Generally the interstitial space 50 will vary between having a slightly swollen, pressurized condition when a portion of a person 78's anatomy is lowered and a somewhat shrunken non-pressurized condition when it is elevated. The point of all of this is that interstitial space volume and pressure will vary cyclically in a rather erratic yet synchronized (e.g., with the motion of the BPM machine 80) manner at a frequency of about 6 cycles/minute. Further, it is also apparent that the pressure drop across the various comprised flow channels and orifices varies in a similarly erratic yet synchronized manner as well. It is believed that these actions result in a general massaging of the tissue and a general tendency to break up any blockages present in the flow channels and orifices.
Again, pressure present within the arteriole/sphincter ends 54 of the capillaries 46 is sufficient to drive plasma comprising oxygen, sugars, protein, fat and doubtless other material into the surrounding interstitial space 50 through the first encountered micro-pores 52 as entering interstitial fluid that enables oxygen and nutrient to be delivered to the tissue. Then generally, the interstitial fluid “morphs” via the oxygen/carbon dioxide exchange as well as through most of the other materials being replaced by waste products. As noted above, fluid pressure values at the venule ends 60 of the capillaries 46 are normally low enough to allow osmotic pressure to drive most of the interstitial fluid back into those capillaries 46 via the micro-pores 58.
On the other hand, as the upper torso 72 and head 82, or alternately, the upper and lower extremities 84 and 86 are lowered as respectively depicted in
But in addition to the arterial and venous blood pressures cyclically varying in the manner described above, arteriole and venule pressures are modulated in a cyclically varying manner as well. This of course results in a cyclic modulation of the pressure values imposed upon the tiny pores in both the arteriole/sphincter and venule ends 54 and 60 of the capillary walls 56. This in turn results in a concomitant in phase modulation in interstitial fluid pressure and volume. And that in turn results in compression and stretching of juxtaposed arterial, lymph or neural orifices and flow channels. Should any such orifices and flow channels be dysfunctional in any way (i.e., such as by being blocked), it is believed herein that they may be so restored to a more natural and functional state.
As noted above, osmotic pressure drives plasma comprising carbon dioxide and most of the other interstitial fluid bearing waste components back through the tiny pores comprised in the venule ends 60 of the capillaries 46. However, the remaining excess interstitial fluid (i.e., excess protein, fat and other waste material) is normally removed by a person 78's lymph system, portions of which are schematically depicted herein in
As described in detail in a book entitled “Silent Waves, Theory and Practice of Lymph Drainage Therapy” by Bruno Chickly, M.D., D.O. (hon) and published by International Health & Healing Inc. Publishing of Scottsdale, Ariz., the lymph system is a secondary circulatory system that normally implements a one-way flow of the excess protein, fat and other waste bearing material (i.e., as lymph fluid) from interstitial space 50 (e.g., from everywhere in the body) generally upwards through various lymph flow channels (i.e., as described in more detail below) toward a person 78's right lymphatic and thoracic ducts (not shown). These ducts then drain the lymph fluid into the circulatory system at the right and left subclavian veins, and then sequentially from the vena cava through the right side 24/30 of the heart 26, the lungs 32a/32b, the left side 34/36 of the heart 26, and finally, to the liver 88 and or kidneys 90a/90b for processing and proper elimination.
As depicted schematically in
As depicted schematically in
Should any veins be subject to increased pressure values (i.e., such those in one's feet while on a long airplane trip) the normal osmotic flow of interstitial fluid back into juxtaposed capillaries 46 will of course be somewhat impeded. This will tend to increase interstitial space pressure that in turn, will attempt to promote increased lymph fluid flow into the minute lymph capillaries and lymph pre-collectors 110. However, because of a concomitant increase of lymph system backpressure that is also due to gravity effects, the normal upward one-way flow of lymph fluid will also be impeded. As a result, lymph fluid will in tend to back up resulting in an increase of interstitial fluid trapped in the interstitial space 50. This phenomena coupled with some swelling of the veins themselves is responsible for the feet swelling during prolonged airplane trips.
Generally, lymph fluid movement occurs slowly and sometimes problematically at rates of up to only about 4 liters/day with nominal driving pressures of only 1 to 2 mmHg provided by smooth spirally oriented muscle cells of each lymphangion. Blockages can, and do, occur—often as a result of trauma or surgery. Such blockages can cause abnormally high intralymphatic pressures and excessively dilated lymphangions 104, which in turn result in juxtaposed ones of the one-way valves 102 becoming incompetent. This allows lymph fluid to flow backwards, and in turn, causes more peripheral lymphangions 104 to excessively dilate with more one-way valves 102 then becoming incompetent. This incompetency is then transmitted back to the lymphatic bicuspid valves 116 and then the junction ends 112, with lymph fluid then flowing back into the interstitial space 50, thus resulting in lymph fluid accumulation in interstitial space 50. The end result is lymphedema with abnormal tissue swelling. Diabetic individuals are especially subject to having such blockages in their lymphatic systems and often suffer from lymphedema with abnormal tissue swelling.
With reference to utilization of BPM therapy on a BPM machine 80, it is interesting to note that its preferred operational frequency of about 6 cycles/minute falls within the above noted typical resting lymphangion spiral muscle contraction rate of 5 to 8 cycles/minute. It is hypothesized herein that the calming action of BPM therapy typically causes a person 78's parasympathetic nervous system to become dominant over his or her sympathetic nervous system and slow his or her lymphangion spiral muscle contraction rate, and further, that this may be a contributing factor in inducing that person 78 to fall into a state of sleep on the BPM machine 80. Especially in conjunction with that, it is further believed herein that after perhaps a few minutes of being on the BPM machine 80, a person 78's lymphangion spiral muscle contraction rate slows to a synchronously matching (e.g., with the BPM machine 80) contraction rate of approximately 6 cycles/minute and “locks” thereto in an appropriately phase locked manner.
As a result, it is hypothesized that when the upper and lower extremities are lowered and interstitial space 50 therein is subject to positive pressure, entry of interstitial fluid into the minute lymph capillaries, lymph pre-collectors 110 and juxtaposed lymphangions 104 is maximized—thereby increasing incoming lymph flow. Then later during the machine cycle when the upper and lower extremities are elevated, a more efficient upward one-way flow of lymph fluid occurs through the lymphangions 104 because the force of gravity then assists lymphangion spiral muscle layer contraction in driving the lymph fluid upward from the upper and lower extremities 84 and 86 and downward from the head 82.
The improvement in lymph system function has been anecdotally observed in still other case studies wherein relatively rapid reversal of lymphedema with abnormal tissue swelling has been observed in conjunction with utilizing BPM therapy. This is believed to have occurred in part as a result of the above-described cyclic tissue compression and relaxation clearing the effected person's problematic lymphatic flow channel blockages—and also in part as a result of an increased flow of lymph fluid implemented by that person's lymphangion spiral muscle rate locking on to the approximately 6 cycle/minute cyclic operational frequency in the also above-described appropriately phase locked manner. Thus, it is believed herein that lymph circulation is enhanced via utilization of BPM therapy.
It has been anecdotally found that blood glucose levels are generally reduced in persons utilizing BPM therapy. It is believed herein that this phenomenon can be explained by the above-described enhancement of lymph circulation—perhaps along with an internally massaged pancreas enabled for generating more insulin. Generally, it has been explained that diabetes involves a person being unable to generate enough insulin to properly metabolize sugar within tissue cells, and further, that this results in incompletely metabolized sugar byproducts gathering in the interstitial spaces 50, and excess sugar being returned osmotically through the micro-pores 58 to the venous ends 60 of the capillaries 46.
It is hypothesized that the enhancement of lymph circulation provides an enhanced path for disposing of the incompletely metabolized sugar byproducts and any remaining excess sugar in the interstitial spaces 50 via the above-described path leading to the liver 88 and or kidneys 90a/90b for processing and proper elimination. It is believed that this, along with any increase in his or her ability to generate more insulin, enables the person to eliminate the presence of such incompletely metabolized sugar byproducts, and further, to at least partially restore his or her ability to properly metabolize sugar in the cells. In any case, the anecdotally observed reduction of blood glucose levels is quite beneficial for persons having diabetes, and has typically occurred in persons having either Type 2 diabetes or Type 2 diabetes with insulin.
On the other hand, it can lead to a non-diabetic person achieving too low a sugar level. It has been found that if one is subject to this type of condition, he or she can usually avoid it by consuming a glass of fruit juice prior to using BPM therapy.
Approximately 70,000 diabetic persons suffer upper or lower extremity amputations every year as a result of having supposedly irreversible neuropathy or incurable wounds (i.e., that turn gangrenous) as well as the above noted lower limb lymphedema with abnormal tissue swelling. In addition to reversing the lymphedema with abnormal tissue swelling in the manner described hereinabove, BPM therapy has also been anecdotally found to reverse such supposedly irreversible neuropathy and achieve therapeutic closure of such supposedly incurable wounds. It is hypothesized that these results are yet other manifestations of the above-described manner in which BPM therapy typically clears blockages in fluid flow channels.
It is not believed herein that BPM therapy has the capability of “regenerating” nerves. None-the-less, other case studies have served to anecdotally demonstrate reduction of nerve related disorders such as indicated by significantly reduced symptoms of persons having Parkinson's disease. In accordance with the latest theories relating to the cause of Parkinson's disease such as by toxic “clumping” destruction of substantia nigra (SN) neurons (i.e., as shown in “Aggregation of alpha-synuclein by DOPAL, the monoamine osidase metabolite of dopamine”, by William J. Burke et. al. and published on line in Acta Neuropathologica copyright Springer-Verlag 2007), it is believed herein that the above described manipulation of related neural flow channels tends to break down the “clumping” action and thereby restore still surviving SN neurons to proper functionality. Consistent with that, “early onset” Parkinson's subjects have had the greatest success with BPM.
A reduction of medication dosages, or in some cases even total their elimination, has been a further benefit for many persons utilizing BPM therapy. By way of example, many persons having Type 2 or Type 2 diabetes with insulin have had to reduce or even eliminate their normally prescribed medication and/or usage of insulin in order to avoid becoming hypoglycemic because of the above noted reduction of blood glucose. In another example, persons having Parkinson's disease have typically had to reduce their normally prescribed medication dosages in order to avoid overdose symptoms (i.e., such as uncontrolled and wildly gyrating arm and leg motions). It is hypothesized that in the case of Parkinson's disease such reductions of medication dosages have come about because of increased blood circulation or elimination of the above described “clumping” action resulting from using BPM therapy. In any case, an additional benefit of using BPM therapy in accordance with the example method 10 may be that medication dosages can be reduced, or in some cases even eliminated.
It is believed that the phenomenon of drug addiction involves interaction with dopamine generated within the brain. Because of this as well as the calming influence of BPM therapy, it is hypothesized that utilization of BPM therapy may be helpful in rehabilitation treatment for various forms of drug addiction.
It is further believed herein that the above-described working of tissue constitutes an internally generated form of exercise that consumes and converts chemical energy derived from nutrients present in the blood into heat on a micro level thereby increasing metabolism. A person can readily demonstrate this concept as follows:
While leaving one hand immobile, that person cyclically elevates and then lowers the other at a rate of about 6 cycles/minute for a couple of minutes. If the palms of both hands are than put on the cheeks he or she will find that the one that was elevated and lowered is considerably warmer than the one that was left immobile—even though it had been gorged with venous blood. Further, he or she will likely experience a significant tingling sensation in the elevated and lowered hand.
Additionally, it has been observed that many persons tend to loose weight when utilizing a BPM machine for extended periods without having made any other change in lifestyle or eating habits. It is believed that this can be accounted for by the above described concomitantly occurring BPM therapy caused enhancement of lymph system function and internally generated form of exercise that consumes and converts chemical energy derived from nutrients present in the blood into heat on a micro level thereby increasing metabolism.
The bed 122 is pivotally mounted to a supporting frame 128. The frame 128 includes a base section 130 that supports an angled section 132. In this example, the angled section 132 includes pivots 134a and 134b that pivotally connect the bed 122 to the angled section 132. The pivots 134a and 134b define a pivot axis “A” that is oriented in a transverse manner with respect to a vertical plane (not shown) that comprises the longitudinal axis “X”. Finally, a drive mechanism 136 is utilized for rotatably moving the bed 122 in a cyclical manner about the pivot axis “A” in accordance with selected angular range and cyclical rate values, whereby the longitudinal axis X is then operative for defining instant rotational orientations of the bed 122 around the pivot axis A (i.e., between the extreme positions depicted in
As depicted in
Thus, when the upper end 150 of the bed 122 is lowered, the person 78's upper extremities 84 are elevated above the zero venous pressure plane 70c depicted in
The incorporated '033 patent depicts a Scotch yoke drive assembly 96, a crank and connecting rod mechanism 188, a servo controlled rack and pinion gear set 194, and a servo controlled hydraulic drive 196, any of which would be suitable for cyclically moving the bed 122. Because descriptive presentations of the Scotch yoke drive assembly 96, the servo controlled rack and pinion gear set 194, and the servo controlled hydraulic drive 196 have been made in the incorporated '033 patent, no further description relating to any of these types of drive mechanisms is required herein. On the other hand, the preferred example BPM machine 80 of the present invention utilizes a simplified example crank and connecting rod mechanism 160. Thus, its construction and operation is described hereinbelow with reference to
Either of the Scotch yoke drive assembly 96 shown in FIGS. 8A-C of the incorporated '033 patent, crank and connecting rod mechanism 188 shown in FIGS. 9 and 11 of the incorporated '033 patent, or the example crank and connecting rod mechanism 160 utilized in the present invention can be controlled by a simple switch such as switch 162 depicted in
The first step 166 of the example method 164 is executed prior to initiating a BPM therapy session for a person 78 on the bed 122 of a BPM machine 80 and includes returning the bed 122 to its full head-elevated position in order to provide a preferred entry/exit position of the bed 122. A second step 168 includes positioning the person 78 in a supine position upon the bed and affixing his or her hands 152 to the arm towlines 148. A third step 170 includes either the person 78 or a therapist executing a “jog” command signifying that the person 78 has been properly placed on the bed 122, and enabling the program to continue. A fourth step 172 includes smoothly accelerating the bed 122 toward the horizontal position such that it reaches a maximum cyclical speed value concomitantly with reaching the horizontal position. A fifth step 174 includes executing a cyclical motion symmetrically about the horizontal position in accordance with the selected angular range and cyclical rate values for the duration of the BPM therapy session.
While programming the controller 130 with a sinusoidal velocity profile for implementing the fifth step 174 certainly implements one preferred cyclical motion profile, others are possible. For instance, the modified cyclical motion of the crank and connecting rod mechanism 160 used in the preferred example BPM machine 80 of the present invention results in a non-sinusoidal velocity profile having increased lowered dwell time for the upper torso 72 and head 82. If a similar modified cyclical motion is desired in a BPM machine 80 driven by either of the servo controlled rack and pinion gear set 194, the servo controlled hydraulic drive 196 of the incorporated '033 patent, or even the example crank and connecting rod mechanism 160 utilized in the present invention, it can easily be accommodated by programming the controller 130 with a velocity profile having both sinusoidal and even harmonics.
In any case, stopping the BPM machine 80 in accordance with a sixth step 176 includes smoothly decelerating the bed 122 to zero speed at its preferred full head-elevated entry/exit position, beginning with a final crossing of the bed 122 through the horizontal position as it moves toward the head-elevated position. And finally, a seventh step 178 includes freeing his or her hands 152 and removing the person 78 from the bed 122 in order to terminate the BPM therapy session. Given this description, one of ordinary skill in the art will recognize and be able to generate command sequences for obtaining suitable combinations of acceleration/deceleration characteristics, other treatment angular range and cyclical rate values, or varying values of angular ranges and cyclical rates during treatment sessions in order to meet the needs of particular persons.
Shown in
Surprisingly, there is also an advantage in not utilizing a controller such as the controller 130 shown and described in the incorporated '033 patent. This is because such controllers typically utilize a bridge circuit comprising solid state switching devices that are usually relatively unshielded and therefore a source of high frequency electromagnetic radiation that is considered to be undesirable by a significant percentage of potential users of the example BPM machine 80. In fact, such high frequency electromagnetic radiation could conceivably be dangerous for individuals using pacemakers. Thus, utilization of the drive mechanism 136 as controlled by the simple switch 162 in example BPM machine 80 is considered herein to be preferable.
In the example drive mechanism 136 the gearmotor 184 serves to rotate the crank 190. Rotation of the crank 190 cyclically moves the connecting rod 194 back and forth along an undulating thrust axis “Y” in order to position and exert necessary forces on the drive arm 196 as required for it to cyclically move the bed 122 rotatably in a seesawing manner about the pivot axis “A”. The resulting cyclical motion of the bed 122 alternately elevates the head 82, and then the lower extremities 86 of a person 78 lying on the bed 122 in the cyclical manner described hereinbefore. As can be appreciated, the length of the crank 190 can either be designed for a larger or smaller stroke of the drive arm 196 and resulting angular range values, or even be configured in the manner of adjustable length crank arm 100 of the incorporated '033 patent in order to attain selected angular range values.
Although preferred embodiments of this invention have been disclosed, workers of ordinary skill in the various arts associated with this invention would recognize that certain modifications would come within the scope of this invention. For instance, BPM therapy could be utilized for treating other eye diseases or conditions not named above. Also, the construction details of the BPM machine 80 could be altered without deviating from the spirit of this invention. By way of example, a modified bed 122′ could comprise independent torso and head, and lower extremity supporting portions capable of pivoting or rotating relative to each other. These could for instance, be utilized for altering the contoured shape of the bed 122. In another example, the speed-reducing gearbox 188 could be replaced by the combination of a hydraulic pump and hydraulic motor whose output shaft would then be utilized for driving the crank 190. For that reason, the following claims should be studied to determine the true scope and content of this invention.
The present application is related to U.S. patent application Ser. No. 11/209,813 filed on Aug. 16, 2005 and entitled “Rhythmic Blood Pressure Modulation and Legshaking Apparatus” that issued on Oct. 2, 2007 as U.S. Pat. No. 7,276,033, which patent (hereinafter the “'033 patent”) is expressly incorporated herein by reference. The present application is also a continuation-in-part of U.S. patent application Ser. No. 11/961,305 (hereinafter “the '305 patent application”) filed on Dec. 20, 2007 and entitled “Therapeutic Device for Inducing Blood Pressure Modulation”; which was a continuation-in-part of U.S. patent application Ser. No. 11/775,507 (hereinafter “the '507 patent application”) filed on Jul. 10, 2007 and also entitled “Therapeutic Device for Inducing Blood Pressure Modulation”; which in turn was a continuation-in-part of U.S. patent application Ser. No. 11/749,505 filed on May 16, 2007 and also entitled “Therapeutic Device for Inducing Blood Pressure Modulation” now abandoned; and claims priority of U.S. Provisional Patent Application Ser. No. 60/848,740 filed on Oct. 2, 2006 and also entitled “Therapeutic Device for Inducing Blood Pressure Modulation”.
Number | Date | Country | |
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60848740 | Oct 2006 | US |
Number | Date | Country | |
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Parent | 11961305 | Dec 2007 | US |
Child | 12106534 | US | |
Parent | 11775507 | Jul 2007 | US |
Child | 11961305 | US | |
Parent | 11749505 | US | |
Child | 11775507 | US |