DYNAMIC LOGARITHMIC SPINAL DECOMPRESSION TABLE AND METHOD
A cervical-head harness has a cervical support collar has two pair of attachment points. When the cervical collar is in place on a user, attachment points of a first pair of attachment points of the collar lie on either side of the user's head below the user's mandible and between the user's chin and ear. With the cervical collar in place on the user, attachment points of a second pair of attachment points of the collar extend on either side of the user's head proximate a back of the user's head. A strap extends from each of the attachment points and each strap is attached to a support. In use, the support extends above a head of the user.
This application is a divisional of U.S. application Ser. No. 13/121,908 filed Jun. 27, 2011, the contents of which are incorporated herein by reference.
BACKGROUNDBack pain is among the most common conditions for which patients seek medical care. More than 70 percent of adults suffer back pain or neck pain at some time in their lives. In the United States, medical treatment of back pain is estimated to cost $25 billion dollars annually. Workers compensation costs and time lost from work add another $25 billion.
Medical management is the first treatment choice. If there is no improvement in the patient's condition, surgery is often the next treatment of choice. Despite the uncertainty about how effective surgery is for patients, the number of fusion surgeries rose 127% from 1997 to 2004, to more than 303,000. Recent research demonstrates that even after two years patients treated conservatively are as well off as those treated surgically. Surgical costs are continuing to rise, as patients receive ever more aggressive treatments.
Recently, vertebral axial decompression therapy for the spine and discs has emerged as a frontline treatment for back pain. This is a non-surgical treatment for herniated discs, degenerative disc disease, posterior facet syndrome and failed back surgery. With traditional traction therapy, forces are applied in a linear fashion and the resultant muscle guarding prevents the discs from being decompressed. Paraspinal muscles are conditioned to oppose abrupt and linear changes in tension, but will relax if the force is applied in a smooth gradual manner whereby the rate is slowed progressively according to a logarithmic time scale.
It has been shown that tension forces to the spine applied in a ‘logarithmic’ time/force curve will decompress the discs and spine. Vertebral axial decompression is the only treatment that has been shown in clinical study to decrease the intervertebral disc pressure to negative levels and to decompress the lateral nerve roots that supply the legs.
While this known vertebral axial decompression therapy is advantageous, an improved vertebral decompression therapy would be desirable.
SUMMARYA cervical-head harness has a cervical support collar has two pair of attachment points. When the cervical collar is in place on a user, attachment points of a first pair of attachment points of the collar lie on either side of the user's head below the user's mandible and between the user's chin and ear. With the cervical collar in place on the user, attachment points of a second pair of attachment points of the collar extend on either side of the user's head proximate a back of the user's head. A strap extends from each of the attachment points and each strap is attached to a support. In use, the support extends above a head of the user.
Other features and advantages will be apparent from the following description in conjunction with the drawings.
In the figures which illustrate example embodiments of the invention,
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A tensionometer-head 36 is pivotably attached to the vertically adjustable support 30 at horizontal pivot 38 so that the tensionometer-head may pivot up and down. The tensionometer-head 36 houses a tensionometer 40 with a protruding attachment 42 for attachment to a harness. The attachment may be a protruding metal tang with a central opening to connect to a seat-belt like buckle.
Each of linear actuators 16, 22, and 32 are operatively connected to a controller 46. The controller 46 is input by the output of the tensionometer 40 and the output of positional encoders 17, 23, and 33 attached to each linear actuator 16, 22, and 32, respectively. The controller is operatively connected to a personal computer 48 which is pivotably mounted to the fixed table section 12 on arm 50.
Controller 46, which may be a microprocessor, and computer 48 may be loaded with software from a computer readable media such as CD 84.
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With reference to
The cervical-head harness 70 is detailed in
As part of the anchor strap assembly, a pair of straps 72D extend from the dorsal member to a crossbar 80 and a second pair of straps 72V extend from the ventral member to the crossbar. When the cervical collar is properly positioned, these straps extend on either side of the head of the patient with the dorsal member straps 72D directly behind the ventral member straps 72V. Also, with the collar properly positioned on the patient, the attachment connectors 75V of the ventral straps 72V lie below the patient's mandible and between the chin and the ear of the patient. The attachment connectors 75D of the dorsal straps 72D lie below the patient's occiput on each side. The straps 72D, 72V extend upwardly and slightly outward from their attachment points to the crossbar 80. A main strap 77M extends from the middle of the crossbar and terminates in a buckle 82. The straps 72D and 72V are adjustable in length, and can be tightened or loosened independently by adjustable connectors 73V and 73D. The dorsal straps may be tightened more than the ventral straps in order to apply more force to the occiput of the head. Alternatively, the ventral straps may be tightened more than the dorsal straps in order to direct and apply more force to the patient's mandible. Straps may also be tightened or loosened from left side or right side, to direct the force more to one side.
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As the table operates, the computer 48 may display a tension versus time curve as shown in
The tensionometer provides a mechanism for registering the reaction of the spinal column structures as the distraction tension is applied progressively along the spinal column. Reactions such as release of facets, myofascial strictures, and/or compressive lesions register immediately as irregularities or deviations in an otherwise smooth display captured in the displayed time versus tension curve. The controller quickly adjusts so that the reactions register as brief irregularities.
If the starting height is lower than the ending height, the arc followed by the tensionometer-head 36 will be an ascending arc, as shown in
As shown in
The progressively ascending and increasing force illustrated in
If the patient were lying in a supine position on table 10 and tethered to the tensionometer-head 36 of the table 10 with a pelvic harness 62 as shown in
With a patient lying in a supine position on table 10 and tethered to the tensionometer-head 36 of the table 10 with a cervical-head harness 70 as shown in
The progressively directionally ascending and strengthening force illustrated in
A downward dynamic curve as shown in
The logarithmic distraction force decompresses the spinal column and hence is a decompression force. Because changing the direction of the force changes which vertebrae are most exposed to the force, judicious selection of the starting height and ending height of the tensionometer-head 36 (and therefore the final direction of the force) allows a decompressive force to be selectively focused on different vertebral segments of the cervical or lumbar spine. This is in contrast to known tables which linearly apply a distraction force to the spine; with these known tables, the distracting force will be applied more or less evenly along the vertebral chain. In another mode of operation, table 10 may apply a logarithmic or linearly increasing uni-directional force by selecting a fixed vertical height of adjustable support 30.
A suitable function for time versus tension for the logarithmic decompression phase is described in U.S. Pat. No. 6,039,737 issued Mar. 21, 2000, the contents of which are incorporated herein by reference. The same function may be used for the logarithmic tension retraction phase.
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While the table has been described with linear actuators as drives, obviously any other controllable drive may be substituted as, for example, hydraulic cylinders and/or belt drives and/or pulleys.
While the retraction phase has been described as a logarithmic phase, alternatively, tension could be released linearly rather than logarithmically.
Other modifications will be apparent to those skilled in the art and, therefore, the invention is defined in the claims.
Claims
1. A cervical-head harness comprising:
- a cervical support collar having a first pair of attachment points which, when said cervical collar is in place on a user, lie on either side of said user's head below said user's mandible and between said user's chin and ear and a second pair of attachment points which, when said cervical collar is in place on said user, extend on either side of said user's head proximate a back of said user's head;
- a strap extending from each of said attachment points, each said strap attached to a support, said support, in use, extending above a head of said user.
2. The cervical-head harness of claim 2 wherein each said strap is adjustable.
3. A cervical-head harness comprising:
- a cervical support collar having two ventral attachment points which, when said cervical collar is in place on a user, lie on either side of said user's head below said user's mandible and between said user's chin and ear and two dorsal attachment points which, when said cervical collar is in place on said user, extend below and on either side of said user's occiput;
- a ventral strap extending from each ventral attachment point and a dorsal strap extending from each dorsal attachment point, each said strap, in use, extending above a head of said user to a strap support above said head of said user.
4. The cervical-head harness of claim 3 wherein each said strap is adjustable in length.
5. The cervical-head harness of claim 4 wherein said strap support is a crossbar and wherein one said ventral strap and one said dorsal strap at one side of said harness are attached to said crossbar at a first common attachment point and another said ventral strap and another said dorsal strap at an opposite side of said harness are attached to said crossbar at a second common attachment point.
6. The cervical-head harness of claim 5 wherein, in use, each of said straps extend upwardly and outwardly to said crossbar.
7. The cervical-head harness of claim 6 wherein, in use, each said dorsal strap lies directly behind one said ventral strap.
8. The cervical-head harness of claim 6 further comprising a main strap extending from a middle of said crossbar to a fastener.
9. The cervical-head harness of claim 8 wherein said cervical support collar comprises a curved dorsal member with first fastener halves and a curved ventral member with second fastener halves such that said first fastener halves may be joined to said second fastener halves to join said dorsal member to said ventral member.
Type: Application
Filed: Jun 30, 2014
Publication Date: Oct 23, 2014
Inventors: Allan E. DYER (Palm Harbor, FL), Lawrence A. DYER (Palm Harbor, FL)
Application Number: 14/319,870