A medical table which can be used for examination of the spine and for other diagnostic and therapeutic back procedures, including discography and surgery, and which can be adapted for use with imaging devices, has a bottom support frame, a front support frame resting on the front of the bottom support frame, and a rear support frame resting on the bottom support frame. The front and rear support frames are spaced from each other to provide a substantial clearance for imaging devices including radiographic and fluoroscopic apparatus. A radiolucent top panel is supported at one end by the front support frame and at the other end by the rear support frame. The use of front and rear support frames rather than side support frames eliminates radiopaque material adjacent to the top panel and permits oblique, lateral, as well as anterioposterior views to be taken.

BACKGROUND OF THE INVENTION 
1. Field of the Invention 
This invention relates to a medical table for examination of the spine and 
for other diagnostic and therapeutic back procedures, and more 
particularly to a table which is adapted for use with an imaging device. 
2. Description of the Prior Art 
Tables of this type are used for various surgical and other medical 
procedures, such as lumbar and thoracic discography, including the 
injection of enzymes, cortisone, procaine or other analgesics, and 
contrast media. Such tables may also be used for electromyography, 
electrostimulation, proctology, rhizolysis and various other procedures. 
When such tables are used for discography, electromyography, and other 
procedures in which injections are being performed or when probes or 
electrodes are being inserted, it is necessary that the location of the 
injection, probe, or electrode be precise in order to avoid the nerve 
bundles which are adjacent to the spine. Fluoroscopy, or some other 
imaging technique, may be used to monitor the position of the injection, 
probe, or electrode so that it can be performed precisely. 
Recently, the use of chymopapain has been approved for injection into the 
lumbar discs to relieve the problems associated with herniated discs. As 
this procedure becomes more popular, the use of such surgical tables may 
increase. 
U.S. Pat. No. 3,197,198, issued to John S. Collis, describes such a medical 
table in which the patient-supporting table top had a convex surface, so 
that when the patient was placed on the table, the patient's spine was in 
a maximally flexed condition. The table top was supported by a pair of 
side frames, one on each side. Each side frame consisted of a vertical 
forward leg and a forwardly inclined rearward leg which was longer than 
the forward leg. An upper side rail joined the two legs together and 
extended along the top of the table to complete the side frame. The 
patient was positioned on the table, with the patient's knees resting on a 
vertically adjustable platform. The adjustment of the platform was 
operated by a handwheel located at the front of the table which was 
connected to the platform by a rotatable rod which extended across the 
table beneath the table top. 
While the medical table described in U.S. Pat. No. 3,197,198 represented a 
substantial improvement over previous tables, it had several 
disadvantages. The table was entirely suitable for making anterioposterior 
radiological images, but presented problems when taking lateral views and 
was unsatisfactory for taking oblique views because of the construction of 
the side frame. The side frame, which included a member running across the 
top of the table, was radiopaque and produced a shadow in views taken 
other than anterioposteriorally. In lateral views, the side frames 
produced a shadow which, depending upon the positioning of the patient, 
might not interfere with observation of the spine. However, in oblique 
views, the shadow produced by the side frame could interfere with a clear 
observation of the spine. Thus, oblique radiological views were not 
practical using this table, and tomography was very difficult or 
impossible. 
Another problem with the aforementioned table was in the operation of the 
adjustable knee platform. Although the vertically adjustable knee platform 
was a convenience in adjusting the patient properly on the table top, the 
operating handwheel was located at the front of the table, which was 
inconvenient to the physician and the medical attendants who judged the 
positioning of the patient at the rear end of the table. Thus, it was 
necessary for the physician or the medical attendants to observe the 
positioning of the patient on the table, to walk around to the front of 
the table to adjust the handwheel and subsequently to return to the back 
of the table to reposition the patient. This procedure was often repeated 
several times before the patient was properly positioned on the table. In 
addition, the rotatable rod which connected the handwheel to the adjusting 
mechanism for the knee platform extended longitudinally across the length 
of the table and could possibly interfere with the portion of an imaging 
device which was placed beneath the table top. 
SUMMARY OF THE INVENTION 
The present invention overcomes the problems of the prior art tables and 
provides other advantages heretofore not attainable. 
The present invention avoids the problems of the side frame construction of 
the medical table in the aforementioned patent by replacing the dual side 
frame construction with a front frame structure and a rear frame structure 
so that there are no side members extending longitudinally along the table 
which could produce undesirable radiological shadows. Thus, the medical 
table of the present invention provides a radiolucent table top which is 
supported only at its ends by a front frame structure and a rear frame 
structure. There is no support for the table top along either side, and 
thus there is no radiopaque side frame to produce undesirable shadows. 
The table of the present invention is particularly well adapted for 
surgical and other medical procedures which use fluoroscopic or other 
image monitoring during the procedure, such as lumbar and thoracic 
discography. When injecting the patient with enzymes, cortisone, procaine 
or other analgesic, or with contrast media for certain diagnostic 
purposes, it is necessary that the needle be placed precisely, and for 
this reason it is often necessary to simultaneously use an imaging device 
to observe the interior positioning of the needle during the injection. 
Such imaging devices are often positioned to take views obliquely or 
laterally so as not to interfere with the injection itself. An oblique 
view is preferable since it shows positioning of the needle in two 
dimensions. By providing a support frame which does not need side members 
along each side of the table top, a clear, oblique radiographic or 
fluoroscopic image can be obtained. Indeed, images can be made or 
tomography can be performed in oblique planes and lateral planes, as well 
as in anterioposterior planes, without worrying about placement of the 
imaging apparatus with regard to the support structure of the table. 
In addition, the medical table of the present invention includes a knee 
platform which is vertically adjustable, and in which the operational 
element of the adjustment is located at the rear of the table adjacent to 
the position of the physician or other medical personnel who would be 
adjusting the patient. Thus, it is not necessary to move to the front of 
the table to operate the adjustable knee platform and then return to the 
rear of the table to reposition the patient. 
By locating the operational element of the knee platform at the rear of the 
table, the adjusting mechanism is located entirely at the rear end of the 
table, and there are no mechanical elements extending longitudinally 
across the table, which elements may interfere with the placement of an 
imaging device beneath the center of the table top. 
These and other advantages are achieved by the medical table of the present 
invention. The table comprises a bottom support frame. A front support 
frame rests on the bottom support frame and is attached thereto. 
A rear support frame, which is spaced from the front support frame, is also 
supported on the bottom support frame and attached thereto. There is a 
substantial clearance between the front frame and the rear frame so that 
an imaging device may be placed therebetween. 
A radiolucent top panel is supported at one end by the front support frame 
and at the other end by the rear support frame. The panel has a generally 
convex upper surface having a raised center portion and end portions which 
are inclined downwardly to the support points. The presence of radiopaque 
material between the front support frame and the rear support frame is 
thereby avoided. 
In accordance with another aspect of the invention, a vertically adjustable 
knee platform is mounted on the rear support frame and is operatively 
connected to a cranking member which is also located on the rear support 
frame.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT 
Referring more particularly to the drawings, and initially to FIGS. 1-3, 
there is shown a medical table 10 made in accordance with the present 
invention. The table 10 comprises a generally rectangular bottom frame 12 
formed of a pair of bottom side frame members 13 connected together at the 
front of the table by a bottom front frame member 14 and connected 
together at the rear of the table by a bottom rear frame member 15. 
At the front end of the table, a front support frame 17 rests on the bottom 
support frame 12 and is attached thereto. The front support frame 17 is 
formed of a pair of front upright frame members 18 located at each front 
corner of the table and a pair of second upright frame members 19 spaced 
behind the front upright frame members 18. The second upright frame 
members 19 are slightly longer than the front upright frame members 18. A 
cross frame member 20 extends between the two front upright frame members 
18 near the top of the table to provide rigidity to the front support 
frame 17. The front support frame 17 also includes a pair of front top 
frame members, each supported on one of the front upright frame members 18 
and one of the second upright frame members 19. Since the second upright 
frame members 19 are slightly longer than the front upright frame members 
18, the front top frame members 21 incline upwardly away from the front of 
the table. 
At the rear end of the table, a rear support frame 23 is supported on the 
bottom support frame 12 and is attached thereto. The rear support frame 23 
comprises a pair of inclined rear frame members 24 which extend upwardly 
from the rear corners of the table. The rear frame members 24 are both 
inclined toward the front of the table and form an angle of approximately 
60.degree. with respect to the bottom side frame members 13. A pair of 
second upright frame members 25 are supported on the bottom side frame 
members 13 in front of the inclined rear frame members 24. The second 
upright frame members 25 extend at a right angle with respect to the 
bottom side frame members 13 so that the upper portion of the rear frame 
members 24 are supported on top of the upright frame members 25. The 
inclined rear frame members 24, the upright frame members 25, and the rear 
end of the bottom side frame members 13 form a rigid, triangular, rear 
support frame, as shown in FIG. 1. A rear cross frame member 26 extends 
across between the upper ends of the inclined rear frame members 25 to 
increase the rigidity of the rear frame. 
A generally convex table top panel 28 is supported at one end by the front 
support frame 17, and at the other end by the rear support frame 23. The 
panel 28 is formed of a radiolucent material, i.e., a material which is 
pervious to X-rays, gamma rays, or the like, and which is sufficiently 
strong to support the weight of the patient, and may be readily cleaned. A 
suitable material for the top panel 28 is Lucite. 
The top panel 28 includes a generally flat rear portion 29 upon which the 
upper thighs of the patient will rest, a generally flat front portion 30 
upon which the chest of the patient will rest, and a curved intermediate 
portion 31 upon which the pelvic region of the patient will rest. A 
rectangular opening 32 may be provided in the intermediate portion 31, 
through which the patient's abdomen may extend which maintaining the 
desired spinal curvature. The rear portion 29 of the top panel 28 is 
attached at each side to the upper ends of the rear frame members 24 and 
to the cross frame member 26 by means of fasteners 33, such as bolt and 
nut assemblies. The front portion 30 of the top panel is attached at each 
side to the rearward ends of the front top frame members 21 by means of 
fasteners 34, such as bolt and nut assemblies. It has been found that for 
optimal positioning of patients on the medical table of the present 
invention the rear portion 29 of the top panel should make an angle of 
approximately 90.degree. with respect to the front portion 30 of the top 
panel, and that the radius of curvature of the intermediate portion 31 
should be approximately 10.5 inches (26.7 cm). 
A front cushion 35 is provided for resting the patient's shoulders and 
elbows. The front cushion 35 is attached at each side to the front top 
frame members 21 by means of fasteners 36, which may also be bolt and nut 
assemblies. 
The patient's knees are supported on an adjustable knee rest 38 which 
extends horizontally behind the rear support frame 23. The knee rest 38 
comprises the cushion 39 mounted on top of a horizontally extending 
platform 40. The platform 40 comprises a pair of horizontally extending 
rails 41 to which the cushion 39 is attached by means of fasteners 42. A 
horizontally extending bar 43 extends beneath each rail 41 and is attached 
thereto. A cross bar 44 extends between the bars 43 and is supported at 
each end by attachment to one of the bars 43. The cross bar 44 is 
supported at each end by attachment to a tubular bushing 46. Each bushing 
46 is slidably mounted on a rod 50 which extends parallel to and just 
inside of one of the rear frame members 24. The bottom end of each rod 50 
is attached to one of the bottom side frame members by a pin 51. The upper 
end of the rod is attached to the rear cross frame member 26. 
Another cross bar 47 extends parallel to and spaced from the cross bar 44 
beneath the bushings 46. The cross bar 47 is supported at each end by 
attachment to the bushings 46. The platform 40 also includes a cross bar 
48 attached at each end to the bushings 46 on the same side of the 
bushings as the cross bar 44. The cross bar 48 supports the upper portion 
of the cushion 39 which extends parallel to the rear frame member 24. 
The knee rest 38 is vertically adjusted by an adjusting mechanism operated 
by means of a crank 53 located at the rear of the table behind the frame 
23. The crank 53 rotates a shaft 54 which is journaled in a gear box 55. 
The gear box 55 is mounted beneath an L-shaped cross bar 56 which extends 
between the two rods 50. Each end of the cross bar 56 is mounted to one of 
the rods 50 by a fastener 57. 
Within the box 55, a bevel gear 59 is mounted on the end of the crankshaft 
54. The bevel gear 59 engages a corrresponding bevel gear 60 located on 
the bottom of a threaded rod 61 which is located between the rods 50 and 
extends parallel thereto. The upper end of the threaded rod 61 extends 
through an opening in the rear cross frame member 26, and a collar 62 is 
mounted on the upper end of the threaded rod 61 above the rear cross frame 
member 26 to support the threaded rod. A positioning block 64 has a 
central threaded opening 65 (FIG. 8) in which the threaded rod 61 extends. 
The positioning block 64 is mounted between the cross bars 44 and 47. The 
threaded rod 61 engages the threaded opening 65, so that the positioning 
block 64 moves up and down as the rod 61 rotates. 
The knee rest 38 is adjusted by turning the crank 53. As the crank 53 
turns, it rotates the shaft 54 and the attached bevel gear 59. The bevel 
gear 59 engages the bevel gear 60 which, in turn, rotates the threaded rod 
61. The threaded rod 61, which engages the threaded opening 65 on the 
positioning block 64, causes the positioning block 64 to move up and down 
as the rod 61 rotates. The block 64 is fixed between the cross bars 44 and 
47, which form part of the platform 40 for the knee rest 38, so that as 
the block 64 moves up and down, the platform 40 moves up and down while 
being fully supported by engagement of the bushings 46 around the rods 50. 
The table 10 is supported on feet 67 and 68 located at each corner of the 
bottom support frame 12. The front feet 67 are located at each end of the 
bottom frame member 14. The rear feet 68 are located at each end of the 
bottom rear frame member 15. 
The table may be made more readily movable by means of a retractible wheel 
assembly 69 located at the rear of the table along the bottom rear frame 
member 15. The wheel assembly 69 comprises a pair of wheels 70 each 
mounted by means of an axle 71 in a wheel support 72. Each wheel support 
72 is pivotally attached to one of the bottom side frame members 13 by 
means of a rod 73. The rod 73 extends across the table parallel to and in 
front of the bottom rear frame member 15, and is connected to both wheel 
supports 72. The pivotal wheel supports 72 are free to pivot upwardly so 
that the bottom support frame 12 of the table moves downwardly with 
respect to the wheel assembly 69 and the rear of the bottom support frame 
rests on the rear feet 68. The wheel supports 72 may also be moved 
downwardly to raise the bottom support frame 12 upwardly with respect to 
the wheel support, so that the rear of the table is supported on the 
wheels 70 and not upon the rear feet 68. One of the wheel supports 72 is 
held in its downward position by a cam 75 mounted within a block 76. The 
block 76 is fixed by means of a pin 77 on a rotatable shaft 78. The shaft 
78 is journaled within a housing 79 located over one of the wheels 70 and 
supported on a portion of the bottom rear frame member 15, which extends 
outwardly beyond the rear frame member 24. On the end of the shaft 78 
outside of the housing 79 is an operational lever 80. 
To retract the wheel assembly 69 so that the rear of the table rests on the 
rear feet 68, the lever 80 is moved from the generally horizontal position 
to a vertical position, such as by actuation by a foot, rotating the shaft 
78 and pivoting the block 76 which is mounted on the shaft. As the block 
76 pivots, the cam 75 is moved out of engagement with the top of one of 
the wheel supports 72. The wheel support 72 thus moves upwardly and pivots 
about its mounting on the rod 73. The rod 73, which extends across the 
table, rotates to pivot the other wheel support 72 upwardly as well. 
When it is desired to move the table, the wheel assembly 69 can be moved 
back down by moving the lever 80 from the vertical position back to the 
generally horizontal position, turning the shaft 78, pivoting the block 
76, and moving the attached cam 75 such that it pushes the top of one of 
the wheel supports 72 downwardly with respect to the bottom support frame 
12 to raise the support frame upwardly so that the rear of the table rests 
on the wheel 70. As the wheel support 72 which is engaged by the cam 75 
moves downwardly, the rod 73 rotates, moving the other wheel support 72 
downwardly as well. To move the table, the front of the table is lifted, 
such as by means of the front cross frame member 20, and the table is 
moved on the rear wheels 70. Since the majority of the weight of the table 
is in the rear of the table, including the positionable knee rest 38, the 
table may be readily moved in this fashion. 
The table of the present invention is readily adapted for use with a 
multitude of imaging devices in order to perform surgical or other medical 
procedures. An imaging device may be a diagnostic radiographic unit, or it 
may be a fluoroscopic unit that is used to create a radiograph or a 
fluoroscopic image. Imaging devices need not be limited to radiographic or 
fluoroscopic units. They can include ultrasound or other equipment which 
may or may not be used in conjunction with data processing systems. 
Radiographic or fluoroscopic devices which deliver x-rays obliquely, 
laterally or anterioposteriorally can be used with the table of the 
present invention to perform tomographic or other radiographic procedures. 
A fluroscopic unit 82 that is equipped with an image intensifier and a 
means for transmitting an image to a video monitor, or a holder that 
contains x-ray sensitive film (a cassette or a camera) is shown in FIG. 
10. The unit 82 includes a C-shaped arm 83 and an x-ray emitter 84 at one 
end, and it includes an apparatus 85 for creating as well as for 
transmitting an image at the other end. The ionizing radiation emitter 84 
is typically an x-ray tube. The apparatus 85 may be an image intensifier 
and a television camera (as shown in FIG. 10), or it may be a cassette or 
a camera which contains film that is sensitive to X-radiation. 
The C-arm 83 is adjustably mounted on the end of a horizontal extending 
support 86 which is in turn attached to the base of the image intensifier 
(not shown). The C-arm 83 may be moved along the support 86 into any 
desired position, including a position in which the emitter 84 is on one 
side of the table and the imaging device 85 is on the other side of the 
table to obtain lateral views, and a position in which the emitter 84 is 
over the table and the imaging device 85 is in the middle of the table 
beneath the top panel 28 and between the front support frame 17 and the 
rear support frame 23 to obtain anterioposterior views. As shown in FIG. 
10, the C-arm 83 is positioned to obtain an oblique view. 
It will be noted that the front support frame 17 is spaced from the rear 
support frame 23 so that it is possible to position the radiographic or 
fluoroscopic device therebetween, and that adequate space is provided for 
such an imaging device. Furthermore, since the front support frame 17 is 
spaced away from the rear support frame 23, there is no radiopaque support 
frame to interfere with radiographic or fluoroscopic images taken 
obliquely or laterally through the table top panel 28. 
While the invention has been shown and described with respect to a 
particular embodiment thereof, this is for the purpose of illustration 
rather than limitation, and other variations and modifications of the 
specific embodiment herein shown and described will be apparent to those 
skilled in the art all within the intended spirit and scope of the 
invention. Accordingly, the patent is not to be limited in scope and 
effect to the specific embodiment herein shown and described nor in any 
other way that is inconsistent with the extent to which the progress in 
the art has been advanced by the invention.