US3669102A - Orthopedic traction apparatus - Google Patents

Abstract

Traction apparatus for externally splinting the cervical spine to effect fixation thereof. The apparatus is characterized by providing adjustment of the height, tilt, rotation and anterior and posterior position of the patient''s head while affording no or only minor inconvenience during anterior or posterior surgical procedures while the traction apparatus is in position on a patient. The traction apparatus includes a skull-gripping mechanism adapted to grip a patient''s skull and thereby be fixedly related thereto, a platform or device supporting the skull-gripping mechanism and being inter-connected therewith so as to positively locate one with respect to the other and prevent relative translational and rotational displacements thereof, a plurality of struts interconnecting the platform and a body jacket positioned about a patient, and means for adjusting the lengths of the struts so as to select the magnitude of the tensile stress imparted through the platform and skull-gripping mechanism to the cervical spine of a patient equipped with such body jacket and having such mechanism secured to his skull.

Description

United States Patent Harris [4 June 13, 1972 [54] ORTHOPEDIC TRACTION APPARATUS [22] Filed: June9, 1969 21 Appl.No.: 831,427

56 References Cited UNITED STATES PATENTS 1,398,842 11/1921 Cruse ..l28/89 3,336,922 8/1967 Taylor.... ..l28/75 FOREIGN PATENTS OR APPLICATIONS 140,162 12/1960 U.S.S.R. ..128/75 Primary Examiner-Richard A. Gaudet Assistant Examiner-J. Yasko Attomey-Gardner & Zimmerman [57] ABSTRACT Traction apparatus for externally splinting the cervical spine to effect fixation thereof. The apparatus is characterized by providing adjustment of the height, tilt, rotation and anterior and posterior position of the patients head while affording no or only minor inconvenience during anterior or posterior surgical procedures while the traction apparatus is in position on a patient. The traction apparatus includes a skull-gripping mechanism adapted to grip a patient's skull and thereby be fixedly related thereto, a platform or device supporting the skullgripping mechanism and being inter-connected therewith so as to positively locate one with respect to the other and prevent relative translational and rotational displacements thereof, a plurality of struts interconnecting the platform and a body jacket positioned about a patient, and means for adjusting the lengths of the struts so as to select the magnitude of the tensile stress imparted through the platform and skullgripping mechanism to the cervical spine of a patient equipped with such body jacket and having such mechanism secured to his skull.

5 Claims, 11 Drawing Figures PATENTEDJumlsn 3,869,102 sum 30F 3 ORTHOPEDIC TRACTION APPARATUS This invention relates to orthopedic traction apparatus and, more particularly, to orthopedic traction apparatus for externally splinting the cervical spine to immobilize or effect fixation thereof.

Until the advent of the halo" traction apparatus, external fixation of the cervical spine was usually obtained by means of a plaster-of-Paris jacket which the patient usually found to be heavy and frequently hot and uncomfortable. Moreover, even the best fitting plaster jackets often allow more cervical movement than the surgeon may desire, and adjustment of the position of the patients head or neck is essentially impossible once the plaster jacket has hardened. Additionally, radiographic examination of the spine through a plaster jacket is difficult; and if an unstable spine is to be exposed for operation, the window or opening necessarily cut in the plaster jacket at best gives very little room in which the surgeon can work.

The halo traction apparatus obviates some of the disadvantages characteristic of plaster jackets because it is somewhat more comfortable for the patient to wear; lends itself to visual, physical and radiographic examination of the patient; and allows some adjustment long after the apparatus has been positioned upon the patient. Such traction apparatus includes a band or halo adapted to be placed about the skull of a patient and fixed thereto by a plurality of skull screws that extend through threaded apertures provided therefor in the band and can be forced into the outer table of the patients skull. Arms connected with the band and extending upwardly therefrom are secured to superstructure located in part above the patients head and extending downwardly along the back thereof to arcuate brackets that are adapted to be bent in conformity with and secured to the shoulder padding of a plaster body jacket positioned about the upper trunk of the patient.

An object, among others, of the present invention is to provide improved orthopedic traction apparatus generally of the halo type. Another object is that of providing an improved traction device of the character described which is easy for the surgeon to use, is quite versatile in that it readily accommodates patients of different size and body characteristics, and has various features of adjustability enabling the surgeon to obtain the desired degree of traction or tensile stress along a patients cervical spine and at the most advantageous orientation relative thereto.

Still another object is in the rovision of an improved traction apparatus, as stated, which has various degrees of translational and rotational freedom concerning its adjustability so that the surgeon can readily obtain the necessary rotation, tilt, translation (especially anterior and posterior) and vertical adjustments to best accommodate the particular requirements of any patient. Additional objects and advantages of the invention, especially as concerns particular features and details thereof, will become apparent as the specification develops.

In general terms, the traction device includes a skullgripping mechanism having a large skull-receiving opening adapted to receive the skull of a patient therein. Such mechanism is provided with attachment structure including a plurality of angularly spaced skull screws adapted to project into the patients skull and grip the same and thereby fixedly relate the mechanism thereto. A generally planar platform or device provides a support for the skull-gripping mechanisms and is attached thereto by means permitting angular adjustments of the skull-gripping mechanism relative to the platform. A plurality of elongated struts are connected to the platform at corner portions thereof and extend downwardly therefrom so as to be affixed at their lower ends to connectors rovided therefor along a relatively stiff plaster or molded plastic body jacket secured about the upper trunk or chest of a patient. The struts are individually adjustable in length and thereby enable a tensile stress of appropriate force and orientation to be developed between the body jacket and platform for transmission through the skull-gripping mechanism to the cervical spine of a patient.

Embodiments of the invention are illustrated in the accompanying drawings, in which:

FIG. 1 is a perspective view illustrating an embodiment of the traction apparatus in position on a patient;

FIG. 2 is an enlarged, fragmentary exploded perspective view illustrating the components defining a corner portion of the apparatus in spaced apart relation;

FIG. 3 is an enlarged, side view in elevation showing the connection of one of the struts of the apparatus with a body jacket;

FIG. 4 is a further enlarged, transverse sectional view taken along the line 4-4 of FIG. 3;

FIG. 5 is a topplan view of the skull-gripping mechanism and platform support therefor, each of which comprises a portion of the apparatus;

FIG. 6 is a transverse sectional view taken along the line 6- 6 of FIG. 5;

FIG. 7 is a longitudinal sectional view taken along the line 77 of FIG. 5;

FIG. 8 is a sectional view along one of the skull screws of the apparatus, the section being taken along the line 8-8 of FIG.

FIG. 9 is a sectional view of a modified connector for affixing a vertical strut to the body jacket of a patient;

FIG. 10 is a perspective view of a modified traction apparatus; and

FIG. I l is a top plan view of the modified apparatus shown in FIG. 10.

Traction apparatus embodying the invention is adapted for use with a body jacket which, as respects the present invention, may be essentially conventional and may comprise a molded body jacket or plaster body cast, each of which is well known in the art. In FIG. 1 a molded body jacket 15 is shown in position about the upper torso of a patient. Since such body jackets are well known, no particular details concerning the same need be explained other than to say that the jacket is quite rigid and therefore provides a satisfactory perches for thetraction apparatus 16. As respects its rigidity, the particular jacket 15 shown is formed of astiff, hard plastic material as indicated in FIG. 4.

Thetraction apparatus 16 includes a skull-gripping mechanism 18 and a platform ordevice 19 supporting the same. The skull-gripping mechanism 18 is adapted to grip the skull of a patient, therefore providing means through which a tensile force can be developed between the body jacket 15 and head of a patient so as to impart a tensile stress to the cervical spine of the patient to effect fixation thereof. Referring to FIGS. 5 through 8 in particular, it will be observed that the skull-gripping mechanism 18 includes attachment structure in the form of an upstanding band orring 20 that is substantially continuous and defines a large skull-receiving opening 2l therewithin adapted to receive the skull of a patient, as shown in FIG. I. As is most evident in FIG. 5, theopening 21 is noncircular and, in a more particular reference, is somewhat oblong or ovate so as to conform more accurately in a geometric sense to the usual skull configuration.

The attachment structure further includes a plurality of threadedapertures 22 at angularly spaced locations about the opening 21. Usuallyseveral apertures 22 will be provided at each angularly spaced location, and in the apparatus 16 (as shown in FIG. 5) three such apertures are grouped or clustered at each angularly spaced location. At least certain of theapertures 22 are equipped withskull screws 24 adapted to be tightened into respectively adjacent areas of a patients skull located within thelarge opening 21 so as to grip the skull and thereby fixedly relate the skull-grippingapparatus 18 thereto. In FIG. 5 foursuch screws 24 are shown in respective association with one of theapertures 22 in each of the four angularly spaced clusters thereof. Skull screws are generally old in the art and, as is well known, they have rather sharppointed ends 25 adapted to perforate the skin without incision thereof having first been made and of sufficient length to penetrate only the outer table of the skull. Eachscrew 24 may be slotted (as shown at 26) to receive the end of a screwdriver and may be equipped with alocking nut 28.

The attachment structure further includes an outwardly extending flange orlip 29 about theupstanding band 20, and it defines the circumference of a circle about its outer peripheral edge. Accordingly, and because theband 20 is non-circular, theflange 29 is relatively narrow at the anterior and posterior end portions of the generally ovate opening 21 (FIGS. 5 and 7) and is relatively wide along the sides thereof (FIGS. 5 and 6). Themechanism 18, and particularly theflange 29 thereof, is supported by theplatform 19 for angular displacement relative thereto about an axis extending through theopening 21 generally along the cervical spine of a patient having his skull positioned within the opening as depicted in FIG. 1. For this purpose, theplatform 19 has a largeopen center portion 30, as is most evident in FIGS. 6 through 8, so as to accommodate themechanism 18 and permit angular displacement thereof. The lip orflange 29, it will be observed, overlies theplatform 19 about the opening 30 thereof and is supported thereon.

Structure is provided for interconnecting themechanism 18 andplatform 19 so as to prevent relative translational displacements therebetween in axial or vertical directions (i.e., along the cervical spine of a patient equipped with the traction device), and also in both longitudinal and transverse directions referenced to such axis. The structure further constrains the skull-gripping mechanism 18 against angular displacements thereof relative to theplatform 19 after the desired angular disposition of themechanism 18 with respect to theplatform 19 has been obtained. As shown in FIGS. 5, 6 and 7, such interconnecting structure includes a plurality ofguide plates 31 secured to theplatform 19 in overlying relation therewith at spaced apart locations therealong. In the particular traction apparatus being considered, there are foursuch guides 31 spaced about the circumference of theflange 29 at 90 intervals center-to-center and riveted to theplatform 19, as indicated at 32.

The inner edges of theguides 31 are arcuate and together define the circumference of a circle having a diameter somewhat larger than that of theflange 29 so as to define a space between the flange and each guide within which are provided a plurality of threaded openings orapertures 34 adapted to receive washerequipped threaded fasteners orcap screws 35, as shown in FIGS. 5 through 7. Thefasteners 35 when tightened bring the washers thereof into overlying frictional engagement with the facing edges of theflange 29 and associatedguide 31 so as to clamp the flange to eachguide 31 andplatform 19 and thereby constrain the flange andskullgripping mechanism 18 against rotational and translational displacements with respect to the platform. In thetraction apparatus 16 shown, nine such threadedopenings 34 are provided in association with eachguide 31, and alternate openings are equipped withfasteners 35 so that five such fasteners are used with each guide.

A plurality ofstruts 36 are used to interconnect theplatform 19 with the body jacket 15, and means are provided for adjusting the lengths of the struts so that the tensile stress imparted thereby between the body jacket and platform can be selectively varied. Theapparatus 16 includes fourstruts 36 that are respectively disposed adjacent the corner portions of theplatform 19 which has a generally square-shaped configuration. Eachstrut 36 is an elongated bar or rod that is substantially square-shaped at its lower end 38 (as shown best in FIG. 4) so as to pass through a square-shaped opening 39 provided in amounting bracket 40 that is secured to the body jacket by any suitable means such as rivets 41 or equivalent fasteners, as shown in FIG. 1. The mating polygonal configurations of thestrut end portion 38 and opening 39 prevent relative rotation therebetween, and the vertical disposition of the rod with respect to thebracket 40 is fixedly determined by a plurality of set screws that extend through the face of thebracket 40 and project into threaded openings provided therefor in theend portion 38 of thestrut 36. Accordingly, the location of eachstrut 36 relative to the body jacket 15 is positively determined.

At their upper ends eachstrut 36 is adjustably connected to theplatform 19; and in the embodiment illustrated in FIGS. 1 through 4, the adjustment accommodates selective longitudinal positioning of each strut continuously along theplatform 19 within certain dimensional limits, and also permits limited step-wise adjustment of each strut relative to theplatform 19 in a transverse sense. In more particular terms, theplatform 19 at each of the four corner locations thereof is provided with a pair of transversely spaced, longitudinally extendingslots 44 and 45 selectively adapted to receive therein thetongue 46 of aconnector 48 having a threadedshank 49 extending upwardly from thetongue 46 and adapted to receive anut 50 which is used to fixedly locate theconnector 48 along theparticular slot 44 or 45 with which it is associated. Accordingly. eachstrut 36 can be adjusted in a transverse direction relative to theplatform 19 by determining theparticular slot 44 or 45 with which theconnector 48 is to be associated, and it is also adjustable in the longitudinal sense within the dimensional limits of each slot by determining the position of the connector along the slot and then fixing the connector at such position by tightening thenut 50 downwardly and into frictional engagement with the upper surface of theplatform 19. Evidently, thetongue 46 is dimensioned so as to be displaceable longitudinally along eachslot 44 and 45 but constrains theconnector 48 against rotation relative to the platform.

A universal joint is provided along eachstrut 36 so as to facilitate accommodation of thetraction apparatus 16 to the differing dimensional requirements of various patients, and the universal joint in theapparatus 16 is provided by a ball and socket assembly comprising aball 51 provided at the end of a downwardly extendingpin 52 with which theconnector 48 is equipped and a socket provided within acoupling 54 having anut 55 at its lower end that cooperates with the upper end of threadedextension 56 of thestrut 36 andis fastened in position thereon by alock nut 58. At its lower end, theextension 56 is threadedly received within an opening provided therefor in acoupling 59 with which the upper end of thestrut portion 38 is equipped, and which portion thereof is hollow at least throughout its upper end so as to enable theextension 56 to project thereinto. Alock nut 60 may be tightened to positively maintain theextension 56 in any position of adjustment thereof relative to thecoupling 59.

Accordingly, eachstrut 36 is adjustable vertically, translationally and longitudinally independently of the others so as to best accommodate the physical characteristics of a particular patient and to impart the desired degree of tensile stress to the cervical spine thereof and at any particular orientation. That is to say, if in stressing the spine best results would be expected if the head were tilted slightly in any one direction, then any one or more of thestruts 36 could be elongated relative to the others so as to provide such tilt. By the same token, tilt can be avoided by individually adjusting thestruts 36 until the desired orientation of the head is attained, and then the stress imparted to the spine can be selectively established and changed as necessary by varying the elongation of each of the struts.

Essentially, 6 degrees of translational freedom are provided by the apparatus since eachstrut 36 can be adjusted in opposite directions transversely, longitudinally and vertically; and rotational freedom is also provided generally about the axis of the cervical spine since the skull-grippingmechanism 18 is angularly adjustable relative to theplatform 19. Further, because the length of eachstrut 36 is adjustable independently of the others, an additional angular freedom is afforded in that the tilt or angular disposition of theplatform 19 relative to the halo is also adjustable. All such adjustments of theplatform 19 andmechanism 18 are imparted directly to the skull and head of a patient using the apparatus since it is fixedly attached thereto via thescrews 24.

A modified mounting bracket useful in substitution for the previously describedbracket 40 is illustrated in FIG. 9 and is denoted in general with the numeral 61. Thebracket 61 in association with the modifiedstrut 62 defines a universal joint generally of a ball and socket type configuration. The bracket includes aplate 64 riveted or otherwise attached to thebody jacket 65, and the plate is deformed centrally so as to define aball 66. Thestrut 62 at its lower end (generally denoted 68) is provided with a socket therealong adapted to seat theball 66 therein and providing a relativelylarge opening 69 through which abolt 70 passes. A cup-shapedwasher 71 overlies the socket-equippedend 68 of thestrut 62 and is tightened thereagainst by awing nut 72 threadedly received on thebolt 70.

The head of thebolt 70 bears against the underside of theball 66 through which the bolt extends, and it will be apparent that thestrut 62 is frictionally constrained between theball 66 andwasher 71 by tightening thenut 72. Whenever the nut is loosened, thestrut 72 is universally adjustable in an angular sense relative to theball 66 within the dimensional limits defined by theopening 69. Thus, by use of the modified mountingbracket 61, additional adjustability is afforded for the traction apparatus since each of the struts is then pivotally adjustable relative to the body jacket. As respects the traction apparatus with which the modifiedstrut 62 and modified mountingbracket 61 are used, it may be the same as the apparatus l6 heretofore described in detail.

A more generally modified traction apparatus is illustrated in FIGS. and 11, and as respects such modification it largely pertains to the struts and manner in which they are connected to the support platform of the apparatus and connected to a body jacket. Generally, then, the modified traction apparatus is essentially the same as the apparatus heretofore described, and it includes a skull-grippingmechanism 74 supported by aplatform 75 for adjustable angular displacements relative thereto, as in the manner heretofore described. Thus, the skull-gripping mechanism 76 has an upstanding band or ring 76 of generally ovate configuration equipped with a lip orflange 78 defining a circular configuration along the periphery thereof. The flange 76 seats upon the upper surface of theplatform 75 and is confined for angular displacement relative thereto by a plurality ofguide plates 79, each of which is secured to theplatform 75 as heretofore explained and which in conjunction with a plurality offasteners 80 constrains themechanism 74 in any angular position relative to thesupport plate 75, all as heretofore explained.

Theplatform 75 is equipped along the longitudinal edges thereof with a plurality of longitudinally extendingtracks 82 each of which is welded or otherwise rigidly secured to the platform and is provided with anelongated slot 84 closed at its inner end. Each longitudinal edge of theplatform 75 is provided with twotracks 82 respectively disposed along the anterior and posterior ends thereof, but it is evident that one continuous track could be provided in apparatus in which it might be found advantageous. Thestruts 62 are respectively associated with therails 82, and each strut at its upper end has a flattened connector having anelongated slot 86 extending therealong. Abolt 88 having its head located within theslot 84 extends outwardly therefrom and passes through theslot 86 in theconnector 85. Awing nut 89 cooperates with thebolt 88 and may be tightened thereonto so as to frictionally lock theconnector 85 and therefore thestrut 62 in any position of adjustment relative to thetrack 82.

It will be apparent that thestrut 62 may be slidably displaced along thetrack 82 to any suitable position of adjustment within the limits of theslot 84; the strut may also be pivotally adjusted about the axis of thebolt 88; and it further may be adjusted in a vertical sense within the limits of theslot 86. As respects vertical adjustment, the lower end of eachstrut 62 is equipped with a flattenedconnector 90 having anelongated slot 91 therealong passing therethrough the threaded shank of abolt 92 that projects between the bifurcated end or spacedears 94 of a bracket 95 adapted to be secured by rivets or otherwise to a body jacket, as heretofore described with reference to thebrackets 40 and 61. Awing nut 96 cooperates with thebolt 92 so as to constrain thestrut 62 in any position of adjustment relative to the bracket 95.

As concerns adjustment thestrut 62 is pivotal relative to the bracket about the axis of thebolt 92, and the strut is vertically adjustable within thelimits defined by theslot 91 thereof. It will be appreciated that the vertical spacing between theplatform 75 and bracket 95 (and therefore any body jacket to which the bracket is affixed) can be adjustably increased and decreased to alter the tensile stress applied to the cervical spine of a patient equipped with the modified traction apparatus shown in FIGS. 10 and 11. However, the tum-buckle" type adjustment of the strut length shown in FIGS. 1 through 3 and heretofore described can be provided along thestrut 62 should this be desired.

Thus, in all forms of the traction apparatus, the cervical spine of a patient is readily fixed or immobilized by external splinting irrespective of the physical differences among patients and irrespective of the magnitude and orientation of the stress that the doctor desires to apply to the spine because of the adjustability and various degrees of freedom described hereinbefore. Therefore, the apparatus permits adjustment of rotation, height, tilt, and interior or exterior positioning of the patients head and will permit rotation of the head' while wearing the apparatus (adjustable rotation if thefasteners 35 or 81 are tightened and relatively free rotation if they are all loosened). Further, anterior or posterior surgical procedures may be performed with thestruts 36 or 62 constituting only a minor inconvenience, and if advantageous one or two of the struts may be removed completely to make the surgeon s approach unhampered.

While in the foregoing specification embodiments of the invention have been set forth in considerable detail for purposes of making a complete disclosure thereof, it will be apparent to those skilled in the art that numerous changes may be made in such details without departing from the spirit and principles of the invention.

What is claimed is:

1. In traction apparatus for externally splinting the cervical spine to effect fixation thereof, skull-gripping mechanism having a large skull-receiving opening and being equipped at a plurality of angularly spaced locations with adjustable skull engaging members adapted to be moved into and held in respectively adjacent areas of a skull positioned within said opening to grip such skull and thereby fixedly relate the same to said mechanism, a device supporting said mechanism for angular displacement relative thereto about an axis extending through said opening generally along the cervical spine of a patient having his skull therewithin, structure interlocking said mechanism and device so as to prevent relative translational displacements therebetween along such axis, a foundation member adapted to be supported by the patients torso, a plurality of struts each adapted to be supported at one end portion thereof on said foundation member and at its other end portion being adapted to be connected to said device, certain of said struts being located for disposition on the front side of the patients torso and certain other of said struts being located for disposition on the rear side thereof, means for adjusting the length of at least certain of said struts so as to select the tensile stress imparted thereby through said device, mechanism and skull engaging members to the cervical spine of a patient equipped with such foundation member and having the skull attached to said mechanism by means of said skull engaging members, said mechanism being supported by said device for angular adjustments along the arc of a circle generally circujacent said skull-receiving opening, and means for locking said mechanism to said device when in adjusted position.

2. The traction apparatus of claim 1 in which each of said struts is equipped with means including a universal joint enabling the struts to be angularly adjusted relative to said device.

3. The traction apparatus of claim 1 in which the device and mechanism are in substantially the same plane oriented at right angles to the axis of the skull receiving opening.

4. The traction apparatus of claim 1 in which the skull gripping mechanism is mounted on the upper side of said device.

5. In traction apparatus for externally splinting the cervical spine to effect fixation thereof, skull-gripping mechanism having a large skull-receiving opening and including attachment structure providing a plurality of apertures at angularly spaced locations about said opening, at least certain of said apertures being equipped with adjustable skull engaging members adapted to be moved into and held in respectively adjacent areas of a skull positioned within said opening to grip such skull and thereby fixedly relate the same to said mechanism, a device supporting said mechanism for angular displacement relative thereto about an axis extending through said opening generally along the cervical spine of a patient having his skull therewithin, structure interlocking said mechanism and device so as to prevent relative translational displacements therebetween along such axis, a foundation member adapted to be supported by the patients torso, a plurality of struts adapted to be supported at one end portion thereof on said foundation member and at their other end portion connected to said device, means for adjusting the length of at least certain of said struts so as to select the tensile stress imparted thereby through said device, mechanism and skull engaging members to the cervical spine of a patient equipped with such foundation member and having the skull attached to said mechanism by means of said skull engaging members said skull-receiving opening being supported by said device for angular adjustment along the arc of a circle generally circumjacent said skull-receiving opening, and means for locking said mechanism to said device when in adjusted position.

I. i l 1.! I

Claims (5)

1. In traction apparatus for externally splinting the cervical spine to effect fixation thereof, skull-gripping mechanism having a large skull-receiving opening and being equipped at a plurality of angularly spaced locations with adjustable skull engaging members adapted to be moved into and held in respectively adjacent areas of a skull positioned within said opening to grip such skull and thereby fixedly relate the same to said mechanism, a device supporting said mechanism for angular displacement relative thereto about an axis extending through said opening generally along the cervical spine of a patient having his skull therewithin, structure interlocking said mechanism and device so as to prevent relative translational displacements therebetween along such axis, a foundation member adapted to be supported by the patient''s torso, a plurality of struts each adapted to be supported at one end portion thereof on said foundation member and at its other end portion being adapted to be connected to said device, certain of said struts being located for disposition on the front side of the patient''s torso and certain other of said struts being located for disposition on the rear side thereof, means for adjusting the length of at least certain of said struts so as to select the tensile stress imparted thereby through said device, mechanism and skull engaging members to the cervical spine of a patient equipped with such foundation member and having the skull attached to said mechanism by means of said skull engaging members, said mechanism being supported by said device for angular adjustments along the arc of a circle generally circujacent said skull-receiving opening, and means for locking said mechanism to said device when in adjusted position.

2. The traction apparatus of claim 1 in which each of said struts is equipped with means including a universal joint enabling the struts to be angularly adjusted relative to said device.

3. The traction apparatus of claim 1 in which the device and mechanism are in substantially the same plane oriented at right angles to the axis of the skull receiving opening.

4. The traction apparatus of claim 1 in which the skull gripping mechanism is mounted on the upper side of said device.

5. In traction apparatus for externally splinting the cervical spine to effect fixation thereof, skull-gripping mechanism having a large skull-receiving opening and including attachment structure providing a plurality of apertures at angularly spaced locations about said opening, at least certain of said apertures being equipped with adjustable skull engaging members adapted to be moved into and held in respectively adjacent areas of a skull positioned within said opening to grip such skull and thereby fixedly relate the same to said mechanism, a device supporting said mechanism for angular displacement relative thereto about an axis extending through said opening generally along the cervical spine of a patient having his skull therewithin, structure interlocking said mechanism and device so as to prevent relatiVe translational displacements therebetween along such axis, a foundation member adapted to be supported by the patient''s torso, a plurality of struts adapted to be supported at one end portion thereof on said foundation member and at their other end portion connected to said device, means for adjusting the length of at least certain of said struts so as to select the tensile stress imparted thereby through said device, mechanism and skull engaging members to the cervical spine of a patient equipped with such foundation member and having the skull attached to said mechanism by means of said skull engaging members, said skull-receiving opening being supported by said device for angular adjustment along the arc of a circle generally circumjacent said skull-receiving opening, and means for locking said mechanism to said device when in adjusted position.

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