专利汇可以提供Osteoscope for carrying out the nailing of the fractures专利检索,专利查询,专利分析的服务。并且An osteoscope (1) is proposed for realizing the nailing of fractures "under closed sky" through endoscopic control. The apparatus is equipped with a head (2) crossed by various channels (for optical fibres for illumination purposes, for drainage, for sucking, for instruments introduction and for that of guiding pegs) and equipped with lenses, articulations and a case (7) with mechanisms. The equipment further contains a guiding wheel (6), a visualizer (8) in the case and protruding from it. The apparatus can be connected for uncontamination purposes with a closed circuit television, enabling the entire surgical team to observe the operation without touching the apparatus. Finally the apparatus contains a sheath (11) of semi-rigid type inside which the apparatus can be slipped.,下面是Osteoscope for carrying out the nailing of the fractures专利的具体信息内容。
The present invention refers to an osteoscope for carrying out the nailing of the fractures which are not in the open, through endoscopic control.
Inspite of recent progress in the therapeutics of fractures - electrical stimulation of the bones consolidation, use of functional plasters based on a hydrostatic principle or on a uniform compactness, biocompression principles, control of consolidation through detectors, investigation with bio-materials - and notwithstanding the increasing distrust towards the efficiency of the metallic osteo-synthesis (compression plates) the intramedullary nailing of Küntacher remains an indiscussed method for treating of diaphysial fractures, especially of those having a cross direction or a short skew one, localized at the level of the third portion of the femur and in lesser cases of the tibia and of the humerus.
The intramedullary fastening with pegs with flexible stems ( sheaf of Hackental, nails of Ender) get day after day a larger diffusion in the treatment of humerus and femur neck fractures. Other fastenings with pegs (ulna, radius) are more rarely used, but remain valid in the treatment of the forearm bone fractures, in the case of children.
These forms of ostesynthesis of intramedullary type have reached their maximum prestige level now that it is possible to carry them out "under closed sky", viz. without opening the fracture focus. I.e. by introducing the nails or pegs from an inlet point placed at a certain distance slipped into, away from the fractured fragments, through a radioscopic control. The technique called "under closed sky" reduces the risks of infections because it does not expose directly the bone fragments and improves the conditions of consolidation with respect to the direct surgery intervention into the fracture focus,thus sparing the periosteum circulation.
The intramedullary nailing "under closed sky" of the diaphysial fractures was described by Gerald Kuntacher in 1940, but the notable radiation risks involving the surgeons , the ancillary personnel and to a lesser extent the patients themselves (let us remind that radiations are accumulative) limited the diffusion of the method, till the advances in electronics allowed the putting on the market of the image intensifiers which allow the radioscopic vision with the help of lower radiations with respect to the conventional X ray tubes.
The radiations received by surgical personnel may however border on dangerous limits considering the frequency in the use oT intensifiers (due to the lower risks involved and to the increase in the number of operations "under closed sky".
In principle severe measures of radiological protection should be sufficient for avoiding the radiation risks but the heavy lead aprons and the difficulties connected with a systematic dosimetry make it difficult to respect strictly the radio- protective regulations.
In order to expose the action on a human body we report textually some sections dealing with long term effects of radiation of the Treaty of Lnternal Medicine of Harrison:
There is no doubt that radiation can produce mutations in genes, which are structures forming the centres of information and transmission for heredity. Not all the mutations are prejudicial, but there are enormous probabilities that the change might be detrimental to the species. Not all the mutations imply immediate effects. The problem consists not only in the probability of an increase in the number of deformed creatures or of creatures evidencing lesions, but also in the probability of changes entailing undesired characteristics, like the shortening of life, the decrease in fertility, the general increase of physical and mental diseases and also the augmentation of abortions and dead-born children."
Besides the strictly biological effects, the use of radiations also involves psychological factors, and also factors connected with working activities and economical ones, which are all to be added to the previous ones,when considering the employing of radioscopic operations as.a necessary evil in the field of traumatology and orthopedy-.
It would be without any doubt a progress to avail ourselves of the method of osteosynthesis in intramedullaryfield, thus avoiding risks and drawbacks mentioned hereinbefore.
TD this basic scope we conceived an osteoscope through which it is possible to carry out the procedure of nailing the fractures "under closed sky" through an endoscopic control, which, is expounded hereinafter:
In the last years and according to new optical techniques (incorporation of cold light sources, luminous fibres etc.) and to miniaturization, the method further advanced and the field of utilization was broadened and reached practically the stage of endoscopic surgery . Today one performs operations (with direct vision) using special instruments introduced along the endoscopes.
Until now and in the domain of traumatology and orthopedy endoscopy was only used for carrying out observations and operating procedures on articulations. The basis of the nailing procedure consists in the utilization of the principles of endoscopy in order to visualize directly the medullary cavity of long bones.
From a theoretical viewpoint, the difficulties of the realization of osteoscopy of the intra-medullary type consist . Pin the following:
These difficulties can be overcome through the design of the osteoscope and the procedure of utilization which is to be recorded.
The subject of the invention consists therefore in an osteoscope for the realization of the nailing of bony fractures formed by a semi-rigid structure allowing the fitting to the shape of the bone.
Inside said semi-rigid shell the following basic components are housed:
To meet the miniaturization requirements and a peculiar use of the osteoscope, some of these channels can be eliminated. For instance a single channel can be used in subsequent-stages for draining, sucking and instruments introduction.
Dimensions and shape of the osteoscope itself and the relevant channels thereof can vary according to the bone to which it will be applied.
The end portion of the osteoscope is equipped with a head element to which the different channels are connected and which comprizes a lens with different characteristics connected in turn with the channel for visual fibres, and lenses for the illuminating channel.
Between the arm of the osteoscope or a portion thereof which is being introduced into the bone and the head portion there is an articulated system which allows its mobility.
As far as the main axis of the osteoscope, the same is formed by the channels used for the introduction of instruments and guiding pegs. It ends with a steering wheel which makes easier the handling.
As far as the optical, illuminating, draining and sucking systems are concerned, they leave laterally the axle of the apparatus and end in a box containing mechanisms from which starts the visual device containing connections for sources of cold light, vacuum, and fluid under pressure.
The visualising system can be foreseen for its connection with a closed circuit television, permitting the simultaneous observation by the whole surgical team, avoiding in this way the risks of contamination of the apparatus due to the direct contact with the eye.
Finally it must be said that the ancillary instrumentation of the osteoscope is composed by a stiff sheath through which the apparatus can be slipped , thus permitting the manipulation of the bony fragments for specific applications,.and a guiding peg with moving head, which can be angled with respect to its longitudinal axis for some specific applications.
These two basic elements of instrumentation (stiff sheath and guiding peg with moving head) can be integrated by an endo- t scopic spoon for the cleaning of the fracture focus and by a rod or an endoscopic brush.
In order to better understand the range of the invention, we enclose a set of drawings with some figures describing visually the osteoscope and its application . On such drawings we have:
On the mentioned figures the digital references correspond to the following parts and elements:
By looking at the above mentioned figures and with practical reference to figure 1a, one can observe the osteoscope (1) itself, formed by a semi-rigid shell crossed by channels (one for optical fibres, serving for illuminations one for visual optical fibres; one for drainage; one for sucking and one for the introduction of instruments and guiding pegs).
The front end portion of the osteoscope (1) is composed by a head (2) equipped in its front part by lenses in connection with the channels containing visual fibres and illuminating ones as well as orifices into which disembogue remaining channels, whilst its back portion is connected with the arm (3) or branch located between the head (2) and the collar (4), it being planned that such connection can be realized through a system of articulations (not appearing on the drawing) permitting to . the head piece (2) to assume an angular position in regard to the main axis of the apparatus (5), materialized by the channel used for the introduction of instruments and guiding pegs. The osteoscope is finally completed by a steeting wheel (6) which Makes easier its manipulation or handling, whilst in a divergent position with respect to the axis or axle and protruding upwards in backward direction, there is a case with mechanisms (7) from which the visor (8) is projecting , said case containing the connections (9) for the sources of cold light, of vacuum and of fluid under pressure.
The osteoscope (1) is completed with ancillary instruments comprizing. a stiff sheath (11) through which the instrument can be slipped , allowing its handling, a guiding peg (10) which ends frontally into the moving head (12) which is .articulated in order to allow the angulation of the moving head (12).
In order to illustrate better the use of the above described osteoscope we select as example the nailing of a femur fracture, so that slight modifications may permit its utilization for other long bones, such modifications occurring in technical and instrumental fields.
To better clear up the matter and in order to prove the advantages offered by the osteoscope, we shall describe before all the conventional procedure for nailing "under closed sky" under radioscopic control.
The original description by C.Küntscher of the technique of nailing "under closed sky" includes many further sections but can be summarized essentially as follows:
The point of paramount importance of the above quoted procedure is the introduction in a correct way of the wire, which threads both fragments and guides the other instruments of the equipment.
We shall now describe the nailing "under closed sky" under endoscopic control , using the osteoscope forming the object of the present invention :
After this the process continues in a conventional way.
According to what expounded , the advantages of the osteoscope can be summarized as follows:
This concerns:
2. - Permits a tridimensional vision of the fracture focus, whilst the amplifier permits only flat images. This will facilitate the fracture reduction.
3. - The sucking of the bony medulla and the emptying of the diaphysis cavity probably diminishes the intra-medullary pressure and the risk of fat embolism.
4. - The positioning of the patient in the conventional procedure is difficult to achieve and complex, due to the need to be in conditions to turn the tube of the amplifier of images without obstacles or interpositions, in order to obtain orthogonal projections. These drawbacks are avoided by using our procedure and the relevant improvements connected with it.
5. - Although the technique was conceived initially for the treatment of diaphysis fractures, it can be applied to other cases like observation of tumours and pathological processes of intra-medullary kind or other forms of intra-diaphysial surgery.
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