EP3979956A1 - Dispositif médical destiné à exercer une force sur le bassin d'un être vivant, procédé associé et utilisation - Google Patents
Dispositif médical destiné à exercer une force sur le bassin d'un être vivant, procédé associé et utilisationInfo
- Publication number
- EP3979956A1 EP3979956A1 EP20740507.7A EP20740507A EP3979956A1 EP 3979956 A1 EP3979956 A1 EP 3979956A1 EP 20740507 A EP20740507 A EP 20740507A EP 3979956 A1 EP3979956 A1 EP 3979956A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- medical device
- segments
- section
- living
- relative
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
- 210000004197 pelvis Anatomy 0.000 title claims abstract description 57
- 238000000034 method Methods 0.000 title claims abstract description 16
- 230000007246 mechanism Effects 0.000 claims abstract description 183
- 230000006835 compression Effects 0.000 claims abstract description 105
- 238000007906 compression Methods 0.000 claims abstract description 105
- 230000008878 coupling Effects 0.000 claims description 44
- 238000010168 coupling process Methods 0.000 claims description 44
- 238000005859 coupling reaction Methods 0.000 claims description 44
- 239000004753 textile Substances 0.000 claims description 32
- 230000006870 function Effects 0.000 claims description 23
- 210000001696 pelvic girdle Anatomy 0.000 claims description 20
- 238000001228 spectrum Methods 0.000 claims description 17
- 230000002441 reversible effect Effects 0.000 claims description 13
- 230000009471 action Effects 0.000 claims description 6
- 238000003466 welding Methods 0.000 claims description 6
- 238000009957 hemming Methods 0.000 claims description 5
- 230000006978 adaptation Effects 0.000 abstract description 2
- 210000003131 sacroiliac joint Anatomy 0.000 abstract 1
- 230000008901 benefit Effects 0.000 description 24
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- 210000001015 abdomen Anatomy 0.000 description 2
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- 238000003860 storage Methods 0.000 description 2
- 241000270728 Alligator Species 0.000 description 1
- 241000282693 Cercopithecidae Species 0.000 description 1
- 208000007446 Hip Dislocation Diseases 0.000 description 1
- 241001465754 Metazoa Species 0.000 description 1
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- 210000004705 lumbosacral region Anatomy 0.000 description 1
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- 230000007721 medicinal effect Effects 0.000 description 1
- 210000002346 musculoskeletal system Anatomy 0.000 description 1
- 238000005457 optimization Methods 0.000 description 1
- 230000035935 pregnancy Effects 0.000 description 1
- 210000004061 pubic symphysis Anatomy 0.000 description 1
- 238000004826 seaming Methods 0.000 description 1
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Classifications
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61F—FILTERS IMPLANTABLE INTO BLOOD VESSELS; PROSTHESES; DEVICES PROVIDING PATENCY TO, OR PREVENTING COLLAPSING OF, TUBULAR STRUCTURES OF THE BODY, e.g. STENTS; ORTHOPAEDIC, NURSING OR CONTRACEPTIVE DEVICES; FOMENTATION; TREATMENT OR PROTECTION OF EYES OR EARS; BANDAGES, DRESSINGS OR ABSORBENT PADS; FIRST-AID KITS
- A61F5/00—Orthopaedic methods or devices for non-surgical treatment of bones or joints; Nursing devices; Anti-rape devices
- A61F5/01—Orthopaedic devices, e.g. splints, casts or braces
- A61F5/0193—Apparatus specially adapted for treating hip dislocation; Abduction splints
Definitions
- the present invention relates to a medical device for applying force to the pelvis of the living being, in particular for exerting pressure on the pelvic blades.
- the present invention also relates to an adjustment method and the use of the device for adjusting a size or a desired fit and / or for adjusting medical-technical effects.
- the invention relates to a device and a method according to the preamble of the independent claim.
- Devices are supported, in particular with regard to the musculoskeletal system by means of straps and belts and orthotics.
- Living beings, in particular humans suffer, for example, at least temporarily or depending on the situation, from a weak structure of the pelvis or from a pelvis that is particularly stressed in certain life or stressful situations.
- the increased stress on the pelvis during pregnancy can be cited as one of several examples.
- One of the previously known measures to alleviate such ailments occurring in particular in connection with the pelvic structure is based on the application of compressive forces which can be applied, for example, by means of a belt, in particular an orthosis. More specifically, these devices can also be referred to as orthoses, in particular pelvic ring orthoses.
- Such belts or orthotics are already available on the market in various designs, for example also characterized by specific pressure points or pressure application areas or structures.
- an all-round device in particular in the form of a belt, which can be optimized for a wide range of applications, could not previously be provided in a simple manner. Rather, it has been observed so far that the market offers a large number of specialized products for the most varied of stresses or clinical pictures. However, each individual medical product may have to be approved in a complex manner, not least with the consequence of high costs for society or for (private) patients. In addition, the indication must then also be subsumed specifically to this product. So it could be that it becomes very time-consuming to keep a wide range of products available and to pass on the relevant specialist knowledge, especially in small practices with only a few doctors or assistants.
- the publication WO 03/017893 A1 describes a lap belt device for medical technology applications.
- the publications EP 3 143 971 A1 and US 2014/0 316 319 A1 describe an application of supporting belts in which a paüent is to be fixed for operations, in particular in connection with emergency or accident care.
- the publication US 5 830 168 A describes a hip basket for use in hip dislocations, in which the alignment of the pelvic shells can be geometrically adapted to the respective individual.
- the publication US 2004/0 139 974 A1 describes a lumbar bandage for the area of the lumbar spine.
- the object is to provide a medical device with which the medical application of forces on the body of a living being in the area of the pelvis, in particular on the pelvic blades or specifically on the pelvic symphysis of a person, can be simplified or optimized with regard to the medical effect.
- the task is to be able to optimize the use of the medical device on the one hand for the living being and on the other hand with regard to the medical-technical effect as largely independent of the specific application and as largely independent of previous medical knowledge as possible, preferably for a very broad spectrum of applications, in particular also for the daily use in everyday life.
- the task can also be focused on providing an orthosis in such a way that, with maximum wearing comfort, an effective and, if possible, confhkt / error-free use for various living beings can be ensured.
- a medical-technical device for flat contact with the body of a living being and for applying force to the pelvis of the living being, and for compressing the pelvic blades (or pubic symphysis, sacrum joint), in particular in the form of a belt, with:
- the size adjustment mechanism and the compression mechanism are coupled to at least one of at least two segments of the medical device and formed thereon, with at least one of the segments being individually adjustable in length, in particular also when used as intended in an arrangement around the living being by being the fastening section extends over a minimum length of the (respective) segment in such a way that the effective diameter can be adjusted over the entire size range of the respective living being, namely at least over a pelvic circumference of 90cm to 130cm, in particular at least over a pelvic circumference of 80cm to 140cm. This also makes setting easier and, last but not least, enables adjustment over a very wide range of variation.
- the embodiment according to the invention enables in particular over the entire size spectrum of people (male, female) from an age of e.g. 12 years or from a height of e.g. 120cm or from a weight of e.g. 35kg a particularly variable adaptation of the device, without any disadvantages with regard to the medical-technical function or with regard to wearing comfort.
- a particularly large one-part length can be provided.
- this can also broaden the range of applications and improve accessibility to this technology, e.g. also with regard to costs or complexity in the application by specialists or patients.
- the device can be made available in a single unit size in particular for almost any patient, human.
- the device can be made available in a single unit size in particular for almost any patient, human.
- the diameter variation can take place over such a broad spectrum that the producer or manufacturer does not necessarily have to keep different sizes available for the device. This makes the product easier to access for many patients, and the range of applications becomes even broader.
- the compression mechanism and the size adjustment mechanism can be integrated into a belt device of the medical device, in particular each with a coupling function, e.g. With
- the size depending on the application, e.g. can be predefined once by a doctor or specialist.
- the living being can then optionally make a readjustment or e.g. dose the force, depending on the moment
- the medical device can have at least two circumferential segments, in which the size adjustment mechanism and the compression mechanism and the
- Movement tolerance section are integrated such that the medical device is set up for a size adjustment of the effective diameter over the size spectrum of the respective living being, in particular at least over a pelvic circumference of 90cm to 130cm, especially in particular at least over a pelvic circumference of 80cm to 140cm.
- a segment is to be understood in particular as an independent medical-technical component of the device which is set up to apply the desired medical-technical function to the circumference of the living being, at least in sections, that is to say as a circumferential segment of the device.
- the respective segment is set up as a flexible (preferably textile), full-surface belt to provide the compression force over the entire height of the belt, in the sense of the effect of a belt.
- the minimum length of the (respective) segment is to be understood in particular as a length over which a desired function must at least be ensured in order to solve the task (in particular
- a living being is to be understood in particular as a human being, in particular a male or female adult or at least a human being at the age of a young person. In a broader sense, a living being can also be an animal, for example a monkey.
- the first aspect can also be formulated more briefly as follows:
- a medical device is provided, set up for flat contact with the body of a living being and set up to exert force on the pelvis of the living being and set up to compress the pelvic blades (in particular pelvic symphysis and / or sacrum joint), with:
- a movement tolerance section set up for the movement-tolerant arrangement ofCunab sections of the medical device relative to one another;
- the size adjustment mechanism and the compression mechanism are coupled to at least two segments of the medical device and at least partially formed thereon, the segments being individually adjustable in length in that the fastening section extends over a minimum length of the respective segment in such a way that the effective diameter can be adjusted over at least one Pelvic circumference of 90cm to 130cm, in particular at least a pelvic circumference of 80cm to 140cm can be realized.
- a medical-technical device set up for flat contact with the body of a living being and set up to act on the pelvis of the living being, especially designed to compress the pelvic blades (especially pelvic symphysis and / or sacrum joint), especially in the form of a belt, with:
- a fastening section preferably coupled at least to the size adjustment mechanism, set up for reversible fixing of a selected size for the effective diameter
- Angular tolerance unit in particular comprising a swivel joint, can be connected / connected to one another rotatably relative to one another in such a way that pivoting of the pivoted segments relative to one another is ensured in at least one degree of freedom, in particular comprising a pivoting movement about an axis lying in the sagittal plane.
- the medical technology function namely a large-area contact and a homogeneous pressure distribution, as far as possible over the entire height / width of the medical technology device, can also be improved.
- closed belts are mainly used, which are not particularly advantageous to the
- the medical device can have at least two circumferential segments, in which the size adjustment mechanism and the compression mechanism and the Movement tolerance section in the form of a relative angle section are integrated in such a way that the medical device is set up for an angle-tolerant arrangement of the segments relative to one another, the segments in the relative angle section being connectable / connected to one another in such a way that they can rotate relative to one another by an angle tolerance unit, in particular by a swivel joint.
- the second aspect can also be formulated more briefly as follows:
- a medical device is provided, set up for flat contact with the body of a living being and set up to exert force on the pelvis of the living being and set up to compress the pelvic blades (pelvic symphysis and / or sacrum joint), with:
- a movement tolerance section set up for the movement-tolerant arrangement ofCunab sections of the medical device relative to one another;
- the movement tolerance section is configured as a relative angle section for the angle-tolerant arrangement of the length sections relative to one another, wherein the medical device has a plurality of segments, of which at least two in the relative angle section through a
- Angular tolerance unit comprising a swivel joint can be connected to one another rotatably relative to one another in such a way that pivoting of the pivoted segments relative to one another is ensured in at least one degree of freedom including a pivoting movement about an axis lying in the sagittal plane.
- An angle tolerance unit with a swivel joint also provides a particularly low-friction angle tolerance at an exactly predefinable point, in particular in the sagittal plane.
- the swivel joint can also be integrated into a coupling, as a result of which both the size variability and the ergonomics can be further improved.
- Compression mechanisms are coupled to at least one of at least two segments of the medical device and formed thereon, with at least one of the segments being individually adjustable in length, in particular also when used as intended in an arrangement around the living being, in that the fastening section extends over a minimum length of the (respective) Segment extends that a size adjustment of the effective diameter over the entire size range of the respective living being can be realized at least over a pelvic circumference of 80cm to 140cm, as well as that furthermore, the movement tolerance section is also configured as a relative angle section for the angle-tolerant arrangement of the length sections relative to one another, the medical device having a plurality of segments, of which at least two in the relative angle section can be rotated relative to one another by an angle tolerance unit comprising a swivel joint
- a medical device which has at least three im
- a user of the device according to the invention can first set the size in a simple manner over a large range and then adjust the compression force. Two different or separately operable mechanisms can be used for this.
- a device can be provided which can be used in a unit size for very different living beings, without having to make changes in structural terms.
- the ergonomics and handling can remain comparably good in this wide range of sizes for any size.
- a movement tolerance in particular an angle tolerance, can also be provided in an elegant manner, in particular at a fastening point of two segments fastened to one another.
- the same fastening means can be used to fix the respective mechanism.
- the size adjustment mechanism and the compression mechanism each have at least one positionable fastening means which is designed to correspond to the fastening section, in particular in an arrangement at a free end. This also enables an advantageous relative arrangement of the fastening means on the same fastening section and also relative to one another.
- a cable pull of the compression mechanism couples at least two of the segments to one another and positions them relative to one another in such a way that the medical device in connection with the individually set length of the respective segment is set up for force adjustment and also for size adjustment of the effective diameter over the Size range of the respective living being.
- the respective segment has a free end which can be fixed / fixed on the respective segment in the fastening section, in particular continuously over the entire length
- the free end can e.g. also include a handle, e.g. is coupled to the segment in the manner of an alligator clip, in particular to provide an advantageous operating function for the patient (living being).
- the free end is preferably thicker than a longitudinal section of the segment that is further in the center, in particular thicker than a passage provided by a coupling / deflector. This can bring about a self-locking, in particular for the purpose of good accessibility of the handle, or to avoid complete detachment of one segment from another segment.
- the (respective) free end can in particular also be designed as a semicircle. Last but not least, this also favors the integration of a rotary coupling at the very end / edge of the respective segment. This can make handling even easier.
- one / the free end of the respective segment can be arranged below traction means of the compression mechanism and can be coupled to the fastening section. This arrangement also promotes high variability and is particularly user-friendly.
- the effective diameter can be adjusted by means of the size adjustment mechanism at least by a factor of 1.5 or 1.75 or 2, in particular by at least a factor of 1.75.
- This range of variation in particular also favors the provision of the medical device in (only) a single unit size.
- the fastening section extends over the minimum length of the (respective) segment in such a way that both the compression mechanism and the size adjustment mechanism can be determined on the fastening section. This integration of functions in the fastening section also provides a high level of practicality.
- the fastening section extends completely along the respective segment, in particular both on its inside and on its outside. This provides maximum variability in terms of size adjustment, facilitates handling, favors the interaction of the compression and size adjustment mechanism, and also provides advantages with regard to a
- the cable pull can be fixed / fixed on at least one of the segments, in particular steplessly. This can also provide a large range of adjustment.
- a bearing housing of the compression mechanism extends over a proportion of at most 5 to 10% in relation to the effective diameter. This compact design enables the diameter variability to be maximized even more effectively.
- the respective segment in the fastening section has a textile
- Closure means in particular a Velcro fastener or at least one component thereof, which extends over at least 50% of the effective circumferential length of the segment, in particular over at least 70% or over at least 85%, in particular over at least 35cm to 65cm, depending on
- Diameter / size adjustment This distribution of the fastening means or closure means in the fastening section also provides high variability.
- the fastening section is made from velor material.
- the fastening section extends over the entire length of the segment, in particular over the inside.
- Fastening section can in particular be designed as a loop component of a Velcro fastener (English: hook-and-loop fastener).
- Corresponding fastening means in particular in an arrangement at a free end of the respective segment, can in particular be designed as a hook / hook component, for example over a section of 10 cm.
- a / the fastening means, in particular textile extends
- Closure means of the effectively usable fastening section over a circumference of at least a factor of 4 or 1/3 times the number of circles Pi in relation to the respectively selected effective diameter, in particular on the respective segment up to 40% or 45% of the circumference. This extension also provides a high level of practicality.
- the cable pull has a free end, which at a free
- Length section with a length greater than the selected distance from one / the free end of the respective segment (in particular relative to the coupling on the bearing housing) can be coupled to at least one of the segments is. This arrangement relative to one another also has advantages in terms of accessibility and frequency of operation.
- the compression mechanism is integrated into the size adjustment mechanism or vice versa, in particular in that the compression mechanism engages at least one, preferably at least two / both segments of the medical device and is / is positioned by the respective segment.
- This functional integration also enables a particularly robust and useful concept.
- the compression mechanism can comprise a cable pull coupling, which at the same time also provides a counter bearing or a deflection for the respective segment.
- the relative angle section is opposite from
- Compression mechanism arranged, especially when used as intended in the sagittal plane. This makes it possible to ensure an advantageous degree of movement tolerance without impairing other functions of the device.
- the medical device is made up of two segments which are coupled / can be coupled to one another at their free ends in the relative angular section in a predefinable relative position (in particular can be coupled reversibly, in particular by means of textile closure means), in particular from two segments with at least approximately the same length.
- This at least two-part concept with accessibility from the front enables not only good movement tolerance properties but also simplified handling, e.g. when putting on / taking off the device. In particular, operation by the living being can also be facilitated.
- the device can e.g. can be opened and closed easily accessible at the front, especially without additional help from third parties.
- the relative angle section comprises a first coupling part, in particular in the form of a turntable, and a second coupling part, in particular in the form of a fixation for a / the turntable, with a reversible fastening means preferably being formed on the first coupling part, in particular a textile closure means.
- Rotation mechanism in the relative angular section has also proven to be advantageous in that the force distribution over the length and width of the device can be homogenized, in particular largely independent of the material or the rigidity or the width of the device.
- a design as a turntable also provides advantages with regard to the adaptability of the device, i.e. with regard to its variability, and can also optimize the wearing comfort and the medical-technical effect, in particular with regard to a continually optimal, completely flat contact with the body of the living being, if possible in all situations.
- the turntable has a diameter in the range from 40 to 60 mm, in particular with an effective diameter of integrated therein
- the individual components of the rotary coupling are preferred as flat disc or flat ring designed, in particular with a thickness in the range of only a few millimeters (single-digit millimeter range). This favors the functional integration into the segments, in particular in such a way that the wearing comfort or other medical-technical functions are not impaired.
- the angle tolerance unit in the Relativwinkelab is integrated as a swivel joint in adjacent segments, in particular over the entire height of the segments, in particular by welding, punching and / or hemming. This provides an advantageous embodiment both in terms of ergonomics and comfort and handling.
- the angle tolerance unit has the same type of fastening means in the relative angle section as the size adjustment mechanism, in particular textile fastening means in the form of a Velcro fastener. This also enables a further increase in variability.
- the angle tolerance unit provides a turning diameter of at least 4 cm, in particular at least 5 cm or at least 6 cm, in particular by means of a sliding pair with a minimum sliding diameter of 5 cm. This also provides advantages in terms of functional integration in the movement tolerance section.
- the angle tolerance unit is set up and arranged for a relative rotational movement of the segments about a pivot point which is arranged at least approximately in the sagittal plane. This also provides particularly good ergonomics and promotes full contact of the device on the body of the living being.
- the relative angle section is set up for a size variation of the effective diameter of the medical device, in particular by means of a corresponding fastening means for angle tolerance extending over a second minimum length section.
- At least three functions are integrated into the relative angle section, at least comprising the functions: angle tolerance by means of a rotary mechanism, size adjustment of the effective diameter, opening / closing of the medical device by means of a reversible
- the size adjustment mechanism can also optionally be provided at least partially by the relative angle section. It has been shown that the relative angular section can advantageously be provided by a swivel joint with the largest possible surface area with the largest possible coupling / fastening surface. In particular, it has proven to be advantageous to provide the relative angular section over the entire height or width (longitudinal dimension) of the medical device.
- the relative angle section can be designed at a free end of a segment of the medical device, in particular with a part designed as a semicircular free end, and the corresponding coupling section at the other segment to be coupled can also be designed, for example, as a semicircular free end
- Fastening sections can each extend over the entire available contact area.
- a secure coupling can also be provided by means of a Velcro fastener (textile fastener).
- the user recognizes that the free ends can be arranged or coupled to one another in an overlapping manner according to their diameter, and that an arrangement which overlaps to a greater extent can optionally also be selected, e.g. In order to be able to uncouple the medical device at the front during certain movements (e.g. when sitting down) and to couple it in a further relative arrangement (larger effective diameter) while sitting.
- a sliding pairing can be chosen in which no lubricant is required, e.g. a sliding pair made of two low-friction plastics.
- the individual coupling elements of the swivel joint can in particular be incorporated into the respective segment by means of welding, gluing, stamping and / or hemming.
- the medical device is designed as a multi-part belt. This favors e.g. also the handling and also facilitates the functional integration according to the invention.
- the medical device is formed exclusively from segments which are to be arranged in the circumferential direction around the body of the living being, in particular in a single transverse plane in a predefinable height position in relation to the pelvis of the living being.
- the medical device can be set up to be positioned and fixed on the body of the living being without shoulder straps or chest straps or other cross struts.
- the medical device is made up of only two belt parts which form the segments. This structure is particularly simple, easy to handle and also enables a particularly large adjustment range without requiring particularly complicated, sophisticated technical measures.
- the compression mechanism is integrated into the size adjustment mechanism in such a way that the compression force is set or adjusted by fine adjustment of the effective diameter.
- the fastening section (s) and / or fastening means of the medical device can be characterized or identified by at least one of the following parameters.
- tensile shear strength tear strength
- peel resistance in particular in relation to a design of the fastening means as a Velcro fastener.
- These characteristic parameters can also each define how large e.g. the fastening force should be.
- the (respective) fastening means can be optimally designed for the individual case via these parameters, e.g. regarding the strength of children, adolescents or adults.
- the fastening section is formed both on the outer surface and on the inner surface of the respective segment. Last but not least, this also favors the integration of functions and a / the interaction of the size adjustment mechanism, compression mechanism and
- three fastening functions are integrated into the fastening section: fastening a free end of the respective segment, fastening a free end of a / the pulling unit of the compression mechanism, fastening two segments to one another for coupling the segments, in particular in the movement tolerance section.
- a / the fastening means of the size adjustment mechanism and a / the fastening means of the compression mechanism are in series one behind the other in the longitudinal direction
- Fastening section can be coupled, in particular over a length section corresponding to at least a factor of 4 or 1/3 times the number of circles Pi in relation to the effective diameter, in particular on the respective segment in a length section of up to 35% or 45% of the circumference.
- This relative arrangement and the use of the fastening portion by at least two fastening means also provide a simple,
- the medical device is an orthosis, in particular
- Pelvic ring orthosis designed.
- the measures according to the invention can be particularly effective and have a particularly advantageous effect.
- ITEM1 The above-mentioned object is also achieved in particular by a medical device designed for flat contact with the body of a living being and designed for applying force to the pelvis of the living being, in particular designed for compressing the pelvic blades (pelvic symphysis and / or sacrum joint), in particular in the form of a belt , With:
- a size adjustment mechanism for setting the effective diameter of the medical device around the pelvis, a compression mechanism for applying a predefinable force to the pelvis of the living being, in particular with a pulley / cable mechanism, a fastening section coupled to the size adjustment mechanism designed for reversible fixing of a selected size for the effective diameter, a movement tolerance section set up for the movement-tolerant arrangement of length sections of the medical device relative to one another; wherein the size adjustment mechanism and the compression mechanism are coupled to at least one of at least two segments of the medical device and at least partially formed thereon, with at least one of the segments being individually adjustable in length by the fastening section extending over a minimum length of the (respective) segment that a
- Size adjustment of the effective diameter can be realized over the size spectrum of the respective living being, in particular at least over a pelvic circumference of 90cm to 130cm, especially in particular at least over a pelvic circumference of 80cm to 140cm; wherein the size adjustment mechanism and the compression mechanism each have at least one positionable fastening means which is designed to correspond to the fastening section, in particular each in an arrangement at a free end;
- a cable of the compression mechanism couples at least two of the segments to one another and positions them relative to one another in such a way that the medical device in connection with the individually set length of the respective segment is set up for force adjustment and also for size adjustment of the effective diameter over the size range of the respective Living being; wherein the effective diameter can be adjusted by means of the size adjustment mechanism at least by a factor of 1.5 or 1.75 or 2, in particular by a factor of at least 1.75; wherein the respective segment in the fastening section has a / the positionable fastening means in the form of a textile fastener, in particular a Vel
- a medical device designed for flat contact with the body of a living being and designed for applying force to the pelvis of the living being, in particular designed for compressing the pelvic blades (pelvic symphysis and / or sacrum joint), in particular in the form of a belt ,
- a size adjustment mechanism for setting the effective diameter of the medical device around the pelvis a compression mechanism for applying a predefinable force to the pelvis of the living being, in particular with a pulley / cable mechanism, a fastening section coupled to the size adjustment mechanism designed for reversible fixing of a selected size for the effective diameter, a movement tolerance section set up for the movement-tolerant arrangement of length sections of the medical device relative to one another; the movement tolerance section being configured as a Relativwinkelab section for the angularly tolerant arrangement of the length sections relative to one another, the medical device having a plurality of segments, of which at least two in the relative angular section
- Compression mechanism is arranged, especially when used as intended in the sagittal plane; wherein the medical device is constructed from two segments which are coupled / can be coupled to one another at their free ends in the relative angular section, in particular from two segments with at least approximately the same length; wherein the relative angle section comprises a first coupling part in the form of a turntable and a second coupling part in the form of a fixation for the turntable.
- ITEM3 The above-mentioned object is also achieved in particular by a medical device set up for flat contact with the body of a living being and set up for applying force to the pelvis of the living being, in particular set up for compressing the pelvic blades (pelvic symphysis and / or sacrum joint), in particular in the form of a belt , with a
- a compression mechanism for applying a / the predefinable force to the pelvis of the living being, in particular with a pulley / cable mechanism, a fastening section coupled to the size adjustment mechanism set up for reversibly determining a selected size for the effective diameter, a movement tolerance section set up for a movement-tolerant arrangement of Length sections of the medical device relative to one another; wherein the size adjustment mechanism and the compression mechanism are coupled to at least one of at least two segments of the medical device and at least partially formed thereon, wherein at least one of the segments is individually adjustable in length in that the fastening section extends over a minimum length of the (respective) segment that a
- Size adjustment of the effective diameter can be realized over the size spectrum of the respective living being, in particular at least over a pelvic circumference of 90 cm to 130 cm, especially in particular at least over a pelvic circumference of 80cm to 140cm; wherein the size adjustment mechanism and the compression mechanism each have at least one positionable fastening means which is designed to correspond to the fastening section, in particular each in an arrangement at a free end;
- a cable of the compression mechanism couples at least two of the segments to one another and positions them relative to one another in such a way that the medical device in connection with the individually set length of the respective segment is set up for force adjustment and also for size adjustment of the effective diameter over the size range of the respective Living being; wherein the effective diameter can be adjusted by means of the size adjustment mechanism at least by a factor of 1.5 or 1.75 or 2, in particular by a factor of at least 1.75; wherein the respective segment in the fastening section has a / the positionable fastening means in the form of a textile fastener, in particular a Velcro fast
- Relative angle section is designed for the angularly tolerant arrangement of the length sections relative to one another, the medical technology device having a plurality of segments, of which at least two in the relative angle section can be connected / connected to one another rotatably relative to one another by an angular tolerance unit, in particular comprising a swivel joint, so that pivoting of the rotatably mounted segments is ensured relative to one another in at least one degree of freedom, in particular comprising a pivoting movement about an axis lying in the sagittal plane, wherein the
- Relative angular section is arranged opposite the compression mechanism, in particular when used as intended in the area of the sagittal plane; wherein the medical device is constructed from two segments which are coupled / can be coupled to one another at their free ends in the relative angular section, in particular from two segments with at least approximately the same length; wherein the relative angle section comprises a first coupling part in the form of a turntable and a second coupling part in the form of a fixation for the turntable.
- the effective diameter of the medical device is set by means of a size adjustment mechanism
- Compression mechanism takes place,
- the setting of the diameter and the application of the force take place in that a steplessly positionable fastening means on the one hand of the size adjustment mechanism and on the other hand of the compression mechanism are reversibly fixed in one / the same fastening section of the medical device, in particular at different circumferential positions, the
- Fastening section extends over a minimum length, so that the size and force adjustment is realized over the size spectrum of the respective living being, namely at least over a pelvic circumference of 90cm to 130cm, in particular at least over a pelvic circumference of 80cm to 140cm.
- the aforementioned advantages can be realized, in particular in connection with or in relation to the use of only a single unit size of the device.
- Size adjustment mechanism and for the compression force adjustment mechanism are integrated into the device, in particular actuators set up to apply a tensile force.
- energy stores coupled thereto can also be integrated into the device.
- a data memory can also be provided in which e.g. the course of force measurement values can be written so that e.g. the medical-technical effect exerted on the living being over a certain period of time can be monitored.
- the data can e.g. read out or shown on a display unit.
- the effective diameter of the medical device is set by means of a size adjustment mechanism
- a movement-tolerant arrangement of length sections of the medical device relative to one another takes place in a movement tolerance section
- the setting of the diameter and the application of the force take place in that a steplessly positionable fastening means on the one hand of the size adjustment mechanism and on the other hand of the compression mechanism is reversibly fixed in one / the same fastening section of the medical device, in particular at different circumferential positions, with at least two segments of the medical device be stored in the movement tolerance section in an angularly tolerant arrangement relative to one another by means of an angular tolerance unit, in particular in one Rotary joint that a pivoting of the pivoted segments relative to each other in at least one
- Degree of freedom takes place, in particular comprising a pivoting movement about an axis lying in the sagittal plane.
- the aforementioned advantages can be realized, in particular in connection with or in relation to particularly simple handling (opening / closing vome) and a particularly advantageous fit and large-area medical technology effect.
- the effective diameter of the medical device is set by means of a size adjustment mechanism
- a movement-tolerant arrangement of length sections of the medical device relative to one another takes place in a movement tolerance section
- the setting of the diameter and the application of the force take place in that a steplessly positionable fastening means on the one hand of the size adjustment mechanism and on the other hand of the compression mechanism are reversibly fixed in one / the same fastening section of the medical device, in particular at different circumferential positions, the
- Fastening section extends over a minimum length, so that the size and force adjustment over the size spectrum of the respective living being is realized at least over a pelvic circumference of 80cm to 140cm; furthermore
- Compression mechanism is reversibly fixed in one / the same fastening section of the medical device, in particular at different circumferential positions, with at least two segments of the medical device being mounted in the movement tolerance section in an angle tolerant arrangement relative to one another by means of an angle tolerance unit, in particular in one
- Degree of freedom takes place, in particular comprising a pivoting movement about an axis lying in the sagittal plane.
- the force applied is recorded, in particular by means of a measuring device integrated in the bearing housing of the size adjustment mechanism, with a predefinable maximum force threshold value being exceeded a signal is generated by means of a signal transmitter. Last but not least, this can also facilitate handling by laypeople or avoid incorrect operation with potentially disadvantageous medical consequences for the living being.
- the medical device in flat contact with the body of a living being and for compressing the pelvic blades or pelvic symphysis of the living being, wherein the medical device has at least two segments in which a size adjustment mechanism and a compression mechanism and a movement tolerance section are integrated in such a way that the segments during the force - and size adjustment are each adjusted in length and are / are coupled to a cable for applying the compression force, the length of the respective segment being fixed / defined on a fastening section which extends over the length of the respective segment in such a way that a size adjustment of the effective diameter can be realized over the (entire) size spectrum of the living being, namely at least over a pelvic circumference of 80cm to 140cm.
- the aforementioned advantages can be realized, in particular in connection with or in relation to the first aspect of the invention.
- the above-mentioned object is also achieved in particular by using a medical device, in particular a medical device described above, in flat contact with the body of a living being and for compressing the pelvic blades or pelvic symphysis of the living being, in particular in the form of a pelvic ring orthosis, the medical device at least has two segments, in which a size adjustment mechanism and a compression mechanism and a movement tolerance section are integrated in the form of a relative angle section in such a way that the medical device is used for an angle-tolerant arrangement of the segments relative to one another, the segments in the relative angle section by an angle tolerance unit comprising a swivel joint, relative be connected to one another rotatably, in particular reversibly detachable from one another by means of textile closure means.
- a medical device in particular a medical device described above, in flat contact with the body of a living being and for compressing the pelvic blades or pelvic symphysis of the living being, in particular in the form of
- the above-mentioned object is also achieved in particular by using a medical device, in particular a medical device described above, in flat contact with the body of a living being and for compressing the pelvic blades or pelvic symphysis of the living being, in particular in the form of a pelvic ring orthosis, the medical device at least has two segments in which a size adjustment mechanism and a compression mechanism and a movement tolerance section are integrated in the form of a relative angle section in such a way that, on the one hand, the length of the segments is set in the force and size setting and the length of the respective segment is fixed / defined on a fastening section which extends over the length of the respective segment in such a way that a size adjustment of the effective diameter over the
- the size spectrum of the living being can be realized, in particular at least over a pelvic circumference of 80cm to 140cm, and that on the other hand the medical device is used for an angularly tolerant arrangement of the segments relative to one another, the segments being rota
- a medical device in the form of a pelvic ring orthosis set up for flat contact with the body of a living being and set up for applying force to the pelvis of the living being, and set up for compressing the pelvic blades in particular the medical device described above, manufactured by
- Size adjusting mechanism for adjusting the effective diameter of the medical device is integrated / is, and further manufactured by forming and arranging at least one
- Fastening section can be determined and the segments are individually adjustable in length, whereby the effective diameter can be adjusted over the size spectrum of the respective living being, namely at least over a pelvic circumference of 90cm to 130cm, in particular at least over a pelvic circumference of 80cm to 140cm.
- the aforementioned advantages can be realized, in particular in connection with or in relation to the use of a single medical device in a unit size, with the simplest possible handling.
- seaming and / or punching can be used for production, in particular when connecting fastening means and belt material, optionally also sewing, clamping and / or welding and / or gluing.
- hemming and / or punching can be used for production, in particular when connecting fastening means and coupling components, optionally also sewing and / or welding and / or gluing.
- the above-mentioned object is also achieved in particular by a medical device set up for flat contact with the body of a living being and set up to act on the pelvis of the living being and set up to compress the pelvic blades, in particular in
- Design as a pelvic ring orthosis in particular the medical device described above, produced by forming and arranging at least one fastening section over a minimum length on at least one respective segment or length section of the medical device in such a way that both a compression mechanism and a size adjustment mechanism can be continuously reversibly locked on the fastening section and thereby the segment or the length section is individually adjustable in length, the size of the effective diameter of the medical device being able to be adjusted over the size spectrum of the respective living being, in particular at least over a pelvic circumference of 90cm to 130cm, especially in particular at least over a pelvic circumference of 80cm to 140cm; and further made by forming and arranging one
- Movement tolerance section set up for a movement-tolerant arrangement of at least two
- Length sections or segments of the medical device relative to each other at the segments or length sections, namely at free ends of the segments, the movement tolerance section being configured as a relative angle section for the angle-tolerant arrangement of the segments or length sections relative to one another by inserting an angle tolerance unit, in particular a swivel joint, into the Relative angle section is integrated that the segments or length sections are rotatably connected to one another and that pivoting of the pivoted segments or length sections is ensured relative to one another in at least one degree of freedom, including a pivoting movement about an axis lying in the sagittal plane.
- welding, punching, gluing and / or hemming or sewing can be used for the production, in particular using velor or Velcro material for the fastening sections.
- the ventral coupling is opened and the belt is placed around the living being; After closing the ventral coupling, the length can be adjusted in conjunction with the adjustment of the
- Compression force can take place roughly via at least one of the segments (in particular component 14), and finely via the cable pull or via the pulling unit (in particular component 22).
- the belt is relaxed via the cable pull, and optionally at least one of the segments is opened or released; as a result, the force applied can already be reduced in such a way that the ventral coupling can be opened.
- a particularly fine adjustment can be made using the cable; a rather coarse size adjustment can be made via the ventral coupling (formed by adjacent free ends of the segments) and / or by repositioning the respective free end on the corresponding segment.
- the present medical device according to the invention in an identical or at most slightly modified configuration for a large number of different living beings, e.g. can be provided over a comparatively large range of sizes and can advantageously be operated easily.
- the advantages of an optimized fit of the device on the body of the living being can primarily be realized, and also the advantages of optimized handling, in particular in combination with one another.
- FIGS. 1A, 1B, IC, ID, IE, 1F, IG, 1H, 1J, 1K in different overall views and in detailed views, each in a schematic representation of a medical device according to an exemplary embodiment
- Movement tolerance section of a medical device according to one of the exemplary embodiments.
- a medical device 100 comprises a belt device 10 with a first segment 11 and a second segment 12, each of which has a free end 13 on which a manual
- Point of attack 14 or a manual contact surface or a manual attack element (for example a tab made of comparatively hard, slightly pre-bent plastic) is provided.
- the respective segment has a Inner surface 16 or inner side and an outer surface 17 or outer side, each of which is assigned an adjustment or fastening functionality. An adjustment can in particular be indicated in the
- Length sections 18 take place, depending on the individual (length) setting of the belt device.
- a size adjustment can take place by means of positionable fastening means 15, wherein the fastening means can in particular be steplessly positionable, in particular in the form of a textile closure means, in particular as part of a Velcro fastener.
- the segments extend essentially in the longitudinal direction x, in which a size adjustment (effective length of the belt) can also take place.
- a size adjustment mechanism 20 (or diameter adjustment mechanism or mechanism for adjusting the effective length of the segments) is implemented together with a compression mechanism 20a on a dorsal side of the device 100 and comprises a plurality of deflections 21 per segment, the deflections 21 e.g. low-friction bearings can be provided by rollers or the like, which can each be enclosed in a bearing housing 27.
- a traction means 26 in particular a rope
- a compression force can be applied and dosed by pulling on a traction unit 22 so that a force transmission can be provided by means of at least one rope pull 21a.
- the pulling unit can have a free end 23 with a manual point of application 24, e.g. provided by a ring.
- the cable pull is moved essentially orthogonally to the transverse direction y, or the force exerted by the cable pull acts essentially orthogonally to the transverse direction y in the arrangement shown in FIG. 1A.
- the cable pull is also guided over the free end 13 of the first (or optionally the second) segment.
- the free end 13 can also have a guide edge (radius or bead or elevation) over which the cable 26 e.g. can be guided in the y-direction.
- a positionable fastening means 25 for force / size adjustment can be integrated into the pulling unit 22, in particular continuously positionable, in particular in the form of a textile closure means.
- a coupling 28 for one of the segments is provided on the respective bearing housing 27, in particular in the form of a rod or a roller mounted on rotation (rotation axis or deflection axis in y-orientation).
- a measuring device 29, in particular with a force sensor, can be provided in the area of the cable pull on the bearing housing and comprise a signal transmitter 29a, in particular for the purpose of at least partially automated
- an adjustment actuator can be provided which keeps the tensile force at a predefinable minimum level.
- Each segment has a comparatively elongated fastening section 30 which is set up for a comparatively large variation in length.
- the fastening section 30 preferably extends both on the inside and on the outside of the respective segment, in particular over the entire length of the segment.
- corresponding fastening means 35 can be provided for size adjustment (in particular textile fastening means, in particular provided on the outside), and on the other hand, corresponding fastening means 39 for an optional
- Angular tolerance in particular textile closure means, in particular provided on the inside. In this way, great variability can also be ensured, in particular with regard to a unit size of the device 100.
- a rotary coupling can be provided by means of which a movement tolerance by one
- Pivot axis Z or a pivot angle a is provided. This aspect of a movement tolerance about an axis of rotation can be explained by referring to reference numbers 40ff. be explained: a
- Movement tolerance section 40 or a movement tolerance unit (also referred to here as a relative angle section) comprises an angle tolerance unit 41, in particular in the form of a swivel joint, with a first coupling part 42, in particular in the form of a turntable, and with a second coupling part 43, in particular in the form of a fixation for one / the turntable.
- the segments can be positioned relative to one another on fastening means 49, in particular in the form of a textile closure means, which can extend over the (almost entire) surface of the rotary plate 42.
- Fig. Lff. an exemplary embodiment is shown which provides a maximum size adjustment range and can be provided, for example, in a single unit size. From the Fig. Lff. it can be seen that the fastening sections 35, 39 together can form a ventral coupling via which the device can also be put on / taken off. The coupling takes place in particular by means of textile closure means such as e.g. Velcro fastener.
- Fig. 1A top view the device 100 is shown in a basic setting: a first of the free ends of the respective segment is fixed to the corresponding segment in a desired relative position to define the effective length of the device, and the pulling unit 22 is also on the Fixed outside of one of the segments. The respective second free end of the respective segment is not yet coupled to the corresponding free end.
- the fastening section 35 extends essentially over the entire length of the segments and is defined by the fastening means 35.
- Fig. 1B bottom view
- the fastening section also extends over the inside and is defined by the fastening means 35, 39 (in particular Velcro).
- Fig. IC side view
- the exposed free ventral ends of the segments taper off flat.
- the inside of one free end can be ventral to the outside of the other free end Form coupling.
- the fastening means 35, 39 are provided over a large length section, the size can optionally also be adjusted by means of this coupling.
- a slight curvature of the bearing housing 27 radially outwards, that is to say a convexity in the lateral direction, can further optimize the ergonomics and comfort as well as the power transmission.
- Corresponding fastening means 15, 25 are provided on the underside of the engagement elements 14, 24 or on the underside of the pulling unit 22.
- FIG. ID shows a / the slight convex curvature of the bearing housing 27 radially outwards.
- FIG. IE perspective front view
- the cable pull being guided to only one of the segments by means of the pulling unit 22 and being fastened there.
- two pulling units can be provided on both sides for operation on both segments.
- Fig. 1F the completely textile interior is shown; for example, velor is provided, with the inside also being able to be designed entirely as a fastening section.
- FIGS. IG, 1H (perspective front and rear view), one of the free ends of a segment is shown in detail with a view of the outside (FIG. IG) and a view of the inside (FIG. 1H).
- the free end is rounded, with a radius at least approximately corresponding to half the width of the segment.
- FIG. 1J perspective view in the ventral direction
- FIG. 1K perspective view in the dorsal direction
- the two ventral ends of the segments are coupled to one another in a minimally overlapping manner, that is to say in such a way that the effective diameter of the device can optionally be as large as possible.
- the symbol shown on the two bearing housings corresponds to an optional logo (not shown in the other figures), without any further technical function.
- Figs. 2ff. shows an embodiment with a rotation tolerant ventral coupling.
- FIGS. 2A, 2B, 2C, 2D, 2E, 2F, 2G, 2H, 2J, 2K correspond to those in FIGS. 1ff.
- 2J indicates the axis Z for the relative rotational movement on the ventral rotary coupling 45 or in the angular tolerance unit 41.
- FIGS. 2ff Additional features shown, in particular relating to the ventral swivel joint, can also be used without the in connection with FIGS. features already described regarding size adjustment or unit size can be realized.
- the angle tolerance unit 41 is described in more detail in FIGS. 3A, 3B, 3C.
- Fig. 3 A shows a coupled state in plan view.
- 3B, 3C each show a detailed sectional view of the individual components of the textile rotary coupling 45 formed in the angular tolerance unit 41 Segment stored at the free end.
- the turntable 42 is arranged more or less at the very end of the segment, which is also advantageous in terms of ergonomics.
- a bearing surface 42.1 for a relative rotary movement is provided on the turntable 42, and a corresponding bearing surface 43.1 is provided on the fixation 43 for the relative movement.
- the bearing surfaces can, for example, be designed from a friction-minimized, sliding material pairing, for example from plastic.
- an angle-tolerant rotary coupling 45 is formed with textile closure means.
- traction means especially rope (compression mechanism or rope pull)
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- Nursing (AREA)
- Orthopedic Medicine & Surgery (AREA)
- Engineering & Computer Science (AREA)
- Biomedical Technology (AREA)
- Heart & Thoracic Surgery (AREA)
- Vascular Medicine (AREA)
- Life Sciences & Earth Sciences (AREA)
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Abstract
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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DE102019115325.5A DE102019115325B4 (de) | 2019-06-06 | 2019-06-06 | Medizintechnische Vorrichtung zur Krafteinwirkung auf das Becken des Lebewesens sowie Herstellungsverfahren |
PCT/DE2020/100469 WO2020244713A1 (fr) | 2019-06-06 | 2020-06-04 | Dispositif médical destiné à exercer une force sur le bassin d'un être vivant, procédé associé et utilisation |
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EP3979956A1 true EP3979956A1 (fr) | 2022-04-13 |
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EP20740507.7A Pending EP3979956A1 (fr) | 2019-06-06 | 2020-06-04 | Dispositif médical destiné à exercer une force sur le bassin d'un être vivant, procédé associé et utilisation |
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EP (1) | EP3979956A1 (fr) |
DE (1) | DE102019115325B4 (fr) |
WO (1) | WO2020244713A1 (fr) |
Family Cites Families (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US5830168A (en) | 1997-02-18 | 1998-11-03 | Orthomerica Products, Inc. | Orthopedic hip support with multi-positional joints |
US7083584B2 (en) * | 1999-01-21 | 2006-08-01 | Hipbolt Orthopedic Systems, Inc. | Pelvic bracing system |
US6676620B2 (en) | 2000-12-05 | 2004-01-13 | Orthomerica Products, Inc. | Modular orthosis closure system and method |
IL145205A0 (en) | 2001-08-30 | 2002-06-30 | Pelvic fracture immobilizer | |
US20050043660A1 (en) * | 2003-03-31 | 2005-02-24 | Izex Technologies, Inc. | Orthoses |
KR20090055617A (ko) * | 2006-09-07 | 2009-06-02 | 코알라 헬시 액세서리 엘티디. | 골반 고정 받이 |
US20100292622A1 (en) * | 2009-05-18 | 2010-11-18 | Andrea Carol Weissleder | Hip brace and hip brace kit |
US20140316319A1 (en) | 2013-04-23 | 2014-10-23 | Edward Bannister | Pelvic compression positioning device and method of use |
CH711550A2 (en) | 2015-09-18 | 2017-03-31 | Ortho-Team AG | Orthosis for pelvic stabilization. |
-
2019
- 2019-06-06 DE DE102019115325.5A patent/DE102019115325B4/de active Active
-
2020
- 2020-06-04 EP EP20740507.7A patent/EP3979956A1/fr active Pending
- 2020-06-04 WO PCT/DE2020/100469 patent/WO2020244713A1/fr active Application Filing
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DE102019115325B4 (de) | 2023-06-15 |
DE102019115325A1 (de) | 2020-12-10 |
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