EP3670714B1 - Elektrospinnsystem und verfahren zur massenfertigung von ausgerichteten 3d-fasermatrizen - Google Patents
Elektrospinnsystem und verfahren zur massenfertigung von ausgerichteten 3d-fasermatrizen Download PDFInfo
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- EP3670714B1 EP3670714B1 EP19217414.2A EP19217414A EP3670714B1 EP 3670714 B1 EP3670714 B1 EP 3670714B1 EP 19217414 A EP19217414 A EP 19217414A EP 3670714 B1 EP3670714 B1 EP 3670714B1
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Images
Classifications
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- D—TEXTILES; PAPER
- D01—NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
- D01D—MECHANICAL METHODS OR APPARATUS IN THE MANUFACTURE OF ARTIFICIAL FILAMENTS, THREADS, FIBRES, BRISTLES OR RIBBONS
- D01D5/00—Formation of filaments, threads, or the like
-
- D—TEXTILES; PAPER
- D04—BRAIDING; LACE-MAKING; KNITTING; TRIMMINGS; NON-WOVEN FABRICS
- D04H—MAKING TEXTILE FABRICS, e.g. FROM FIBRES OR FILAMENTARY MATERIAL; FABRICS MADE BY SUCH PROCESSES OR APPARATUS, e.g. FELTS, NON-WOVEN FABRICS; COTTON-WOOL; WADDING ; NON-WOVEN FABRICS FROM STAPLE FIBRES, FILAMENTS OR YARNS, BONDED WITH AT LEAST ONE WEB-LIKE MATERIAL DURING THEIR CONSOLIDATION
- D04H1/00—Non-woven fabrics formed wholly or mainly of staple fibres or like relatively short fibres
- D04H1/70—Non-woven fabrics formed wholly or mainly of staple fibres or like relatively short fibres characterised by the method of forming fleeces or layers, e.g. reorientation of fibres
- D04H1/72—Non-woven fabrics formed wholly or mainly of staple fibres or like relatively short fibres characterised by the method of forming fleeces or layers, e.g. reorientation of fibres the fibres being randomly arranged
- D04H1/728—Non-woven fabrics formed wholly or mainly of staple fibres or like relatively short fibres characterised by the method of forming fleeces or layers, e.g. reorientation of fibres the fibres being randomly arranged by electro-spinning
-
- D—TEXTILES; PAPER
- D01—NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
- D01D—MECHANICAL METHODS OR APPARATUS IN THE MANUFACTURE OF ARTIFICIAL FILAMENTS, THREADS, FIBRES, BRISTLES OR RIBBONS
- D01D5/00—Formation of filaments, threads, or the like
- D01D5/0007—Electro-spinning
- D01D5/0061—Electro-spinning characterised by the electro-spinning apparatus
-
- D—TEXTILES; PAPER
- D01—NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
- D01D—MECHANICAL METHODS OR APPARATUS IN THE MANUFACTURE OF ARTIFICIAL FILAMENTS, THREADS, FIBRES, BRISTLES OR RIBBONS
- D01D5/00—Formation of filaments, threads, or the like
- D01D5/0007—Electro-spinning
- D01D5/0061—Electro-spinning characterised by the electro-spinning apparatus
- D01D5/0069—Electro-spinning characterised by the electro-spinning apparatus characterised by the spinning section, e.g. capillary tube, protrusion or pin
-
- D—TEXTILES; PAPER
- D01—NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
- D01D—MECHANICAL METHODS OR APPARATUS IN THE MANUFACTURE OF ARTIFICIAL FILAMENTS, THREADS, FIBRES, BRISTLES OR RIBBONS
- D01D5/00—Formation of filaments, threads, or the like
- D01D5/0007—Electro-spinning
- D01D5/0061—Electro-spinning characterised by the electro-spinning apparatus
- D01D5/0076—Electro-spinning characterised by the electro-spinning apparatus characterised by the collecting device, e.g. drum, wheel, endless belt, plate or grid
Definitions
- This invention relates to a continuous electrospinning system and process for the production of three-dimensional matrices of aligned polymeric fibres.
- the present invention has been applied in various areas, in the manufacture of products or structures, at the nanometric scale, which depend on the high surface area, such as biotechnology, pharmaceuticals, research, tissue engineering and medicine, particularly in regenerative medicine, such as cell therapy, cartilaginous and related tissue production, especially for the replacement and strengthening of joints.
- nanomaterials associated with the different possibilities of morphologies and functionalities reveal a series of possibilities for new fields of application and drive the progress in the processing of these nanostructures.
- the electrospinning or electrostatic spinning method is very advantageous, since the fibres obtained with this technique have a high surface area, combined with a low production cost and the possibility of being formed from a wide variety of polymers or composites.
- This technique is based on the application of high voltage (5-50 KV) and low current (0.5-1 ⁇ A) electric fields for the production of very small diameter fibres. In this process, the electrostatic forces control the formation and deposition of these fibres.
- the key configuration of a generic electroplating process consists of a syringe, where the molten polymer or polymeric solution is introduced, which is connected to a capillary tube, a diffuser pump, which controls the flow of the polymeric solution to be supplied, so that a drop of solution is always maintained at the tip of the capillary tube, a metal collector, maintained at zero potential (grounded), where the fibres produced will be collected, a high voltage source, responsible for producing a difference in potential between the tip of the capillary tube and the collector.
- a high voltage source responsible for producing a difference in potential between the tip of the capillary tube and the collector.
- the balance of electrostatic charges to which the droplet is subjected namely the surface tension force of the solution and the force exerted by the applied electric field, begins to suffer an imbalance and, from a certain critical value of electric field, a jet of polymeric material from the capillary tube is projected and accelerated towards the collector.
- the jet with the polymeric solution suffers evaporation of a large part of its solvent, thus ensuring that the fibres formed have enough rigidity to support their own weight.
- the solvent that remains in the solution such as moisture, allows the adhesion of one fibre to another, as they are deposited in layers, forming a non-woven web.
- the electrospun fibres form a two-dimensional, randomly oriented blanket or fabric due to the instability of the jet path.
- Oriented fibre networks have the possibility of developing anisotropic properties in materials. These relationships are quite obvious in the field of tissue engineering.
- Typical examples include the production of polymeric meshes, containing aligned fibres, used as substrates for culture and regeneration of neural cells, due to the inherently anisotropic nature of nerves and their regenerative mechanisms.
- the scaffold material has a three-dimensional structure of controlled porosity, so that it is possible to develop three-dimensional cell construction at the full depth of the matrix.
- This assembly system is the collector for production of fibre matrices, whose system comprises electrodes arranged in a 90° separated plane. The operation is based on the connection of the ground terminal to the electrodes arranged in the same line. The electrospun fibres are collected between the electrodes, which are connected to ground, and this connection is alternated between the pairs of electrodes with defined time intervals, allowing the formation of a mesh with layers of fibres with different arrangements ( Li, et al., Adv. Matter, 2004, 16:4, 361 ) .
- document US20110018174A1 discloses the production of aligned electrospun fibres, with location and orientation control of the fibres, using for this purpose a device that provides a voltage depending on the selected time, whereby that voltage is applied to a collector with multiple electrodes.
- said document does not disclose a process capable of forming a three-dimensional matrix of aligned fibres in any desired thickness.
- the present invention proposes to solve the problems of the state of the art above described, through the implementation of a system and process of production of three-dimensional matrices of aligned polymeric fibres, which can present several patterns of fibre alignment, along the thickness of the matrix, being this thickness dependent on the number of layers of deposited fibres, the thickness of fibres and the degree of compaction between layers.
- This invention relates to a continuous electrospinning system and process for the production of three-dimensional matrices of aligned polymeric fibres.
- three-dimensional matrices of aligned polymeric fibres occurs when one or more pairs of electrodes are exposed to the electrospinning capillary tube, thereby creating a layer of two-dimensional aligned fibres, on which are successively deposited, other layers formed by exposure of one or more pairs of electrodes to the capillary tube, accompanied, subsequently, by controlled movement away from the central collecting table of the capillary tube, after each layer of deposited fibres, in accordance with the claim 1.
- the process of the present invention allows the production of three-dimensional matrices of aligned polymeric fibres, which can present several patterns of fibre alignment along the thickness of the matrix, being this thickness dependent on the number of deposited fibre layers, fibre thickness and the degree of compaction between layers, in accordance with the claim 7.
- the produced matrices are used in various areas, such as biotechnology, pharmaceuticals, research, tissue engineering and medicine, in particular regenerative medicine, such as cell therapy and the production of cartilaginous and related tissue, in particular for joint replacement and strengthening, in accordance with the claim 9.
- the process of the present invention by using the proposed electrospinning system, has the additional advantage of being versatile, simple, inexpensive and working in a continuous mode, therefore not being necessary to produce series of layers with a certain alignment and to proceed to add other layers, with different alignment, to obtain three-dimensional matrices of polymeric fibres aligned with different patterns of fibre alignment and different thicknesses.
- the system of the present invention comprises an electrospinning capillary tube, a set of multi-electrodes, in which each electrode presents a controlled movement of exposure or retraction- occultation in relation to the electrospinning tube, and a central collecting table of the electrospun fibres, which comprises holes subject to vacuum pressure, with the possibility of regulating the distance between the electrospinning capillary tube and the electrodes in exposure position, and with controlled movement, towards the capillary tube axis, in accordance with the claim 12.
- the system of the present invention through the controlled movement of exposure or retraction-occultation of the electrodes, in relation to the electrospinning tube, with controlled vacuum production applied to the holes of the central collecting table, allows to secure the fibres to the table, as well as to achieve a certain degree of compaction (and consequently porosity in vertical direction) necessary for certain uses of the fibres.
- the controlled downward movement of the table allows the formation of three-dimensional aligned fibre structures.
- This invention relates to a system and a continuous electrospinning process for the production of three-dimensional matrices of aligned polymeric fibres, in particular for tissue engineering, with the possibility of producing several patterns of fibre alignment along the thickness of the matrix forming three-dimensional structures with controlled thicknesses.
- the system of the present invention comprises a module of fibre formation, which can consist basically of a syringe to contain a polymeric solution, connected to an injection pump, connected to a electrospinning capillary tube, which is connected to a voltage source, configured to provide positive polarity, the referred module is aligned longitudinally with the peripheral support in insulating material in which they are inserted longitudinally in holes in its multi-electrode surface, each electrode being provided with individual movement controlled towards the axis of the electrospinning capillary tube, with two positions, an exposure position and a retraction-occultation position with respect to the electrospinning capillary tube, as well as the possibility of selective activation of the negative polarities of these electrodes, when these electrodes are in the exposed position with respect to the electrospinning capillary tube, the alignment and distribution of these electrodes in the peripheral support delimit the area and shape of the central fibre collecting table.
- the fibre of polymeric material formed by electrospinning from the capillary tube with positive polarity, moves by the action of an electric field towards a collector module, which consists of a peripheral support in insulating material where are inserted longitudinally multi-electrodes and each electrode equipped with controlled movement towards the axis of the electrospinning capillary tube allowing its exposure or retraction-occultation with respect to the electrospinning capillary tube, a central collecting table delimited by the peripheral support of the multi-electrodes which consists of the region of accumulation of the electrospun fibres integrating these holes which extend from its upper surface to the inside of the chamber being this chamber connected to a vacuum pump with pressure control, this central collecting table has controlled movement towards the axis of the capillary tube allowing its separation or approach to the electrospinning capillary tube.
- peripheral support of the multi-electrodes and the central collecting table are mounted on a fixed platform where the length-adjustable bracket of the electrospinning capillary tube is placed, allowing the distance between the electrospinning capillary tube and the multi-electrodes to be adjusted.
- the exposure and retraction-occultation movement of the electrodes inserted into holes in the peripheral support to the electrospinning capillary tube results from a controlled electromagnetic force that develops at the end of the opposite electrode the upper surface of the peripheral support by the action of magnetic flux between a permanent magnet attached to the electrode and a fixed induction coil in the lower region of the peripheral support.
- Fibre flow is deposited and aligned when one or more electrode pairs are held in the exposure position with respect to the electrospinning capillary tube, and their respective negative polarities are activated, according to the intended fibre deposition orientation, thus forming an aligned two-dimensional fibre layer.
- the controlled movement away from the upper surface of the central collecting table of the electrospinning capillary tube, after each two-dimensional layer of aligned fibres has been deposited, allows the accumulation of successive fibre layers on the central collecting table thus allowing the formation of a three-dimensional fibre matrix structure in which its thickness is dependent on the number of layers of two-dimensional deposited fibres, the fibre thickness and the degree of intended compaction between layers by the vacuum system action.
- the successive two-dimensional layers of deposited fibres in the collector module, according to the referred electrospinning process, are kept in position in the central collecting table, between the multi-electrodes, by the action of vacuum generated in the holes of the upper surface of the central collecting table that communicate with a chamber connected to the vacuum pump inside it.
- the pressure control in the vacuum pump also has the purpose of controlling the degree of compaction between the two-dimensional fibre layers formed and so the porosity in the perpendicular direction to the plane of the deposited fibre layer.
- Control of the distance between the electrospinning capillary tube with positive polarity and the collector module, control of the exposure and retraction-occultation movements of the electrodes with negative polarity with regard to the electrospinning capillary tube, control of the movement of the upper surface of the central collecting table in reference to the electrospinning capillary tube, control of the negative polarity applied to the multi-electrodes and the control of the vacuum pump pressure are carried out by a computerised control unit which, depending on the fibre alignment intended for each two-dimensional layer deposited and the thickness of the matrix, program the sequence of all the movements, vacuum pressure and polarity of the necessary electrodes based on a computer program developed for that purpose.
- This invention has the ability to form matrices of aligned fibres of any thickness in continuous and with any alignment pattern along that thickness, because it combines different technical particularities, among them we highlight the use of multi-electrodes distributed spatially with the possibility of individual and controlled movements of exposure and retraction-occultation to the electrospinning capillary tube, thus allowing the possibility of controlling the alignment of deposited fibres, the support and deposit of the fibres on the central collecting table and the separation of the fibres from the ends of the electrodes during the retraction movement, the surface of the collecting table being provided with holes subject to vacuum pressure, which on one hand allow the fibres to be fixed to the table and also allow the control of the degree of compaction (porosity) between the different layers of deposited fibres, this capacity being also associated with the movement of the collecting table away from the electrospinning capillary tube, thus allowing the successive deposit of aligned fibre layers to the intended thickness.
- Electrospinning system for the production of three-dimensional matrices of aligned polymeric fibres
- the system of the present invention comprises, in a broad sense:
- the system of the present invention also comprises a permanent magnet, attached to each of the electrodes, to generate the forces of attraction and repulsion between the ends of the electrodes and the electromagnetic coils, also present in the system, a computerized control unit and the electronics necessary for its proper operation, actuators, including the actuator of the linear movement of the central collecting table, as well as all the electrical wiring for distribution of energy to the various components of the system.
- system (1) of this invention comprises:
- the electrospinning system (1) comprising the fibre (2) of polymeric material formed by electrospinning from the capillary tube (3) with positive polarity moves by the action of an electric field towards a collector module, which consists of a peripheral support (15) in insulating material where they are longitudinally inserted in holes (6) in its surface (20) multi-electrodes (7) (14) and each electrode (7) (14) equipped with controlled movement towards the axis of the electrospinning capillary tube (3) allowing its exposure (7) or retraction-occultation (14) with respect to the electrospinning capillary tube (3), a central collecting table (17) delimited by the peripheral support (15) of the multi-electrodes which consists of the region of accumulation of the electrospun fibres integrating this holes (16) which extend from its surface (19) to a chamber (21) in its interior being this chamber connected by a channel (18) to a vacuum pump (13) with pressure control, this central collecting table (17) has controlled movement towards the axis of the capillary tube (3) allowing its movement
- this continuous electrospinning system and process comprises the peripheral support (15) of the multi-electrodes mounted on a fixed platform (8) on which the length-adjustable support (5) of the electrospinning capillary tube (3) is supported, allowing the distance between the electrospinning capillary tube (3) and the electrodes in exposure position (7) to the electrospinning capillary tube to be adjusted (3).
- the movement of exposure (22) and retraction-occultation (23) of the electrodes (7) and (14) inserted into holes (6) of the peripheral support (15) to the electrospinning capillary tube (3) results from an electromagnetic force (22) (23) controlled by the computer control unit (9) which develops at the end of the electrode (7) (14) opposite the upper surface (20) of the peripheral support (15) by the action of magnetic flux between a permanent magnet (11) attached to the electrode (7) (14) and an induction coil (10) positioned in the lower region of the peripheral support (15).
- the deposit and alignment of the fibre flow (2) is carried out when one or more pairs of electrodes (7) are held in the exposed position in relation to the electrospinning capillary tube (3), and their respective negative polarities are activated by the computer control unit (8), according to the intended fibre deposition orientation thus forming successive aligned two-dimensional fibre layers (27) (28) (29) (30) (31) (34) (35) .
- the retraction-occultation movement of the electrodes (23), with respect to the electrospinning capillary tube (3), towards the interior of its hole (6) in the peripheral support (15) allows the support - deposit of the fibres (27) (28) (29) (30) (31) (33) (35) on the surface (19) of the central collecting table (17) followed by the separation - release of the fibres from the end of the electrodes (7).
- the successive two-dimensional fibre layers deposited (27) (28) (29) (30) (31) (33) (35) on the central collecting table (17) are maintained in position on the central collecting table (17) by the action of a suction force (25) generated by the vacuum pressure in the surface holes (19) of the central collecting table (17) that communicate with a chamber (21) in its interior connected by a channel (18) to the vacuum pump (13) .
- the pressure control in the vacuum pump (13) is also intended to control the suction forces (25) on the fibres and the degree of compaction between the formed two-dimensional fibre layers (27) (28) (29) (30) (31) (33) (35) and then the porosity in the perpendicular direction of the deposited fibre layer plane.
- Control of the distance between the electrospinning capillary tube (3) with positive polarity through its holder (5) and the exposed multi-electrodes (7) with negative charge, control of the exposure movements (22) and retraction-occultation (23) of the electrodes (7) with negative polarity with respect to the electrospinning capillary tube (3), control of the surface movement (19) of the central collecting table (17) with respect to the electrospinning capillary tube (3), the control of the negative polarity applied to the electrodes (7) and the control of the vacuum pump pressure (13) are carried out by a computer control unit (8) which, depending on the alignment (301) (302) (303) (304) (305) (306) (307) (308) (309) of fibres intended for each two-dimensional layer deposited (27) (28) (29) (30) (31) (33) (35) and the thickness (26) of the matrix, program the sequence of all movements, vacuum pressure and polarity of the required electrodes based on a computational program developed for this purpose.
- the process of the present invention is carried out in several steps with the use of the electrospinning system (1), as described in the previous section.
- the production of three-dimensional matrices of aligned polymeric fibres (2) occurs when one or more pairs of electrodes (7,14) are exposed to the capillary tube (3), according to the intended fibre orientation, thus forming a two-dimensional layer of aligned fibres, which are kept in adequate position on the central collecting table (17), after the movement of retraction-occultation of the electrodes, by action of the suction force generated by vacuum pressure in their holes.
- the controlled movement away from the central collecting table (17) of the electrospinning tube (3), after each deposited fibre layer, allows the accumulation of successive layers and the formation of a three-dimensional matrix with thickness depending on the number of deposited fibre layers, the fibre thickness and the degree of compaction between layers controlled by vacuum pressure.
- the production process of aligned three-dimensional matrices of polymeric fibres of the present invention comprises the following steps:
- the production of three-dimensional matrices of aligned polymeric fibres, with more than two layers, is performed by repeating steps (a), (b) and (c), as many times as the number of desired layers, to the process as described above.
- the process of the present invention comprises the following steps:
- one or more pairs of electrodes are used which are exposed (7) to the capillary tube (3), containing a certain polymeric solution, where the composition and concentration of the polymer in solution, as well as the solvents used, vary according to the purpose for which the matrix is intended.
- a certain negative voltage is applied, also selected according to the type of fibre and matrix to produce.
- Each one of the different alignments of the two-dimensional fibre layers is obtained by the sequential exposure (7), of a number of selected electrodes, to the electrospinning capillary tube (3) during a certain period, also selected according to the purpose for which the fibres and the matrices are intended.
- the different layers of deposited two-dimensional fibres thus result from the performance of consecutive cycles of various types of alignment, which is obtained by combining the variables or production factors described above.
- the set of different layers, differently aligned, forms an alignment pattern (200), which is repeated successively between the first (203), intermediate (205) and last (206) pattern, thus resulting in the thickness (26) of the three-dimensional matrix, which is delimited by the dimensions (202) and (201) of the central collecting table (17).
- the production process of three-dimensional matrices of aligned polymeric fibres is carried out continuously by successively carrying out the various steps for the formation of two-dimensional layers of polymeric fibres, according to the above described.
- the thickness of the obtained matrices varies therefore, not only in function of the type and quantity of polymer used, but also in function of the number of deposited fibre layers, the thickness of these fibres and the degree of compaction between layers, each one of these aspects being controlled by vacuum pressure exerted on the fibre layers deposited in the central collecting table.
- the alignment of the fibres in each layer is controlled by the different movements and number of electrodes exposed and/or concealed in each cycle of fibre formation.
- This example refers to the production of a matrix composed of 27 layers of aligned polymeric fibres for cartilage engineering, with a total thickness of 3,24 mm.
- the polymer used to manufacture the matrix was polycaprolactone (PCL) with a molecular weight of 80,000 Da.
- PCL was dissolved at concentrations of 12% dichloromethane (DCM) and dimethylformamide (DMF) at a ratio of 1:1 (v:v) after 12 hours of stirring at room temperature.
- DCM dichloromethane
- DMF dimethylformamide
- the molten polymer was electrospun using a capillary tube (3) with a flow of 2,5 mL/h, a voltage of 25 kV and a working distance of 15 cm to the central collecting table (17) .
- the central collecting table (17) has a diameter of 8mm, and the holes (16) on its surface are subjected to a vacuum pressure of 3300 Pa.
- Each of the different alignments of the two-dimensional fibre layers was obtained by sequential exposure (7) of pairs of electrodes to the electrospinning capillary tube (3) for 2.3 min.
- the 27 layers of deposited two-dimensional fibres resulted from the performance of 3 consecutive cycles (3 times) of 9 alignment patterns (301), (302), (303), (304), (305), (306), (307), (308) and (309) in this order, as follows:
- the central collecting table (17) has moved away from the electrospinning capillary tube about 0,12 mm, this being the value corresponding to the average thickness of each layer of deposited dimensional fibres.
- the central collecting table moved away about 3,24 mm, corresponding to the thickness of the matrix obtained at the end of the 27 deposited layers.
- the three-dimensional matrix of aligned fibres obtained in this example shows, like the native cartilage, a preferential alignment of the fibres in its surface area parallel to the surface, in the intermediate area there is no preferential alignment, and in the deepest area the fibres are aligned in a vertical manner to the surface.
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- Engineering & Computer Science (AREA)
- Textile Engineering (AREA)
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- Spinning Methods And Devices For Manufacturing Artificial Fibers (AREA)
- Nonwoven Fabrics (AREA)
- Surgical Instruments (AREA)
Claims (15)
- Elektrospinnsystem (1), bestehend aus(a) einem faserbildendes Modul, (b) einer Mehrfachelektrodenanordnung, (c) einem Kollektormodul zum Sammeln der abgeschiedenen Fasern, einer Stromversorgung, einer Vakuumpumpe (13), dadurch gekennzeichnet, dass:a) Das faserbildende Modul besteht aus einem Elektrospinn-Kapillarrohr (3) mit positiver Polarität;b) Die Mehrfachelektrodenanordnung wird in einen peripheren Träger (15) eingesetzt und besteht aus:- mehreren Elektroden (7) (14), von denen jede mit einer kontrollierten Bewegung in Richtung der Achse des Elektrospinn-Kapillarrohrs (3)ausgestattet ist;- mehreren Magneten (11), von denen jeder zur Erzeugung einer elektromagnetischen Kraft (22, 23), zusammen mit der Induktionsspule (10), die von der Rechnereinheit (9)gesteuert wird an einer Elektrode (7, 14) befestigt ist;c) Das Kollektormodul besteht aus:- einem peripheren Träger (15), in den die Elektroden (7) (14) in Längsrichtung in Löcher (6) auf seiner Oberfläche (20) eingeführt werden, wobei der besagte Träger (15) auf einer festen Plattform (8) montiert ist, auf der der längenverstellbare Träger (5) des Elektrospinn-Kapillarrohrs (3) gelagert ist, um den Abstand zwischen dem Elektrospinn-Kapillarrohr (3) und den Elektroden in der Expositionsposition (7) in Bezug auf die Elektrospinn-Kapillarrohre (3) einzustellen;- einem zentralen Sammeltisch (17), der von dem oben erwähnten peripheren Träger (15) begrenzt wird, einen Bereich zur Ansammlung von elektrogesponnenen Fasern definiert und ebenfalls Löcher (16) aufweist, die sich von seiner Oberfläche (19) zu einer Kammer (21) erstrecken;- einer Kammer (21), die sich im Inneren des zentralen Sammeltisches (17) befindet, wobei diese Kammer durch einen Kanal (18) mit einer Vakuumpumpe (13) verbunden ist;wobei:- jede Elektrode unabhängig von dem Elektrospinn-Kapillarrohr (3) freigelegt (7) oder eingezogen/verschlossen (14) werden kann;- die Vakuumpumpe (13) einen kontrollierten Vakuumdruck auf die Löcher (16) ausübt; und- der zentrale Sammeltisch (17) eine kontrollierte Bewegung in Richtung der Achse des Kapillarrohrs (3) aufweist, die seine Bewegung (24) weg von oder in die Nähe des Elektrospinn-Kapillarrohrs (3) ermöglicht.
- Elektrospinnsystem (1) nach dem vorhergehenden Anspruch mit einer Computersteuereinheit (9) und einem Computerprogramm.
- Ein Verfahren zur Herstellung von dreidimensionalen Matrizen aus kontinuierlich ausgerichteten Polymerfasern, das in dem System nach einem der Ansprüche 1 oder 2 abläuft, dadurch gekennzeichnet, dass es die folgenden Schritte umfasst:a) Exposition eines oder mehrerer Elektrodenpaare (7) gegenüber des Kapillarrohrs (3), das eine Lösung eines bestimmten Polymers enthält, das für die Funktion der herzustellenden Matrix geeignet ist, wobei diese Exposition entsprechend der beabsichtigten Faserausrichtung erfolgt, durch Anlegen einer negativen Spannung an die ausgewählten Elektroden während einer bestimmten Zeit, um Schichten von ausgerichteten Fasern (30) zu bilden;b) Anwendung von Vakuumdruck auf die in (a) erhaltene ausgerichtete Faserschicht durch die Löcher (16) des zentralen Sammeltisches (17), mit der Bewegung der Rückzugsokkultation der Elektroden (14);c) Trennung des zentralen Sammeltisches (17) vom Elektrospinn-Kapillarrohr (3) durch die Bewegung (33) des Stellglieds (12);d) Wiederholung der sequentiellen Expositionszyklen des Elektrodenpaares (7) an dem Elektrospinn-Kapillarrohr (3) von (a), Anlegen von Vakuumdruck an die ausgerichtete Faserschicht (b) und Trennen des zentralen Sammeltisches (17) von dem Elektrospinn-Kapillarrohr (3) von (c), so oft wie nötig, um eine zweidimensionale Faserschichtmatrix (2) mit der erforderlichen Ausrichtung zu bilden;e) Wiederholung der in den Schritten (a), (b) und (c) beschriebenen Zyklen so oft wie nötig, wobei mindestens einer der Elektrospinnfaktoren gegenüber denen in den Schritten (a), (b) oder (c) definierten verändert wird, um eine Matrix aus zweidimensionalen Faserschichten (2) mit der gewünschten Ausrichtung zu bilden, wobei sich diese Ausrichtung von der in den Schritten (a), (b), (c) und (d) erhaltenen unterscheidet;f) Wiederholung der Expositionszyklen von (e) so oft wie nötig, wobei mindestens einer der Elektrospinnfaktoren gegenüber denen im vorhergehenden Zyklus definierten verändert wird, um eine Matrix aus zweidimensionalen Faserschichten (2) mit der erforderlichen Ausrichtung zu bilden, wobei sich diese Ausrichtung von der im vorhergehenden Zyklus erhaltenen unterscheidetwobei:
die kontrollierte Bewegung weg vom zentralen Sammeltisch des Elektrospinn-Kapillarrohrs nach jeder abgelagerten Faserschicht ermöglicht die Anhäufung aufeinanderfolgender Schichten und die Bildung einer dreidimensionalen Matrix mit einer Dicke, die von der Anzahl der abgelagerten Faserschichten abhängt, wobei die Dicke der Fasern und der Grad der Verdichtung zwischen den Schichten durch den Vakuumdruck gesteuert wird und der Vakuumdruck die Fasern am Tisch festhält. - Verfahren zur Herstellung von dreidimensionalen Matrizen aus kontinuierlich ausgerichteten Polymerfasern nach dem vorhergehenden Anspruch, das in dem System nach einem der Ansprüche 1 oder 2 durchgeführt wird, dadurch gekennzeichnet, dass der periphere Träger eine Mehrfachelektrodenanordnung aufweist und jede Elektrode eine individuelle Bewegung hat, die in Richtung der Achse des Elektrospinn-Kapillarrohrs gesteuert wird, umfassend zwei Positionen, eine der Exposition und eine andere der Rückzugsokkultation in Bezug auf das Elektrospinn-Kapillarrohr.
- Verfahren zur Herstellung von dreidimensionalen Matrizen aus kontinuierlich ausgerichteten Polymerfasern nach einem der vorhergehenden Ansprüche 3 oder 4, das in dem System nach einem der Ansprüche 1 oder 2 durchgeführt wird, dadurch gekennzeichnet, dass der zentrale Sammeltisch durch den peripheren Träger der Mehrfachelektroden begrenzt wird, der aus dem Bereich der Ansammlung von elektrogesponnenen Fasern besteht, die diese Löcher integrieren, die sich von seiner Oberfläche zu einem Hohlraum in seinem Inneren erstrecken, wobei dieser Hohlraum mit einer Vakuumpumpe mit Druckkontrolle verbunden ist, in dem der zentrale Sammeltisch eine kontrollierte Bewegung in Richtung der Achse des Kapillarrohrs aufweist, die seine Trennung oder Annäherung an das Elektrospinn-Kapillarrohr ermöglicht.
- Verfahren zur Herstellung von dreidimensionalen Matrizen aus kontinuierlich ausgerichteten Polymerfasern nach einem der vorhergehenden Ansprüche 3 bis 5, das in dem System nach einem der Ansprüche 1 oder 2 durchgeführt wird, gekennzeichnet durch die Rückzugsokkultationsbewegung der in Löcher im peripheren Träger eingeführten Elektroden zum Elektrospinn-Kapillarrohr, die aus einer kontrollierten elektromagnetischen Kraft resultiert, die sich an dem der Oberseite des peripheren Trägers gegenüberliegenden Ende der Elektrode durch die Wirkung des magnetischen Flusses zwischen einem an der Elektrode befestigten Permanentmagneten und einer im unteren Bereich des peripheren Trägers angeordneten Induktionsspule entwickelt.
- Verfahren zur Herstellung von dreidimensionalen Matrizen aus kontinuierlich ausgerichteten Polymerfasern nach einem der vorhergehenden Ansprüche 3 bis 6, das in dem System nach einem der Ansprüche 1 oder 2 durchgeführt wird, dadurch gekennzeichnet, dass die Ablagerung und Ausrichtung des Faserstroms durchgeführt wird, wenn ein oder mehrere Elektrodenpaare in der exponierten Position in Bezug auf das Elektrospinn-Kapillarrohr gehalten werden und ihre jeweiligen negativen Polaritäten aktiviert werden, entsprechend der beabsichtigten Ausrichtung der Faserablagerung, wodurch eine Schicht aus ausgerichteten zweidimensionalen Fasern gebildet wird.
- Verfahren zur Herstellung von dreidimensionalen Matrizen aus kontinuierlich ausgerichteten Polymerfasern nach einem der vorhergehenden Ansprüche 3 bis 7, das in dem System nach einem der Ansprüche 1 oder 2 durchgeführt wird, gekennzeichnet durch die Bewegung der Rückzugsokkultation der Elektroden in Bezug auf das Elektrospinn-Kapillarrohr in das Innere seines Lochs in der peripheren Halterung, um die Fasern zu halten und auf dem zentralen Sammeltisch abzulegen, gefolgt von der Trennung der Fasern von den Enden der Elektroden.
- Verfahren zur Herstellung von dreidimensionalen Matrizen aus kontinuierlich ausgerichteten Polymerfasern nach einem der vorhergehenden Ansprüche 3 bis 8, das in dem System nach einem der Ansprüche 1 oder 2 durchgeführt wird, gekennzeichnet durch die kontrollierte Bewegung weg von der Oberfläche des zentralen Sammeltisches des Elektrospinn-Kapillarrohrs nach jeder zweidimensionalen Schicht aus ausgerichteten Fasern, aufeinanderfolgende Schichten von Fasern auf dem zentralen Sammeltisch zur Bildung einer dreidimensionalen Fasermatrixstruktur ansammeln, deren Dicke von der Anzahl der abgelagerten zweidimensionalen Faserschichten, der Faserdicke und dem Grad der durch die Systemwirkung und den Vakuumdruck erforderlichen Verdichtung zwischen den Schichten abhängt.
- Verfahren zur Herstellung von dreidimensionalen Matrizen aus kontinuierlich ausgerichteten Polymerfasern nach einem der vorhergehenden Ansprüche 3 bis 9, das in dem System nach einem der Ansprüche 1 oder 2 durchgeführt wird, dadurch gekennzeichnet, dass die aufeinanderfolgenden Schichten von abgelegten Fasern in dem Kollektormodul in dem zentralen Sammeltisch durch die Wirkung der Saugkraft in Position gehalten werden, die in den Löchern der Oberfläche des zentralen Sammeltisches durch die Wirkung des Vakuumdrucks erzeugt wird, der in der inneren Kammer des zentralen Sammeltisches erzeugt wird, die mit der Vakuumpumpe in Verbindung steht.
- Verfahren zur Herstellung von dreidimensionalen Matrizen aus kontinuierlich ausgerichteten Polymerfasern nach einem der vorhergehenden Ansprüche 3 bis 10, das in dem System nach einem der Ansprüche 1 oder 2 durchgeführt wird, dadurch gekennzeichnet, dass die Drucksteuerung in der Vakuumpumpe den Grad der Verdichtung zwischen den gebildeten zweidimensionalen Faserschichten und die Porosität in der senkrechten Richtung der abgelagerten Faserschichtebene steuert.
- Verfahren zur Herstellung von dreidimensionalen Anordnungen von kontinuierlich ausgerichteten Polymerfasern nach einem der vorhergehenden Ansprüche 3 bis 11, das in dem System nach einem der Ansprüche 1 oder 2 durchgeführt wird, dadurch gekennzeichnet, dass die Parameter durch eine Computersteuereinheit (9) gesteuert werden und die Bewegungen der Elektroden durch ein Computerprogramm gesteuert werden.
- Dreidimensionale Matrizen aus ausgerichteten Polymerfasern, gekennzeichnet durch 27 Schichten zweidimensionaler Polymerfasern mit 9 Ausrichtungsmustern (301), (302), (303), (304), (305), (306), (307), (308) und (309), mit einer Gesamtdicke von 3,24 mm.
- Dreidimensionale Matrizen aus ausgerichteten Polymerfasern nach dem vorhergehenden Anspruch, gekennzeichnet durch eine bevorzugte Ausrichtung der Fasern, (i) parallel in ihrem Oberflächenbereich, (ii) ohne irgendeine bevorzugte Ausrichtung im Zwischenbereich, und (iii) die Fasern sind in vertikaler Weise zur Oberfläche im tiefsten Bereich ausgerichtet.
- Dreidimensionale Matrizen aus ausgerichteten Polymerfasern, wie in einem der Ansprüche 13 oder 14 beschrieben, dadurch gekennzeichnet, dass sie in der Medizin, in der regenerativen Medizin und/oder in der Knorpelzüchtung eingesetzt werden.
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US2349950A (en) | 1937-08-18 | 1944-05-30 | Formhals Anton | Method and apparatus for spinning |
US7981353B2 (en) | 2005-12-12 | 2011-07-19 | University Of Washington | Method for controlled electrospinning |
US7828539B1 (en) | 2007-03-26 | 2010-11-09 | Clemson University | Fabrication of three dimensional aligned nanofiber array |
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US9005604B2 (en) | 2009-12-15 | 2015-04-14 | The United States Of America As Represented By The Administrator Of The National Aeronautics And Space Administration | Aligned and electrospun piezoelectric polymer fiber assembly and scaffold |
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US20130095252A1 (en) * | 2011-10-14 | 2013-04-18 | Kurtis LESCHKIES | Method and apparatus for aligning nanowires deposited by an electrospinning process |
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