Plastic and nonmetallic article shaping or treating: processes – Formation of solid particulate material directly from molten... – By vibration or agitation
Reexamination Certificate
2000-10-26
2002-10-01
Acquah, Samuel A. (Department: 1711)
Plastic and nonmetallic article shaping or treating: processes
Formation of solid particulate material directly from molten...
By vibration or agitation
C264S004000, C264S010000, C264S011000, C425S005000, C428S402200, C428S402240, C428S407000
Reexamination Certificate
active
06458296
ABSTRACT:
The invention concerns a method and an apparatus for encapsulating microbial, vegetable and animal cells or biological and chemical substances through a nozzle to obtain small, substantially spherical particles.
The encapsulation of microbial, vegetable and animal cells and biological and chemical substances—such as catalysts—is of great significance in particular in biotechnology and medicine for immobilisation purposes. In medicine, encapsulation additionally serves to provide a screening effect from the immune system. By virtue of the immobilisation effect, it is possible for the cells or the catalyst to be retained in the process and for the product to be harvested at the same time. That permits use over a prolonged period of time and affords an increased space-time yield. By virtue of the cells being screened from the immune system, it is possible to implant in a patient cells which are foreign to the body and which over a relatively long period of time discharge a desired substance into the body of the patient without the cells being attacked and destroyed by the patient's immune system.
Encapsulation of cells and catalysts in biopolymers—such as carrageenan or alginate—and synthetic polymers—such as polyacrylamide—is a method which has been used for some years in research laboratory situations. Many different apparatuses are described for that purpose in the literature. One of the most efficient methods involves dividing up a jet by the superimposition of an external vibration on the immobilisation fluid. The fluid is thereby divided into fractions of equal size as it issues in a laminar flow from a nozzle. A number of methods for the transmission of vibration are used or described, for example coupling to a vibrator, piezoelectric crystal, sound waves.
WO 96/28247 to the present applicants discloses a commercial encapsulation unit in which the vibration is transmitted by a rigid connection to a vibrator. That method suffers from the difficulty that the axis of the vibrator and the axis of the nozzle have to be exactly aligned as otherwise disturbances occur, which massively adversely affect the homogeneity of the sphere size. The vibrator is also expensive. In addition, it has been found by photographic analysis procedures and observations under stroboscope light that, in regular operation of the apparatus, a monodisperse and single-strand chain of spheres is visible to about 100 mm downstream of the nozzle. If the spheres are caught after about 100 mm dropping distance in a hardening bath and are thereafter examined under a microscope, then very often batches without a monodisperse group of spheres is obtained—and this was not predictable. The samples generally had three different sphere populations in a varying ratio; the first was of the expected sphere diameter, the second was of double or a multiple greater volume than expected, and the third was in the form of two individual spheres which touch each other to a greater or lesser degree.
In consideration of that state of the art the inventor set himself the aim of optimising an apparatus and a method of the kind set forth in the opening part of this specification.
That object is attained by the teachings of the independent claims; the appendant claims set forth advantageous developments. In addition the scope of the invention embraces all combinations of at least two of the features disclosed in the description, the drawing and/or the claims.
In accordance with the method according to the invention the immobilisation mixture, in particular a laminar fluid jet, is separated into parts of equal size by the superimposition of an external vibration. An electrical field is built up in the proximity of the nozzle so that an electrical charge flux occurs in the fluid jet, whereby the drops produced have an electrical charge. That charge must be so high that the spheres mutually repel because of the similar charge and the chain of spheres which is initially present in the form of a single strand is divided into many partial chains. For that purpose, voltages are required which are preferably in the range of between 200 and 1600 V. Due to the dispersing effect, the spheres no longer drop on a closely defined region on to the surface of the hardening bath, but they are scattered far and wide.
In that way it is now possible as a routine matter to obtain a monodisperse sphere array not only in the air but also in the hardening bath. Likewise, in the case of immobilisation mixtures which by virtue of their chemical and physical properties could be scarcely or only partially put into drop form, it is now also often possible to achieve a monodisperse sphere assembly.
An apparatus which is intended for that method is distinguished inter alia in that a metal counterpart element which is arranged downstream of the nozzle at a spacing and outside the nozzle axis is connected to a high-voltage source. That counterpart element is preferably in the form of a metal ring having an aperture through which the nozzle axis was to pass. Provided between the nozzle and the counterpart element or metal ring is an electrical field, preferably with the above-mentioned voltage range.
It has also proven to be advantageous, when dividing the immobilisation mixture by the superimposition of an external vibration into fractions of equal size, for those vibrations to be transmitted to the immobilisation mixture either within a pulsation space or chamber or by way of the nozzle which is caused to pulsate. Provided for that purpose is an apparatus in which a pulsation chamber which is arranged upstream of the nozzle and which receives the immobilisation mixture has a permanent magnet superimposed thereon and the permanent magnet is arranged opposite an electrical coil; in accordance with the invention one of the two units is provided within the pulsation chamber or on a diaphragm which extends over the pulsation chamber, while the other unit is separated by an air gap from that which is associated with the pulsation chamber.
In another embodiment of the apparatus the permanent magnet and the electrical coil are associated with the nozzle or the suspension thereof so that same can initiate the pulsation procedure.
The principle of the vibrator comprising the magnet and a coil through which alternating current flows is taken from the vibrator, and a part thereof is directly associated with the pulsation chamber. When alternating current is passed through the coil, it is alternately magnetised positively and negatively. The magnetic waves interact with the subjacent magnet and cause it to vibrate. The vibrations are transmitted almost without resistance to the immobilisation fluid.
In accordance with a further feature of the invention the coil through which alternating current flows and the permanent magnet produce vibrations in the preferred range of between 300 and 4000 Hz.
Thus using simple means the invention permits miniaturisation of vibration transmission, with a very low level of expenditure in terms of material and energy. The costs of the method and the apparatus can be reduced by a multiple in comparison with the previously known vibration methods. A further advantage to be considered here is that the orientation of the magnet and the coil does not have to be centered to an accuracy of 0.1 mm. There are also no axes which have to be precisely oriented.
REFERENCES:
patent: 4302166 (1981-11-01), Fulwyler et al.
patent: 4981625 (1991-01-01), Rhim et al.
patent: 2725849 (1978-12-01), None
patent: WO96/28247 (1996-09-01), None
Patent Abstracts of Japan, vol. 018, No. 476 (C-1246), Sep. 6, 1994 & JP 06 154587 A (Freunt Ind Co Ltd), Jun. 3, 1994.
Brandenberger Harry
Heinzen Christoph
Plüss-Wenzinger Raphael
Widmer Fritz
Acquah Samuel A.
Bachman & LaPointe P.C.
Inotech AG
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