CN104436236A - Novel biocompatible polymer magnetic contrast agent - Google Patents
Novel biocompatible polymer magnetic contrast agent Download PDFInfo
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- CN104436236A CN104436236A CN201310421946.0A CN201310421946A CN104436236A CN 104436236 A CN104436236 A CN 104436236A CN 201310421946 A CN201310421946 A CN 201310421946A CN 104436236 A CN104436236 A CN 104436236A
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- microsphere
- layer
- contrast agent
- biocompatible polymer
- silicon dioxide
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Abstract
The present invention discloses a novel biocompatible polymer magnetic contrast agent. According to the present invention, the microsphere has a hollow inorganic/organic/inorganic three-layer structure, the cavity is positioned in the center of the microsphere, air is filled in the internal, the outer layer of the cavity is alpha-Fe2O3 magnetic particles, the middle layer is core/shell polymer nanometer microspheres obtained by carrying out free radical copolymerization on a poly pyrrolidone-polyacrylic acid random copolymer, polyacrylic acid and divinylbenzene, the carboxyl on the inner surface and the iron salt can form the coordination bond or ion bond so as to provide the stability between the copolymer and the alpha-Fe2O3 magnetic particles in the inner layer, the outer layer is silicon dioxide, and the carboxyl on the microsphere surface and the silanol on the silicon dioxide surface produce the hydrogen bond effect so as to connect; and the magnetic ferric oxide composite medical contrast agent has the following advantages that: the polymer microspheres belong to the nanoscale particles, the contrast agent can provide the targeting positioning function with the alpha-Fe2O3 magnetic particles in the inner layer, the silicon dioxide hollow microsphere has good biocompatibility and good mechanical stability, and the internal cavity can produce the strong echo signal under the contrasting mode.
Description
Technical field
The present invention relates to a kind of medical detection contrast agent, particularly relate to a kind of Nano microsphere with the multilamellar organic/inorganic composite construction of magnetic function, belong to medicine technology field.
Background technology
In recent years, molecular image technology can provide important information and be paid close attention to (Campbell R. E., Chang C. J. widely for the medical diagnosis on disease of biological tissue and monitoring due to it
curr Opin Chem Biol, 2010,14 (1): 1-2.).In numerous imaging pattern, ultra sonic imaging, as the AT biomedical imaging pattern of one, has important researching value because it has the advantages such as imaging and timely, cheap, the light and fast of diagnosis safety, utilization are extensive.But the difference of echo-signal usually can hinder the accuracy of diagnosis between different biological tissue; in order to obtain the accurate information of particular organization better; people adopt the method adding ultra sonic imaging contrast agent to realize (R. D í az-L ó PVPz usually; Tsapisa N.; Libong D., et al.
biomaterials, 2009,30 (8): 1462-1472.).
Usually contrast agent used is mainly microvesicle, and its shell is that the amphipathic small molecules such as saccharide, protein or polymer are formed, inner filling C
3f
8, SF
6vesicle (Ferrara K. W., Borden M. A., Zhang H. is formed Deng gas
acc Chem Res, 2009,42 (7): 881-892.).These contrast agent can change or strengthen ultrasound echo signal and provide better surface or organizational information.But due to laplace pressure, blood pressure, oxidative metabolism and hyperacoustic effect, these gas microbubbles are just dissolved and are broken after injection blood a few second, and particle diameter is difficult to control (Schutt E. G., Klein D. H., Mattrey R. M., et al.
angew Chem Int Ed, 2003,42 (28): 3218-3235.).SiO 2 hollow microsphere has good biocompatibility and mechanical stability, and has larger cavity, can produce stronger echo-signal under imaging mode, can solve the problem.(Lin P. L., Eckersley R. J., the Elizabeth A. H. such as Hall
adv Mater2009,21 (38-39): 3949-3952.) with PVP ball for template, change surface charge by polyallyl acid hydrochloride (PAH) and prepare the tiny balloon that particle diameter is 2.8 μm, shell thickness is less than 30nm, and have studied its ultra sonic imaging effect under different mechanical index condition.Linear ultrasonic imaging (B-model) result shows, this hollow SiO
2bead has very strong ultrasonic signal under water environment.But these class methods still have certain limitation, as hollow SiO
2the size of bead is too large, does not reach nanoscale structures, is difficult to for living imaging, and does not carry out modified with functional group and be difficult to connect further.Therefore, the contrast agent of current clinical middle use can't be taken into account good biocompatibility, mechanical stability, Targeting Performance, nanostructured simultaneously, can be carried out the requirements such as modified with functional group.
Summary of the invention
The present invention is directed to above problem, provide a kind of novel concept of biocompatible polymer magnetic contrast agent, it is a kind of multilamellar organic/inorganic composite construction magnetic Nano microsphere, have hollow type inorganic/organic/inorganic three-layer composite structure:
What be positioned at microsphere center is cavity, inner filling air;
Intermediate layer is macromolecule layer, is the copolymer of polyacrylic acid and divinylbenzene;
Between cavity and intermediate layer be
-Fe
2o
3magnetic nano-particle, is deposited on macromolecule layer inner surface by coordinate bond or ionic bond;
Outer for there being mesoporous Nano particles of silicon dioxide, outside with macromolecule layer by hydrogen bond action absorption.
The technical solution adopted for the present invention to solve the technical problems is:
1) preparation of core/shell polymer microsphere double-layer nanometer microsphere
This microsphere is prepared based on a kind of core/shell polymer microsphere double-layer nanometer microsphere.First utilize ketopyrrolidine and acrylic acid to carry out copolymerization and obtain dispersed nano microsphere, it is structure shown in following chemical formula:
Wherein x is the integer of 5 ~ 50;
Y is the integer of 0 ~ 15;
2) the outer cross-linked structure of double-layer nanometer microsphere is prepared
Then by above-mentioned dispersed nano microsphere and polyacrylic acid, divinylbenzene, by Solution Free Radical copolymerization process, obtain microsphere layer structure, it is structure shown in following chemical formula:
Wherein n is the integer of 0 ~ 50
3) core/shell polymer microsphere double-layer nanometer microsphere is prepared by " from dispersion " polyreaction
Utilize the carboxyl on the surface of double-layer nanometer microsphere can produce hydrogen bond action with the silicone hydroxyl of silica surface, make silicon dioxide in aggregate surface hydrolysis and polycondensation formation shell structurre.Its interaction chemical formula is as follows:
4) preparation of hollow polymeric-silicon dioxide nanosphere
Utilize acetone to extract kernel and form hollow polymeric-silicon dioxide nanosphere structure.In reaction system, add chloroform dissolve, stirred for several hour, after utilizing chloroform to dissolve PVP core, obtain SiO
2tiny balloon, its form keeps stable and structural integrity, has a good spherical structure.Preparation process schematic diagram is as shown in Figure of description 4;
5) preparation of magnetic macromolecular microsphere
Because Nano microsphere prepared in above-mentioned steps inside exists a large amount of carboxyls, there is a large amount of micropore at silica surface simultaneously.Therefore, this micropore can be utilized as passage, by Fe
3+after adding reaction system, utilize microchannel to enter hollow ball inside, add PEG simultaneously, NaOH, adjust ph, internal layer is combined
-Fe
2o
3magnetic particle.Nano microsphere internal layer macromolecule exists
-Fe
2o
3surface defines Fe-O-C key, and forms internal magnetization particle layer.
By above technical scheme, tool of the present invention has the following advantages: 1) novel concept of biocompatible polymer magnetic contrast agent has good biocompatibility;
2) to have volume little for novel concept of biocompatible polymer magnetic contrast agent, has nanoscale structures, can by various human body barriers;
3) novel concept of biocompatible polymer magnetic contrast agent is due to containing superparamagnetism
-Fe
2o
3, therefore there is Targeting Performance;
4) novel concept of biocompatible polymer magnetic contrast agent Stability Analysis of Structures, mechanical stability are high.
This type of novel concept of biocompatible polymer magnetic contrast agent can overcome the problems such as traditional contrast agent poor stability, echo signal are weak, poor biocompatibility.
Accompanying drawing explanation
Fig. 1 is the structural representation of this novel concept of biocompatible polymer magnetic contrast agent;
Fig. 2 is the particle diameter test pattern of this novel concept of biocompatible polymer magnetic contrast agent;
Fig. 3 is the AFM scintigram of this novel concept of biocompatible polymer magnetic contrast agent;
Fig. 4 is the preparation flow schematic diagram of hollow polymeric microspheres.
Detailed description of the invention
For making enforcement object of the present invention, technical scheme and advantage more clear, below in conjunction with the drawings and specific embodiments of the present invention, the present invention is described in detail:
As shown in Figure 1, be the structural representation of novel concept of biocompatible polymer magnetic contrast agent.This Nano microsphere has hollow type machine/organic/inorganic three-layer composite structure, has successively: outermost layer be Nano particles of silicon dioxide 1.; Intermediate layer be macromolecule layer 2.; Internal layer is
-Fe
2o
3magnetic nano-particle 3.; Be positioned at microsphere center be cavity 4., inner fill air.Wherein Nano particles of silicon dioxide layer 1. in should have meso-hole structure.
As macromolecule layer 2., outside adsorbs silica particle 1. simultaneously for polyacrylic acid-divinylbenzene crosslinking copolymerization macromolecule, and internal layer combines
-Fe
2o
3magnetic nano-particle is 3. as a preferably embodiment: utilize ketopyrrolidine and polyacrylic acid to carry out copolymerization and obtain internal layer microsphere, then internal layer is carried out copolymerization by polyacrylic acid and divinylbenzene, obtain double-deck solid nano polymer microspheres.Utilize the carboxyl on the surface of double-layer nanometer microsphere can produce hydrogen bond action with the silicone hydroxyl of silica surface, make silicon dioxide be hydrolyzed also polycondensation in aggregate surface and form shell structurre 1..Meanwhile, utilize the meso-hole structure of Nano particles of silicon dioxide, with an organic solvent method (acetone) extracts kernel and forms hollow polymeric-silicon dioxide double-layer nanometer micro-sphere structure.Finally, utilize microsphere inner surface carboxyl and iron salt can form coordinate bond or ionic bond, entered the Fe of hollow ball inside by adsorption and permeation
2+and Fe
3+deng reactant, internal layer is combined
-Fe
2o
3magnetic particle 3..
Figure 2 shows that the particle diameter test pattern utilizing dynamic light scattering method to magnetic Nano microsphere, can find out, Nano microsphere particle diameter is less than 1 micron, and particle size distribution is narrower, proves that this Nano microsphere volume is little, good dispersion.
Figure 3 shows that the AFM scanogram of novel concept of biocompatible polymer magnetic contrast agent.Prove that macromolecule forms globular micelle structure homogeneous, good dispersion, does not reunite in aqueous.Be conducive to the targeting of contrast agent in body fluid to locate and dispersion.
Provide embodiment below to be specifically described the present invention; but it is worthy of note that following examples are only used to further illustrate the present invention; can not be interpreted as limiting the scope of the invention, some nonessential improvement that the person skilled in the art in this field makes the present invention according to the invention described above content and adjustment still belong to protection scope of the present invention.
Embodiment 1:
The preparation of 1. core/shell polymeric Nano microsphere
Step one: the method first adopting " from dispersion " to be polymerized prepares single dispersing (PVP-PAA) copolymer microsphere.Ketopyrrolidine and each 0.2mol, AIBN(azo-bis-isobutyl cyanide of acrylic acid is added in 500mL tri-mouthfuls of round bottom reaction bulbs) 0.98g, butyl acetate 280 mL; under nitrogen protection; constant temperature 70 DEG C reaction 12 hours; product is dried in 55 DEG C of baking ovens, obtains single dispersing (PVP-PAA) copolymer microsphere.
Step 2: prepare core/shell polymer microsphere by seed " from dispersion " polyreaction.By each to (PVP-PAA) copolymer microsphere 3.65g, acrylic acid and divinylbenzene 0.038mol, AIBN 0.09 g, butyl acetate 100 mL, normal hexane 35 mL; add in reaction bulb; under nitrogen protection, constant temperature 75 DEG C reaction 13 hours, obtains two-layer core/shell polymeric Nano microsphere.
2. silicon dioxide carries out gathering at microsphere surface and forms shell structurre
With the two-layer core prepared in above-mentioned steps/shell polymeric Nano microsphere for template, generate the homogeneous and SiO of regular appearance of thickness by sol-gel process at PAA surface in situ
2shell.Adopt St ber method (St ber W., Fink A., Bohn E.
j Colloid Interface Sci, 1968,26 (1): 62-69.), adding 55mL ammonia is catalyst, utilizes ethyl orthosilicate (TEOS) 16.5g, after poly-condensation and hydrolysis, synthesizes SiO
2.
With PAA surface PVP core as templated deposition SiO
2time, generally can generate the independent SiO of about 35nm
2particle.Because PVP checks SiO
2adsorptivity weak, if direct PVP precipitates SiO as masterplate
2, be difficult to obtain uniform SiO
2shell structurre.And when after the surface and copolymerized PAA of PVP core, because of the carboxyl on PAA chain or carboxylate radical can with the hydrolyzate of ethyl orthosilicate and SiO
2the hydroxyl of particle surface forms hydrogen bond, thus induction SiO
2nucleating growth, finally forms regular shell structurre.
3. hollow type polymer-SiO
2the preparation of Nano microsphere
Get the SiO prepared in 2.7g above-mentioned steps
2core/shell polymeric Nano microsphere, adds 15mL chloroform and dissolves, stir 7 hours in reaction system, obtains SiO after utilizing chloroform to dissolve PVP core
2tiny balloon, its form keeps stable and structural integrity, has a good spherical structure.
4. the preparation of hollow type magnetic Nano microsphere contrast agent
Hollow polymer microsphere 1g, the FeCl36H of gained in above-mentioned reactions steps is added in 250mL tri-mouthfuls of round bottom reaction bulbs
2o 6g, deionized water 150mL, then add 5 mL PEG-400, under magnetic stirring, with dilute NaOH solution, the pH value of mixed solution is adjusted to 3.After reaction terminates, product through centrifugalize, and with distilled water and washing with alcohol repeatedly, dry in 60 DEG C of vacuum tanks.Above-mentioned microsphere is added in bag filter, with 1000 mL pure water dialysis, refreshes the water periodically.After dialysis solution membrane filtration, lyophilization obtains hollow type magnetic Nano microsphere contrast agent.
Finally it should be noted that, above embodiment is only in order to illustrate technical scheme of the present invention and unrestricted, although with reference to preferred embodiment to invention has been detailed description, those of ordinary skill in the art should understand, can a point technical scheme for invention be modified or be replaced on an equal basis, and not departing from the spirit and scope of technical solution of the present invention, it all should be encompassed in the middle of right of the present invention.
Claims (5)
1. a biocompatible polymer magnetic contrast medium, it is characterized in that having hollow type inorganic/organic/inorganic three-layer composite structure:
1) what be positioned at microsphere center is cavity, inner filling air;
2) intermediate layer is macromolecule layer, is the copolymer of polyacrylic acid and divinylbenzene;
3) between cavity and intermediate layer be
-Fe
2o
3magnetic nano-particle;
4) skin is Nano particles of silicon dioxide.
2. biocompatible polymer magnetic contrast medium according to claim 1, this material is prepared as follows:
1) polypyrrole alkane ketone-acrylic acid random copolymerization single dispersing core/shell polymeric Nano microsphere is prepared;
2) silicon dioxide is assembled at microsphere surface;
3) hollow type polymer-SiO is prepared
2nano microsphere;
4) preparation of hollow type magnetic Nano microsphere contrast agent.
3. biocompatible polymer magnetic contrast medium according to claim 1 and 2, is further characterized in that above-mentioned steps 1) in core/shell polymeric Nano microsphere of being formed be double-decker, and be all adopt polyacrylic acid as hydrophilic segment, it is characterized in that:
1) its internal layer is polypyrrole alkane ketone-acrylic acid random copolymer;
2) its skin is polyacrylic acid and divinyl benzene crosslinked polymer.
4. biocompatible polymer magnetic contrast medium according to claim 1 and 2, is further characterized in that: have meso-hole structure in outermost Nano particles of silicon dioxide.
5. biocompatible polymer magnetic contrast medium according to claim 1 and 2, is further characterized in that: macromolecule layer is the copolymer of polyacrylic acid and divinylbenzene, and macromolecule has double-deck polyacrylic acid structure, utilizes divinylbenzene bridging between molecule.
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Cited By (1)
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CN115532221A (en) * | 2022-09-29 | 2022-12-30 | 山东博科生物产业有限公司 | Fe for efficiently extracting novel coronavirus nucleic acid 3 O 4 -SiO 2 Magnetic bead |
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2013
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Non-Patent Citations (3)
Title |
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K. ZHANG ET AL.: "Magnetic polymer enhanced hybrid capsules prepared from a novel Pickering emulsion polymerization and their application in controlled drug release", 《COLLOIDS AND SURFACES A: PHYSICOCHEM. ENG. ASPECTS》 * |
NAM SEON KIM ET AL.: "Core–shell polymerization for monodispersed hollow polymer spheres embedded with magnetic nanoparticles", 《JOURNAL OF INDUSTRIAL AND ENGINEERING CHEMISTRY》 * |
赵应征: "《生物药物制剂学》", 30 June 2011, 浙江大学出版社 * |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN115532221A (en) * | 2022-09-29 | 2022-12-30 | 山东博科生物产业有限公司 | Fe for efficiently extracting novel coronavirus nucleic acid 3 O 4 -SiO 2 Magnetic bead |
CN115532221B (en) * | 2022-09-29 | 2024-04-16 | 山东博科生物产业有限公司 | Fe for extracting novel coronavirus nucleic acid3O4-SiO2Magnetic bead |
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Application publication date: 20150325 |