Synthetic resins or natural rubbers -- part of the class 520 ser – Synthetic resins – Processes of preparing a desired or intentional composition...
Reexamination Certificate
1998-06-22
2001-07-10
Szekely, Peter (Department: 1714)
Synthetic resins or natural rubbers -- part of the class 520 ser
Synthetic resins
Processes of preparing a desired or intentional composition...
C156S314000, C156S336000, C206S568000, C427S002100, C427S323000, C514S454000, C523S111000, C523S113000, C524S020000, C606S213000
Reexamination Certificate
active
06258872
ABSTRACT:
FIELD OF THE INVENTION
The present invention is directed to generally applicable methods for using primer molecules to enhance the adhesion of tissue adhesive or tissue sealant compositions to tissues.
BACKGROUND OF THE INVENTION
In many situations, there is a need to bond separated tissues or to seal defects in tissues. Sutures and staples are effective and well established wound and tissue defect closure devices. However, there are surgical techniques where classical repair procedures are unsatisfactory, limited to highly trained specialists (e.g., microsurgery), or not applicable due to tissue or organ fragility, inaccessibility (e.g., endoscopy procedures), or loss of gases or fluids, including capillary “weeping”. Tissue adhesives and sealants have been developed to meet these needs. They may be used to seal or reinforce wounds that have been sutured or stapled, as well as finding independent use. The leading commercial products are fibrin glues and cyanoacrylates. However, both products have significant limitations which have prevented their widespread use.
In this regard, one of the major limitations encountered in the development and/or use of tissue adhesive and sealant compositions is their inability to form a sufficiently strong bond to tissues. Therefore, tissue adhesives and sealants may have to be employed in combination with sutures and/or staples so as to reduce the tissue bonding strength required for acceptable performance. As described above, however, there are many indications where the use of sutures and/or staples is undesirable, inappropriate or impossible.
As demonstrated by the Applicants herein, mechanical failure of bonds formed by tissue adhesive and sealant systems may occur at the interface between the crosslinked adhesive matrix and the tissue. The inability of the adhesive matrix to form a strong interface or bond with tissues is most likely due to the fact that various proteins in the tissue are not readily amenable to non-covalent and/or covalent interactions with the tissue adhesive or sealant components as applied and/or during and after curing. For example, collagen present in tissues is a highly aggregated, insoluble protein which, because of its physical characteristics, is not readily amenable to interacting with tissue adhesive or sealant components. The same often holds true for other tissue-associated proteins such as actin and myosin. As a result, for most tissues and adhesive and sealant systems, failures are generally believed to occur at the interface between the crosslinked adhesive matrix and one or more tissue-associated protein such as collagen, actin and myosin.
One possibility for improving the mechanical performance of a tissue adhesive or sealant is to strengthen the interface between a tissue-associated protein and the adhesive matrix by altering the physical characteristics of the adhesive or sealant components to more closely approximate those of protein components of the tissue, thereby making the two components more compatible and amenable to non-covalent and/or covalent interaction. As one example, bonding of a dental restoration to the dentine of a tooth requires the establishment of adhesion between the demineralized collagen present in the dentine and a methacrylate adhesive matrix. In one study, alteration of the vinyl monomers present in a methacrylate adhesive matrix to more closely match the solubility parameter of collagen present in the dentine resulted in an increased strength of bonding of a dental restoration. (Miller,
Adhesive Bonding to Dentin with Isocyanate Copolymers”
, Ph.D. Dissertation, University of Missouri-Columbia (1995)). However, the development of physiologically acceptable adhesives and sealants which closely match the characteristics of native collagen has, for the most part, been unsuccessful.
There is, therefore, a need for novel methods for enhancing the adhesion of adhesive or sealant compositions to tissues. More specifically, there is a need for novel methods of strengthening the adhesive matrix/tissue-associated protein interface so as to enhance the mechanical properties of bonds created by tissue adhesives and sealants, wherein those methods are generally applicable to a variety of different tissues and adhesive and sealant systems.
SUMMARY OF THE INVENTION
The present invention provides generally applicable methods for enhancing the mechanical performance of adhesive and sealant systems for use with both soft and hard tissues in vivo. The methods of the present invention are based at least in part upon the demonstration that certain “primer molecules” are capable of interacting with native component(s), particularly protein(s), in tissue, thereby altering the physical characteristics of those components(s) to better match the characteristics of the crosslinked matrix formed by the tissue adhesive or sealant components as applied and/or during and after curing. By causing the physical characteristics of tissue-associated components to better match those of the adhesive or sealant components, one enhances the ability of a tissue adhesive or sealant of interest to form a stronger adhesive matrix/tissue-associated component interface which, in turn, results in stronger attachment of the adhesive matrix to the tissue. The primer molecules described herein are useful with virtually all adhesives or sealants for soft and hard tissues in which the strength of the bond formed thereby is limited by failure at the interface between the adhesive matrix and the tissue.
In accordance with the present invention, novel methods for enhancing the mechanical performance of tissue adhesives and sealants are provided. In one embodiment, the present invention is directed to methods for maintaining separated tissues in proximate relationship which comprise applying to the separated tissues (a) a primer molecule and (b) a tissue adhesive, wherein the primer molecule and the tissue adhesive are applied in an amount effective to maintain the separated tissues in proximate relationship when they are brought into such a relationship. In another embodiment, methods for sealing a defect in a tissue are provided, wherein the methods comprise applying to the defect (a) a primer molecule and (b) a tissue sealant, wherein the primer molecule and the tissue sealant are applied in an amount effective to seal the defect in the tissue. The primer molecules are such that they are capable of physically interacting with one or more proteins present in the tissue, thereby allowing the tissue to form a strong bonded interface with the crosslinked tissue adhesive or sealant (i.e., adhesive matrix). In certain embodiments, the primer molecule may be capable of physically and/or covalently interacting with collagen, actin and/or myosin present in the tissue. The herein described methods are capable of maintaining separated tissue in proximate relationship or sealing a defect in tissue with greater bond strength than when the tissue adhesive or sealant is employed in the absence of a primer molecule. Primer molecules which find use herein include, for example, chaotropic agents, dyes which are capable of staining tissue-associated proteins such as collagen, actin or myosin, proteins, oligopeptides, and the like.
The present invention is also directed to compositions and kits which are useful for maintaining separated tissue in a proximate relationship or sealing a defect in tissue and which comprise a tissue adhesive or sealant and a primer molecule which is capable of physically interacting with a protein present in the tissue, thereby rendering the tissue capable of forming a bonded interface with the crosslinked matrix of the tissue adhesive or sealant.
DETAILED DESCRIPTION OF THE INVENTION
The present invention is directed to generally applicable methods for enhancing the mechanical performance of adhesives and sealants for use with hard and soft tissues, wherein those tissues may be associated with a living organism or otherwise. The methods of the present invention are based at least in part on the demonstration that
Flehr Hohbach Test Albritton & Herbert LLP
Protein Polymer Technologies, Inc.
Szekely Peter
Trecartin Esq. Richard F.
LandOfFree
Methods of using primer molecules for enhancing the... does not yet have a rating. At this time, there are no reviews or comments for this patent.
If you have personal experience with Methods of using primer molecules for enhancing the..., we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Methods of using primer molecules for enhancing the... will most certainly appreciate the feedback.
Profile ID: LFUS-PAI-O-2547354