Penile implant

A penile implant having a body with a circular and linear elongated wall having an outer and an inner exterior surfaces. The body tapered from a larger to a small diameter between opposing longitudinal ends. The elongated wall tapered diametrically from a thicker to a thinner wall thickness between a top position and two opposing longitudinally extensive edges. Net fabric sheets imbedded below surfaces of the outer and the inner exterior walls wherein the net fabric sheets prevent the body from creasing.

BACKGROUND

This disclosure relates to regenerative medicine and particularly to a surgical implant procedure and device for the enhancement and appearance of the human penis, and more particularly to a penile implant enabling a non-functioning penis to fulfill normal sexual function. A patent, U.S. Pat. No. 6,537,204 was issued to James Elist on Mar. 25, 2003 for a similar implant and the subject matter of this patent is incorporated by reference hereinto in its entirety. The presently described implant of this disclosure advances the state of the art over the '204 references as will be described herein.

Regenerative medicine is the process of replacing or regenerating human cells, tissues or organs to restore or establish normal function. This field holds the promise of regenerating damaged tissues and organs in the body by replacing damaged tissue and/or by stimulating the body's own repair mechanisms to heal previously irreparable tissues or organs. Regenerative medicine refers to a group of biomedical approaches to clinical therapies that may involve the use of stem cells and implantation devices as well as other approaches. Examples include the injection of stem cells or progenitor cells (cell therapies); the induction of regeneration by biologically active molecules administered alone or as a secretion by infused cells and transplantation of in-vitro grown organs and tissues. For example, in abdominal wall reconstruction such as inguinal hernia repair, biologic meshes have been used successfully. When an organ, such as the human penis, is physically damaged or becomes functionally impotent, the implantation of structural elements is sometimes desirable. A prior known approach is disclosed in U.S. Pat. No. 6,537,204, Mar. 25, 2003, to the present discloser and is hereby incorporated in its entirety herein. The present application discloses and claims certain non-obvious and novel, critical improvements as will be described and shown herein.

BRIEF SUMMARY AND OBJECTIVES

The present disclosure describes an implant, its use, method of forming and method of implantation which results in restoring the use of the human penis after damage or atrophy has occurred or congenital deformities, penile dysmorphia. The penile implant described herein is formed as a unitary body having an elongated aspect in a longitudinal direction and a circular aspect in a transverse direction, the body having a hollow core and mesh layers under both outside and inside exterior surfaces. It has been found that when the inside exterior surface, as taught in the '204 reference, is faced with a mesh layer, the implant tends to fold, crease and ultimately break or crack along a top surface rendering a partial or even total dysfunction of the implant. With the addition of a top mesh layer, there is no cracking or splitting of the top surface. This is critical to the functional aspects of the implant enabling long-term use and shape maintenance. Another improvement of the presently disclosed implant is that it is molded in one unitary piece. Prior to the year 2003 it was believed that the implant must be inserted into the penis with first one half seated into place and then, once that was successfully completed, only then could the second half be seated, a two-step process using a two piece implant as described in the '204 reference. The advantages of the present improved implant is that it considerably reduces the time of exposure of the pubic shaft since suturing is minimized limited only to connection of the implant to the glans penis. Furthermore, the monolithic shape of the implant provides a great improvement is establishing a more realistic final shape and utility. With advances in the physical characteristics of silicon rubber, such as its elasticity and resiliency, it has now been discovered that a one piece implant is able to be inserted into the penis where it circumscribes the penis shaft with the exception of the urethral passage at the six-o'clock penile position. Once placed around the penis, the implant is self-seating, the operating procedure is much shorter than with the two halve implant and the chance of infection has dropped considerably, especially with the addition of an antibacterial material coating on the exterior surfaces of the implant. The details of one or more embodiments of these concepts are set forth in the following description. Other features, objects, and advantages of these concepts will be apparent from the drawings, and from the claims.

DETAILED DESCRIPTION

FIG. 1illustrates a prior art penile implant similar to the presently disclosed improved implant10illustrated inFIGS. 2 and 3.FIG. 2shows that implant10has a monolithic body20, that is, a one-piece elongated hollow structural wall which, in the end view ofFIG. 3is seen to be not a full circle but rather is open at its six o'clock position. Implant10has a wall thickness which is identified at locations12along edges16. The wall thickness varies smoothly circumferentially from a maximum thickness at a top, twelve o'clock position14to a minimum at opposing, spaced apart lower edges16. Body20may be made by molding of silicon rubber into the linear and circular shape shown in the figures. The longitudinal direction, see arrow a, transverse direction, see arrow b are shown in Implant10extends between a first larger end26and a second smaller end28, in a smooth linear tapered manner, the ends26,28defining an overall length (shown by arrows L). Implant10has an outer exterior surface30and an inner exterior surface32, the latter defining an open space36within body20, which space is accessible through the lower edges16which extend the full length L between the first and second ends26,28.

When implanted into the penis, implant10is placed over and around the shaft of the penis beneath the epithelium (not shown). Implant10is custom molded for each individual in accordance with a desired and selected length L and other physical dimensions. Upon implantation, the end26implant10is positioned adjacent to the recipient's pubic bone and extends to the glans penis at the second end28where it is sutured thereto. Between ends26and28implant10tapers from a relatively larger girth at the first end26to a relatively smaller girth at the second end28a configuration resembling the natural shape of the penis. As shown inFIG. 3, the wall thickness12also tapers in mutually coordinated opposing mirror image uniformity from the top position14to the lower edges16. Along the top position14longitudinally, wall thickness12tapers from a maximum at end26of approximately ⅜ inch to a minimum of about 1/16 inch over its length and this may vary from person to person. As stated above, implant10may be of silicon rubber or other material that does not trigger rejection by the recipient's immune system. The material is soft with an ASTM D2240 on the Dorometer A scale of not greater than 20. This is quite soft providing a touch to the fingers that is similar to that of the penis itself and yet able to provide a structural rigidity suitable for entry to the vagina upon erection of the penis, structurally rigidized by net sheets40as described below.

A first net fabric sheet40made of filaments having about 1/32 inch thickness and 1/32 inch spacing is imbedded within the outside exterior surface30of body20and a similar second net fabric sheet42is imbedded within the inside exterior surface32of body20, the sheets40and42placed just below the surfaces. These sheets40,42therefore are in opposing spaced-apart configurations just below the surfaces of body20. The net fabric sheets40,42are stretchable in length by between about 2-5% from their relaxed state. In function, sheets40,42provide a restraint on the silicon rubber body20which completely prevents creasing. Filaments of40,42are laid out in a rectangular grid with the filaments running in parallel with the longitudinal (a) direction and also with the transverse (b) direction as shown inFIG. 2. This is a critical orientation which avoids steering the penis in either lateral direction.

An antibacterial or antimicrobial compound50may be coated over the outer30and inner32surfaces of body10in order to help prevent infection from pathogenic bacteria in or around the surgical site during and after implantation. Such compounds may include: active chlorine, iodine, concentrated alcohols, phenolic substances, cationic surfactants, oxidizers, heavy metals, strong acids, and alkalis.

Embodiments of the subject apparatus and method have been described herein. Nevertheless, it will be understood that various modifications may be made without departing from the spirit and understanding of this disclosure. Accordingly, other embodiments and approaches are within the scope of the following claims.