Download app called d-vasive

Does anyone really want to own stock in a company that just named the erratic Mr. McAfee as CEO? A jittery Mr. McAfee first became famous for founding McAfee anti-virus software. Michelangelo was a dud but Mr. McAfee took his company public in The raging controversy still flickered and Mr. McAfee resigned in — many years before McAfee was sold to Intel in — Despite the untrue statement in the May 9 press release stating Mr.

Later, Mr. Intel finally renamed its subsidiary as Intel Security after enduring years of being dragged through the mud courtesy of Mr. McAfee wants investors to believe his product, D-vasive, is better than his former product that he so summarily bashed. Indeed, he has taken to social media to unabashedly promote his little D-vasive asset company. We think the SEC will take note of Mr.

Janice McAfee appears to be the publisher of the first promo, which shows up on Mr. This was taken from the second promo, below, in which Mr. Hold on tight. And this post raises questions about whether Mr. McAfee may have been promoting MGT stock while he campaigned for president. In early November of I noticed some suspicious logins from my FB account.

When I went to try and change my password, I was then blocked from using my full account and Instagram as well. The reason being posts were made going against FBs community standards. I did some research and learned I could refute the account being blocked so, I submitted the forms requested for reviewing the account. This was November 8th. The confirmation the showed next that my request was under review and that should take just over a day or so….

I just want access to at least download those photos and videos. The review page is showing I now only have a few days left and I really need assistance with this concern. Start creating partnerships and let them own their own stuff instead of purchasing it all.

I would honestly give you 0 stars if it allowed me to. I wake up the next day and see a 3-day ban. Usually it shows hate harassment. Thats not harassment so you need to be re-educated cause harassment is when you make others feel uncomfortable or threatened with the same behavior not saying the word Trash in a comment. Good luck,. The developer, Facebook, Inc. The following data may be used to track you across apps and websites owned by other companies:. In a preferred aspect, the present invention provides methods and apparatus for sealing a surgical hole drilled in a patient's annulus.

As such, the present invention is ideally suited to seal a hole drilled in an intervertebral disc such that nucleus pulposus on the inside of the disc cannot seep or flow through the hole to the outside of the disc as the disc is compressed during normal movement.

The present system is not limited only to sealing holes which have been drilled in an annulus, but may also be used to seal naturally occurring holes as well. Moreover, the present invention is not limited to sealing holes in the annulus alone but may be used to seal any hole, thereby inhibiting the passage of soft tissue therethrough.

Mesh 10 has a proximal end 12 and a distal end An advantageous property of mesh 10 is that as proximal end 12 and distal end 14 are moved closer together with respect to one another, mesh 10 will tend to expand radially outwards, widening in its diameter D. In a preferred design, the mesh diameter D is approximately 1 to 8, millimeters, and more preferably about 3 millimeters when mesh 10 is in its relaxed state, i.

When ends 12 and 14 are pushed together, however, diameter D of mesh 10 may reach 9 millimeters. In preferred designs, strands 13 may each be made of 0. Other materials having suitable dimensions, bioabsorption, strength, spring rate or radiopacity may also be used.

In an optional aspect, proximal end 12 may be sealed, for example with a mesh closure positioned thereover. In another optional aspect of the invention, as will be explained, ends 12 and 14 may be formed to be non-expandable such that their diameters do not change as ends 12 and 14 of mesh 10 are pushed together relative to one another.

For example, a solid ring may be formed at, or attached to, one or both of ends 12 and Mesh 10 is inserted longitudinally in distal direction D into surgically cut hole 21 in disc 20 such that proximal end 12 and distal end 14 extend out of hole 21 past outer surface 11 and inner surface 13 of hole 21 in disc 20 as defined by walls 22 as shown. As is shown in FIG. As shown in FIG.

The placement of distal end 14 at an appropriate distal depth such that a portion of mesh 10 extends in a proximal direction from outer surface 11 of hole 21 can be enhanced through various visualization techniques such as shaft depth markers or endoscopic, radiographic or ultrasound methods.

For clarity of illustration, to show both the side walls of hole 21 and mesh 10 , the following Figs. It is to be understood that such clearance would not exist as mesh 10 becomes anchored against walls 22 when positioned.

Following the step shown in FIG. Thereafter, as shown in FIG. In this aspect of the invention, proximal end 12 may optionally be formed to be non-expandable, for example by attachment to a fixed diameter ring therearound. The effect of mesh 10 being deformed to form respective bulges 17 and 15 at the outer surface 11 and inner surface 13 of disc 20 will be to hold mesh 10 at a fixed longitudinal position relative to hole 21 such that it doesn't move in either a proximal or distal direction.

In this aspect of the invention, proximal end 12 may be formed to be non-expandable and have a slightly larger diameter than that of distal end 14 such that proximal end 12 can pass through distal end 14 and be snap-fit through the opening of distal end In addition, rod 40 can be used to push proximal end 12 through distal end 14 , as was shown in FIG.

A tubular inserter 35 is then received thereover. Inserter 35 may be used for pushing mesh 10 against the proximal end of hole 21 as is shown in FIG. Suture tethers 30 may preferably be cut or removed after insertion. In another aspect of the invention, as illustrated in FIGS. In the aspect of the invention shown in FIGS. Expansion of mesh 10 in these regions will cause formation of bulges immediately outside of the distal and proximal ends of hole 21 as shown.

Such bulges will tend to anchor the mesh such that it does not move longitudinally in hole In this and the above discussed aspects of the invention, outward radial forces of the portions of the mesh which are curled within the main body of the mesh will preferably act against the outside walls of the outer tube creating frictional loads along the longitudinal axis that far exceed the unfolding tendency of the mesh. A further advantage of the present invention is that it may be adapted to compensate for both thick or thin annular walls.

For example, should the length of hole 21 be slightly longer than the length of mesh 10 , ends 12 and 14 will still be fully engaged within hole Another advantage of the present invention is that the exposed portions of the mesh projecting out of hole 21 e.

An alternate aspect of the first embodiment of the present invention is shown in FIGS. A mesh 50 , similar in characteristics to mesh 10 as described above , is provided. As seen in the cross sectional view of FIG.

As mesh 50 is advanced distally into hole 21 , as shown in FIG. These devices allow pressure equalization through the venting of lower viscosity fluids but retain higher viscosity fluids and solids. When inserted into a surgical access hole, petals are first flexed radially inward in direction I.

Accordingly, sheet assumes a generally conical shape when inserted into hole 21 in intervertebral disc 20 , as is shown in FIG. After device has been positioned in hole 21 , for example with a rod , petals are released. As such, petals act as cantilever leaf springs anchoring device in position in hole 21 , thereby resisting outward i.

Rather, such a sheet is preferably crimped into a conical shape such that it can be positioned in hole Thereafter sheet will expand ie: flatten itself to seal hole 21 with holes allowing for fluid movement similar to the movement permitted between adjacent petals as shown in other aspects of the invention. Device may preferably by formed to accommodate hole 21 having an inner diameter ranging from one-half to three quarters of the disc diameter in its free and flattened state.

Device can be formed from wire or molded from plastic. In preferred aspects, a plurality of devices can be inserted into hole 21 in sequence as shown in FIG. Such an arrangement has the advantage of further restricting the movement of nucleus pulposus out of the center of disc Referring to FIG.

A positioning rod is used to push devices a and b together such that devices a and b become inverted such that their apexes a and b will be pushed together. As is seen in FIG. The Applicants of the present invention have succeeded in constructing various experimental embodiments of the present invention, as follows.

These experimental embodiments are meant to illustrate various exemplary systems in accordance with the present invention. The present invention is not limited to the experimental embodiments described herebelow.

Rather, any suitable system for achieving the structures and methods of the present invention as claimed is considered within the scope of the present invention.