Patent application number | Description | Published |
20120006084 | ELECTRONIC ARTICLE SECURITY SYSTEM - Disclosed are embodiments of apparatus, methods, and systems for securing electronic articles, such as computers, for theft deterrence or prevention. In one embodiment, a body is provided, which is secured to an intermediary structure. The intermediary structure is, in turn, secured to the electronic article. The body may be configured as a mass such that it is of sufficient weight, shape, and/or size to allow for deterring theft. In some embodiments, the system is configured to render inaccessible, or at least impede access to, at least one piece of fastening hardware between the intermediary structure and the body and/or between the intermediary structure and the electronic article, thereby further deterring theft. | 01-12-2012 |
20130338652 | MINIMALLY INVASIVE ECCRINE GLAND INCAPACITATION APPARATUS AND METHODS - Methods, apparatus and systems for incapacitating eccrine glands are disclosed herein. A method for incapacitating eccrine glands may comprise inserting a tissue dissecting and modifying wand (TDM) into an incision in a patient's skin. The TDM may comprise a tip having a plurality of protrusions with lysing segments positioned between the protrusions. The TDM may also comprise an energy window positioned on top of the TDM that is configured to deliver energy to incapacitate eccrine glands. After separating tissue using the lysing segment(s) to define a target region, the energy window may be activated and moved around within the target region to incapacitate eccrine glands. In some implementations, the energy window may be activated prior to separating the tissue such that the tissue is separated while eccrine glands are incapacitated within the target region. | 12-19-2013 |
20130338653 | MINIMALLY INVASIVE APOCRINE GLAND INCAPACITATION APPARATUS AND METHODS - Methods, apparatus and systems for modifying apocrine glands are disclosed herein. A method for modifying apocrine glands may comprise inserting a tissue dissecting and modifying wand (TDM) into an incision in a patient's skin. The TDM may comprise a tip having a plurality of protrusions with lysing segments positioned between the protrusions. The TDM may also comprise an energy window positioned on top of the TDM that is configured to deliver energy to incapacitate apocrine glands. After separating tissue using the lysing segment(s) to define a target region, the energy window may be activated and moved around within the target region to incapacitate apocrine glands. In some implementations, the energy window may be activated prior to separating the tissue such that the tissue is separated while apocrine glands are incapacitated within the target region. | 12-19-2013 |
20130338662 | MINIMALLY INVASIVE HAIR FOLLICLE INCAPACITATION APPARATUS AND METHODS - Methods, apparatus and systems for modifying hair follicles are disclosed herein. A method for modifying hair follicles may comprise inserting a tissue dissecting and modifying wand (TDM) into an incision in a patient's skin. The TDM may comprise a tip having a plurality of protrusions with lysing segments positioned between the protrusions. The TDM may also comprise an energy window positioned on top of the TDM that is configured to deliver energy to incapacitate hair follicles. After separating tissue using the lysing segment(s) to define a target region, the energy window may be activated and moved around within the target region to incapacitate hair follicles. In some implementations, the energy window may be activated prior to separating the tissue such that the tissue is separated while hair follicles are incapacitated within the target region. | 12-19-2013 |
20140187870 | SYSTEMS, APPARATUS AND METHODS FOR TISSUE DISSECTION - Methods, apparatus and systems for tissue dissection and testing are disclosed herein. A method for tissue dissection and testing may comprise inserting a tissue dissecting wand (TD) through an incision in a patient's body. The TD may comprise a tip having a plurality of protrusions with lysing segments positioned between the protrusions to dissect and/or modify tissue. The TD may also comprise a sensor dock positioned on top of the TD that is configured to allow tissue and/or body fluid contact to a sensor. After separating tissue using the lysing segment(s) to access a target region, the sensor may be activated and moved around within the target region to assess tissues. | 07-03-2014 |
20140188095 | APPARATUS AND SYSTEMS FOR TISSUE DISSECTION AND MODIFICATION - Apparatus and systems for tissue dissection and modification are disclosed herein. A method for tissue dissection and modification may comprise inserting a tissue dissecting and modifying wand (TDM) through an incision in a patient's body. The TDM may comprise a modular tip having a plurality of protrusions with lysing segments positioned between the protrusions to dissect and/or modify tissue. The TDM may also comprise an energy window positioned on top of the TDM that is configured to deliver energy via thermochromic means to modify tissues. After separating tissue using the lysing segment(s) to define a target region, the energy window may be activated and moved around within the target region to modify tissues. In some implementations, the energy window may be activated prior to and/or during dissection of the tissue such that the tissue is separated while tissue is modified within the target region. | 07-03-2014 |
20140188107 | METHODS AND SYSTEMS FOR TISSUE DISSECTION AND MODIFICATION - Methods and systems for tissue dissection and modification are disclosed herein. A method for tissue dissection and modification may comprise inserting a tissue dissecting and modifying wand (TDM) through an incision in a patient's body. The TDM may comprise a tip having a plurality of protrusions with lysing segments positioned between the protrusions to dissect and/or modify tissue. The TDM may also comprise an energy window positioned on top of the TDM that is configured to deliver energy to modify tissues. After separating tissue using the lysing segment(s) to define a target region, the energy window may be activated and moved around within the target region to modify tissues. In some implementations, the energy window may be activated prior to and/or during dissection of the tissue such that the tissue is separated while tissue is modified within the target region. | 07-03-2014 |
20140188110 | APPARATUS, SYSTEMS AND METHODS FOR TISSUE DISSECTION AND MODIFICATION - Apparatus, systems, and methods for tissue dissection and modification are disclosed herein. A method for tissue dissection and modification may comprise inserting a tissue dissecting and modifying wand (TDM) through an incision in a patient's body. The TDM may comprise a tip having a plurality of protrusions with lysing segments positioned between the protrusions to dissect and/or modify tissue. The TDM may also comprise an energy window positioned on top of the TDM that is configured to deliver energy to modify tissues. After separating tissue using the lysing segment(s) to define a target region, the energy window may be activated and moved around within the target region to modify tissues. In some implementations, the energy window may be activated prior to and/or during dissection of the tissue such that the tissue is separated while tissue is modified within the target region. | 07-03-2014 |
20140188111 | METHODS, APPARATUS, AND SYSTEMS FOR TISSUE DISSECTION AND MODIFICATION - Methods, apparatus and systems for tissue dissection and modification are disclosed herein. A method for tissue dissection and modification may comprise inserting a tissue dissecting and modifying wand (TDM) through an incision in a patient's body. The TDM may comprise a tip having a plurality of protrusions with lysing segments positioned between the protrusions to dissect and/or modify tissue. The TDM may also comprise an energy window positioned on top of the TDM that is configured to deliver energy to modify tissues. After separating tissue using the lysing segment(s) to define a target region, the energy window may be activated and moved around within the target region to modify tissues. In some implementations, the energy window may be activated prior to and/or during dissection of the tissue such that the tissue is separated while tissue is modified within the target region. | 07-03-2014 |
20140188128 | SYSTEMS, APPARATUS AND METHODS FOR TISSUE DISSECTION AND MODIFICATION - Systems, apparatus and methods for tissue dissection and modification are disclosed herein. A method for tissue dissection and modification may comprise inserting a tissue dissecting and modifying wand (TDM) through an incision in a patient's body. The TDM may comprise a tip having a plurality of protrusions with lysing segments positioned between the protrusions to dissect and/or modify tissue. The TDM may also comprise an energy window positioned on top of the TDM that is configured to deliver energy to modify tissues. After separating tissue using the lysing segment(s) to define a target region, the energy window may be activated and moved around within the target region to modify tissues. In some implementations, the energy window may be activated prior to and/or during dissection of the tissue such that the tissue is separated while tissue is modified within the target region. | 07-03-2014 |