A three-dimensional tumor ruler and holder and methods of use thereof are provided. One embodiment provides a three-dimensional tumor ruler to simultaneously measure the length, width, and height of a tumor when positioned on or near the tumor. The tumor measurements can then be used to calculate tumor volume. Tumor volume can be used to accurately determine for example the dose of a drug or radiation to administer to a subject. In another embodiment, the tumor ruler can be used to position the tumor during administration of a drug or radiation therapy to maximize exposure of the tumor to the therapy.

The invention provides a method for locating radioactive material implanted in a living body, the method having the steps of implanting a stent into the body, the stent containing the radioactive material; imaging the body to determine a first position of the stent relative to remote points on the body; determining a second position of the stent at a second time later than the time of the implanting step; and measuring the distance between said first position and said second position. Also provided is a system for determining movement of a radiation source implanted in a living body, the device having a radiographic film overlaying a region of the body so as to oppose the radiation source, whereby the film is positioned relative to a reference point on the body; a grid disposed between the film and the body; and a radio-opaque substrate overlaying the film.

An ocular protection device and treatment methods are disclosed. The device has a corneal shield with an attached handle. The handle may be used to move the corneal shield to better protect the eye from various treatment modalities. The handle may also be used to place tension on the eyelid to counteract the forces imposed by a treatment handpiece. A procedure for treating the eye is disclosed where multiple passes with a treatment handpiece cause a gradual increase in the temperature of an eyelid up to a treatment temperature. Once the treatment temperature has been met, occlusions in the Meibomian glands of the eyelid may be expressed. The procedure may be repeated recursively until a desired level of expression has been achieved.

A novel radiation-protective neck support which provides cervical support and radiation protection for the neck and thyroid of a user, said support comprises (i) a soft collar portion which comprises a soft, flexible supportive material structure and is leaded, and (ii) a thyroid shield portion which descends from the soft collar portion and is leaded. The thyroid shield portion can descend as a flap from the soft collar portion or it can attach in other ways to achieve the protection desired for the thyroid. During surgery, the radiation-protective neck support is worn by a user, with the soft collar portion surrounding the neck of the user, thereby providing anatomical support and also providing radiation protection for the neck. With the thyroid shield portion descending as a flap from the soft collar portion, it will overlay the thyroid of the user and thereby provide radiation protection for the thyroid.

The invention relates generally to methods of using a thiol-Michael addition hydrogel for providing intracavitary brachytherapy and/or displacing tissue and organs. The thiol-Michael addition hydrogel may be used as a packing material and an attenuation material for intracavitary brachytherapy applications. The invention also relates generally to a brachytherapy applicator, which may be used in conjunction with the thiol-Michael addition hydrogel and methods thereof. The invention also relates to a kit comprising at least one container containing the precursor materials of the thiol-Michael addition hydrogel.

A protective assembly for use during laparoscopic surgery, the assembly including: a thin membrane formed from non-toxic material, the membrane being sufficiently thin and maneuverable to be passed through a cannula of a trocar wherein the membrane includes opposed major membrane surfaces separated by thickness of the membrane, each membrane surface including rows of projections and recesses such that any two adjacently located projections are separated by a recess.

A vapor delivery needle is provided that may include any of a number of features. One feature of the energy delivery probe is that it can apply condensable vapor energy to tissue, such as a prostrate, to shrink, damage, or denature tissues of the prostate. Methods associated with use of the energy delivery probe are also covered.

A robotic surgical arm including a receiver configured to receive wireless communications from a robotic surgical instrument attached to the robotic surgical arm and a shield including a plurality of fingers each having a common shape and a connector being in contact with each of the fingers. When the connector is electrically connected to ground, the shape, dimensions and arrangement of the fingers causes attenuation of the transmission of electric fields through the shield.

An X-ray system is described with a scatter radiation shielding device to be mounted underneath an operating table. The shielding device (10) comprises one or more layers of a radiation blocking material (6) and a cut-out (8) in the one or more layers. The cut-out extends from a point in or near a center of the one or more layers towards an edge to allow radiation transmission to pass. The shielding device is rotatable around a rotation axis. The shielding device substantially reduces the scatter radiation originating from the patient.

The present invention relates to a flexible surgical system for endoscopic spinal decompression and methods thereof. Various methods of accessing the epidural space with this instrument are described. The system design enables placement of the device through several approaches. It is then advanced under direct visualization or fluoroscopic (X-Ray), for example, into areas of the spine including lumbar (low back), thoracic (mid and upper back) and cervical (neck). The pathologies encroaching upon the spinal space can then be visualized wherein the epidural membrane can optionally be displaced to further aid in visualization. The membrane can be used to protect regions of tissue adjacent the site to tissue removal.