Caskets, cap panel assemblies for a casket, and methods for manufacturing cap panel assemblies are described. A casket may include a casket shell, at least one casket cap pivotally mounted on the casket shell, and a cap panel assembly mounted in the at least one casket cap. The cap panel assembly may include a cap panel, a puffing member attached to each edge of the cap panel, a cap panel insert positioned in-line with the cap panel, and a plurality of resilient members positioned on a front face of the cap panel insert. The plurality of resilient members may be tensioned, for example, to hold keepsakes, memorabilia, or other types of objects on or in the cap panel insert. The cap panel insert can include a mounting bracket or a screw and wire assembly for mounting the cap panel insert on a wall.

Caskets, cap panel assemblies for a casket, and methods for manufacturing cap panel assemblies are described. A casket may include a casket shell, at least one casket cap pivotally mounted on the casket shell, and a cap panel assembly mounted in the at least one casket cap. The cap panel assembly may include a cap panel, a puffing member attached to each edge of the cap panel, a cap panel insert positioned in-line with the cap panel, and a plurality of resilient members positioned on a front face of the cap panel insert. The plurality of resilient members may be tensioned, for example, to hold keepsakes, memorabilia, or other types of objects on or in the cap panel insert. The cap panel insert can include a mounting bracket or a screw and wire assembly for mounting the cap panel insert on a wall.

Hardware for a casket comprises a clevis having a pair of side walls, a back wall adapted to be attached to the casket shell wall, a pair of tabs each of which extends laterally outwardly from a respective one of the side walls and each of which is spaced forwardly from the rear wall, an arm pivoted at an upper end to the clevis, and a decorative ear having a downwardly facing recess in a lower edge thereof and a pair of tapered resilient arms each of which is located on a respective side of the recess, each resilient arm having a laterally inwardly projecting tab on a lower free end thereof, each resilient arm becoming progressively thicker from the free end toward a base thereof as measured in a direction generally normal to the casket shell wall.

Hardware for a casket comprises a clevis having a pair of side walls, a back wall adapted to be attached to the casket shell wall, a pair of tabs each of which extends laterally outwardly from a respective one of the side walls and each of which is spaced forwardly from the rear wall, an arm pivoted at an upper end to the clevis, and a decorative ear having a downwardly facing recess in a lower edge thereof and a pair of tapered resilient arms each of which is located on a respective side of the recess, each resilient arm having a laterally inwardly projecting tab on a lower free end thereof, each resilient arm becoming progressively thicker from the free end toward a base thereof as measured in a direction generally normal to the casket shell wall.

Systems and methods for body-proximate recoverable capture of mercury vapor emitted during cremation of human remains having dental amalgam fillings containing mercury. In various embodiments, one or more recoverable mercury sorbent packets comprise a combination of nanoparticles of one or more chalcogens and a particulate refractory material contained in a refractory material packaging. The recoverable packets capture and contain elemental mercury vapor emitted during cremation from dental amalgam fillings containing mercury. The recoverable packets are placed external to the body and within the combustion chamber during cremation, and not within the flue or exhausts exiting the combustion chambers. In various embodiments, the recoverable packets are positioned within the casket or primary combustion chamber, and may be preferably positioned proximate the head and neck of the body with the aid of selectively-refractory containment structures. After cremation, the mercury laden recoverable sorbent packets may be removed from the ashen remains of the body, and optionally the mercury may be recovered and the sorbent packet reprocessed for reuse.

Systems and methods for body-proximate recoverable capture of mercury vapor emitted during cremation of human remains having dental amalgam fillings containing mercury. In various embodiments, one or more recoverable mercury sorbent packets comprise a combination of nanoparticles of one or more chalcogens and a particulate refractory material contained in a refractory material packaging. The recoverable packets capture and contain elemental mercury vapor emitted during cremation from dental amalgam fillings containing mercury. The recoverable packets are placed external to the body and within the combustion chamber during cremation, and not within the flue or exhausts exiting the combustion chambers. In various embodiments, the recoverable packets are positioned within the casket or primary combustion chamber, and may be preferably positioned proximate the head and neck of the body with the aid of selectively-refractory containment structures. After cremation, the mercury laden recoverable sorbent packets may be removed from the ashen remains of the body, and optionally the mercury may be recovered and the sorbent packet reprocessed for reuse.

A smart system and methods for coupling a medical transporter apparatus with an imaging apparatus, involving: a smart docking module comprising at least one coupler responsive to a controller operable by a set of executable instructions, the smart docking module comprising a non-magnetic material; and the smart docking module configured by the controller to automatically perform at least one of: position, dock, engage, latch, lock, interlock, release, emergency-release, quick-release, disengage, emergency-disengage, and quick-disengage the medical transporter apparatus in relation to the imaging apparatus.

A smart system and methods for coupling a medical transporter apparatus with an imaging apparatus, involving: a smart docking module comprising at least one coupler responsive to a controller operable by a set of executable instructions, the smart docking module comprising a non-magnetic material; and the smart docking module configured by the controller to automatically perform at least one of: position, dock, engage, latch, lock, interlock, release, emergency-release, quick-release, disengage, emergency-disengage, and quick-disengage the medical transporter apparatus in relation to the imaging apparatus.

A method of securing a patient onto an operating table when the patient is in a position such as the trendelenburg position and apparatus therefor including a kit. A viscoelastic pad is used to support and hold a patient on a medical procedure table during a medical procedure performed while the table, and thus the patient lying thereon, is in an inclined position, such as the Trendelenburg position. The viscoelastic pad has characteristics which promote a minimization of pressure forces on the patients body, as well as promote a secure cushioning and holding of the patient in a desired position on the table, in order to minimize injury to the patient.

A method of securing a patient onto an operating table when the patient is in a position such as the trendelenburg position and apparatus therefor including a kit. A viscoelastic pad is used to support and hold a patient on a medical procedure table during a medical procedure performed while the table, and thus the patient lying thereon, is in an inclined position, such as the Trendelenburg position. The viscoelastic pad has characteristics which promote a minimization of pressure forces on the patients body, as well as promote a secure cushioning and holding of the patient in a desired position on the table, in order to minimize injury to the patient.