Embodiments of the present disclosure relate to a wearable safety tourniquet assembly. The assembly provides a safety tourniquet that circumferentially integrates into a pair of chainsaw chaps for applying pressure to an injured limb. The safety tourniquet has a resilient strap that circumferentially integrates into the limb sections of the chaps. The strap is configured to wrap around the limb of the wearer directly, and without separation from the chaps. The safety tourniquet also has one or more tensioning mechanisms that are operatively attached to the strap. In one possible embodiment, the assembly provides an eclectic assortment of tensioning mechanisms to tighten and loosen the strap around the limb. In other embodiments, the tensioning mechanism can be interchanged to accommodate different pressure requirements, spacing around the chaps, and material and budgetary parameters. A medical kit and/or a sanitization pouch can detachably attach to the chaps, for easy retrieval thereof.

A medical device has an artificial contractile structure including at least one contractile element adapted to contract a hollow body organ in such a way that said contractile element is adapted to be in a resting position or in an activated position, the activated position being defined with the contractile element constricting the hollow body organ and the resting position being defined with the contractile element not constricting the hollow body organ. The medical device further includes a tensioning device adapted to apply a force so as to tighten the contractile element around the hollow body organ. The contractile element further includes a closure for forming the contractile element into a closed loop around said hollow body organ, the closure having a plurality of lips arranged to engage the contractile element.

An inflatable compression device configured to apply a compressive force to a puncture site of a patient's vessel, such as an artery is disclosed. The hemostasis device may comprise a location indicium disposed on an inside surface of an inflatable bladder portion of the device so as to be disposed in close proximity to the skin of the patient to improve alignment of the compression device with the puncture site.

A compression assembly for a medical tourniquet comprises a strap, a windlass and a buckle assembly and employs a retainer which retains the windlass upon rotation to apply pressure to a limb. The retainer has a pair of C-shaped portions which retain the windlass and a cross piece which is captured by a mounting strip. The buckle assembly preferably comprises a pair of parallel bars, one of which mounts a clasp which engageably retains a D-shaped ring. The strap is pulled through the D-shaped ring and secured in a taut engagement about a limb. The tourniquet is cooperatively configured so that only a relatively small additional rotation of the windlass is typically required to apply the final occluding pressure.

A hemostatic device includes a flexible band adapted to be wrapped around a patient's limb at a site on the limb where bleeding is to be stopped, a portion for securing the band in a wrapped state to the limb, a curved plate which is made of a material more rigid than the band and at least a portion of which is curved toward the inner peripheral side thereof, a main balloon which is provided on the inner peripheral side of the curved plate and which inflates when a fluid is introduced therein, and a pressing member which is provided between the curved plate and the main balloon so that at least a portion thereof overlaps with the balloon and which is adapted for pressing against the balloon. The device provides an excellent hemostatic effect and prevents numbness and poor circulation in areas peripheral to the site of attachment.

Tissue compression devices having a tension limiting strap retainer and methods of using the same. The tissue compression devices described herein may include a strap retainer that is attached to a base by an elastic member that is configured to draw the strap retainer towards the base. The tissue compression devices described herein may also include a tension indicator that extends between the base of the tissue compression device and strap retainer. The tension indicator may be configured to limit the travel distance of the strap retainer away from the base in response to forces acting on the strap retainer. The tension indicator may also provide visual feedback to a user of the tension force in a strap to attach the tissue compression device to a patient.

Tissue compression devices having a tension limiting strap retainer and methods of using the same. The tissue compression devices described herein may include a strap retainer that is attached to a base by an elastic member that is configured to draw the strap retainer towards the base. The tissue compression devices described herein may also include a tension indicator that extends between the base of the tissue compression device and strap retainer. The tension indicator may be configured to limit the travel distance of the strap retainer away from the base in response to forces acting on the strap retainer. The tension indicator may also provide visual feedback to a user of the tension force in a strap to attach the tissue compression device to a patient.

A hemostatic device has a band for being wrapped around a puncture site of a wrist, securing means for securing the band in a state where the band is wrapped around the wrist, and an inflation portion that interlocks with the band, and that is inflated by injecting gas. The inflation portion includes a first region which stretches when the gas is injected into the inflation portion, and a second region which is less likely to stretch compared to the first region and which is formed of a rigid material. The second region has a micropore which discharges the gas contained in the inflation portion with the lapse of time, in a state where the inflation portion is inflated.

An adhesive pad for use with a hemostasis device comprising a footplate having a top surface and a receiving device positioned on the footplate, the adhesive pad comprising: (1) a flexible backing layer having a bottom surface, a central portion having an opening, a first side portion, and a second side portion; (2) an adhesive layer applied to the bottom surface of the backing layer; and (3) a release layer removably secured to the adhesive layer. The opening in the central portion of the backing layer is sized to fit the receiving device of the hemostasis device, and the adhesive layer applied to the bottom surface of the first and second side portions of the backing layer is configured to adhere to and extend beyond the top surface of the footplate.

An adhesive pad for use with a hemostasis device comprising a footplate having a top surface and a receiving device positioned on the footplate, the adhesive pad comprising: (1) a flexible backing layer having a bottom surface, a central portion having an opening, a first side portion, and a second side portion; (2) an adhesive layer applied to the bottom surface of the backing layer; and (3) a release layer removably secured to the adhesive layer. The opening in the central portion of the backing layer is sized to fit the receiving device of the hemostasis device, and the adhesive layer applied to the bottom surface of the first and second side portions of the backing layer is configured to adhere to and extend beyond the top surface of the footplate.