Abstract: An example implant device includes a base having a surface that mates with bone, and a plurality of tapered protrusions positioned on the base and extending from the surface of the base that mates with bone. A surface of the plurality of tapered protrusions includes a textured surface to increase area for bone growth. An example method for inserting the implant device into bone includes forcing the plurality of tapered protrusions of the implant device into the bone, and securing the implant device in place without cement due to the plurality of tapered protrusions cutting into the bone for fixation of the implant device.

Abstract: A system for enhancing sterility includes a first surgical glove including an upper glove portion and a lower glove portion. A surgical garment includes at least one surgical garment cuff and a sealing device including a first adhesive. The first adhesive of the sealing device is configured to be affixed between an inside surface of the lower portion of the first surgical glove and an outside surface of the at least one surgical garment cuff so as to provide a fluid seal between the first surgical glove and the at least one surgical garment cuff of the surgical garment.

Abstract: A system for enhancing sterility. The system includes a first surgical glove comprising an upper glove portion and a lower glove portion. A surgical garment comprising at least one surgical garment cuff, and a sealing device comprising a first adhesive. The first adhesive of the sealing device is configured to be affixed between an inside surface of the lower portion of the first surgical glove and an outside surface of the at least one surgical garment cuff so as to provide a fluid seal between the first surgical glove and the at least one surgical garment cuff of the surgical garment.

Abstract: A surgical retractor and configured to minimize tearing of the gloves without compromising the ability to grip tissue. The surgical retractor has a handle, a blade, and a plurality of retraction elements. The retraction elements may be fixed to the blade but arranged in a specific configuration that a minimizes tearing of the gloves without compromising the ability to grip tissue. The retraction elements may also be made deployable by having a deployed configuration in which the retraction elements are exposed, and a stowed configuration in which the retraction elements are hidden.

Abstract: Within examples, a surgical device with an embedded sensor system for performing hip replacements is described. This device mitigates fracturing of the mid metaphyseal/diaphyseal region of the femur, and ensures adequate press-fit of the component into the bone. The device relays information regarding forces experienced by the patient's bone to a separate data acquisition device and displays it on an interface. This information is used by the surgeon to determine the force present inside of the patient's bone during broaching, and can then be used to provide better care, and mitigate fractures due to overloading in the bone.

Abstract: Within examples, a surgical device with an embedded sensor system for performing hip replacements is described. This device mitigates fracturing of the mid metaphyseal/diaphyseal region of the femur, and ensures adequate press-fit of the component into the bone. The device relays information regarding forces experienced by the patient's bone to a separate data acquisition device and displays it on an interface. This information is used by the surgeon to determine the force present inside of the patient's bone during broaching, and can then be used to provide better care, and mitigate fractures due to overloading in the bone.

Abstract: A surgical leg positioner capable of bending the knee in varus or valgus while simultaneously distracting the tibia from the femur, the leg positioner having a thigh clamp module, a swing arm module connected to the thigh clamp module in a manner that offsets a joint axis laterally to the side of the knee of the patient so as not to damage the opposite compartment of the knee when bent in varus or valgus. The swing arm module also distracts the knee simultaneously when the knee is bent in varus or valgus. The swing arm module also permits flexion and extension of the knee at the knee's natural flexion-extension axis. The surgical leg positioner also utilizes a thigh brace that property aligns the leg on the surgical leg positioner.

Abstract: A single-handed meniscal biter instrument for probing and resecting meniscal tissue. The instrument includes a main body configured to be held by one hand and a cutting mechanism coupled to the main body and configured to be operable by the same hand while held. The instrument also includes an extendable probe coupled to the main body, wherein the probe is configured to be independently operable by the same hand while being held.

Abstract: An example implant device includes a base having a surface that mates with bone, and a plurality of tapered protrusions positioned on the base and extending from the surface of the base that mates with bone. A surface of the plurality of tapered protrusions includes a textured surface to increase area for bone growth. An example method for inserting the implant device into bone includes forcing the plurality of tapered protrusions of the implant device into the bone, and securing the implant device in place without cement due to the plurality of tapered protrusions cutting into the bone for fixation of the implant device.

Abstract: A surgical leg positioner capable of bending the knee in varus or valgus while simultaneously distracting the tibia from the femur, the leg positioner having a thigh clamp module, a swing arm module connected to the thigh clamp module in a manner that offsets a joint axis laterally to the side of the knee of the patient so as not to damage the opposite compartment of the knee when bent in varus or valgus. The swing arm module also distracts the knee simultaneously when the knee is bent in varus or valgus. The swing arm module also permits flexion and extension of the knee at the knee's natural flexion-extension axis. The surgical leg positioner also utilizes a thigh brace that property aligns the leg on the surgical leg positioner.

Abstract: A surgical retractor and configured to minimize tearing of the gloves without compromising the ability to grip tissue. The surgical retractor has a handle, a blade, and a plurality of retraction elements. The retraction elements may be fixed to the blade but arranged in a specific configuration that a minimizes tearing of the gloves without compromising the ability to grip tissue. The retraction elements may also be made deployable by having a deployed configuration in which the retraction elements are exposed, and a stowed configuration in which the retraction elements are hidden.

Abstract: An example implant device includes a base having a surface that mates with bone, and a plurality of tapered protrusions positioned on the base and extending from the surface of the base that mates with bone. A surface of the plurality of tapered protrusions includes a textured surface to increase area for bone growth. An example method for inserting the implant device into bone includes forcing the plurality of tapered protrusions of the implant device into the bone, and securing the implant device in place without cement due to the plurality of tapered protrusions cutting into the bone for fixation of the implant device.

Abstract: A surgical retractor and configured to minimize tearing of the gloves without compromising the ability to grip tissue. The surgical retractor has a handle, a blade, and a plurality of retraction elements. The retraction elements may be fixed to the blade but arranged in a specific configuration that minimizes tearing of the gloves without compromising the ability to grip tissue. The retraction elements may also be made deployable by having a deployed configuration in which the retraction elements are exposed, and a stowed configuration in which the retraction elements are hidden.

Abstract: A surgical leg positioner capable of bending the knee in varus or valgus while simultaneously distracting the tibia from the femur, the leg positioner having a thigh clamp module, a swing arm module connected to the thigh clamp module in a manner that offsets a joint axis laterally to the side of the knee of the patient so as not to damage the opposite compartment of the knee when bent in varus or valgus. The swing arm module also distracts the knee simultaneously when the knee is bent in varus or valgus. The swing arm module also permits flexion and extension of the knee at the knee's natural flexion-extension axis. The surgical leg positioner also utilizes a thigh brace that properly aligns the leg on the surgical leg positioner.

Abstract: Within examples, a surgical device with an embedded sensor system for performing hip replacements is described. This device mitigates fracturing of the mid metaphyseal/diaphyseal region of the femur, and ensures adequate press-fit of the component into the bone. The device relays information regarding forces experienced by the patient's bone to a separate data acquisition device and displays it on an interface. This information is used by the surgeon to determine the force present inside of the patient's bone during broaching, and can then be used to provide better care, and mitigate fractures due to overloading in the bone.

Abstract: Within examples, a surgical device with an embedded sensor system for performing hip replacements is described. This device mitigates fracturing of the mid metaphyseal/diaphyseal region of the femur, and ensures adequate press-fit of the component into the bone. The device relays information regarding forces experienced by the patient's bone to a separate data acquisition device and displays it on an interface. This information is used by the surgeon to determine the force present inside of the patient's bone during broaching, and can then be used to provide better care, and mitigate fractures due to overloading in the bone.

Abstract: A surgical leg positioner capable of bending the knee in varus or valgus while simultaneously distracting the tibia from the femur, the leg positioner having a thigh clamp module, a swing arm module connected to the thigh clamp module in a manner that offsets a joint axis laterally to the side of the knee of the patient so as not to damage the opposite compartment of the knee when bent in varus or valgus, and a rail lock assembly to lock the knee in varus or valgus. The swing arm module also distracts the knee simultaneously when the knee is bent in varus or valgus. The swing arm module also permits flexion and extension of the knee at the knee's natural flexion-extension axis. The surgical leg positioner also utilizes a thigh brace that properly aligns the leg on the surgical leg positioner.

Abstract: A single-handed meniscal biter instrument for probing and resecting meniscal tissue. The instrument includes a main body configured to be held by one hand and a cutting mechanism coupled to the main body and configured to be operable by the same hand while held. The instrument also includes an extendable probe coupled to the main body, wherein the probe is configured to be independently operable by the same hand while being held.

Abstract: A single-handed meniscal biter instrument for probing and resecting meniscal tissue. The instrument includes a main body configured to be held by one hand and a cutting mechanism coupled to the main body and configured to be operable by the same hand while held. The instrument also includes an extendable probe coupled to the main body, wherein the probe is configured to the independently operable by the same hand while being held.

Abstract: A bone removing device. The device includes a gearing mechanism and a bone removing device housing containing the gearing mechanism. A first non-oscillating surface is operably connected to the gearing mechanism and a first oscillating rasping surface is operably connected to the gearing mechanism. When the gearing mechanism of the bone removing device is operated, the first oscillating rasping surface is oscillated. The first non-oscillating surface may comprise a rasping surface.