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All product recalls affecting Pennsylvania.
Includes nationwide recalls (tagged “Nationwide”) and recalls with Pennsylvania in the distribution area.
This recall involves electric motors used in gable- and roof-mounted attic fans sold only from August 2003 through December 2013 with model numbers: DOW-136-0-34-XIN, DOW-136-0-26-XIN, DOW-136-0-40-XIN, DOW-136-0-40-XIN-3/4", and D-RE-PSC-127/20-4P1SP. The recalled attic fan motors can be identified by the distinctive vent pattern on the motor end bells. Only attic fan motors with the distinctive vent pattern on the motor end bells are subject to the recall.
Vantive has identified a software defect within the Sharesource Claria software, which may cause a patient s updated prescription program settings to not be properly saved on the actual cycler that the patient is using to perform their therapy. As a result, the clinician may think that the patient is receiving the correct prescribed therapy because of what is erroneously displayed on the clinician's remote Sharesource application, when in fact the cycler that is with the patient is actually delivering an outdated and incorrect therapy.
Goodyear Tire & Rubber Company (Goodyear) is recalling certain Metro Miler G652 tires, size B305/85R22.5. The inner liner gauge may be out of specification in the shoulder area of the tire, causing a loss of tire pressure.
Vermeer Manufacturing Company (Vermeer) is recalling certain 2025 R600T trailers. The rear impact guards have been manufactured with a design that may have inadequate strength. As such, these trailers fail to comply with the requirements of Federal Motor Vehicle Safety Standard number 223, "Rear Impact Guards."
There is a potential for an ice blockage to form or currently exist within the magnet venting system. In the event of a quench, helium gas may be unable to escape through the designed venting paths, leading to a pressure build-up within the helium containment system. This pressure build-up could ultimately rupture the helium containment system, potentially resulting in a helium leak into the scanning room.
There is a potential for an ice blockage to form or currently exist within the magnet venting system. In the event of a quench, helium gas may be unable to escape through the designed venting paths, leading to a pressure build-up within the helium containment system. This pressure build-up could ultimately rupture the helium containment system, potentially resulting in a helium leak into the scanning room.
There is a potential for an ice blockage to form or currently exist within the magnet venting system. In the event of a quench, helium gas may be unable to escape through the designed venting paths, leading to a pressure build-up within the helium containment system. This pressure build-up could ultimately rupture the helium containment system, potentially resulting in a helium leak into the scanning room.
There is a potential for an ice blockage to form or currently exist within the magnet venting system. In the event of a quench, helium gas may be unable to escape through the designed venting paths, leading to a pressure build-up within the helium containment system. This pressure build-up could ultimately rupture the helium containment system, potentially resulting in a helium leak into the scanning room.
There is a potential for an ice blockage to form or currently exist within the magnet venting system. In the event of a quench, helium gas may be unable to escape through the designed venting paths, leading to a pressure build-up within the helium containment system. This pressure build-up could ultimately rupture the helium containment system, potentially resulting in a helium leak into the scanning room.
There is a potential for an ice blockage to form or currently exist within the magnet venting system. In the event of a quench, helium gas may be unable to escape through the designed venting paths, leading to a pressure build-up within the helium containment system. This pressure build-up could ultimately rupture the helium containment system, potentially resulting in a helium leak into the scanning room.
Failed Impurities/Degradation Specifications:
This recall involves Lulive 12-drawer dressers. The recalled dressers were sold in white and have a metal frame and wooden top, 12 collapsing fabric drawers of different sizes with handles, four side-pockets, and two hooks. The dressers measure about 12 inches by 39 inches by 45 inches and weigh 30 pounds. "KF-X9Y1" is printed on the product packaging.
There is a potential for an ice blockage to form or currently exist within the magnet venting system. In the event of a quench, helium gas may be unable to escape through the designed venting paths, leading to a pressure build-up within the helium containment system. This pressure build-up could ultimately rupture the helium containment system, potentially resulting in a helium leak into the scanning room.
Superpotent drug
A software defect in version v1.15.0 of the G6 Android app can cause the app to terminate unexpectedly, which may result in the user not receiving estimated glucose values, alarms, alerts or notifications. This could result in the missed detection of a hyperglycemic or hypoglycemic event, protentional resulting in severe hyperglycemia, diabetic ketoacidosis (DKA), or hyperosmolar hyperglycemic state (HHS).
There is a potential for an ice blockage to form or currently exist within the magnet venting system. In the event of a quench, helium gas may be unable to escape through the designed venting paths, leading to a pressure build-up within the helium containment system. This pressure build-up could ultimately rupture the helium containment system, potentially resulting in a helium leak into the scanning room.
Failed Impurities/Degradation Specifications:
The product in incorrectly labeled. The label indicates that the skive hole should be above the balloon, while it is actually positioned below, and vice versa.
Failed Impurities/Degradation Specifications:
Failed Impurities/Degradation Specifications: