Abstract: A heat spreader including a body having a first conduction value and a first electromagnetic interference shield value. The heat spreader further includes a conduction enhancement affixed to the body, the conduction enhancement having a second conduction value greater than the first conduction value and a second electromagnetic interference shield value less than the first electromagnetic interference shield value. At least a portion of the conduction enhancement is positioned relative to the body for increasing an effective electromagnetic interference shield value of the body associated with the at least a portion of the conduction enhancement.

Abstract: The present disclosure relates to compositions and methods for the diagnosis and treatment or prevention of cancers that exhibit elevated expression and/or amplification of the ABCB1 (MDR1) transporter, optionally for reasons related to development of chemotherapeutic resistance having occurred during treatment with an initial chemotherapeutic drug. In particular, the instant disclosure provides for identification of a cancer as possessing elevated ABCB1 expression and/or exhibiting resistance to a non-tepoxalin chemotherapeutic drug, and selecting and/or administering tepoxalin, a tepoxalin derivative and/or metabolite thereof as a therapeutic agent for such a cancer and/or subject having or at risk of developing such a cancer. Methods and compositions for therapies that combine such tepoxalin or tepoxalin-related compounds with other cancer therapies and/or chemotherapeutic agents are also provided.

Abstract: The present disclosure relates to compositions and methods for the diagnosis and treatment or prevention of cancers, particularly cancers that exhibit elevated expression of FOXA1 and/or FOXA1 gene targets, such as certain breast, liver and/or prostate cancers, including luminal and/or ER-positive forms of breast cancer. Three previously identified adenosine receptor antagonists, CGS-15943, MRS-1220 and SCH-58261, as well as furan ring moiety-possessing derivatives of CGS-15943 are specifically provided for killing cancer cells in a manner that appears to involve activation of the aryl hydrocarbon receptor (AHR) by such compounds. The instant disclosure therefore provides for selecting and/or administering CGS-15943, MRS-1220, SCH-58261 and/or a furan-possessing derivative of CGS-15943, MRS-1220 and/or SCH-58261 as a therapeutic agent to target a cancer cell and/or subject having or at risk of developing a cancer.

Abstract: The present disclosure relates to compositions and methods for the diagnosis and treatment or prevention of cancers, particularly cancers that exhibit arm-level loss of chromosome 16q, focal copy loss of 16q13 and/or low expression of metallothionein proteins, such as certain uterine, ovarian, gastroesophageal and lung cancers. Three known drugs, disulfiram, elesclomol and thiram, as well as certain disulfiram metabolites, are specifically provided for killing cancer cells characterized by arm-level loss of chromosome 16q, focal copy loss of 16q13 and/or low expression of metallothioneins. The instant disclosure therefore provides for selecting and/or administering disulfiram, elesclomol and thiram and/or active metabolites or derivatives of disulfiram, elesclomol and thiram as a therapeutic agent(s) to target a cancer cell and/or subject having or at risk of developing a cancer. Methods and compositions for therapies that include such compounds are also provided.

Abstract: The present disclosure relates to compositions and methods for the diagnosis and treatment or prevention of cancers, particularly cancers that exhibit elevated expression of SLC26A2, such as certain ovarian, endometrial, brain, bone, and lung cancers, as well as melanoma. A previously identified vanadium-containing compound, bis(maltolato)oxovanadium(IV) (BMOV), specifically provided for killing of SLC26A2 expressing cancer cells in a SLC26A2-dependent manner. The instant disclosure therefore provides for selecting and/or administering BMOV and related vanadium-containing compounds as a therapeutic agent to target a cancer cell and/or subject having or at risk of developing a cancer. Methods and compositions for therapies that include such compounds are also provided.