Abstract: Embodiments of the present invention are directed to devices, systems and methods adapted for implementing intermittent displacement of blood to mitigate peripheral nerve neuropathy such as that induced by chemotherapeutic agents (i.e., chemotherapy-induced neuropathy (CIN)) that are administered to a patient. Such devices, systems and methods advantageously provide for precise, uniform and controlled blood flow occluding (and optionally blood displacing) compression along irregular surfaces of an appendage of a patient. Such precise, uniform and controlled blood occluding compression is imparted upon the epidermal and dermis skin layers within the aforementioned areas of a patient's extremities to decrease the time that free nerve endings located in the epidermal and encapsulated nerve endings located in the dermis skin layers are exposed to nerve damaging chemotherapy chemicals, thereby substantially decreasing CIN caused by prolonged exposure to such chemicals.

Abstract: Embodiments of the present invention are directed to devices, systems and methods adapted for implementing intermittent displacement of blood to mitigate peripheral nerve neuropathy such as that induced by chemotherapeutic agents (i.e., chemotherapy-induced neuropathy (CIN)) that are administered to a patient. Such devices, systems and methods advantageously provide for precise, uniform and controlled blood flow occluding (and optionally blood displacing) compression along irregular surfaces of an appendage of a patient. Such precise, uniform and controlled blood occluding compression is imparted upon the epidermal and dermis skin layers within the aforementioned areas of a patient's extremities to decrease the time that free nerve endings located in the epidermal and encapsulated nerve endings located in the dermis skin layers are exposed to nerve damaging chemotherapy chemicals, thereby substantially decreasing CIN caused by prolonged exposure to such chemicals.

Abstract: Embodiments of the present invention are directed to devices, systems and methods adapted for implementing intermittent displacement of blood to mitigate peripheral nerve neuropathy such as that induced by chemotherapeutic agents (i.e., chemotherapy-induced neuropathy (CIN)) that are administered to a patient. Such devices, systems and methods advantageously provide for precise, uniform and controlled blood flow occluding (and optionally blood displacing) compression along irregular surfaces of an appendage of a patient. Such precise, uniform and controlled blood occluding compression is imparted upon the epidermal and dermis skin layers within the aforementioned areas of a patient's extremities to decrease the time that free nerve endings located in the epidermal and encapsulated nerve endings located in the dermis skin layers are exposed to nerve damaging chemotherapy chemicals, thereby substantially decreasing CIN caused by prolonged exposure to such chemicals.

Abstract: Embodiments of the present invention are directed to devices, systems and methods adapted for implementing intermittent displacement of blood to mitigate peripheral nerve neuropathy such as that induced by chemotherapeutic agents (i.e., chemotherapy-induced neuropathy (CIN)) that are administered to a patient. Such devices, systems and methods advantageously provide for precise, uniform and controlled blood flow occluding (and optionally blood displacing) compression along irregular surfaces of an appendage of a patient. Such precise, uniform and controlled blood occluding compression is imparted upon the epidermal and dermis skin layers within the aforementioned areas of a patient's extremities to decrease the time that free nerve endings located in the epidermal and encapsulated nerve endings located in the dermis skin layers are exposed to nerve damaging chemotherapy chemicals, thereby substantially decreasing CIN caused by prolonged exposure to such chemicals.

Abstract: Embodiments of the present invention are directed to devices, systems and methods adapted for implementing intermittent displacement of blood to mitigate peripheral nerve neuropathy such as that induced by chemotherapeutic agents (i.e., chemotherapy-induced neuropathy (CIN)) that are administered to a patient. Such devices, systems and methods advantageously provide for precise, uniform and controlled blood flow occluding (and optionally blood displacing) compression along irregular surfaces of an appendage of a patient. Such precise, uniform and controlled blood occluding compression is imparted upon the epidermal and dermis skin layers within the aforementioned areas of a patient's extremities to decrease the time that free nerve endings located in the epidermal and encapsulated nerve endings located in the dermis skin layers are exposed to nerve damaging chemotherapy chemicals, thereby substantially decreasing CIN caused by prolonged exposure to such chemicals.

Abstract: Embodiments of the present invention are directed to devices, systems and methods adapted for implementing intermittent displacement of blood to mitigate peripheral nerve neuropathy such as that induced by chemotherapeutic agents (i.e., chemotherapy-induced neuropathy (CIN)) that are administered to a patient. Such devices, systems and methods advantageously provide for precise, uniform and controlled blood flow occluding (and optionally blood displacing) compression along irregular surfaces of an appendage of a patient. Such precise, uniform and controlled blood occluding compression is imparted upon the epidermal and dermis skin layers within the aforementioned areas of a patient’s extremities to decrease the time that free nerve endings located in the epidermal and encapsulated nerve endings located in the dermis skin layers are exposed to nerve damaging chemotherapy chemicals, thereby substantially decreasing CIN caused by prolonged exposure to such chemicals.

Abstract: Embodiments of the present invention are directed to devices, systems and methods adapted for implementing intermittent displacement of blood to mitigate peripheral nerve neuropathy such as that induced by chemotherapeutic agents (i.e., chemotherapy-induced neuropathy (CIN)) that are administered to a patient. Such devices, systems and methods advantageously provide for precise, uniform and controlled blood flow occluding (and optionally blood displacing) compression along irregular surfaces of an appendage of a patient. Such precise, uniform and controlled blood occluding compression is imparted upon the epidermal and dermis skin layers within the aforementioned areas of a patient’s extremities to decrease the time that free nerve endings located in the epidermal and encapsulated nerve endings located in the dermis skin layers are exposed to nerve damaging chemotherapy chemicals, thereby substantially decreasing CIN caused by prolonged exposure to such chemicals.

Abstract: Embodiments of the present invention are directed to devices, systems and methods adapted for implementing intermittent displacement of blood to mitigate peripheral nerve neuropathy such as that induced by chemotherapeutic agents (i.e., chemotherapy-induced neuropathy (CIN)) that are administered to a patient. Such devices, systems and methods advantageously provide for precise, uniform and controlled blood flow occluding (and optionally blood displacing) compression along irregular surfaces of an appendage of a patient. Such precise, uniform and controlled blood occluding compression is imparted upon the epidermal and dermis skin layers within the aforementioned areas of a patient's extremities to decrease the time that free nerve endings located in the epidermal and encapsulated nerve endings located in the dermis skin layers are exposed to nerve damaging chemotherapy chemicals, thereby substantially decreasing CIN caused by prolonged exposure to such chemicals.

Abstract: Embodiments of the present invention are directed to devices, systems and methods adapted for implementing intermittent displacement of blood to mitigate peripheral nerve neuropathy such as that induced by chemotherapeutic agents (i.e., chemotherapy-induced neuropathy (CIN)) that are administered to a patient. Such devices, systems and methods advantageously provide for precise, uniform and controlled blood flow occluding (and optionally blood displacing) compression along irregular surfaces of an appendage of a patient. Such precise, uniform and controlled blood occluding compression is imparted upon the epidermal and dermis skin layers within the aforementioned areas of a patient's extremities to decrease the time that free nerve endings located in the epidermal and encapsulated nerve endings located in the dermis skin layers are exposed to nerve damaging chemotherapy chemicals, thereby substantially decreasing CIN caused by prolonged exposure to such chemicals.

Abstract: Embodiments of the present invention are directed to devices, systems and methods adapted for implementing intermittent displacement of blood to mitigate peripheral nerve neuropathy such as that induced by chemotherapeutic agents (i.e., chemotherapy-induced neuropathy (CIN)) that are administered to a patient. Such devices, systems and methods advantageously provide for precise, uniform and controlled blood flow occluding (and optionally blood displacing) compression along irregular surfaces of an appendage of a patient. Such precise, uniform and controlled blood occluding compression is imparted upon the epidermal and dermis skin layers within the aforementioned areas of a patient's extremities to decrease the time that free nerve endings located in the epidermal and encapsulated nerve endings located in the dermis skin layers are exposed to nerve damaging chemotherapy chemicals, thereby substantially decreasing CIN caused by prolonged exposure to such chemicals.

Abstract: A method and apparatus are configured for providing thermal comfort (i.e., climatic conditioning) within an interior space of a building structure in multiple climate zones including hot and humid climates using very low energy consumption. Multiple water vapor phase change cycles are provided within a period of time where only a single such water vapor phase change cycle would typically take place under naturally occurring ambient conditions. These multiple water vapor phase change cycles are generated through artificially creating conditions within a hygroscopic heat sink mass for promoting water vapor phase change cycle. Advantageously, in combination with such artificially promoted water vapor phase change cycles, embodiments of the present invention provide hygroscopic properties and heat sink masses made from materials that can adsorb and retain thermal energy and that exhibit water vapor sorption/desorption attributes commonly associated with compositions referred to as desiccants.

Abstract: A method and apparatus are configured for providing thermal comfort (i.e., climatic conditioning) within an interior space of a building structure in multiple climate zones including hot and humid climates using very low energy consumption. Multiple water vapor phase change cycles are provided within a period of time where only a single such water vapor phase change cycle would typically take place under naturally occurring ambient conditions. These multiple water vapor phase change cycles are generated through artificially creating conditions within a hygroscopic heat sink mass for promoting water vapor phase change cycle. Advantageously, in combination with such artificially promoted water vapor phase change cycles, embodiments of the present invention provide hygroscopic properties and heat sink masses made from materials that can adsorb and retain thermal energy and that exhibit water vapor sorption/desorption attributes commonly associated with compositions referred to as desiccants.

Abstract: A building structure includes means to utilize solar radiation to heat the building structure during relatively cold ambient environmental conditions and to cool the building structure during relatively hot ambient environmental conditions. The building structure includes chambered wall and floor constructions having integral heat sink masses. These integral heat sink masses provide for radiation of heat when air temperature in an interior space of the building structure is below a temperature of the heat sink masses and for absorption of heat when the air temperature in the interior space of the building structure is above a temperature of the heat sink masses. A flow of thermally treated air to the heat sink masses serves to regulate the temperature of the heat sink masses.

Abstract: A building block arrangement comprises a first layer of building blocks and a second layer of building blocks. The first layer of building blocks includes two spaced apart rows of building blocks whereby a space is provided between adjacent side faces of the building blocks of the first layer. The second layer of building blocks includes two spaced apart rows of building blocks whereby a space is provided between adjacent side faces of the building blocks of the second layer. The space includes communicative vertical portions such that that the space at least partially isolates an interior wall portion from an exterior wall portion. The second layer of building blocks is positioned on top of the first layer of building blocks. The second layer of building blocks spans across at least a portion of the space in the first layer of building blocks.

Abstract: A block press apparatus provides operations for forming a building block. An operation is performed for depositing a quantity of article-forming media within a media receiving cavity of article forming equipment. After depositing at least a portion of the article-forming media within the media receiving cavity, an operation performed for depositing a volume of a prescribed fluid into the media receiving cavity. Depositing the prescribed fluid includes moving a first fluid delivery device through the quantity of the article-forming media while injecting the prescribed fluid through the first fluid delivery device into the quantity of the article-forming media.

Abstract: A building block arrangement comprises a first layer of building blocks and a second layer of building blocks. The first layer of building blocks includes two spaced apart rows of building blocks whereby a space is provided between adjacent side faces of the building blocks of the first layer. The second layer of building blocks includes two spaced apart rows of building blocks whereby a space is provided between adjacent side faces of the building blocks of the second layer. The space includes communicative vertical portions such that that the space at least partially isolates an interior wall portion from an exterior wall portion. The second layer of building blocks is positioned on top of the first layer of building blocks. The second layer of building blocks spans across at least a portion of the space in the first layer of building blocks.

Abstract: A building block arrangement comprises a first layer of building blocks and a second layer of building blocks. The first layer of building blocks includes two spaced apart rows of building blocks whereby a space is provided between adjacent side faces of the building blocks of the first layer. The second layer of building blocks includes two spaced apart rows of building blocks whereby a space is provided between adjacent side faces of the building blocks of the second layer. The space includes communicative horizontal and vertical portions such that that the space at least partially isolates an interior wall portion from an exterior wall portion. The second layer of building blocks is positioned on top of the first layer of building blocks. The second layer of building blocks spans across at least a portion of the space in the first layer of building blocks.

Abstract: A method for fabricating structural building blocks having a cured binding material dispersed within block forming media thereof comprises a plurality of operations. An operation is performed for depositing a volume of block-forming media within a media receiving cavity of block forming equipment. The block-forming media includes a curable binding material dispersed therein and curing of the curable binding material is caused by contact with a prescribed activation material. After or in conjunction with depositing the volume of block-forming media, an operation is performed for depositing the prescribed activation material into the media receiving cavity. Such depositing of the prescribed activation material causing at least a portion of the prescribed activation material to be dispersed within the volume of the block-forming media.

Abstract: In one embodiment of the present invention, a method comprises a plurality of operations. An operation is performed for depositing a quantity of article-forming media within a media receiving cavity of article forming equipment. After depositing at least a portion of the article-forming media within the media receiving cavity, an operation performed for depositing a volume of a prescribed fluid into the media receiving cavity. Depositing the prescribed fluid includes moving a first fluid delivery device through the quantity of the article-forming media while injecting the prescribed fluid through the first fluid delivery device into the quantity of the article-forming media.

Abstract: In one embodiment of the present invention, a method comprises a plurality of operations. An operation is performed for depositing a quantity of article-forming media within a media receiving cavity of article forming equipment. After depositing at least a portion of the article-forming media within the media receiving cavity, an operation performed for depositing a volume of a prescribed fluid into the media receiving cavity. Depositing the prescribed fluid includes moving a first fluid delivery device through the quantity of the article-forming media while injecting the prescribed fluid through the first fluid delivery device into the quantity of the article-forming media.