The present invention provides a cassette for determining optimised solid phase extraction (SPE) purification conditions, wherein said cassette comprises: (i) a flowpath comprising a first end and a second end; and (ii) a plurality of valves oriented along said flowpath, wherein each of said plurality of valves is selectively fluidly connected to one of a number of components, wherein said components comprise: (a) 1-5 composition vials; (b) 1-3 SPE cartridges; (c) 4-10 solvent vials; (d) a water vial; and (e) a transfer line.

The present invention also provides a method for determining optimised SPE purification conditions for a compound from a composition, the method comprising: (i) provision of a cassette as defined in any of claims 1 to 7; (ii) the cassette comprising a composition of the compound in said composition vial(s) or addition of such a composition to said crude reaction vial(s); (iii) passing an aliquot of said composition into each of said 1-3 SPE cartridges; (iv) passing a particular combination of aliquots of solvent from at least 4 of said 4-10 solvent vials into one or more of the SPE cartridges, wherein the solvent in each of said 4-10 solvent vials is either a different solvent or the same solvent at different concentration; (v) eluting the compound to be purified from the or each SPE cartridge; (vi) evaluating the eluted products of step (v); and (vii) determining the optimised purification conditions by comparing the eluted products of step (v) from each cartridge and each solvent.

Functionalized particulate support material and chromatographic media prepared therefrom are disclosed. The functionalized particulate support material is a plurality of particles, each particle having a particle surface. Chemically bonded to and extending from the surface of the particles is a combination of hydrophobic and hydrophilic functional groups. The hydrophobic functional groups enable polymerization of one or more monomers onto the particle surface while the hydrophilic functional groups provide increased wettability of the particle surface compared to an unmodified particle surface. The functionalized particulate support material may be further processed so as to form polymer chains extending from the hydrophobic functional groups. In one embodiment, the resulting polymer functionalized material is useful as a chromatographic media in chromatography columns or cartridges, such as in a liquid chromatography (HPLC) column. Chromatography columns or cartridges containing the polymer functionalized media, and methods of making and using the media, are also disclosed.

An adsorbent material module includes a plurality of tubular adsorbent materials and a plurality of medium materials. Each of the tubular adsorbent materials includes at least one channel and at least one adsorbent layer. The adsorbent layer surrounds the at least one channel. The medium materials are coated on two ends of each of the tubular adsorbent materials, respectively, and the medium materials have a thermal conductivity function or an electrical conductivity function.

Sorbent regeneration systems for use in dialysis machines are described. Sorbent regeneration cartridges may include a layer of urease, a layer of acid zirconium phosphate, and a layer of sodium zirconium phosphate. An apparatus for conducting dialysis may include a sorbent cartridge, and a dialyzer in fluid communication with the sorbent cartridge, wherein spent dialysate passes from the dialyzer to and through the sorbent cartridge, and wherein the sorbent cartridge comprises a layer of urease, a layer of acid zirconium phosphate, and a layer of sodium zirconium phosphate. The urease may be immobilized to or associated with a carrier.

Sorbent cartridges having a flow control insert to improve the functional capacity of a sorbent cartridge is provided. Flow control inserts can include a plurality of flow channels filled with sorbent material through which fluid to be regenerated can travel in the sorbent cartridge.

To improve a performance for removing soluble lead and finely particulate lead. A molded adsorbent (1) includes an adsorption material (3) and a fibrous binder (5). The adsorption material (3) contains activated carbon (3A) and zeolite (3B). A central particle size D50 of the activated carbon (3A) is 27 μm or more and 35 μm or less, a central particle size D50 of the zeolite (3B) is 24 μm or more and 31 μm or less, and a content rate of the zeolite (3B) is 10 mass % or more and 70.5 mass % or less.

A cartridge to be used for adsorption dialysis. A container having flexible walls are arranged to provide an inner space enclosing adsorption powder, comprising activated carbon, a phosphate adsorbent and a potassium ion adsorbent and other adsorbents. A sufficient amount of activated carbon is provided for adsorption of urea by the activated carbon. The cartridge forms a vacuum-packed transportation cartridge by generating a sub-pressure in the inner space, whereby the powder particles are immobilized and the cartridge becomes stiff. Before use, the cartridge is primed by introducing a liquid into the inner space, which introduction takes place at a low pressure. During use, dialysis solution is circulated through the cartridge, which is still exposed to a sub-pressure, whereby the flexible walls are sucked against the powder material. A peritoneal dialysis circuit comprises a filter, in which a primary circuit is formed with the filter and the peritoneal cavity and a secondary circuit is formed with the filter and the adsorbent cartridge.

Systems and methods for reducing the burden of recharging on patients and caregivers are provided. The systems and methods use a microbe removal layer upstream of a sorbent cartridge in a sorbent-based dialysis system. The systems and methods can determine whether the bacterial content and remaining capacity of a non-recharged sorbent module are suitable for the sorbent module to be reused safely and effectively without recharging.

The present invention relates to a method for preparing a macromolecular composition comprising indene-derivatives. The invention also relates to the macromolecular compositions per se, and to methods of using the macromolecular compositions. The macromolecular compositions are useful for undergoing subsequent reactions with small molecules.

The present invention relates to synthetic receptors for ionophoric compounds, such as ionophoric toxins. Hence, the invention provides synthetic molecules capable of binding different ionophoric compounds, thereby being suitable for use in the detection, isolation and detoxification of such ionophoric compounds. The present invention further provides the use of such synthetic receptors in human and veterinary medicine, such as in the diagnosis, prevention and/or treatment of disorders caused by such ionophoric compounds. Finally, the invention provides methods of preparing such synthetic receptors for ionophoric compounds.