Man-made synthetic receptors for capture and analysis of Ochratoxin A

Contemporary analytical methods have the sensitivity required for Ochratoxin A detection and quantification, but direct application of these methods on real samples can be rarely performed because of matrix complexity. Thus, efficient sample pre-treatment methods are needed. Recent years have seen the increasing use of artificial recognition systems as a viable alternative to natural receptors, because these materials seem to be particularly suitable for applications where selectivity for Ochratoxin A is essential. In this review, molecularly imprinted polymers, aptamers and tailor-made peptides for Ochratoxin A capture and analysis with particular attention to solid phase extraction applications will be discussed

Peripheral nerve sheath myxoma. Clinicopathological and immunohistochemical study of a morphologically distinctive myxoid peripheral nerve sheath tumor in the forelimb of a cat

Peripheral nerve sheath tumors (PNST) are a class of nervous system tumors which arise in both schwann cells and perineural fibroblasts. Benign and malignant PNSTs are reported to occur in all domestic animals. In cats they represent 3% of all cutaneous and subcutaneous neoplasms. Only in dogs mixoid PNST has been observed generally localized in the fingers. In humans, PNSTs are rare neoplasms, and nerve sheath myxomas are a distinct neoplasia most commonly found in limb extremities