Abstract: Paraffin-embedded tissue, which may be disposed on a solid substrate, is prepared by a dry technique that removes paraffin from tissue without adding any liquid to the tissue, thereby rendering the tissue substantially free of paraffin. The dry technique may entail applying heat energy to the tissue effective to melt the paraffin and thereby render it flowable, and applying an electric field. The electric field is effective to impart electrical charge to the paraffin and to move the paraffin out from the tissue due to electrical charge repulsion or attraction, which may be assisted by moving an electrode utilized to generate the electric field relative to the paraffin. The electric field, or both the electric field and the heat energy, may be applied until the tissue is substantially free of paraffin.

Abstract: The present disclosure provides methods for treating, reducing the severity of, or inhibiting the growth of a tumor or improving overall survival in a cervical cancer patient, wherein the method includes selecting a patient with cervical cancer in need thereof and administering to the patient a therapeutically effective amount of a programmed death 1 (PD-1) inhibitor (e.g., an anti-PD-1 antibody or antigen-binding fragment thereof such as cemiplimab or a bioequivalent thereof). In certain embodiments, the patient has recurrent or metastatic cervical cancer with disease progression on or after chemotherapy.

Abstract: Paraffin-embedded tissue, which may be disposed on a solid substrate, is prepared by a dry technique that removes paraffin from tissue without adding any liquid to the tissue, thereby rendering the tissue substantially free of paraffin. The dry technique may entail applying heat energy to the tissue effective to melt the paraffin and thereby render it flowable, and applying an electric field. The electric field is effective to impart electrical charge to the paraffin and to move the paraffin out from the tissue due to electrical charge repulsion or attraction, which may be assisted by moving an electrode utilized to generate the electric field relative to the paraffin. The electric field, or both the electric field and the heat energy, may be applied until the tissue is substantially free of paraffin.

Abstract: Paraffin-embedded tissue, which may be disposed on a solid substrate, is prepared by a dry technique that removes paraffin from tissue without adding any liquid to the tissue, thereby rendering the tissue substantially free of paraffin. The dry technique may entail applying heat energy to the tissue effective to melt the paraffin and thereby render it flowable, and applying an electric field. The electric field is effective to impart electrical charge to the paraffin and to move the paraffin out from the tissue due to electrical charge repulsion or attraction, which may be assisted by moving an electrode utilized to generate the electric field relative to the paraffin. The electric field, or both the electric field and the heat energy, may be applied until the tissue is substantially free of paraffin.

Abstract: Provided herein, among other things, are compositions for improving signal-to-noise in hybridization to oligonucleotide arrays. In some embodiments, the composition may comprise a population of indexing oligonucleotides of formula X-Y, where the sequences of region X hybridize to an array and the sequences of region Y hybridize to distinct sites within a genomic region, transcript, set of transcripts, or complement of the same. Use of these oligonucleotides increases signal, reduces background and smoothens array hybridization analyses. Methods and kits that employ the compositions are also provided.

Abstract: Provided herein, among other things, are compositions for improving signal-to-noise in hybridization to oligonucleotide arrays. In some embodiments, the composition may comprise a population of indexing oligonucleotides of formula X-Y, where the sequences of region X hybridize to an array and the sequences of region Y hybridize to distinct sites within a genomic region, transcript, set of transcripts, or complement of the same. Use of these oligonucleotides increases signal, reduces background and smoothens array hybridization analyses. Methods and kits that employ the compositions are also provided.

Abstract: Paraffin-embedded tissue, which may be disposed on a solid substrate, is prepared by a dry technique that removes paraffin from tissue without adding any liquid to the tissue, thereby rendering the tissue substantially free of paraffin. The dry technique may entail applying heat energy to the tissue effective to melt the paraffin and thereby render it flowable, and applying an electric field. The electric field is effective to impart electrical charge to the paraffin and to move the paraffin out from the tissue due to electrical charge repulsion or attraction, which may be assisted by moving an electrode utilized to generate the electric field relative to the paraffin. The electric field, or both the electric field and the heat energy, may be applied until the tissue is substantially free of paraffin.