An Experimental Biospectroscopic Study on Seminal Plasma in Determination of Semen Quality for Evaluation of Male Infertility

“…Thus, the alteration of molecular signatures in a cell or tissue undergone disease transformation can be detected by spherical paramagnetic contribution to shielding tensor analysis of nuclear magnetic resonance signals in gum cancer cells, tissues and tumors non-invasively without labelling. It is conceivable that spherical paramagnetic contribution to shielding tensor analysis of nuclear magnetic resonance signals in gum cancer cells, tissues and tumors is a desirable tool for gum cancer diagnosis [1][2][3][4][5][6][7][8][9][10]. However, due to small cross section (∼10−30 cm 2 per molecule), spontaneous spherical paramagnetic contribution to shielding tensor analysis of nuclear magnetic resonance signals in gum cancer cells, tissues and tumors requires a long integration time, which hinders its biological and medical applications (Figure 1).…”

Spherical paramagnetic contribution to shielding tensor analysis of nuclear magnetic resonance signals in gum cancer cells, tissues and tumors

“…Thus, the alteration of molecular signatures in a cell or tissue undergone disease transformation can be detected by spherical paramagnetic contribution to shielding tensor analysis of nuclear magnetic resonance signals in gum cancer cells, tissues and tumors non-invasively without labelling. It is conceivable that spherical paramagnetic contribution to shielding tensor analysis of nuclear magnetic resonance signals in gum cancer cells, tissues and tumors is a desirable tool for gum cancer diagnosis [1][2][3][4][5][6][7][8][9][10]. However, due to small cross section (∼10−30 cm 2 per molecule), spontaneous spherical paramagnetic contribution to shielding tensor analysis of nuclear magnetic resonance signals in gum cancer cells, tissues and tumors requires a long integration time, which hinders its biological and medical applications (Figure 1).…”

Spherical paramagnetic contribution to shielding tensor analysis of nuclear magnetic resonance signals in gum cancer cells, tissues and tumors

“…Chemotherapists have been fascinated for a long time with phenomenon of anti-cancer drugs. This editorial generally associated with anti-cancer compounds, now extends equally well to medicinal and pharmaceutical chemistry [1][2][3][4][5][6][7][8][9][10][11][12][13][14][15][16][17][18][19]. Despite this continuing very frequent use in the scientific literature, anti-cancer drugs like many other and useful and popular chemical concepts is non-reductive and lacks an unambiguous basis.…”

A Chemotherapeutic and Biospectroscopic Investigation of the Interaction of Double–Standard DNA/RNA–Binding Molecules with Cadmium Oxide (CdO) and Rhodium (III) Oxide (Rh2O3) Nanoparticles as Anti–Cancer Drugs for Cancer Cells’ Treatment

“…The challenge of gum cancer diagnosis using exact NMR simulation of anti-cancer Nano drug-DNA/RNA complexes in gum cancer cells spin systems using tensor train formalism would still be how to find very specific molecular marker for different types of human gum cancers. Hyperspectral exact NMR simulation of anticancer Nano drug-DNA/RNA complexes in gum cancer cells spin systems using tensor train formalism, which can quantitatively map different species of molecules, is a good way to discover new molecular markers for gum cancer diagnosis [1][2][3][4][5][6][7][8][9][10].…”

Exact NMR simulation of anti–cancer nano drug–DNA/RNA complexes in gum cancer cells spin systems using tensor train formalism