Her biological study deals with issues like World Wide Web, which deal with fields such as Social media. Her Receptor study frequently draws connections between related disciplines such as Antagonist. Her study connects Receptor and Antagonist. She integrates Biochemistry and Anatomy in her studies. Anatomy and Biochemistry are two areas of study in which she engages in interdisciplinary research. She regularly links together related areas like Brain chemistry in her Endocrinology studies. Her Brain chemistry study typically links adjacent topics like Endocrinology. Yvette Torrens integrates Neuropeptide and Neurokinin B in her studies. She carries out multidisciplinary research, doing studies in Neurokinin B and Neuropeptide.
Yvette Torrens has begun a study into Substance P, looking into Tachykinin receptor, Neurokinin A, Neurokinin B and Eledoisin. Yvette Torrens brings together Neurokinin B and Substance P to produce work in her papers. Many of her studies involve connections with topics such as Neuropeptide and Eledoisin. In her research, Yvette Torrens undertakes multidisciplinary study on Neuropeptide and Neurokinin A. Dopamine overlaps with fields such as Dopaminergic and Striatum in her research. Her research brings together the fields of Internal medicine and Dopaminergic. Her study connects Tachykinin receptor and Internal medicine. Yvette Torrens regularly ties together related areas like Inositol in her Receptor studies. By researching both Biochemistry and Molecular biology, Yvette Torrens produces research that crosses academic boundaries.
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