This technology uses peptides secreted by engineered bacteria to reduce virulence of Fusobacterium nucleatum.
This technology is an optical catheter method for the analysis of uterine tissue using spectrometry without removing a sample from the patient.
This technology is a deep learning algorithm that uses ultrasound imaging data to extract cervix geometry and predict preterm birth (PTB) risk.
This technology is a mouse model for conditional knockout of part of the BRCA1 gene, for use in studying molecular mechanisms of development of human hereditary breast and ovarian cancers.
This technology is a mouse model harboring a conditional-null allele of the Bard1 gene (Bard1co).
This technology is an imaging platform for the automated analysis of abnormalities in large tissue specimens that can be used to detect breast cancer and related diseases.
This technology uses synthetic mRNAs to improve oocyte genome stability for in vitro fertilization (IVF) procedures, thereby improving the efficiency of IVF treatments.
This technology describes the use of a single transducer for harmonic motion imaging to assess the mechanical properties of tissues for disease detection and monitoring.
This technology is an imaging technique for noninvasive and accurate assessment of tumor stiffness and elasticity, enabling the detection and monitoring of tumor progression in patients as well as assessment of chemotherapy and thermal ablation therapy.
This technology is a brief scored assessment of mother-child emotional connection using readily observable elements to inform and guide early childhood development.
This technology is a method to target gut epithelial transporters as a therapeutic target for more efficient and safer anti-depressive and anti-anxiety treatments.
This technology is an all-in-one face cream comprised of natural ingredients to reverse skin aging effects in peri- and post-menopausal women.