Mariona medinas biography
Spanish-speaking Mariano Medina lived in a small settlement west of Loveland known as Namaqua. He was the first permanent settler in the Big Thompson Valley and the area's first businessman. After an Indian raid, Mariano Medina constructed this stone fort for protection. The fort, his home and a small store were located west of Loveland near present-day Namaqua Park.
Some of the original hand-hewn logs from buildings at the Namaqua site were rescued and used to re-create Mariano Medina's cabin inside the Loveland Museum. A caption in this story has been corrected to reflect the correction location of Namaqua Park. Born in Taos, New Mexico, Medina was a small man of Mexican descent with jet-black hair, which never turned gray as he aged.
He had piercing, coal—black eyes and a swarthy face. His feet were small, and his hands showed the effects of an outdoor life. He wore rich, colorful clothing and with the side seams of his trousers slashed to mid-calf with an insert of red cloth. Medina claimed to be well-educated by Spanish priests and could speak 13 different languages. Spanish was his native tongue, but he knew a little English.
Medina could converse in some of the Indian dialects learned during his fur trading days. Papin, like Medina, was a fur trapper. Papin wanted to return to civilization, but his wife demanded that she remain close to her people. Medina, who had spent a solitary life as a trapper and scout, reasoned that it was time for him to settle down.
Infertility poses a significant medical challenge, in fact, 1 in 6 couples across the world suffer from infertility, and in vitro fertilization represents a good alternative for assisted reproduction. However, embryo transfer rates are low, as only one third of women achieve clinical pregnancy.
Mariona medinas biography
On the experimental level, this method will guarantee an environment that is more physiological for the embryo and synchronized with endometrial preparation. These microrobots are soft, biodegradable and loaded with drugs in the form of tiny capsules between 20 and micrometers in diameter. Magnetic control enables them to move autonomously and operate for more than 10 hours.
The group's lines of research include the development of advanced microfluidic nanobiosensors to detect minute levels of analytes in real samples, such as cancer biomarkers and infertility factors, using micro- and nanomanufacturing techniques and spectroscopy. In addition, medical micro- and nanorobots, inspired by nature and designed to operate on a cellular level, will be explored; they facilitate in vivo diagnostics and therapies, including controlled drug delivery.
The group will also be focusing on the creation of intelligent sensor and actuator systems on organ-on-a-chip platforms, which not only replicate specific anatomical features, but also aspects of the microenvironment and epithelium, such as that of fallopian tubes. Oliver Schmidt. Her work encompassed designing optimal microbots, studying sperm-based micromotors in complex environments, and recently, advancing real-time and deep-tissue tracking of these micromotors—a pivotal step toward their application in living organisms.
SinceDr. Their collaborative efforts focus on bioinspired medical microrobots and microsensors. In a significant development this year, Dr. Wang, S. Valligatla, Y. Yin, L. Schwarz, M. Baunack, C. Hua Lee, R. Thomale, S. Li, V. Fomin, L. Ma, O. Just accepted in Nat. Self-assembled sensor-in-a-tube as versatile tool for label-free EIS viability investigation of cervical cancer cells.
Ghosh, A. Egunov, D. Karnaushenko, M. Frequenz76, Multifunctional 4D-printed sperm-hybrid microcarriers for assisted reproduction. Rajabasadi, S. Moreno, K. MadridSpain. Biography [ edit ]. Publications [ edit ]. References [ edit ]. Meteroed in Spanish. Retrieved 24 October RTVE in Spanish. External links [ edit ].