Category Health/Medical

Scientists produce Clearest images of Telomerase that plays key roles in Aging, Cancer

This is a photograph of subunits of telomerase. Credit: UCLA department of chemistry and biochemistry

This is a photograph of subunits of telomerase. Credit: UCLA department of chemistry and biochemistry

Research could lead to new strategies for treating disease. The telomerase enzyme is known to play a significant role in aging and most cancers. Scientists have discovered several major new insights about this enzyme and they are now able to see the complex enzyme’s sub-units in much sharper resolution than ever before.

Telomerase is particularly active in cancer cells, which helps make them immortal and enables cancer to grow and spread. Scientists believe that controlling the length of telomeres in cancer cells could be a way to prevent them from multiplying.
Feigon and her colleagues have been filling in pieces of the telomerase puzzle, using Tetrahymena...

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Researchers’ Cure of Metastatic Skin Cancer Revealed

Figure 1. Radiologic Images of the Patient's Liver and Phosphoinositide 3-Kinase (PI3K) Expression in the Patient's Tumor Cells.

Figure 1. Radiologic Images of the Patient’s Liver and Phosphoinositide 3-Kinase (PI3K) Expression in the Patient’s Tumor Cells.

Metastatic Merkel-cell carcinoma is often fatal and there is no effective treatment. Now a researcher is reporting some positive results from treating this illness with a drug called idelalisib. Gao’s 86-year-old female patient was diagnosed in 2013 with stage IIIB Merkel-cell carcinoma of the right temple. She had surgery and received radiation therapy in May 2013 and additional surgery in Jul 2014. In Nov 2014 the cancer had metastasized.

Gao, a dermatologist who treats Merkel-cell carcinoma patients from Arkansas and surrounding states, performed genetics tests on the tumor that revealed multiple mutations, including PI3Kδ...

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Engineers Create Artificial Skin that can send Pressure Sensation to Brain Cell

Human finger touches robotic finger. The transparent plastic and black device on the golden "fingertip" is the skin-like sensor developed by Stanford engineers. This sensor can detect pressure and transmit that touch sensation to a nerve cell. The goal is to create artificial skin, studded with many such miniaturized sensors, to give prosthetic appendages some of the sensory capabilities of human skin. Credit: Bao Lab

Human finger touches robotic finger. The transparent plastic and black device on the golden “fingertip” is the skin-like sensor developed by Stanford engineers. This sensor can detect pressure and transmit that touch sensation to a nerve cell. The goal is to create artificial skin, studded with many such miniaturized sensors, to give prosthetic appendages some of the sensory capabilities of human skin. Credit: Bao Lab

Engineers have created a plastic skin-like material that can detect pressure and deliver a Morse code-like signal directly to a living brain cell. The work takes a big step toward adding a sense of touch to prosthetic limbs...

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Transplanted Neural Stem Cells in mice Dramatically Improved Motor and Cognitive Impairments in Lewy Body Dementia

Neural stem cells migrate throughout an injured brain site

Neural stem cells (green) migrate throughout an injured brain site in DLB mice and begin to differentiate into astrocytes (red), leading to improved motor and cognitive function. Blurton-Jones lab

DLB is the 2nd-most common type of age-related dementia after Alzheimer’s disease and is characterized by the accumulation of a protein alpha-synuclein that collects into spherical Lewy bodies – which also accumulate in related disorders, including Parkinson’s disease. This pathology, in turn, impairs the normal function of neurons, leading to alterations in critical brain chemicals and neuronal communication and, eventually, to cell death.

One day transplantation of neural stem cells into human patients might help overcome the motor and cognitive impairments of DLB...

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