Dr. Christopher Estiverne, M.D. Internal Medicine Medicare: Accepting Medicare Assignments Practice Location: 1602 Bayview Ave, Hillside, NJ 07205 Phone: 908-906-6054 |
Dr. Edward A Somma, M.D. Internal Medicine Medicare: Accepting Medicare Assignments Practice Location: 115 North Ave, Hillside, NJ 07205 Phone: 908-354-7070 Fax: 908-354-9300 |
Dr. Nelson Oke Aluya, MD Internal Medicine Medicare: Accepting Medicare Assignments Practice Location: 1026 Fairview Pl, Hillside, NJ 07205 Phone: 973-634-8212 |
News Archive
Researchers have developed a novel, easy-to-use system for three-dimensional (3D) reconstruction and examination of tissues at microscopic resolution, with the potential to significantly enhance the study of normal and disease processes, particularly those involving structural changes. The new approach, using conventional histopathological methods, is described in the May issue of The American Journal of Pathology.
Since the completion of the human genome sequence, a question has baffled researchers studying gene control: How is it that humans, being far more complex than the lowly yeast, do not proportionally contain in our genome significantly more gene-control proteins?
CannaScore, the developers of the world's first real-time regulatory compliance and auditing software for the marijuana industry, announced that its has been nominated for a prestigious Cannabist Award in the category of "Technology."
In a study prompted in part by suggestions from people with mental illness, Johns Hopkins researchers found that a history of Candida yeast infections was more common in a group of men with schizophrenia or bipolar disorder than in those without these disorders, and that women with schizophrenia or bipolar disorder who tested positive for Candida performed worse on a standard memory test than women with schizophrenia or bipolar disorder who had no evidence of past infection.
In an innovation critical to improved DNA sequencing, a markedly slower transmission of DNA through nanopores has been achieved by a team led by Sandia National Laboratories researchers.Solid-state nanopores sculpted from silicon dioxide are generally straight, tiny tunnels more than a thousand times smaller than the diameter of a human hair. They are used as sensors to detect and characterize DNA, RNA and proteins. But these materials shoot through such holes so rapidly that sequencing the DNA passing through them, for example, is a problem.
› Verified 9 days ago