Oncotarget’s Rapid Publishing Lets Researchers Expand Upon Current Research

Oncotarget’s popularity, the bi-weekly journal which is published by Impact Journals has more papers on oncology published in 2015 that any other journal that year, is due to the fact that researchers want to make an impact by having their papers published quickly, so that others may benefit from, and expand upon, their current work.

Although Oncotarget’s primary focus is a multidisciplinary approach to cancer and aging research, endocrinology, metabolism and pharmacology papers are also accepted. Papers on all subjects are published online under a Creative Commons Attribution License, where the journal’s online visitors may read and download the articles to use as long as they cite the source and the authors if they use the paper.

Despite Oncotarget’s ability to publish quickly, they have a stringent peer review process. Papers are judged on scientific merit with unbiased analysis by at least two reviewers, but typically, three to five, who have expertise in the paper’s subject. Additionally, an editor-in-chief must grant final approval, based on the editor’s comments. Mikhail V. Blagosklonny and Andrei V. Gudkov serve as Oncotarget’s editors-in-chief. Submissions are peer reviewed in parallel, as opposed to being sent from one reviewer to another, which speeds up the process, allowing research to be published quickly. Oncotarget takes advantage of modern technology to hasten the review process, and papers are sent to editors immediately, even on weekends.

Oncotarget’s open-access publishing policy has one primary advantage; it makes extraordinary scientific research available quickly, with charge, to all who may benefit from the researcher’s efforts. Increasing scholarly communication in the fields of cancer and aging will no doubt benefit more than fellow researchers in the future.

Follow Oncotarget on Twitter.

Breakthrough Radiology Technologies Improving Treatment For The Sick

Doctors and everyone else involved in the world of medicine have evolved in practice. Radiology and all it involves is an enormous institute of necessity. With recent developments of MRI (Magnetic-Resonance-Imaging) PET (Positron-Emission-Tomography), CT (Computerized Tomography) and other imaging methods, radiology has produced better results. This improves the quality of diagnostic testing for treatment and screening purposes. In nearly every department of medicine, radiology technology has seen notable developments. The machines and equipment used are processing remarkably detailed, accurate imaging, which has encouraged successful treatment. Physical examination has several compromising variables, which makes scientists question its reliability. It’s not that the art has died, but radiology imaging produces tangible, accurate results. This has greatly improved diagnosis and medical treatment in patients.


Radiology saves doctors and troubles of enduring a risky procedure to diagnose an unexplained medical condition. No longer are physicians required to do a catheter insertion into a patient’s artery to observe the behavior of blood vessels. The newest development in CT angiography takes a noninvasive approach to diagnosing internal bleeding, blockage, and other blood vessel compromises. In comparison to traditional catheter angiography which is invasive and take hours to complete, newer methods collect reliable evidence quicker. Diagnostic tests usually require about 25 at most. It’s a cheaper, safer and faster alternative treatment. It allows a doctor to observe the arteries of the brain, lungs, legs and kidneys easily. Traditional angiography is still widely performed for examining the arteries of the heart to diagnose severe blockages.


Exploratory surgery have gone redundant since radiology imaging produces vastly accurate results that are incomparable to older techniques. Breakthroughs in radiology technologies particularly CT and PET scans have eliminated the need for a surgical approach to diagnosing diseases. It’s a popular method used in diagnosing cancer and cellular activity. It mainly focuses processing images for biological activities such as glucose metabolism or blood flow. With this advanced technology, health professionals can get a closer glimpse at cancer even when it’s in the early stage of development. The radiology devices introduced recently does both CT and PET scans.


Another profound technology is digital mammography, which health professionals use when examining the breast for cancer. This radiology tool processes detailed images of cellular activity, which makes evidence-based diagnostic screening and hypothesis more accurate. The technology works similar to that of previous models, but it generates results faster and it’s easier to use.


With smarter radiology technologies on hand, practicing health professionals can promise correct evidence-based diagnosis and quicker turnaround of results. Fewer patients need pain medication or sedation to keep still during screening. MRI exams done the traditional way aren’t necessarily pleasant for patients. It terrifies claustrophobics a recently conducted study revealed. It’s been described as a coffin-like experience based on the greater feedback scores from patients who have undergone MRI scanning.


Newer machines have eliminated this problem. They’re shorter and partially encloses a patient’s body, which has improved the experience, especially for those with a history of claustrophobia. Traditional MRI scanners had a body capacity limit, later technologies allow up to 400 pounds. These recent developments have encouraged doctors to admit radiology screening apparatus into their operation room for smarter practice. Mammography death rates have declined tremendously. Studies have forecasted vast improvements in cancer and other diseases too. Imaging Advantage is on a mission to help U.S. hospitals and medical centers reach greater success with accurate, evidence-based radiology screening. Studies show that immediate access to the needed technology can actually prevent malpractice and reduce wrongful death rates.


Technology, Uses, and the Future of Radiology

Radiology is used extensively in diagnosing, mapping, and surgery for patient care. With the many different types of radiological equipment—CT, Ultrasound, MRI, etc.—doctors are able to identify the exact location tumors and problems that might arise during surgery. Imaging devices give the surgeon a roadmap for delicate operations or for the best approach during surgeries. The equipment can aid in the delivery of babies, or find internal bleeding that might not be apparent to the naked eye.

Companies at the forefront of radiology, such as Imaging Advantage, have taken the technology and used it to improve these services for hospitals. Through teleradiology, staffing, and management, they are able to employ the most skilled radiologist in their fields of medicine and create a more logical and efficient system to get information to the doctors, surgeons, and patients. Through their management services, they increase efficiency in the hospital environment by identifying problem areas makng recommendations.

The radiological field has seen an increase in imaging technology over the last 5 years that has allowed lower doses of radiation to be administered, while clearer images have been produced. On a molecular level, imaging has improved so that patient’s no longer have to have surgery to biopsy tissue. Radiologist can use SPECT and PET devices for the purpose of determining tissue structure and damage—malignant or benign samples, etc. Similarly, radiological equipment is used to treat diseases such as cancer, or they can be used to determine if major organs within the body are functioning properly.

In some cases, the radiological equipment is instrumental in diagnosing and helping to decide the best possible treatment for the disease. Radiology is essential in determining the extent of neurological diseases such as Alzheimer’s and Dementia, or for identifying problems within the Thyroid system. With the use of radio-active materials, organs can be targeted for imaging. Cardiology, gastrointestinal systems, and the genitourinary systems can be targeted and imagined to identify failures, obstructions, or diseases afflicting these systems without surgical invasion.

Due to the many advances made in the field of radiology, companies employing specialized radiologist available on a 24/7 basis have become essential to the field of medicine. Teleradiology used in station to station format and provided through wireless setups puts the radiologist in an advantageous position able to see in real-time the imaging being used. Through their expertise, patient diagnostics and treatment have improved along with technology. The most recent of these, molecular medicine has been instrumental in saving time and pain for the patient, and eliminating unnecessary or expensive surgeries that were essential to determine a patient’s condition and prognosis. Radiology and the advancements in technology are the future of medical and clinical procedures.