Wednesday, September 11, 2019

Detect Cancer By Scanning Surface Veins

A new technology for cancer detection that eliminates the need for drawing blood has been developed by Purdue University researchers.

Scientists from Purdue's Cancer Center, Department of Chemistry and Weldon School of Biomedical Engineering collaborated with cancer and biotechnology experts from the Mayo Clinic to develop technology to detect tumor cells within the human body. By shining a laser on surface veins, such as those on the wrist and inside the cheek, scientists are able to reveal and count circulating tumor cells.

In addition to being less invasive, the new detection method is able to evaluate a much larger volume of blood than what can be drawn from a patient for analysis, said Philip Low, Purdue's Ralph C. Corley Distinguished Professor of Chemistry.

"In the initial stages of cancer, there are very few circulating tumor cells - cells that indicate the spread of cancer and initiate secondary tumor formation," Low said. "By increasing the volume of blood analyzed, we improve the sensitivity of the test and allow for earlier diagnosis. If there are two cancer cells in every 50 milliliters of blood, odds are the cells would not be found in a 10-milliliter blood sample. However, the cells would be found in the 100 milliliters of blood that flow through large veins each minute".

Optical imaging provides high resolution and chemical specificity for cancer detection, but it commonly suffers from limited penetration depth, making it hard to reach tumors inside the body, said Ji-Xin Cheng, an assistant professor of chemistry and biomedical engineering.

"In vivo detection of circulating tumor cells in surface veins provides an excellent way to overcome this problem," Cheng said.

"Circulating tumor cells provide a benchmark for disease progression and precise monitoring of their levels could lead to personalized therapy," Low said. "This technique allows us to quantify the amount of circulating tumor cells present, as opposed to tests that provide a 'positive' or 'negative' result.

"Through such precise monitoring, a doctor could evaluate the response to chemotherapy and regularly adjust the dosage so that only the exact amount needed would be administered. This could reduce the time a patient is treated and the serious side effects that occur".

The technique could provide doctors and patients results in a matter of minutes and save the medical industry millions of dollars in testing equipment, said Wei He, a graduate student in the Department of Chemistry and the Department of Biomedical Engineering. He worked on the project with Low and Cheng.

By directly labeling tumor cells while they are in the bloodstream, some of the costs and problems linked to testing drawn blood samples can be avoided, He said.
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"One sample can require five to 10 test tubes during the course of sampling, processing and analysis such as handling, labeling and washing," He said. "In addition, large hospitals can have more than 300 cancer patients in one day. Such a large influx can cause delays in sample processing and delays can affect the results of analysis".

A paper detailing the technology and detection technique was reported in the July 10 Proceedings of the National Academy of Sciences. In addition to Low, He and Cheng, postdoctoral researcher Haifeng Wang and Lynn C. Hartmann, a professor of oncology and associate director for education of the Mayo Clinic Cancer Center, co-authored the paper.

The technique uses a fluorescent tumor-specific probe that labels tumor cells in circulation. When hit by a laser, which scans across the diameter of the blood vessel 1,000 times per second, the tumor cells glow and become visible. The in vivo flow detection waccording toformed on a two-photon fluorescence microscope in Cheng's lab. The scientists compared several methods and found two-photon fluorescence provides the best signal to background ratio. The technology is able to scan every cell that is pumped through the vessel, He said.

Low's team has developed two labeling agents that attach to different forms of cancer. One label targets ovarian, non-small lung, kidney and endometrial cancer, and the other targets prostate cancer.

These labels would be administered through an injection. The first label has already been tested in humans and has no adverse side effects and could potentially be administered weekly, He said.

Computed tomography, or CT, scans and magnetic resonance imaging, or MRI, are the current methods used to track the spread of cancer. These methods have a limited resolution, and a 1 millimeter tumor could go undetected by CT or MRI. The Purdue-developed technology can achieve single-cell resolution and can detect rare cell populations.

"Our method can detect cancer cells early in disease development and the test can be conducted frequently," Low said. "Discovering the cancer early and knowing whether it has metastasized, or spread, greatly improves a patient's chance for successful therapy".

The laser penetrates to a depth of 100 microns and is able to examine shallow blood vessels near the surface of the skin. Advanced optical technology could be incorporated into the technology platform and enable the method to reach deeper vessels that handle larger volumes of blood, Cheng said.

The Purdue team continues to work with the Mayo Clinic and is planning to initiate a clinical trial to further evaluate the technique. The team also plans to develop labels for additional types of cancer and to downsize the equipment to make the technology portable.

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Sunday, August 11, 2019

Deteching the Early Warning Signs of Colon Cancer

Cancer of the colon refers to cancer that develops and impacts any of the four sections of the colon, or large intestine. This disease is unlike many other types of cancer because it typically progresses slowly. Cancerous cells may be present in the colon for years before they begin to produce recognizable symptoms. It can be extremely dangerous because the first warning signs and symptoms are often mistaken for other bowel or health issues. Early detection and treatment are key to a positive outcome.

In the early stages of colon cancer, abnormal tissue growth occurs somewhere along the lining of the colon. This growth can produce both cancerous or benign polyps, but these are often too small to be detected. As the disease progresses, tumors become larger and begin to cause noticeable symptoms to the individual.

Early indications of colon cancer can be difficult to pinpoint. Individuals may begin to experience a noticeable change in elimination habits that lasts for more than just a few days. Excessive diarrhea, long bouts of constipation, or abnormally shaped stool over multiple days can be a cause for concern. Another key indicator is the frequent sensation that a bowel movement is necessary, but either the patient isn’t able to produce a bowel movement, or they do not experience relief afterwards.

One of the confusing aspects in detecting colon cancer is that the stool can often continue to appear normal even in the later stages of the disease. In some cases, however, there will be blood or excessive mucus present and the matter will appear extremely dark. Severe stomach cramps, nausea, and rapid weight loss may also be explained by colon cancer.

Advancements in medical testing procedures means that it is now possible to detect small changes in the colon and rectal tissue, which could indicate precancerous activity. For those with some symptoms, or milder signs, these tests could be invaluable in early detection and successful treatment. All adults should receive regular screenings for colon cancer, since the disease can be asymptomatic until it is quite advanced. These screenings are simple, and are usually outpatient procedures covered by most insurance plans. Discussion of your symptoms with a qualified medical professional can provide you with peace of mind and be the first step towards treatment.

Monday, July 15, 2019

Combining Two Peptide Inhibitors

Newly released study suggests that combining two experimental anticancer peptide agents might simultaneously block formation of new tumor blood vessels while also inhibiting the growth of tumor cells.

This early test of the two agents in a breast cancer model suggests that the double hit can stifle tumor progression, avoid drug resistance and cause few side effects, say scientists at the Ohio State University Comprehensive Cancer Center - Arthur G. James Cancer Hospital and Richard J. Solove Research Institute (OSUCCC - James) who developed the agents and reviewed their effectiveness in laboratory and animal tests.

The researchers designed one of the agents to prevent human epithelial growth factor from interacting with HER-2, a molecule that marks a especially aggressive form of breast cancer. The other inhibitor blocks the action of vascular endothelial growth factor (VEGF), which stimulates the growth of new blood vessels that tumors need to grow beyond a certain size.

The findings are described in two papers published online in the Journal of Biological Chemistry. One presents the development of a novel VEGF inhibitor; the other describes the HER-2 inhibitor and the preclinical testing of the two agents together.

"When we combined our peptide HER-2 inhibitor with the VEGF peptide that inhibits angiogenesis, we observed significant additive benefits in reducing tumor burdens in preclinical studies," says principal investigator Pravin Kaumaya, professor of obstetrics and gynecology, of molecular and cellular biochemistry, and of microbiology, and director of the division of vaccine development at the OSUCCC - James.

The strategy of targeting both HER-2 and VEGF pathways should also discourage the development of drug resistance, Kaumaya says, because it simultaneously inhibits two pathways that are essential for tumor survival. "Combined peptide inhibitors might be appropriate in several types of cancer to overcome acquired resistance and provide clinical benefit," he adds.

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Peptide inhibitors consist of short chains of amino acids (the VEGF inhibitor is 22 amino acids long) that conform in shape to the active site of the target receptor. In addition, Kaumaya engineered the VEGF peptide to be resistant to protease, an enzyme, thereby increasing its efficacy. The shape of the peptide HER-2 inhibitor engineered by Kaumaya and colleagues, for example, is highly specific for the HER-2 receptor. It physically binds to the receptor, which prevents another substance, called epithelial growth factor, from contacting the receptor and stimulating the cancer cells to grow.

Other categories of targeted drugs in clinical use are humanized monoclonal antibodies and small-molecule TKI inhibitors. Both groups are linked to severe side effects and are very expensive, Kaumaya says. "We believe peptide inhibitors offer non-toxic, less-expensive alternatives to humanized monoclonal antibodies and small-molecule inhibitors for the therapy of solid tumors, with the potential for improved efficacy and better clinical outcomes," he says.
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Wednesday, June 12, 2019

Detecting Breast Cancer

Breast cancer is a type of cancer that forms in the cells of breast tissue. It tends to affect women more than men. In the United States, 12 percent of all adult women will develop invasive breast cancer at some point during their lifetime.

Breast cancer is the most common cancer among American women, apart from non-malignant skin cancer. It is the leading cause of cancer death in women, second only to lung cancer. Invasive breast cancer is aggressive, and nearly 40,000 American women will succumb to their cancer before the end of the year.

Fortunately, the breast cancer death rates in America have declined in recent years partly due to early detection and screening. More than 63,000 new cases of early-stage breast cancer were diagnosed in 2012. Many of these women will survive the disease because they caught it early enough for successful treatment.

Breast Cancer Detection
Breast self-exam (BSE) is a good way for women to become familiar with the way their normal breasts look and feel. Doctors do not recommend BSE as a screening tool, but it can help women recognize changes in their breasts to detect early signs of cancer.

Breast lumps, swelling or darkening of the breast, nipple discharge, puckered skin, constant pain, and changes in breast shape or size are early warning signs of breast cancer. Medical tests and procedures are the only way to know for sure if a woman has breast cancer.

Breast Cancer Diagnosis
Doctors use a number of procedures and tests to diagnose breast cancer. A thorough breast exam is the first step in detecting breast cancer. Doctors check the breasts in various positions as they feel for lumps and look for abnormalities.

Mammograms are the most common ways to screen for breast cancer. A mammogram is a low-dose C-ray of the breasts. The X-ray images depict various views of the breast, including views from the side and top of breasts. Abnormalities appear as shadows on the images.

Doctors order breast ultrasounds to further screen for breast cancer treatment in india. An ultrasound helps a doctor determine whether a breast lump is a fluid-filled cyst or solid mass. Ultrasounds are also helpful for guiding biopsies if a solid mass is found in the breast.

A biopsy is a procedure to remove a sample of suspicious cells in the breast tissue. Samples are sent to a medical laboratory for testing. An analysis of a biopsy sample helps doctors accurately diagnose cancer and stage the disease.

Breast magnetic resonance imaging (MRI) tests use dyes, magnets and radio waves to create interior pictures of a breast. Doctors may order this test to confirm a biopsy result. MRI images also show doctors the extent of breast cancer before surgery.