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Practical Issues in Wound, Skin and Ostomy Management
AlloSource, one of the nation’s largest providers of cartilage, bone, skin, soft-tissue, and cellular allografts to advance patient healing in surgical procedures and wound care, today announced the release of AlloFuse® Select CM, a premium addition to AlloSource’s AlloFuse portfolio. (more…)
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Carol Emanuele beat cancer. But for the last two years, the Philadelphia woman has been fighting her toughest battle yet. She has an open wound on the bottom of her foot that leaves her unable to walk and prone to deadly infection.
In an effort to treat her diabetic wound, doctors at a clinic in Northeast Philadelphia have prescribed a dizzying array of treatments. Freeze-dried placenta. Penis foreskin cells. High doses of pressurized oxygen. And those are just a few of the treatment options patients face.
“I do everything, but nothing seems to work,” said Emanuele, 59, who survived stage 4 melanoma in her 30s. “I beat cancer, but this is worse.” (more…)
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Washington, D.C. — In a presentation to the American Chemical Society meeting, Ankit Agarwal, a postdoctoral researcher at the University of Wisconsin-Madison, described an experimental approach to wound healing that could take advantage of silver’s anti-bacterial properties, while sidestepping the damage silver can cause to cells needed for healing.
Silver is widely used to prevent bacterial contamination in wound dressings, says Agarwal, “but these dressings deliver a very large load of silver, and that can kill a lot of cells in the wound.” (more…)
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The new research has identified (see below) a peptide found from the Komodo dragon (Varanus komodoensis), called VK25, which appears to be useful as a cationic antimicrobial peptide (CAMP). There is currently considerable interest in antimicrobial peptides in a world where antibiotic effectiveness is in decline. These peptides are potent, broad spectrum antibiotics which demonstrate potential as novel therapeutic agents. (more…)
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Pennsylvania state trooper Matt Uram was talking with his wife at a July Fourth party in 2009 when a misjudged spray of gasoline burst through a nearby bonfire and set him alight. Flames covered the entire right side of his body, and after he fell to the ground to smother them, his wife beat his head with her bare hands to put out his burning hair. It was only on the way to the ER, as the shock and adrenaline began to wear off, that the pain set in. “It was intense,” he says. “If you can imagine what pins and needles feel like, then replace those needles with matches.” (more…)
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MicroRNAs are interesting target structures for new therapeutic agents. They can be blocked through synthetic antimiRs. However, to date it was not possible to use these only locally. Researchers at Goethe University Frankfurt have now successfully achieved this in the treatment of impaired wound healing with the help of light-inducible antimiRs.
MicroRNAs are small gene fragments which bond onto target structures in cells and in this way prevent certain proteins from forming. As they play a key role in the occurrence and manifestation of various diseases, researchers have developed what are known as antimiRs, which block microRNA function. The disadvantage of this approach is, however, that the blockade can lead to side effects throughout the entire body since microRNAs can perform different functions in various organs. Researchers at Goethe University Frankfurt have now solved this problem. (more…)
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A substance found in parasitic worms’ spit might help prevent thousands of amputations a year, scientists in north Queensland have said. James Cook University researchers in Cairns are harnessing the molecule produced by a Thai liver parasite that can “supercharge” the healing of wounds.
Australian Institute of Tropical Health and Medicine parasitologist Michael Smout said non-healing wounds were of particular concern for diabetics and smokers. Dr Smout said the parasite used the molecule to keep its host healthy and prolong its own life. “It’ll live for a decade or two, and it’s munching around your liver, and zipping up the wounds as it goes,” he said. (more…)
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Bandages are intended to keep a dressing secure and clean in order to reduce healing time and infection rate. However, they may be about to get a new use-case, courtesy of a project from the United Kingdom’s Swansea University Institute of Life Science.
What researchers there have been working on is a new smart bandage capable of tracking how a wound is healing and sending that data back to doctors, via 5G technology. To do this it would employ tiny “nanosensors” able to fit comfortably within the fabric of regular bandages. (more…)
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Smart bandages which can detect how well a wound is healing and send a progress report to the doctor will be trialled within the next year, scientists have said. The dressings are fitted with tiny sensors which can pick up blood clotting, or spot infections, and wirelessly send data back to a clinician. Swansea University, which is hoping to trial the bandages within 12 months, said the new technology could offer a personalised approach to medicine.
Currently patients with wounds are advised to return to the doctor in a certain amount of time. But each case may need a longer time to heal, or may have become infected before the visit. (more…)
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LUBBOCK, TX (NEWS RELEASE) – The Covenant Center for Wound Care & Hyperbaric Medicine has been honored as a Wound Care Center® of the Year by Healogics, Inc., the nation’s leading and largest wound care management company. The center also was awarded Center of Distinction and the President’s Circle Award.
The center has achieved patient satisfaction rates higher than 92 percent, a healing rate of at least 91 percent in less than 31 median days and healed almost 90 percent of its patients in less than 14 weeks. Out of the 630 Centers eligible in 2016, only seven centers across the country received this prestigious award. Covenant’s center was awarded as Center of the Year for the southwest region, which includes Texas, Oklahoma, Louisiana and New Mexico. (more…)
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Around 6.5 million patients in the U.S. suffer from chronic wounds, such as pressure injuries or ulcers. Treatment costs $25 billion each year, representing a sizable and growing problem. Despite the wide impact of chronic wounds, it’s rare to see specialized, effective wound care delivered across the care continuum.
A chronic non-healing wound is a surrogate marker for illness. These patients require holistic management of their co-morbidities and continuity across care settings.
Despite this, a great deal of emphasis has been placed on treating wounds as singular events, managed topically with expensive dressings and support surfaces. This is only a small part of wound healing.
As a physician focused solely on wound care, I have learned that we must shift the focus from simply treating the wound to treating the wounded patient. The impact in the post-acute care setting in particular is worthy of evaluation and discussion, as up to 29% of patients in long-term care facilities will experience a pressure ulcer, posing serious legal, financial, and staffing implications.
For those providers working outside long-term care, there is little understanding of challenges facing LTC providers. Acute providers do not often ask, for example, how are my LTC partners reimbursed? How are they staffed? What are the requirements and regulatory pressures they face? Asking these questions would facilitate a more productive dialogue with a focus on collaborative prevention, rather than waiting until a chronic wound occurs in the LTC setting.
Creating an integrated wound care community
To address the needs of the present and growing population of patients with chronic wounds, Healogics developed an integrated wound care community model, to coordinate the wound healing process across all care settings. The program utilizes Healogics Specialty Physicians, a subspecialty group of physicians and providers with extensive training solely focused on wound care.
HSPs provide expert inpatient consultation and ensure safe transition of patients out of the hospital into the appropriate care setting. Because HSPs see the patient regardless of post-discharge venue, patients receive the same quality of care whether they are going home, to a skilled-nursing, assisted living, or LTC setting. Because chronic wounds are surrogate markers for illness, we have realized it’s essential to have an integrated, multi-setting, and multi-disciplinary process to treat the patient and their co-morbidities.
Data collected at a pilot IWCC site in the Midwestern U.S. from 2014 to 2016 revealed very positive trends for chronic wound patients. In the acute care setting, the average length of stay decreased from 9.41 days to 5.64 days, and total cost of care per patient was reduced from $10,670 to $7,248.
We’re excited by these promising results, which were revealed at the American College of Wound Healing and Tissue Repair Conference last December. We look forward to refining and expanding the model by helping our partners in acute and LTC settings standardize their practices, use evidence-based clinical guidelines, mobilize technologies and processes, and pay critical attention to patient safety and value-based outcomes.
When it comes to wound healing, no venue of care should operate alone—an integrated solution that creates continuity for the patient is critical. There are four things LTC facilities can do to break down the silos:
Read more at McKnight’s
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It’s necessary for the skin to heal the wounds after getting injured. For the first time, scientists discovered that the changing stem cell dynamics contribute to wound healing. The main purpose of these studies was to understand how stem cells differentiate, migrate, and proliferate to repair the tissue damage after trauma.
A team from Université libre de Bruxelles (ULB) started their research on stem cells. Professor of ULB, Dr. Cédric Blanpain MD/Ph.D, WELBIO investigator and the lead researcher of this study, defined the cellular and molecular mechanisms that play active roles in wound healing. The research report was first published in the Journal of Nature Communications.
The skin of a creature is just like an outer shield which protects the inner tissues and other organs from outer injuries. If somehow the outer shield gets disrupted then body activates a cascade of cellular and molecular event to repair the damage and restore skin integrity. ScienceDaily reported that minor defects in these events lead to improper repair causing acute and chronic wound disorders.
In the new study, scientists revealed that distinct stem cells populations contribute in healing the wound. Although it is not cleared yet how proliferation, differentiation, and migration get balanced by stem cell populations during the healing process. Co-author of this study Dr.Sophie Dekoninck said in a statement,“The molecular characterization of the migrating leading edge suggests that these cells are protecting the stem cells from the infection and mechanical stress allowing a harmonious healing process”.
Read more at The Science Times
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