Skin cancer

What Can Accelerate the Healing of Diabetic Ulcers & Other Skin Injuries?

A Massachusetts General Hospital (MGH) research team has found a surprising potential solution to a persistent clinical problem – the healing of chronic wounds. In their report published in Wound Repair and Regeneration in October 2017, the investigators from the MGH Vaccine and Immunotherapy Center (VIC) describe how application of mature B lymphocytes – the immune cells best known for producing antibodies – greatly accelerated the healing of acute and chronic wounds in both diabetic and nondiabetic mice. The treatment also improved the quality of regenerated tissue and reduced scarring.

A release from the hospital quotes Ruxandra Sîrbulescu, PhD, of the MGH-VIC, lead and corresponding author of the report, as saying, “Our demonstration that B lymphocytes – immune system cells that are abundant in the blood – can accelerate wound healing in both healthy and diabetic skin potentially opens up an exciting path to a new treatment for chronic wounds, such as diabetic foot ulcers. Diabetic foot ulcers are the most common cause of non-traumatic major amputations around the world and the costliest type of chronic wound to care for, so an inexpensive and safe way to accelerate healing would have great benefits.”

Patients with diabetes are at risk of developing chronic wounds, particularly foot ulcers, because of two complications of the illness. Neuropathy damages the nerves in the skin, particularly the hands and feet, causing a loss of sensation that can lead to repeat injuries of the same structures. Vascular disease limits blood flow to the skin and adjacent tissues, cutting off the supply of oxygen and nutrients required for healthy tissue healing. Between 19 and 34 percent of patients with diabetes develop chronic foot ulcers, the presence of which significantly increases their risk of death compared with patients without foot ulcers.

Healthy wound healing has four phases: blood clotting to stop bleeding, inflammation to remove dead and damaged cells, proliferation of new tissue and the remodeling of tissues to be stronger and better organized. It is believed that chronic wounds get stuck in an inflammatory phase, with a low-oxygen microenvironment and the persistent presence of enzymes that break down tissue proteins. Recent studies from the VIC and other centers have identified several unsuspected roles for B lymphocytes, including the secretion of powerful anti-inflammatory molecules. A previous study from members of the MGH team, in collaboration with scientists at the St Joseph’s Translational Research Institute, found that injecting B cells into cardiac tissue damaged by a heart attack improved structural and functional recovery in an animal model.

For the current study the team first isolated mature B cells from the spleens of diabetic and nondiabetic mice. Their series of experiments showed that a single application of concentrated, mature B cells accelerated wound healing and improved the quality of tissue repair in both animal models. B cell treatment also quickly reduced the size and improved the healing of chronic skin ulcers in the diabetic mice, increasing the number of both nerve endings and blood vessels in regenerated tissue.

Remarkably, the same healing effect was produced when B cells from older obese diabetic mice were applied to acute wounds in similarly aged, obese diabetic mice. Both groups of animals were equivalent to 55- to 60-year-old morbidly obese patients with uncontrolled diabetes, the most difficult population to treat. The sort of mature B cells used in this study have a limited life span, and once applied on a wound, they remained active at the site for up to 14 days. This makes them easier to control than other types of cells used in therapies and makes side effects unlikely. Overall, the presence of B lymphocytes was associated with increased tissue proliferation, reduced cell death and a more supportive environment for wound healing.

Sîrbulescu notes that it is possible to isolate high numbers of a patient’s B cells through a standard blood pheresis procedure, allowing collection of enough cells for several treatments at a single session. The team has been working with colleagues at Dana-Farber Cancer Institute to develop protocols to create the type of enriched B cell preparation that could be used to treat patients. “While more work is required to elucidate the cellular and molecular mechanisms through which B cells exert their beneficial function in wound healing, we are in the process of obtaining the required regulatory approvals to conduct a first clinical study in patients with diabetic foot ulcers. With adequate funding, we believe we could apply this technology clinically within one to two years” she says. The team is working in collaboration with study co-author Dennis Orgill, MD, PhD, of the Wound Care Center in the Plastic Surgery Division at Brigham and Women’s Hospital to set up a clinical study in patients with diabetic foot ulcers.

Mark Poznansky, MD, PhD, director of the MGH-VIC and senior author of the Wound Repair and Regeneration report adds, “Having a novel therapeutic that is based on the immediate isolation of a patient’s own cells, with minimal manipulation, will represent an attractive option for the wound care field; and a successful option that accelerates healing would greatly benefit patients, as diabetic ulcers typically need up to a year or more heal. Further development of the B cell application therapy may lead to novel ways of addressing the pathologies underlying the formation of chronic wounds.”

###

Poznansky is an associate professor of Medicine at Harvard Medical School (HMS), and Sîrbulescu is an immunology researcher at MGH and a research fellow in Medicine at HMS. Additional co-authors of the Wound Repair and Regeneration paper are Chloe K. Boehm, Erin Soon, Ben Maxner, Nicolas Chronos, MD, Ann Sluder, PhD, MGH Vaccine and Immunotherapy Center; Moses Wilks, PhD, Hushan Yuan, PhD, Charalambos Kaittanis, PhD, Marc Normandin, PhD and Georges El Fakhri, PhD, MGH Department of Radiology; and Iulian Ilies¸ PhD, Northeastern University. Support for the study includes grants from the Trinity Innovation Fund of Holy Cross Hospital, Ft. Lauderdale, Florida; the VIC Innovation Fund, and National Institutes of Health grant 5R01 EB017699-03.

Massachusetts General Hospital, founded in 1811, is the original and largest teaching hospital of Harvard Medical School. The MGH Research Institute conducts the largest hospital-based research program in the nation, with an annual research budget of more than $850 million and major research centers in HIV/AIDS, cardiovascular research, cancer, computational and integrative biology, cutaneous biology, genomic medicine, medical imaging, neurodegenerative disorders, regenerative medicine, reproductive biology, systems biology, photomedicine and transplantation biology. The MGH topped the 2015 Nature Index list of health care organizations publishing in leading scientific journals and earned the prestigious 2015 Foster G. McGaw Prize for Excellence in Community Service. In August 2017 the MGH was once again named to the Honor Roll in the U.S. News & World Report list of “America’s Best Hospitals.”

you may also like

Recipes We

Khela88

Fancywin

Jita Ace

Betjili

https://betvisa1.org/

jeetbuzz লগইন

jeetwin app

baji999

winbuzz

betvisa login

winbuzz

six6s

babu88

marvelbet

krikya

mostplay

4rabet

leonbet

pin up

mostbet

all rummy app

Fastwin

Jitawin

R777

Bhaggo

PBC88

Winbdt

Crickex

Betjee

Glory Casino

Jita Bet

Melbet

Jwin7

Jita Ace

Krikya

Six6s

Betjili

Mostplay

Jeetbuzz

Jeetwin

Mostbet

Baji999

Marvelbet

Betvisa

Mcw

Nagad88

Babu88

Jaya9

babu88 babu88 jeetwin abbabet nagad88 marvelbet melbet mostbet six6s crickex mcw casino baji999 betvisa krikya mostplay crazy time jeetbuzz 79king1 good88 11bet xoso66 nohu78 xin88 nohu90 v9bet fastwin betvisa
jeetbuzz
babu88
babu888
jeetwin
nagad88
jaya9
khela88
mostplay
baji999
abbabet
1xbet 12bet marvel bet 91 club betvisa login baji999 sky247 gugobet lotus365 yolo247 bsport loto188 bsport site 8day xoso66 v9bet rummy deity yono rummy new88 typhu88 jeetbuzz dafabet lotus365 bet88 v9bet đăng nhập thienhabet 188bet link dafabet login betvisa king567 yolo247 login 1xbet login 24betting 91club crickex kubet new88 hi88 jun88 w88 shbet mksports 33win f8bet 123b fb88 vn88 mu88 five88 bk8 w388 gnbet mcw casino thienhabet sodo casino cmd368 bsport eubet sbobet mibet cmd368 Faridabad Satta Satta King 786 Dafabet betvisa yono rummy rummy apk

alo789

https://metalwave.com.mx/app/

https://meisetio.com/wp-includes/js/jquery/ai/index.php?tunnel=alo-789

https://purneauniversity.ac.in/assets/js/mk/?tunnel=baji999

fastwin

fastwin

winzo

winzo

futemax

Kèo nhà cái

bongdadzo

Tỷ số bóng đá

KQBD

Kết quả bóng đá

rummy nabob

hi88

8day

97win

n88

red88

king88

j88

i9bet

good88

nohu78

99ok

bet168

satta king

satta matta matka

Canais Play

ALO789

yono rummy
rummy deity
rummy nabob
rummy wealth
daman games
jeetbuzz
yolo247
baji999
rummy gold
188bet
v9bet
789bet
crickex
1xbet
thienhabet
c54
sky88
33win
79king
kubet
shbet
good88
3king
nohu
lucky88
97win
xoso66
xin88
daga88
yolo247
jeetbuzz
betvisa
jeetwin
baji999
nagad88
babu88
mostplay
babu888
jaya9
khela88
jaya9
khela88
jeetbuzz
betvisa
abbabet
babu88
babu888
jeetwin
nagad88
jaya9
joya 9
khela88
mostplay
marvelbet
baji999

Sponsored From Malaysia

말레이시아에서 후원