From Berlin to Yerkes

Yerkes immunologist Guido Silvestri and colleagues have a paper in PLOS Pathogens shedding light on the still singular example of Timothy Brown, aka "the Berlin patient", the only human cured of HIV.

HIV vaccine insight via Rwanda

Rebuilding a shattered society is compatible with HIV vaccine research

Cardiac cell therapy: three papers at a glance

Cardiac cell therapy sounds like a promising idea: use the patients’ own cells to enhance healing or even regenerate the damaged heart muscle. Doctors have taken up the promise, testing it in clinical trials involving thousands of patients. But a basic problem facing the field is this: naked cells don’t appear to stay in the heart or stay alive for long enough to provide a sustained benefit. Three labs at Emory have published papers in the last year addressing this problem. All describe some kind of supportive biomaterials, consisting of capsules or a gel, which help cells stay put and stay alive, in experiments where recovery from a heart attack is modeled in rodents. The most recent comes from cardiologist Young-sup Yoon and colleagues, in ACS Nano. The first author is Kiwon Ban, a senior postdoc in Yoon’s laboratory. Ban and his team use self-assembling peptides, developed in collaboration with biomaterials engineer Ho-wook Jun at UAB (see figure). The peptides form a gel that both physically keeps cardiac muscle cells in the heart and eases their integration into the heart tissue over a period of weeks. As Katie Bourzac explains in Chemical & Engineering News: One peptide acts like a natural protein that adheres to cells and promotes cell survival. The second peptide is readily broken down by a protease. The team designed the gel so that when it is implanted, it begins to degrade a bit, allowing cells from the body to migrate in. Eventually the gel should disintegrate completely as the heart tissue builds its own extracellular matrix. This particular gel has already performed well as a support for other kinds of cells grown from stem cells, including pancreatic and muscle cells. We thought it may be useful to readers to be able to compare and contrast these papers in chart form.  Levit et al. JAHA 2013 (blog post) Boopathy et al Biomaterials 2014 (blog post) Ban et al ACS Nano 2014 (discussed here) Source of cells Mesenchymal stem cells Cardiac progenitor cells, derived from cardiac tissue Differentiated cardiac muscle cells, derived from embryonic stem cells Supportive technology Alginate encapsulation Self-assembling peptides with Notch ligand Self-assembling peptides with RGDS (fibronectin ligand), MMP degradable Experimental model Immunodeficient rat myocardial infarction Rat myocardial infarction Immunodeficient mouse myocardial infarction How therapeutic effect assessed Cell retention, ejection fraction, scar size, new blood vessels Retention in heart, ejection fraction, scar size Retention in heart, ejection fraction, scar size Other distinctive aspects Capsules were combined with a hydrogel patch, which dissolves in 1 week Gel composition can modulate cell behavior Only gel allowed cells to last >3 weeks + engraft into heart The main differences are apparent in two areas: the supportive material and in the source of cells. With mesenchymal stem cells, the paracrine effect -- providing growth and survival factors -- is the name of the game, not becoming part of the cardiac tissue permanently. Mesenchymal stem cells, potentially available in the clinic through tapping patients’ bone marrow, are not going to be able to engraft into the heart because they can't become cardiac muscle, or new blood vessels. But with cardiac progenitor cells or differentiated cardiac muscle cells, engraftment is researchers' goal.  Cardiac progenitor cells can be purified from cardiac tissue biopsies and then grown in culture. Doctors could obtain differentiated cardiac muscle cells by generating induced pluripotent stem cells from patients’ skin or blood cells, and then differentiating those cells into cardiac muscle cells (a process Yoon, Ban and Gang Bao's lab at Georgia Tech have also described in a 2013 paper).

neuro ICU

Support from Family and Close Friends Helps Recovery

Representative Gabrielle Giffords

Representative Gabrielle Giffords. Photo courtesy Giffords’ House office.

As we watch the daily progress of Representative Gabrielle Giffords, many close observers have commented that her recovery has been moving along more quickly than expected, and took a big leap after the visit from President Obama.  Related?  Perhaps.

Emory Psychologist, Dr. Nadine Kaslow, says there is no question that love and support from family, friends, and others individuals a patient is close to, can make an enormous difference in the recovery process.

She explains that after people come out of a coma, they often seem to have a special connection to those who were there for them during the coma, even if they don’t actually remember anything in a conscious way. Efforts to communicate with the patient, she says, whether those be verbal or physical, can reinforce linking and communication. She adds patients who have physical contact from a loved one seem to visibly relax and engage more.

At Emory, as we move more and more to patient and family centered health care, we actively encourage loved ones to talk with the patient, read to the patient, touch and stroke the patient. Additionally, beds and shower facilities are provided so that family members can be with their loved ones around the clock.

Owen Samuels, MD, director of Emory University Hospital’s neuroscience critical care unit, reiterates that patient families are now recognized as central to the healing process and their presence can even reduce a patient’s length of stay. He says that in a neurology ICU, where the average length of stay is 13 days, but is often many, many more, this can be especially beneficial.

Posted on by Wendy Darling in Uncategorized Leave a comment
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