Sunday, March 24, 2019

PKD Foundation: Kidney Organoids, Gift of Life: Don't Take Your Organs to Heaven, Medical Marijuana: Illinois, Improving Kidney Care System

PKD Research

From PKD Foundation, by Dr. David Baron, Chief Scientific Officer

PKDF Chief Scientific Officer on kidney organoids: what they are and why they’re important


There are some truly fascinating techniques in the research field being used to help increase our understanding of PKD. This week, our Chief Scientific Officer, Dr. David Baron, shares how the development of kidney organoids may help us get closer to new treatments:

Cell biologists began to grow cells derived from various tissues and organs into what are known as cell cultures in glass dishes (in vitro). These cells could accomplish some of the functions they were designed to do, such as secrete proteins or direct the movement of salts, water, and other across them. However, these cell cultures were mostly two-dimensional and didn’t look anything like the organs or tissues they came from. Another problem, aside from lack of structure, is that these cells would divide only so many times, and with increasing cell division, the cells would often lose their original functions that distinguished them in the first place.


What these biologists really wanted to build was a cell culture system by which the freshly isolated cells could grow into three dimensional structures rather than flat sheets, or even better, grow into structures that, to some extent, reflected where they came from. An early example of this is the use of Madin-Darby Canine Kidney cells or MDCK cells, first established to study viral infections. Scientists later discovered that they could grow these cells into three dimensional tubules that could transport salts and water, functions similar to what the mammalian kidney tubules do. However, these were simple structures of the same cell type that had only a vague resemblance to the complicated kidney from which they were derived.

Dogs are not humans, however. Recent exciting research, in part funded by the PKD Foundation, has shown that human pluripotent stem cells (hPSCs) derived from human skin biopsies can be grown into kidney organoids. Pluripotent stem cells can be induced to change (differentiate) into many distinct cell types. For example, more than 20 distinct cell types required to accomplish the many functions of the human kidney. Much more complex than MDCK cells in culture, these hPSCs can be grown into organoids that resemble in some key ways the structure of the human kidney. The latest research is seeking to grow blood vessels and connective tissue to augment the organoids. Someday this research could be used to actually grow a functional kidney! More importantly for PKD research right now, these organoids can be made to express the ADPKD mutation that causes the disease.


One of the barriers to finding effective treatments for PKD is the lack of an in vitro system to screen potentially promising molecules that could become novel drugs. Such an in vitro system allows for high throughput screening, which is orders of magnitude more efficient than relying on rodent models of PKD. Kidney organoids, particularly those containing the ADPKD mutation, while not quite high throughput, are much more efficient than animal models for screening molecules that could be the next generation of drugs for the treatment of PKD. The PKD Foundation is proud to play a continuing role in this exciting research!





Gift of Life

From Ottawa Citizen, by BLAIR CRAWFORD

'Don't take your organs to Heaven': Orléan's man turns truck into a billboard for organ donors




Three times a week, 52 weeks a year, Steve Dunn makes the trek from his Orléans home and settles into a comfy chair in the basement of the Riverside Hospital. He’ll be there for the next 4 1/2 hours as his blood pumps through a life-saving kidney dialysis machine.

It’s a routine he’s been doing for five years.

“It’s like a part-time job, really,” said Dunn, 47.

Frustrated by his half-decade wait for a kidney donor, Dunn has turned the back of his GMC pickup into a moving billboard for organ donors.

“Asking for help. I need a kidney transplant,” reads the print on the truck tailgate. “Many others like myself need your help. Don’t take your organs to Heaven. Save a life instead.”

Dunn added the slogan to his truck about a month ago, not just to help his own predicament, but for others who are languishing on transplant lists.

“It’s probably not going to help me — although it would be a miracle if it did — but maybe it will help people down the road,” he said. “At least it might make people think about organ donation.”

Dunn is one of 4,300 Canadians waiting for kidney transplant. Kidney transplants are one of the oldest and most common organ transplants. The first successful transplant took place in Illinois in 1950 from a cadaver. Two years later a kidney was successfully transplanted from a living donor.

Today, the operation boasts a success rate of up to 95 per cent, according to the Kidney Foundation of Canada. But there are still not enough organs available.

Dunn suffers from high blood pressure which led to a stroke 10 years ago and eventually to kidney failure. His kidneys now operate at under 10 per cent efficiency, meaning dangerous toxins build up in his blood stream that must be removed through dialysis.

His blood type is O-positive, meaning he can donate blood to anyone, but can only accept blood or an organ from someone else with the same blood type. His sister has diabetes and is ineligible to donate. His mother is too old. His brother is the wrong blood type.

The weekly need for dialysis means the former delivery driver can’t hold a full-time job.

That’s one of the hidden costs that affects so many people with kidney disease, said Elizabeth Myles, executive director of the Kidney Foundation of Canada. Even the cost of travel and parking three times a week at hospital can be prohibitive. People with kidney disease face higher food bills because of the cost of a healthy, kidney-friendly diet that avoids cheaper, processed foods.

“The financial burden of kidney disease is one of the things we want to raise awareness about,” Myles said. “There are a lot of costs passed on to people with kidney disease.”

About four million Canadians, or one in 10, suffer from chronic kidney disease and that number has been increasing, particularly among the young, she said.

For many, like Dunn, a transplant is the best hope for a normal life.

“Even though the vast majority of Canadians support organ donations according to polls, the number who actually consent is relatively small,” Myles said. It’s important that those who do wish to donate organs, register as a donor and let their loved ones know of their wishes.

Dunn is still waiting to hear if a donor is available, but his truck has been turning heads. Once, he came out of a bank at Place d’Orléans and found a man waiting to speak to him.

“He said, ‘I want to give you a kidney’,” Dunn recalled. “He was in a wheelchair but he said that he wanted to help.”

Dunn helped the man pass his name along and though he doubts the man will be a suitable donor, he was touched by the stranger’s selflessness.

“It was unbelievable. You don’t see that very often in the world today.”

In Ontario, organ donation is no longer linked to your driver’s licence. Instead, registration is done through Service Ontario or online at beadonor.ca.

March is Kidney Month in Canada. For more information, visit the Kidney Foundation of Canada at kidney.ca





Living with PKD

From Chicago Tribune, by Robert McCoppin

Proposal would make state medical pot program permanent, add osteoarthritis, chronic pain, autism, migraines, other conditions

Medical marijuana in Illinois would become legal permanently under a proposed new state law, and the list of qualifying conditions would expand greatly to include common conditions such as osteoarthritis, autism and chronic pain.

The former top regulator of medical marijuana in the state, Bob Morgan, is a new Democratic state representative from Deerfield and the chief sponsor of the plan. He says he knows of no significant opposition, and expects lawmakers to approve the measure this spring.

“We’ve had a (pilot program) that shows this is a safe program without diversion (to illegal use),” Morgan said. “It’s helping people who are struggling with serious medical conditions.”

The medical marijuana program allows patients with any of about 40 serious medical conditions, such as cancer and AIDS, to qualify for 2.5 ounces of marijuana every two weeks with their doctors’ approval.

The pilot program has evolved a couple of times since Illinois lawmakers approved it with bipartisan support in 2013, and sales began in late 2015. Former Republican Gov. Bruce Rauner later approved extending the life of the program to mid-2020 and added post-traumatic stress disorder and terminal illness as qualifying conditions, but abolished the medical cannabis advisory board that had recommended adding more conditions.

Last year, Rauner signed a law to allow medical marijuana as an alternative to prescription opioids, and ended a requirement for patient fingerprints and criminal background checks. Those two measures significantly expanded the program to its current size of about 58,000 patients, but so far the program remains smaller than in many other states, mainly because it doesn’t allow patients to use the drug for pain, the most common qualifying condition elsewhere.

The General Assembly is also expected soon to consider legalizing recreational use of cannabis, but if approved it would likely take until next year before sales are allowed. One advantage of medical marijuana would be to avoid taxes placed on recreational marijuana.

By many accounts, the program has worked as intended. Many of the patients say they use marijuana to help them get off other stronger prescription drugs. Police have not reported any major problems with people selling or using medical marijuana without certification.

Even Healthy and Productive Illinois, a nonprofit group which is fighting the proposed legalization of recreational marijuana, does not oppose medical marijuana or decriminalization, lobbyist Tim McAnarney said. He wasn’t able to comment on the proposal to make the medical program permanent, saying he’d have to see how much it would expand use.

The bill would also allow doctors to be paid by medical marijuana businesses or patients. Morgan said that doctors would still be prohibited from getting kickbacks for referrals, but this would allow them to be paid for research.

As proposed, new qualifying conditions would be chronic pain, autism, irritable bowel syndrome, migraines, osteoarthritis, anorexia nervosa, Ehlers-Danlos syndrome, Neuro-Behcet's autoimmune disease, neuropathy, polycystic kidney disease and superior canal dehiscence syndrome.

Research on the effects of cannabis on autism is very limited. Many doctors and several medical groups warn against using a drug which has not been thoroughly tested and approved by the U.S. Food and Drug Administration, and that the federal government classifies as being addictive with no medicinal value.

The American Academy of Pediatrics opposes the use of medical marijuana, noting that it can harm memory, learning and coordination, and lead to psychological problems or drug dependence. But the AAP supports “compassionate use” for children with debilitating or life-limiting diseases, and urges the government to relax the classification of the drug to allow more research.

Mothers Advocating Medical Marijuana for Autism, a nonprofit advocacy group, lists several studies suggesting preliminary support for the treatment, and counting nine states that allow the drug for autism.

Marijuana has been shown to be helpful for many of the conditions that accompany autism, such as epilepsy, pain, aggression and anxiety, said Wendy Fournier, president of the National Association of Autism. She said cannabidiol oil tinctures have helped reduce her autistic daughter’s seizures and helped her sleep.

Recreational marijuana has been legal in Colorado for years. What can Illinois learn before its residents start firing up? »

“There aren’t any good alternatives, so if this is working for some people, go for it, let’s do it,” she said. “This is a potentially life-changing treatment for some people.”

The proposed bill also includes language to allow unspecified “medical conditions or symptoms for which a person may benefit from the use of medical cannabis,” but Morgan said he would remove that language as a compromise to gain broader support.

Those conditions were previously recommended by the former advisory board, and some were the subject of lawsuits and court orders, but the Rauner administration refused to approve them.

Jim Champion, a veteran with multiple sclerosis, was looking forward to changes the bill would bring, such as no longer forcing patients with chronic conditions to recertify their ailments. With his wife Sandy, the Champions lobbied to pass the original law, and worked with Morgan on the new bill.

One important change, they said, was to have the state Department of Public Health make provisions for veterans to qualify under for medical marijuana as an alternative to opioids. Because the drug remains prohibited under federal law, Veterans Affairs doctors are prohibited from certifying their patients.

“We fully support this and look forward to making it permanent,” Sandy Champion said.

The bill would also allow patients to have multiple caregivers who could buy their medical marijuana for them, would allow transportation of the drug after it is opened, and would provide for returns of damaged or inadequate products.

rmccoppin@chicagotribune.com





Kidney Care System

From The Hill, Blog, BY DR. ALLEN R. NISSENSON, OPINION CONTRIBUTOR

Congress, the administration, and kidney care community must further improve care for 30 million Americans


March is National Kidney Month, a perfect time to reflect on the progress made in kidney care and efforts to advance that success to the next level. The challenge facing individuals with kidney diseases requires a united effort from Congress, the Administration, the National Institutes of Health (NIH) and the kidney care community. Fortunately, the collective commitment and momentum are in place, and now is the time to seize on this opportunity to maintain this forward trajectory.

More than a decade ago, the kidney care community set an ambitious goal to improve patient care outcomes and reduce health care costs. We have made significant strides in advancing kidney health with numerous multi-disciplinary work groups consisting of clinicians, providers, patient groups, researchers and manufacturers working together to: develop performance measures for accountability and endorsement through the National Quality Forum process; undertake a successful initiative to improve survival in the first year of dialysis; establish a strategic “quality blueprint” that identifies the leverage points for quality improvement; and publish a framework for considering patient reported outcomes (PROs) in this vulnerable population. All of these initiatives challenged us as a community while we worked constructively with policymakers on meaningful programs and policies that advance us toward the common goal of higher quality care and quality of life for patients with kidney diseases.

Now, a new analysis by Discern Health, which examined data from the government’s United States Renal Data System (USRDS), confirms that patient outcomes have significantly improved during the past decade. All-cause dialysis mortality rates have fallen, as have hospital admission rates for individuals who rely on dialysis care for long-term care needs or while they await a kidney transplant. In fact, gains in survival rates among this population now outpace those for cancer, heart disease, diabetes, and many other serious chronic diseases. Incredibly, the gains in kidney care come even as some chronic diseases saw worsening mortality – heart failure and myocardial infarction among them.

Despite the fact that individuals with kidney failure are among the most complex and costly Medicare beneficiaries to treat, improvements in dialysis care have led to substantial cost savings for Medicare. Discern Health confirmed that Medicare’s spending growth on individuals in kidney failure slowed from 7 percent to 1.5 percent over a 10-year period.These savings persist even after accounting for the fact that the number of Americans who require dialysis has risen sharply in the last few decades, and are now in the billions of dollars.

The kidney care community’s and policymakers’ efforts to advance access, choice, and quality while maintaining the integrity of the Medicare ESRD benefit have had positive, measurable results, yet there is still much more room to improve. We can—and must—do better to build on the real gains we’ve made, and focus on other critical areas such as prevention, access and choice, and increased investment in research and innovations.

In order to challenge ourselves again, we need a bigger and bolder agenda aimed at further boosting survival rates, focusing on patient-centered care and quality of life, improving access to treatment, investing in innovative therapies and medicines, and ensuring kidney health is more effectively addressed before individuals reach kidney failure.

This ambitious agenda requires working collaboratively with policymakers and other stakeholders through public-private partnerships to achieve even greater gains for kidney health. Any constructive collaboration must address not only quality and innovation but also the chronic Medicare underfunding as reported by the independent, nonpartisan Medicare Payment Advisory Commission (MedPAC) in January. This is particularly concerning in the ESRD program as approximately 85 percent of patients rely on government funding for their care.

Last year, the kidney community held a briefing on Capitol Hill with leaders from the kidney care stakeholders, bipartisan members of Congress, and senior representatives from NIH and CMS to share a bold vision for kidney care in America and commit to improving the lives of the tens of millions of Americans living with kidney diseases.

As strong supporters of value in the U.S. health care system, we commend Department of Health and Human Services Secretary Alex Azar’s efforts to foster even greater improvements for the 30 million Americans living with ESRD. Our shared commitment to programs like the Kidney Innovation Accelerator (Kidney X), which is running a competition to develop the new generation of advanced kidney care technology, underscores our commitment to continuously improving kidney health. In addition, we strongly support the interests of HHS and the Center for Medicare & Medicaid Innovation in advancing the care for individuals with chronic kidney diseases before kidney failure occurs, and for significantly increasing the number of patients receiving dialysis at home or a kidney transplant.

The administration has already shown a welcome focus and dedication to prioritize policies and programs to address disease affecting millions of Americans. Secretary Azar vowed in remarks to the National Kidney Foundation that “together, we can deliver much better care, and longer lives, for Americans with kidney disease.” In Congress, a bipartisan group of lawmakers in the House and Senate are working on an updated version of the 2018 Chronic Kidney Disease Improvement in Research & Treatment Act that will be introduced later this year.

As someone who has been a practicing nephrologist for more than 40 years, it is exciting to see the community standing shoulder-to-shoulder with the policy community. We are excited to do our part to advance this bold agenda with a renewed and reimagined commitment to innovation.

To that end, we look forward to continued collaboration with policymakers in Congress and the administration to further help patients with chronic kidney diseases, kidney failure and transplants live longer, healthier, and more fulfilling lives.

Nissenson is chair of Kidney Care Partners.

Sunday, March 10, 2019

Kidney Health: Check Your Urine Color, PKD Awareness Month: Planters and Art, 3D Printed Kidney Proximal Tubules

Kidney Health

From Financial Review, by Hilary Brueck





Whether you're trying a keto plan, a new plant-based routine, intermittent fasting, or the Whole30, experts agree: dieting is hard work.

Thomas Chi, a doctor at the University of California, San Francisco, urology department, said proper hydration tends to be one of the toughest things for his dieting patients to remember when they start a new weight-loss plan.

"People who are on extreme diets, they tend to have higher levels of salt and less hydration," Chi said.

Fortunately, your body is here to help. All you have to do is take a little time to listen to the brain's subtle cues: If you're feeling thirsty, drink some water.

This is especially important if you're eating more meats and high-salt foods, Chi said, because a combination of "tons and tons of meat" and not enough water could lead to kidney stones, especially if you have a family history of the issue.

"I'm not seeing this enormous uptick of patients with kidney stones because they're all doing a keto diet now," he said.

But he still thinks it's a good idea to pay attention to when your body's asking for water.

No matter if you're on an extreme diet or no diet at all, that's generally good advice.

"A lot of times, people just seem to be a little dehydrated," the dietitian Jason Ewoldt from the Mayo Clinic previously told Business Insider.

But the popular notion that you must down eight full glasses of water a day is bogus. And nobody really needs any special sports drinks, even after a workout.

Your body knows exactly when you need more water

Just drink when you're thirsty because the body is designed to know precisely when you need more water.

There's actually a "thirst centre" in the brain that helps regulate thirst, and it's impressively tuned.

Even though it takes tens of minutes for the body to hydrate once cool water touches your lips, drinking quenches thirst within seconds.

The brain's thirst cues can be relatively mild and easily mistaken for hunger pangs, or just ignored. Pretty soon, that can prompt dehydration and lead to overeating.

A 2016 study of more than 18,000 people in the US found that those who drank more water were consistently more satisfied and ate fewer calories daily. (Drinking with a meal both helps replenish saliva and aids digestion.)

Steady water drinkers also consumed lower amounts of sugar, fat, salt and cholesterol than dehydrated people.

So if you're unsure if you're feeling peckish, try sipping on some water, waiting about 15 minutes, and checking if your stomach really is rumbling.

"If you were truly hungry, you might still feel a stomach pang, whereas if you were just thirsty, you'll feel satisfied," the Polycystic Kidney Disease Foundation said.

If you're not a big fan of water, you can dress up your drink by adding lemon juice into your glass.

That's a cheap, doctor-recommended hack to help prevent kidney-stone formation.

No need to fuss too much over the colour of your urine, either. As long as it's not a super-dark yellow or an amber colour, you're doing well.

This story first appeared in Business Insider. Read it here or followBusinessInsider Australia on Facebook.

BusinessInsider.com.au




From Science Daily

Growing evidence: Water as a potential treatment for inherited cause of kidney failure


People with polycystic kidney disease (PKD) could benefit from a moderate increase in water intake, according to new research.


A study from The Westmead Institute for Medical Research found that a moderate increase in water intake in rats with PKD led to a long-term reduction in kidney cyst growth and fibrosis.

This latest findings add to the growing body of evidence that supports water as a safe and effective treatment for PKD.

Polycystic kidney disease is the most common inherited cause of end-stage kidney disease. It is a chronic condition, in which fluid-filled cysts damage healthy tissue and kidney function.

Left untreated, it can cause complications, including high blood pressure, heart problems and, in severe cases, kidney failure.

More than 2,000 Australians with PKD currently receive dialysis or need a kidney transplant.

Lead researcher Dr Priyanka Sagar said that water may be a potential treatment for PKD, because it stops the hormone responsible for cyst growth.

"Previous studies in animals haven't shown whether this benefit continues over time, and there is presently no evidence in humans," Dr Sagar said.

"Our research in rats showed that increased water intake reduces the long-term progression of cyst growth and kidney fibrosis when administered during the early stages of kidney disease.

"Significantly, we identified that only a moderate increase in water was needed to have this sustained benefit in rats."

The research also showed that increased water intake had secondary benefits for some complications associated with PKD.

"Interestingly, we found that increased water intake also reduced hypertension," Dr Sagar said.

"PKD is linked to an increased risk of cardiovascular disease, so this is an important protective effect."

Currently, treatment options for PKD in humans are limited. Dr Sagar said that further studies are needed in humans to prove that water is an effective treatment for kidney cysts.

"We're finding more evidence to support water as a viable treatment for PKD," she said.

"However, further studies are needed to determine its effectiveness.

"Water is cheap and accessible, so the idea that it could be used as a treatment for PKD in the future is very exciting," she concluded.


Story Source:

Materials provided by Westmead Institute for Medical Research. Note: Content may be edited for style and length.





From MD Linx

Long-term trajectory of kidney function in autosomal-dominant polycystic kidney disease

In a 14-year observational cohort study (The Consortium for Radiologic Imaging Studies of Polycystic Kidney Disease study), researchers assessed the trajectories of glomerular filtration rate (GFR) decline in 241 adults with autosomal dominant polycystic kidney disease (ADPKD). Taking into account baseline age and magnetic resonance imaging measurements of total kidney volume (TKV) according to the method of Irazabal, 5 subclasses of participants were defined, as an estimate of the rate of kidney growth. Using mixed polynomial models, they reconstructed and fitted GFR trajectories spanning over four decades of life. For validation, they used data from the HALT-PKD study. Findings revealed a nonlinear GFR decline in ADPKD. A single measurement of kidney volume could predict GFR decline trajectory throughout adulthood. The possible utility of these models was suggested for clinical prognostication, clinical trial design, and patient selection for clinical interventions. Growth in kidney volume was causally related to GFR decline. The use of TKV as a surrogate endpoint in clinical trials was supported.


Read the full article on Kidney International





PKD Research

From ECN Magazine, by Harvard University




Immunofluorescence staining of a 3D bioprinted vascularized proximal tubule with a proximal tubule epithelial marker stained in green in the proximal tubule channel and a vascular endothelial marker stained in red in the adjacent vascular channel. The magnified cross-section illustrates that the two different cell types form luminal perfusable structures in their respective channels. Credit: Wyss Institute at Harvard University


Every day our kidneys tackle the daunting task of continuously cleaning our blood to prevent waste, salt and excess fluid from building up inside our bodies. To achieve this, the kidneys' approximately one million filtration units (glomeruli) first remove both waste products and precious nutrients from the blood stream, then specialized structures known as the proximal tubules reabsorb the "good" molecules returning them to our bloodstream. While the reabsorptive functions of the proximal tubule can be compromised by drugs, chemicals, or genetic and blood-borne diseases, our understanding of how these effects occur is still limited.

To enable the study of renal reabsorption outside the human body, Wyss Institute Core Faculty member Jennifer Lewis, Sc.D., and her team working within the Wyss Institute's 3D Organ Engineering Initiative that she co-leads, and in collaboration with the Roche Innovation Center Basel in Switzerland, created a 3D vascularized proximal tubule model in which independently perfusable tubules and blood vessels are printed adjacent to one another within an engineered extracellular matrix. This work builds upon a continuously perfused 3D proximal tubule model reported earlier by the team that still was lacking a functional blood vessel compartment. Using their next-generation device, the team has measured the transport of glucose from the proximal tubule to the blood vessels, along with the effects of hyperglycemia, a condition associated with diabetes in patients. Their study is published in the Proceedings of the National Academy of Sciences (PNAS).

Lewis is also the Hansjörg Wyss Professor of Biologically Inspired Engineering at Harvard John A. Paulson School of Engineering and Applied Science (SEAS), the Jianmin Yu Professor of Arts and Sciences and a member of the Harvard Stem Cell Institute.

"We construct these living renal devices in a few days and they can remain stable and functional for months," said first-author Neil Lin, Ph.D., who is a Roche Fellow and Postdoctoral Fellow on Lewis' team. "Importantly, these 3D vascularized proximal tubules exhibit the desired epithelial and endothelial cell morphologies and luminal architectures, as well as the expression and correct localization of key structural and transport proteins, and factors that allow the tubular and vascular compartments to communicate with each other."

As a first step towards testing drugs and modeling diseases, the team induced "hyperglycemia", a high-glucose condition typical of diabetes and a known risk factor for vascular disease, in their model by circulating a four-fold higher than normal glucose concentration through the proximal tubule compartment. "We found that high levels of glucose transported to endothelial cells in the vascular compartment caused cell damage," said Kimberly Homan, Ph.D., a co-author on the study and Research Associate in Lewis' group at the Wyss Institute and SEAS. "By circulating a drug through the tubule that specifically inhibits a major glucose transporter in proximal tubule epithelial cells, we prevented those harmful changes from happening to the endothelial cells in the adjacent vessels."

The team's immediate focus is to further scale up these models for use in pharmaceutical applications. "Our system could enable the screening of focused drug libraries for renal toxicity and thus help reduce animal experiments," said Annie Moisan, Ph.D., a co-author and industry collaborator on the study, and Principal Scientist at Roche Innovation Center Basel. "I am thrilled by the continued efforts from us and others to increase the physiological relevance of such models, for example by incorporating patient-specific and diseased cells, since personalized efficacy and safety are the ultimate goals of predicting clinical responses to drugs."

"Our new 3D kidney model is an exciting advance as it more fully recapitulates the proximal tubule segments found in native kidney tissue," said Lewis. "Beyond its immediate applications for drug screening and disease modelling, we are also exploring whether these living devices can be used to augment kidney dialysis." Currently, life-saving dialysis machines filter blood, but they are unable to retrieve precious nutrients and other species from the filtrate that the body needs for many of its functions, which can cause specific deficiencies and complications down the line. Lewis and her colleagues believe that 3D bioprinted vascularized tubules may lead to improved renal replacement therapies.

"This study presents a significant step forward in human kidney engineering that enables human disease and drug-related studies to be carried out over extended periods of time in vitro. It also represents a major step forward for the Wyss Institute's 3D Organ Engineering Initiative, which aims to generate functional organ replacements with enhanced functionalities for patients in need," said Wyss Institute Founding Director Donald Ingber, M.D., Ph.D., who is also the Judah Folkman Professor of Vascular Biology at HMS and the Vascular Biology Program at Boston Children's Hospital, as well as Professor of Bioengineering at SEAS.






PKD Awareness

From Sylvan Lake News, Alberta, Canada, by KAYLYN WHIBBS
Sylvan Lake’s Winter Village planter contest helps spread awareness


March is Polycystic Kidney Disease Awareness month



The winner of Best Overall Non-Profit in the planter contest with the 2018 Waterfront Winter Village has a very personal touch behind its tree.

Sylvan Lakes’ Rosalie Thon, and her friends, Evan Masse, Trish Jenks and her son Clayton William, designed the planter for kidney disease and transplant awareness.

Thon has Polycystic Kidney Disease and spent four years doing dialysis while waiting to get a new kidney.

She did a battery of tests and had four calls before her kidney came Sept. 21, 2017.

“In that part of my journey I met Evan [Masse], he was my roommate [in the hospital] and he as well had a kidney transplant, and so we just became really good friends and when the planter came up I just thought I wanted to give something back,” said Thon in an interview, adding she has learned a lot throughout her journey.

Masse lives north of Edmonton, but made the trip down to help decorate the tree.

“I know for a fact a lot of people don’t know a lot about kidney disease and/or transplant, so I thought what a better opportunity than to take advantage of this tree,” explained Thon.

The blue and green colouring of the tree was inspired by the colours of The Kidney Foundation of Canada and was decorated with kidney shaped stress balls and cards with ribbon pins for awareness.

“Rosalie and I decided to give people awareness of donating organs, it is a lifesaver for people even though it is sad that some people have to sacrifice their life to save other people,” said Masse in a letter, adding he is thankful for all the people who donate.

Decorating the tree was a two-day project and represented transplant awareness right down to its roots after they removed the original little tree to transplant in an artificial one.

The Kidney Foundation of Canada, Northern Alberta and The Territories branch in Edmonton donated the stress kidneys and cards to use as decorations.

This was the group’s first time entering a planter in the competition and is very proud to have been voted number one in their category.

Thon says when she sets out to do something she always wants to be a high achiever, so she told the group she wanted to win.

“I wanted to win not out of arrogance, but just to get the story out even more,” said Thon, adding she also likes being creative.

Thon and Masse used the lighting ceremony and the planter along the lakeshore throughout the winter as a talking point to help raise awareness, knowledge and share their story.

She said it was exciting to be able to make connections with people and spread the word about kidney disease and transplant.

Since polycystic is hereditary her son, Clayton William, also has polycystic kidneys.

Thon explained hers started with a 2.5 cm cyst, which took 20 years to almost completely shut down her kidney function, so it is hard to tell when William will need to go through the dialysis and transplant procedure.





From The Daily Bruin, UCLA

Art exhibit sheds light on lives of those affected by genetic disorders

The exhibit was created to provide more insight into the lives of patients affected by genetic disorders. (Lauren Man/Daily Bruin)



An art exhibit in Powell Library showcases the hidden impact genetic disorders often have on the lives of UCLA students.

The exhibit, which opened Feb. 19 and will remain open through March in the Powell Library rotunda, showcases various forms of art submitted by five students who have genetic disorders such as lymphoma and cystic fibrosis.

Rushna Raza, a fourth-year molecular, cell, and developmental biology student, said she created the exhibit because of her interest in genetics and because she wanted to provide more insight into the lives of patients affected by these disorders.

“I believe the genetic and the social perspectives are both important because patients’ lives go beyond what meets the eye,” she said. “Those stories never get told unless you ask.”

The exhibit features five pieces of visual and interactive artwork created by students that aim to educate others on the invisible suffering caused by genetic disorders, Raza said. Some students chose to focus on illnesses that affect them directly, while others explored genetic diseases that have affected their loved ones. The projects also reflected the roles these heritable diseases have played throughout their families’ histories.

Chelsea Krob, a fourth-year art student who has autosomal dominant polycystic kidney disease, created a multimedia gallery to raise awareness of her illness.

Her project, “Through Your Journey,” tells the story of her struggle with PKD through photos and a digital recording of a conversation between Krob and her father, who died from the same illness in May.

“My project aims to look at the intergenerational effects of this disease and also my unique relationship with my dad, since we both have (PKD),” she said.

Krob’s portion of the exhibit also features a wall on which observers can add their handprints with ink. She said she was inspired by a previous project concept in which she planned to represent every day of her father’s life through thumbprints.

Raza said the handprint wall represents how everyone is unique due to small differences in their genomes. Similarly, even though human handprints have the same basic shape, small variations make them unique. Raza said this aspect of the exhibit allows students to participate in and leave their own mark on the artwork.

Krob said she hopes observers can gain a better understanding of the lives of people with PKD through her project.

“I used multiple approaches to give the viewer, wherever they’re at with life or death, an entry point into the work,” she said.

Hollie St. Claire, who graduated from UCLA in fall 2018, portrayed the impact of cystic fibrosis in her life through her carving, “Breaking Through.” Three of St. Claire’s siblings have the disease and she recently learned she is a carrier. She said she hopes to show that people with cystic fibrosis are strong and that there is hope for a cure.

To demonstrate the strength of those with cystic fibrosis, St. Claire created a painted carving that depicts an individual pushing against an arch containing strands of DNA. She said she aims to challenge the notion that individuals with cystic fibrosis are weak or fragile.

“The individual in my carving is breaking through the barriers of genetic restrictions,” she said.

Ketana Chadalavada, a fourth-year psychology student who designed the exhibit’s online graphics, said her painting “Survivor” represents her struggle with lymphoma, which she was diagnosed with last year.

She said her portrayal of a bald figure demonstrates her reclaiming ownership of her body. The lime green ribbon over the figure’s heart is an official symbol of lymphoma awareness and ties the painting to the broader lymphoma community.

“I really wanted to show the mental side to my story, including how I coped with (lymphoma) and what I learned from it,” Chadalavada said.

In addition to raising awareness for genetic disorders, Raza added she created the exhibit because she was interested in combining science and art. She said even though she does not consider herself to be an artist, she is proud to have put together a project that allows students to tell their personal stories through art.

“I wanted this project to be a chance for students to share that intimate part of their history through an artistic platform,” she said.

Sunday, March 3, 2019

Walter Reed Patients Need Kidneys, Artificial Wearable Kidney FDA Safety Trial, Living with PKD for 30 Years

Living with PKD

From Readers Digest, Jen Babakhan
How I’ve Outlived My Incurable Kidney Disease for 30 Years

Polycystic kidney disease is a chronic kidney condition that hits more than half a million Americans. Here's what it's like to live with this potentially deadly diagnosis.

susan in treatment


Susan Flesia was only 28 years old when she was hit with chest pain severe enough to send her to the emergency room. The health-conscious mother of two was in shock—could she be having a heart attack? The answer was no, but the news still wasn’t good.

At the ER, Flesia’s chest pain turned out to be indigestion, but diagnostic blood screens suggested she had a kidney infection. Her primary care doctor admitted her for further testing, and an ultrasound revealed that Flesia’s kidneys and liver were covered in cysts. “The doctor told me I had polycystic kidney disease. I didn’t even know what that was.”

She soon found out: Polycystic kidney disease is an incurable genetic disorder that causes fluid-filled cysts to cover and enlarge the kidneys. Symptoms include high blood pressure, cysts on the liver, and blood vessel complications in the brain and heart. Watch for the signs that your kidneys could be in big trouble.

A bodybuilder, Flesia ran her own personal-training business; her healthy lifestyle helped her avoid complications until her early 40s when her blood pressure began to climb. Medication helped, and for the next ten years, her life seemed relatively normal. Then she realized that her rib cage was expanding. “I noticed because I’m small in the waist. My rib cage was getting thicker and I was tired and nauseated. I began having back pain, and difficulty breathing.”

An ultrasound showed that her kidneys had bulged in size, and now weighed six pounds each. A normal kidney weighs a quarter to half a pound. Thousands of cysts covered the organs, and they were pressing into her lungs, making breathing difficult. As her kidneys became more diseased, their ability to cleanse her blood plummeted.

Eventually, her doctors recommended that she have her kidneys removed. The first one came out in 2016; the second a year later. Flesia started peritoneal dialysis after the first surgery: She underwent a regular procedure that allowed the blood vessels in the lining of her abdomen to filter and cleanse her blood.

Unfortunately, the peritoneal approach didn’t work very long for Flesia: She felt nauseated during the treatment and vomited several times a day. She ended up switching to another method called hemodialysis, in which blood is routed out of the body and through a machine that filters out waste products before sending it back into the body. Make sure you’re not making any of these innocent mistakes that can cause kidney problems.

Typically patients have to go to a hospital or dialysis center three or four times a week to undergo this four-hour-long procedure. But Flesia’s doctors offered her another option: She could be trained to do her own dialysis at home using the NxStage machine from Fresenius Kidney Care. The NxStage machine allows the now-56-year-old Flesia the flexibility of scheduling her treatments when they’re convenient.

“My friends watch me insert these huge needles into my treatment sites, and they can’t believe I’m able to do it—but I don’t have a choice.” Ultimately, Flesia hopes to get a kidney transplant; the Rhode Island resident went on the state’s waiting list in 2015, she tells Reader’s Digest. “The average wait time is six to seven years. I’m lucky that I have the option of dialysis until I can get a kidney.”

Thirty years after her diagnosis, Flesia continues to live life to the fullest. “I love gardening at home and going on motorcycle rides. I’m kind of stubborn. I’m not going to let this get the best of me. It’s all in how you deal with it. Plus, I have an amazing support system.” Her advice to other patients is that the little things matter. “Keep every one of your dialysis appointments and listen to your doctors. Do what they say, and watch your diet. Diet plays such a big role.” Watch for these silent signs you might have a kidney infection.





Need Kidneys

From Military Times, By: Natalie Gross

‘I don’t want to die’: 380 Walter Reed patients are looking for kidney donors


“I don’t want to die.”

Phyllis Obeng Dadzie said the words quietly, but with a slight chuckle, as though it was obvious. She was sitting with her husband, Navy Chief Petty Officer Charles Agyeilarbi, in a small room at Walter Reed National Military Medical Center, shivering under a pink winter coat that covered her small frame.

Seven months ago, Dadzie, a native of Ghana, was a healthy 25-year-old, pregnant with the couple’s second child. But in August, complications during the third trimester and the birth of their son, Prince Charles, sent Dadzie into stage 5 kidney disease and, ultimately, to Walter Reed, where she now gets dialysis three times a week.

She’s fully aware of what could happen if she doesn’t get a new kidney soon, but she’s not ready to give up — not with a 2-year-old and a baby at home who need their mom.

“I just want to get a new kidney and live (for) my kids again,” she said. “That’s all that I pray for every day.”

Dadzie is one of about 380 patients at Walter Reed who are on the national kidney transplant list — from troops and military dependents in their young twenties to military retirees who’ve dedicated their lives to service.

But with a national list 100,000 people long, getting a kidney that way could take years, said nurse Vilda Desgoutte-Brown, the hospital’s living donor coordinator. In the meantime, dialysis could cause heart, lung and thyroid problems, or other complications, such as diabetes.

“A lot of people end up dying on the machine,” she said.

Touched by stories like Dadzie’s, Desgoutte-Brown is trying to spread the word about her beloved patients, in hopes that others in the military community would consider coming forward as potential donors.

After all, you only need one healthy kidney to live a normal life, she said, pointing out that some people are only born with one and may never know it.

“(Kidney donation) really doesn’t affect you unless you gain a lot of weight and stop taking care of yourself as before,” Desgoutte-Brown said. “It’s really no difference at all.”

Another Walter Reed patient, retired Air Force Lt. Col. Ruth Grayson Scott, was ready to be an organ donor herself 30 years ago when her brother needed a new kidney. But when subsequent tests revealed she, too, was born with the same genetic polycystic kidney disease that killed their father and uncle, she knew there was a possibility she’d eventually need a new kidney herself.

But she expected to have more time — not for the disease to affect her liver, as well as her kidneys, by the time she was 44. She got a double transplant in April 2017, but 11 months later, her new kidney stopped working, started free floating in her abdomen and almost killed her.

After that, her hopes were “completely destroyed,” she said — only to be dashed again recently when a potential donor was disqualified near the end of the matching process.

Like Dadzie, Scott also comes to the hospital three times a week for dialysis, traveling 30 miles each way to and from her home in Virginia. It’s not exactly the type of traveling she’d wanted to do with her husband in their retirement.

“I really want a kidney,” said Scott, now 57. “This is not quite the life we planned.”

Patients at Walter Reed have been trying to help each other find donors, posting pleas to their followers on social media, said Dadzie. She’s been especially grateful for that, since her family lives in Ghana and the couple has no friends in Maryland, where they were transferred from Japan in November for Dadzie’s treatment.

Desgoutte-Brown said ideally, enough donors would come forward that the hospital could start an internal chain or swap. For example, if two patients have friends who are willing to donate kidneys but aren’t matches, the patients could potentially trade donors, depending on blood type and other factors.

The main thing is that donors be healthy, with no history of cancer, diabetes and other diseases and genetic disorders that could be passed to a recipient, she said.

“I think for me, just seeing these young people — mothers and soldiers and stuff like that — was really kind of touching to me,” said Desgoutte-Brown. “I was just like, ‘My God, we have to try to do something.’”

Anyone interested in learning more about becoming a donor can email her at vilda.o.desgoutte-brown.civ@mail.mil.

Meanwhile, Dadzie is doing her best to cope with the difficulties and take care of her kids despite the constant pain.

“I’m a strong woman,” she said. “We are just looking for a God-saving soul to just help me to live again.”




Artificial Kidneys

From Healio, by Jennifer Byrne

Safety trial, FDA designation indicate promise of wearable kidney

Singapore-based AWAK Technologies recently announced its peritoneal dialysis device was granted breakthrough device designation by the FDA. According to a company press release, the AWAK Peritoneal Dialysis device, also known as AWAK PD, is the world’s first wearable PD device, which allows patients with ESRD to bypass hours of therapy with large machines and undergo dialysis on the go.

Portable artificial kidney offers convenience

“When it comes to innovation, compared to the rest of the health care industry, [the] dialysis industry is literally stagnant over the last few decades,” Suresha Venkataraya, CEO of AWAK Technologies, told Nephrology News & Issues. “The current treatment modalities are not only disruptive to the patient’s daily routine but also impose a heavy cost burden on patients, payers and the caregivers.”

Venkataraya cited disruptions to the patient’s daily routine, prohibitive cost, limits on patient mobility and issues with fluid logistics and the bulkiness of traditional PD devices as some of the problems he hopes the AWAK PD will eliminate. He said the device’s sorbent technology, which enables reuse of the PD fluid, will “provide a therapy which will be more convenient and enhance patients’ quality of life to a greater extent compared to currently available technologies.”

Venkataraya said the goal for the device is to allow patients to comply with therapy in a way that does not disrupt their lifestyle.

“More compliance to [their] therapy regime results in healthy individuals, which in turn helps reduce health care cost[s] and contribute[s] to the economy,” he added.

The AWAK device is also more sustainable than traditional PD because it consumes less water.

Early trial shows promise

The portable artificial kidney, through sorbent technology, removes uremic toxins from the used dialysis fluid and regenerates fresh fluid. This makes the device less cumbersome than current modalities for patients which typically require 10 L to 12 L (22 pounds to 26 pounds) of fluid per session.

The AWAK PD was granted breakthrough device designation based on the results of a first-in-human safety trial completed in October 2018 at the Singapore General Hospital.

According to Marjorie Foo, MBChB, MRCP, FRCP, FAMS, head and senior consultant in the department of renal medicine at Singapore General Hospital and director of the hospital’s PD program, the safety trial found a consistent reduction of solutes, including urea, creatinine, phosphate and beta 2-microglobulin, as well as electrolytes over the 3 days on AWAK therapy with no adverse events.

The study results indicate that “the regenerated solution using sorbent technology is safe and [the] outcome of dialysis with the AWAK solution using tidal-based dialysis was comparable in terms of solute removal with conventional dialysis,” Foo said.

The results showing the AWAK PD could efficiently remove the accumulation of toxins indicate that the 650,000 U.S. patients with ESRD could soon have a PD option that allows them to travel.

“I think the future is bright for this wearable [device] as it is safe to carry around, compact and delivers the treatment as needed,” Foo said.

While Venkatarya believes an artificial implantable kidney is still 10 to 20 years away, he hopes to see this portable PD device become a standard of care.

The next phase of the trial entails a detailed efficacy study comparing the AWAK PD with conventional dialysis.