Sunday, June 29, 2014

System Overhaul to Kidney Allocation for Transplants

Kidney Transplant

From Houston Chronicle Houston, Texas, By Pam Mitchell


Anthony Lockett has end-stage renal disease. To stay alive, he must undergo dialysis three times a week. Each appointment takes four hours.
A new kidney would eliminate this need and significantly improve his quality of life, but Lockett has yet to near the top of the transplant waiting list despite being on it for more than two years and on dialysis for more than three. Demand for organs far exceeds supply, and his blood type, the rare B, makes a match difficult.
His chance of getting a kidney will increase come mid-December, though, when the United Network of Organ Sharing, or UNOS, as most know it, begins a new allocation system. The changes will make more deceased-donor kidneys available to candidates such as Lockett and will make better use overall of the organs.
"The current kidney allocation system goes back to the mid-'80s. This is the first major overhaul," said Dr. Mark Aeder, transplant surgeon and vice chair of the kidney-transplantation committee for the nonprofit UNOS, which serves as the U.S. Organ Procurement and Transplantation Network under contract with the federal government.
This topic and other organ-donation-awareness efforts will be front and center July 11-15 when the Transplant Games of America comes to Houston. The event brings thousands of organ transplant recipients and living donors to compete in 15 medal events, including basketball, cycling, swimming, tennis and track and field, at venues including BBVA Compass Stadium, Memorial Park and Rice University
One change in the organ-allocation system's new rules will directly affect Lockett. Currently, candidates with blood type B - the majority of whom are African-American or Asian - generally cannot receive a kidney from a donor with the more common blood type A, unless the donor falls into a certain blood subtype. The new system will give first priority for those kidneys to type B candidates who prove a match.
"I was happy to hear about that change because it will give me a broader donor base," Lockett said. He teaches health-care certification classes to supplement disability payments but would prefer to make better use of theMBA he earned before receiving his diagnosis of kidney disease as a result of a connective tissue syndrome.
Another change involves transplant wait times. UNOS currently looks at when a candidate was listed. The new system will instead use the date on which dialysis began, or other medical criteria were met, when determining placement on the waiting list. Many candidates with serious kidney disease, despite the need, do not immediately register for a transplant.
"Sometimes they are scared and sick and just not ready to consider it," said Dr. Horacio E. Adrogué, Lockett's physician and the medical director of renal and pancreas transplantation at Memorial Hermann-Texas Medical Center.
Patients also may be in a medically underserved area and not offered the option of a transplant.
Other changes to come with the new kidney-allocation system are giving increased priority to candidates who may have donated an organ - any organ - and giving those with immune-system sensitivity improved access to kidneys they are not likely to reject.
However, the biggest and most complex change to come involves factoring in longevity, or survival after the transplant. In the new system, both candidates and deceased-donor kidneys will be scored according to certain criteria. Age, length of time on dialysis, previous transplants and a current diagnosis of diabetes will factor into a candidate's estimated post-transplant survival (EPTS) score.
Age, height, weight, ethnicity, certain causes of death, history of high blood pressure or diabetes, hepatitis C virus exposure and kidney function will factor into a kidney donor profile index (KDPI) score. In the current system, only donor age, history of hypertension, kidney function and certain causes of death are considered when matching.
"The way it works now, someone could come in at age 90 and get the kidney of someone who was 20, and someone who is 20 may get the kidney of someone who was 90, said Adrogué of the importance of life expectancy.
The EPTS and KDPI scores will allow UNOS to match the organs expected to function for the longest time to the candidates who will need them the longest. This also should reduce the number of second transplants needed, which affects organ availability for all. [Read more]



PKD Research

From Pharmaceutical Business Review

Kadmon begins Phase IIa portion of KD020 trial in autosomal dominant polycystic kidney disease

US-based Kadmon has started the Phase IIa portion of a Phase Ib/IIa trial of KD020, the company's orally bioavailable small molecule kinase inhibitor of Src, HER2, EGFR and VEGFR2/KDR, in autosomal dominant polycystic kidney disease (ADPKD).

Start of the Phase IIa portion of the trial follows the unanimous recommendation of the study's Data Safety Committee after their review of all Phase Ib safety and pharmacokinetics data.

The disease is caused by a mutation in either the polycystin 1 or 2 (PKD1 or PKD2) genes, resulting in the abnormal, uncontrolled growth of renal tubular epithelial cells.

ADPKD is characterized by the formation of cysts in the kidney causing destruction of the kidney parenchyma resulting in loss of renal function.

PKD is the fourth highest cause of kidney failure and clinical symptoms usually develop between the ages of 30 and 40, but they can start earlier and include persistent flank pain, hypertension, kidney and urinary tract infections and hematuria.

In the Phase Ib portion of the trial, KD020 was generally well tolerated, with rash (Grade 2) as the most common > Grade 1 adverse event in the highest dose group (150mg daily).

The Phase IIa trial is designed to assess the activity, safety and tolerability of an alternate dosing schedule of 150mg of KD020 administered thrice times weekly.

Kadmon chairman and CEO Samuel Waksal said autosomal dominant PKD is one of the most common life-threatening genetic diseases, frequently leading to end stage kidney disease requiring dialysis or transplant as early as the fourth decade of life.

"Unlike currently used therapies, which address symptoms but do not delay onset to kidney failure, KD020 is designed to inhibit the molecular pathways central to progression of the disease itself, namely EGFR, Src and VEGFR," Waksal said.

"We are encouraged by the initial tolerability profile of KD020, and look forward to understanding its broader potential in addressing ADPKD through the Phase IIa portion of the study."




From University of Michigan Health System

Study reveals genetic pathway for chronic kidney disease

Findings by University of Michigan, colleagues open the door to early treatment for millions at risk 
for CKD.

The University of Michigan Medical School led an international group of researchers in creating a molecular map of the body changes leading to chronic kidney disease.

Partly due to an aging and overweight population, chronic kidney disease — a condition in which damaged kidneys cannot filter blood as well as healthy kidneys — is one of the nation’s fastest growing chronic diseases.

“Addressing the initial mechanisms of CKD may be more beneficial and is good news for patients who could receive therapy earlier on for a variety of kidney diseases before they progress into CKD,” says Matthias Kretzler, M.D., a professor of internal medicine and bioinformatics and a nephrologist at the U-M Health System.

CKD affects over 13 percent of the United States population, about 26 million people. Diseases and infections that can damage kidneys and cause CKD include autoimmune disease like lupus leading to glomerulonephritis, polycystic kidney disease or kidney problems people are born with.

However, the most common causes of chronic kidney disease are diabetes and high blood pressure.

Using combined genetic and clinical data, Kretzler, U-M’s Sebastian Martini, M.D., and colleagues revealed a network of shared genetic pathways associated with CKD in a study published online ahead of print in the Journal of the American Society of Nephrology.

The unique methodology helped to describe what the key molecular drivers of CKD are, what CKD-causing diseases were most closely related and to understand specific molecular mechanisms causing the disease to progress or worsen in different patients.

The CKDGen consortium, European Renal cDNA Bank-Kroener-Fresenius Biopsy Bank, and the Clinical Phenotyping Resource and Biobank core contributed to the study.

"The study highlighted why understanding the way different diseases share the same molecular mechanism is important for treatment," says Martini, a systems biologist at the U-M Medical School. [Read more]




PKD Fundraising

From Channel 14 New, local NBC affiliate, Evansville, Indiana, Posted by Kenny Douglass, Digital Content Producer

Fundraising event for Evansville PKD Foundation

Polycystic Kidney Disease is one of the most common, life-threatening genetic diseases affecting thousands in America.

Now there is a new foundation chapter to support PKD in the Tri-State.

Currently, there is no treatment or cure but you can help bring treatment within reach.

The first event for the new Evansville PKD Foundation Chapter is happening on Saturday, June 28.

The foundation is selling tickets to the Otters game.

Each ticket is $5 with $3 going directly to the PKD Foundation.

The event starts at 6:35 p.m. and there will be a fireworks show to follow.

Click here to visit the chapter's Facebook page. You can join the group for future events.




Dialysis News

From Columbus Dispatch, Columbus, Ohio, By Ben Sutherly

Medicare cuts payments to 11 Ohio dialysis centers

Eleven dialysis centers in Ohio have seen their Medicare payments cut this year after receiving low performance scores that were made public recently.

Three of the centers are in central Ohio. Kidney Center of Bexley and DaVita Pataskala Dialysis Center in Licking County each received a 1 percent reduction, while reimbursement for U.S. Renal Care of Delaware was cut by 0.5 percent.

Owners of some of the centers said that their small number of patients put them at a disadvantage in Medicare’s scoring system.

Of nearly 6,000 dialysis centers with Medicare certification nationwide, only 46 received the maximum payment cut of 2 percent, a Dispatch analysis found. Just 20 had a performance score of zero, including Fresenius Medical Care’s Suburban Home Dialysis in Warrensville Heights, a suburb of Cleveland.

This is the third year that Medicare has docked some dialysis centers’ payments because of low performance scores.

The payment cuts are based on performance in 2012. That year, about 370,000 U.S. residents with end-stage renal disease received dialysis under fee-for-service Medicare, according to the Medicare Payment Advisory Commission, which advises Congress on Medicare issues.

Three clinical metrics account for 90 percent of a dialysis center’s overall performance score: a measure for anemia management and hemoglobin levels, which are to be 12 grams per deciliter or lower; a measure of how well dialysis removes waste products from patients’ blood (known as the Urea Reduction Ratio); and a measure based on the type of vascular access used to treat patients (using catheters for dialysis lowers that score).

Reporting measures — such as confirmation that each Medicare patient’s calcium and phosphorus serum levels have been measured each month — account for the remaining 10 percent of the score.

But low numbers of Medicare patients can put some dialysis centers at a disadvantage. If a facility doesn’t have at least 11 eligible Medicare patients for a particular clinical measure, that measure does not count, reducing a score.

The Fresenius Warrensville Heights location, for example, did not have enough eligible Medicare patients for any of its clinical measures to count. Only its reporting of patients’ calcium and phosphorus levels counted toward its score, and the center didn’t fare well on that measurement. [Read more]

Sunday, June 22, 2014

Be a PKD Advocate

Walk for PKD

From PKD Foundation of Canada

Register today for the 2014 Walk for PKD

The Walk for PKD signifies a united group, moving towards treatments and a cure for polycystic kidney disease (PKD), one of the most common life-threatening genetic diseases affecting thousands in Canada. You can make an impact on this devastating disease by joining a Walk in your community, or creating a virtual Walk page.

Registration is easy!

Visit endpkd.ca/walkforpkd to find a Walk near you! Choose whether you would like to participate as a team or register as an individual.

After registering online, you can take advantage of features like:
creating a personal fundraising page to track dollars raised
tools to email family, friends and colleagues
making your kickoff gift online

Why Walk?

The Walk for PKD is the PKD Foundation of Canada’s signature fundraising event, raising more than $524,000 since 2007. This has helped move us closer to finding treatments. The money also helps provide education and support services, both online and in local communities.

We’ve made great strides but need your help in keeping the momentum going. We know we can exceed the $173,000 raised last year by recruiting more participants and engaging every walker in fundraising. With your help, we can look forward to a time when no one will have to suffer the full effects of PKD. Sign up today and help us END PKD!

Even if you are unable to attend the Walk for PKD or don’t have an event in your area, you can still make an incredible impact in raising awareness and funds for critical PKD research! By making apersonal donation, your efforts will help strengthen the direct funding of the PKD Foundation of Canada’s mission to promote programs of research, advocacy, education, support and awareness in order to discover treatments and cure for PKD and improve the lives of all it affects!

Remember – every dollar raised brings us that much closer to the ultimate finish line: A cure for PKD!

If you have any questions regarding the 2014 Walk for PKD, please do not hesitate to contact us either by phone at 1-877-410-1741 or by email at endpkd@endpkd.ca.




PKD Advocacy

From PKD Foundation

Advocacy Tools

Now more than ever, it is critical for patients to advocate on behalf of themselves, families, friends and colleagues with PKD. Share your voice and tell your elected officials how they can help fight PKD.

Getting Started
Find your member of Congress
See where your member of Congress stands on key PKD issues
Legislative Glossary

Outreach
Contact your member of Congress through Twitter

Materials
Key messages/talking points for PKD advocates
Additional materials that can be downloaded, printed and taken with you to your meeting

Tips
Tips for scheduling a meeting with a member of Congress
Tips for visiting a Congressional office
 



Living With PKD

From MedScape.com, Jeffrey S. Berns, MD, Stanley Goldfarb, MD

Drinking Water: What's the Science?

Jeffrey S. Berns, MD: Hello. This is Jeffrey Berns, Editor-in-Chief of Medscape Nephrology. With me today is Dr. Stan Goldfarb, who has a special interest in water. I have asked him to join me to talk about water, in particular how much water we should be drinking.

There is a theory in the lay press that we should be drinking at least 6 or 8 glasses of water a day, so let us begin with that. Where did that advice come from?

Stanley Goldfarb, MD: It is hard to say where it came from. People have tried to trace its origins. More than anything else, it may relate to the fact that people actually do consume about 6-8 glasses of water per day, including water in their food and all the liquids they consume. That is based on studies[1] that have been carried out by the National Academy of Sciences.

The issue is that the lay press has promoted the "urban myth" that not only should you drink 6-8 glasses of water a day as a typical intake, but in addition you should drink another 6 or 8 glasses a day in order to have some sort of improvement in your health. For that, there is virtually no basis at all.

Dr. Berns: Is it harmful, do you think?

Dr. Goldfarb: It is not harmful unless, of course, you drink it more rapidly than your renal excretory capacity. The excretory capacity is something on the order of 15-20 L over 24 hours as long as it is consumed at that rate. But if a person consumes several liters during a brief period of time, some have developed acute hyponatremia on that basis. So there is that risk, but it is a minor risk. The bigger issue is that it is expensive to drink bottled water, and the bottles are additional items that fill up the dumps that blight the environment.

Dr. Berns: So there is an environmental question, too.

Dr. Goldfarb: Absolutely.

Dr. Berns: Is there any physiologic reason to think that drinking more water than our thirst dictates may be beneficial?

Dr. Goldfarb: One hypothesis, primarily based on animal studies, is that animals that consume large amounts of fluid, usually stimulated by adding some sugar to the drinking water, have better outcomes in terms of experimental disease. A few studies have suggested this.[2] The explanation is that vasopressin is believed to be a culprit and somehow is producing alterations in the glomerular hemodynamics and perhaps also other effects. On the other hand, human studies have not shown similar findings.

A couple of human studies have suggested that individuals who drink very, very small amounts of fluid, significantly less than 800-900 mL/day, may be at higher risk for some cardiovascular diseases, perhaps bladder cancer, and strokes.[3] On the other hand, there is no evidence that people who consume normal amounts of water and have urine outputs of over 1 L/day are healthier when their outputs are 2-3 L/day. The most recent epidemiologic studies[4] that have been conducted have suggested that increased water intake is not associated with better cardiovascular outcomes or improved mortality.

Dr. Berns: Two patient populations come to mind that might benefit from a higher water intake: people who have a history of kidney stones and people who have polycystic kidney disease.

Dr. Goldfarb: Yes, absolutely. For people with kidney stones, certainly the evidence is incontrovertible. As a matter of fact, there was a literature review in Kidney International fairly recently, "The Medicinal Uses of Water in Renal Diseases,"[5] about water therapy, and most of the article is devoted to discussing the multiple studies that show the benefits of increasing water intake above 2 L/day for people with recurrent stone disease. It is quite clear that it is beneficial in that group.

With polycystic kidney disease, there is the observation that using vasopressin antagonists may reduce the cyst growth. As you know, studies have suggested that there may be some side effects that make the medications less useful. The logic was, if we can block cyst growth with vasopressin antagonists, perhaps high water intake will suppress vasopressin physiologically, and it would be beneficial in that way.

Some studies have shown that, depending on the level of kidney function, anywhere from perhaps 3 to as high as 4 or 5 L of water intake a day can keep the vasopressin levels relatively low and get urine osmolality to the same level as plasma osmolality. It is pretty hard to get it below plasma osmolality. But there is no evidence yet that that kind of strategy will actually reduce the growth of cysts.

Dr. Berns: Is your advice to our patients and to ourselves to drink as thirst dictates?

Dr. Goldfarb: I think you should drink when you are thirsty. I should point out that the one retrospective study of high fluid intake in people with kidney disease that came out regarding nondiabetic renal disease showed fairly impressively that individuals who had the highest urine output actually had the most rapid deterioration of renal function.[6] That study has been criticized because the study population may have had more kidney disease, and that is why they had less concentrating ability. However, the group of patients with the highest urine output also had the lowest serum sodium, suggesting that, in fact, they were driving the high urine output with a high fluid intake.

I believe the advice nephrologists should give patients with chronic kidney disease is that other than in certain circumstances -- foreign bodies in the urinary tract such as calculi and so on -- patients should not push a high fluid intake. There is no evidence that it is beneficial, and there may be some evidence that it's harmful.

Dr. Berns: And, finally, tap water vs bottled water.

Dr. Goldfarb: Tap water is a lot cheaper. Water is tested several times a day by most water departments. And I do not believe there is any rationale other than being a victim of really effective marketing techniques to drink bottled water. [Read more]




PKD Research

From Digital Journal, Press Release

Kadmon Corporation Initiates Phase 2a Portion of KD020 Study in Autosomal Dominant Polycystic Kidney Disease

Kadmon Corporation, LLC today announced the initiation of the Phase 2a portion of a Phase 1b/2a study of KD020, the Company's orally bioavailable small molecule kinase inhibitor of Src, HER2, EGFR and VEGFR2/KDR, in autosomal dominant polycystic kidney disease (ADPKD). Initiation of the Phase 2a portion of the study follows the unanimous recommendation of the study's Data Safety Committee after their review of all Phase 1b safety and pharmacokinetics data.

ADPKD is the most prevalent monogenic disease in the US and globally, affecting about 600,000 Americans1 and about 12.5 million people worldwide,2,3 with no disease modifying approved therapies currently available. ADPKD is caused by a mutation in either the polycystin 1 or 2 (PKD1 or PKD2) genes, resulting in the abnormal, uncontrolled growth of renal tubular epithelial cells. The disease is characterized by the formation of cysts in the kidney causing destruction of the kidney parenchyma resulting in loss of renal function. PKD is the fourth highest cause of kidney failure.4 Clinical symptoms usually develop between the ages of 30 and 40, but they can begin earlier and include persistent flank pain, hypertension, kidney and urinary tract infections and hematuria. Hypertension is particularly common with ADPKD and develops in many patients by age 20 to 30.4 The average lifespan of ADPKD patients in the US is 64 years, which is more than 10 years less than the average overall average lifespan in the US. The Phase 2a portion of the study is expected to enroll approximately 25 patients, with primary outcome measures of total kidney volume and glomerular filtration rate.

In the Phase 1b portion of the study, KD020 was generally well tolerated, with rash (Grade 2) as the most common > Grade 1 adverse event in the highest dose cohort (150 mg daily). The Phase 2a study is designed to evaluate the activity, safety and tolerability of an alternate dosing schedule of 150 mg of KD020 administered three times weekly.

"Autosomal dominant PKD is one of the most common life-threatening genetic diseases, frequently leading to end stage kidney disease requiring dialysis or transplant as early as the fourth decade of life," said Samuel D. Waksal, Ph.D., Chairman and CEO of Kadmon. "Unlike currently used therapies, which address symptoms but do not delay onset to kidney failure, KD020 is designed to inhibit the molecular pathways central to progression of the disease itself, namely EGFR, Src and VEGFR. We are encouraged by the initial tolerability profile of KD020, and look forward to understanding its broader potential in addressing ADPKD through the Phase 2a portion of the study." [Read more]

Sunday, June 15, 2014

Tolvaptan to Start Phase 3 Clinical Trial

PKD Treatments

From True Blue Tribune

Otsuka Pharmaceutical Initiates Phase 3 Clinical Trial Of Tolvaptan In Patients With Autosomal Dominant Polycystic Kidney Disease

Otsuka Pharmaceutical Development & Commercialization, Inc., announced today that patient enrollment has begun for a new Phase 3b study of tolvaptan for adult patients with autosomal dominant polycystic kidney disease (ADPKD), the most common, life-threatening, inherited genetic kidney disorder.1 The company reached an agreement with the United States Food & Drug Administration (FDA) on a Special Protocol Assessment (SPA) for the design and planned analysis of this multi-center, placebo-controlled, double-blind, parallel-group trial designed to compare the efficacy and safety of tolvaptan (45 to 120 mg per day split-dose) in subjects with chronic kidney disease between late stage 2 and early stage 4 due to ADPKD.

“Otsuka is pleased that the FDA has agreed to the design for this study and we are happy to report that the first patient has been enrolled into the trial,” said William H. Carson, M.D., president and CEO of Otsuka Pharmaceutical Development & Commercialization, Inc. “This study represents our ongoing commitment to patients with this rare genetic condition to provide them and their physicians with a novel treatment option.”

The trial, which will take place at approximately 220 sites worldwide, is seeking to enroll approximately 1,300 tolvaptan-naïve adult (male and female) patients with ADPKD between the ages of 18-66, depending on their estimated glomerular filtration rate (eGFR), a renal function test, at time of enrollment.

Total study duration is about 15 months, and the treatment period will last for approximately 13 ½ months. The primary endpoint will compare the efficacy of tolvaptan treatment in reducing the change in eGFR, a renal function test, from baseline to post-treatment follow-up as compared to placebo in patients with ADPKD who tolerate tolvaptan during an initial run-in period.

The trial will also compare overall safety and specifically hepatic safety and compare incidence of ADPKD complications during the trial.

For more information on the trial, please visit: www.clinicaltrials.gov

The FDA issued a Complete Response Letter for tolvaptan to treat ADPKD in August 2013 and requested further information to evaluate the efficacy and safety of the drug.

About Tolvaptan for ADPKD

Tolvaptan is under investigation as a treatment to slow the progression of kidney disease in patients at risk of rapidly progressing ADPKD.2 Tolvaptan was studied in patients with enlarged kidneys who were in chronic kidney disease (CKD) stages 1-3 at initiation of treatment.2 Results were published in the New England Journal of Medicine in December 2012.2

Cyst formation in the kidney has been shown to be dependent on binding of a hormone, arginine vasopressin, to the V2 receptor.2,3 Vasopressin stimulates V2 receptors and activates the cyclic AMP pathway causing acceleration of cyst proliferation and fluid secretion, leading to enlarged, dysfunctional kidneys. 2,3 Tolvaptan is believed to inhibit cyst formation, proliferation and growth as a selective V2 receptor antagonist to block the effects of vasopressin.2 [Read more]



PKD Awareness

From Authint Mail, Kashmir

Symptoms of kidney disease

Kidney disease which was once more common in people aged 65 and above is currently attacking young people. Most individuals are unaware that kidney disease is a silent killer as it show no symptoms until the condition becomes grave. It is very important to detect the symptoms in its initial stages to prevent the situation from becoming critical. Chronic and polycystic kidney disease is often undiagnosed due to unclear signs and symptoms allowing the condition to aggravate further.

Dr Avinash Ignatius, senior consultant nephrologist DaVita, Pune Region, says ‘Frequent urination at night is one of the most common and early symptom of chronic kidney disease and it should not be ignored even though it is harmless. While other symptoms of the disease usually develop at later stage of the disease after the kidney has lost approximately 80% of its function.’

There are some key symptoms of acute and chronic kidney disease that are listed below. One should immediately consult their doctor in case they experience any of these symptoms to avoid disease severity.

Symptoms of Acute Kidney Failure (AKF)

The symptoms of acute kidney disease are same as observed in many other clinical conditions. These clinical signs may be the only issue in the early stage and include –

Headaches

Nausea and Fatigue

Loss of appetite

Itching and dry skin

Swelling in the feet

Generalized ill feeling

Symptoms observed in later stage are -

Bloody stools and prolonged bleeding

Mood swings (in case of elder people)

Pain in ribs and hips

Hand tremors and seizures

Elevated blood pressure

Hiccups and decreased sensation

Symptoms of Chronic Kidney Disease (CKD)

Acute kidney disease symptoms progress soon into the chronic kidney disease symptoms and are generally not observed till the kidney function is affected to a greater extent.

Urinary changes – Kidneys are responsible for formation of urine and thus, any changes in the color, frequency and appearance of urine should not be ignored. Other changes include –

Difficulty in urinating

Appearance of blood in urine

Frequently urinating at night times

Urinating in lesser or greater amounts

Swelling – When kidneys are affected to a greater extent, they are unable to remove extra wastes and fluids from the body. This can cause your face, hands, feet and ankles to swell.

Nausea – When the wastes in the body build up in the blood, it can cause vomiting.

Back or leg pain – Kidney cysts (fluid-packed sacs) from polycystic kidney disease and other kidney problems cause pain in your back, side and legs.

Itching/rash – With kidneys being unable to clear wastes from body, they build up in the blood and cause severe itching or skin rashes.

Fatigue and weakness – When your kidneys get damaged, blood levels of erythropoietin (hormone produced by kidneys that help RBCs carry blood) decrease resulting in anemia. There is low delivery of oxygen to the body cells causing fatigue and weakness.

Metallic taste – The blood levels of urea are increased in kidney disease. This causes the breakdown of urea into ammonia resulting in urine-like breath and also an unpleasant metallic taste in the mouth.

Cold feeling – With low oxygen delivery due to kidney disease and anemia, you may experience cold even when warm. Infection to kidney (pyelonephritis) is also found to cause fever with chills.

Dizziness – With kidney failure relating to anemia, there is an inadequate supply of oxygen to both the brain and the body. This is found to cause issues with concentration, memory-related problems and dizziness.

Shortness of breath – Sometimes, excess fluid can fill up your lungs. Anemia, a common side-effect  [Read more]



Gift of Life

From 9News, NBC Affiliate Denver, Colorado, by AnneMarie Harper, KUSA

Stranger donates kidney to save Loveland woman's life

A Loveland woman has received a life-saving kidney donation. In January, 9NEWS brought you the story of Phyllis and Gary McCormack. Phyllis had polycystic kidney disease, which caused cysts to form on her kidneys.

Because PKD is genetic, her daughters couldn't donate. Gary has kidney stones and is diabetic, so he couldn't either. Phyllis needed an "altruistic" donor, someone who didn't even know her, but was willing to give her a kidney. To find that person, Gary became a walking billboard. Everywhere he went he wore a special sweatshirt, which read, "KIDNEY NEEDED Save a Live Please Call 970-667-7841."

After our story aired, the McCormack's, along with the American Transplant Foundation, received dozens of phone calls from people, who were interested in donating. Many of them were tested. A few months later, Phyllis got a phone call from University of Colorado Hospital.

"She said, "Phyllis, are you sitting down? And I said, 'no, but I will be.' And, she said, 'We have found a donor for you. Not only have we found a donor for you, its a perfect match,'" Phyllis said.

She immediately called Gary, who was at the gym.

"I said, 'I got my donor.' And he told all of his cronies there. I could hear all of the cheering going on," she said.

Several weeks later, with Gary and their daughters by her side, Phyllis underwent transplant surgery at University of Colorado Hospital. Three days later, she went home.

About a week after surgery, Phyllis met the woman, who gave her a kidney. They hugged for a long time and cried. However, the donor wants to remain publicly anonymous.

Off camera, Phyllis' donor told 9News. "I did this to help somebody, not to get on TV or have my name out there. I just wanted to help somebody," she said. "I could help her and I was the one, for whatever reason."

Phyllis' donor first thought about donating 15 years ago when someone she knew donated a kidney. While she was interested in donating, she realized it was not the right time. However, she never stopped thinking about being a donor someday. [Read more]

Sunday, June 8, 2014

Kidneys Can Regenerate

Kidney Research

From Haaretz Today, Israel

Israeli, U.S. researchers prove that kidneys are capable of regeneration


Experiments on mice show that, contrary to popular belief, the organ is constantly producing new cells.

American and Israeli researchers have managed to show that kidneys are capable of continuously regenerating themselves. The research, from experiments done on mice and published in the Cell Reports journal, overturns conventional wisdom saying that kidney regeneration is negligible.

The research was conducted by researchers from the Pediatric Stem Cell Research Institute at the Sheba Medical Center and from Tel Aviv University, in collaboration with scientists from the Institute for Stem Cell Biology and Regenerative Medicine at Stanford University. Their results lay the foundation for discovering new ways of repairing and growing kidneys.

Kidney failure is a common disease which is increasing in incidence, in tandem with the rise in obesity and hypertension in the Western world. Current treatment for kidney failure involves dialysis – a difficult procedure that seriously hampers patients’ quality of life – and kidney transplants, which are limited by the small number of available donated organs.

“These results are in the realm of basic science,” says the publication’s lead author, Dr. Yuval Rinkevich, who is currently doing postdoctoral training at Stanford, “but they have direct implications for kidney disease and regeneration.”

For many years, scientists believed kidneys undergo only minimal regeneration. The new research refutes this, showing that constant renewal and repair processes take place throughout their life. “This research shows that kidneys are not static organs,” explains Prof. Benjamin Dekel, head of the Sheba Pediatric Stem Cell Research Institute and the pediatric nephrology unit at Sheba Medical Center, who was part of the research team. “The kidney never rests, and keeps regenerating itself by producing differentiated cells to compensate for cells we lose through our urine. Both routinely and under stress, the kidney grows not only by increasing cell size, but by producing new cells and new parts.” [Read more]




From Herald Sun, Melbourne, Australia, by GRANT MCARTHUR


A MELBOURNE medical breakthrough that may one day keep kidney disease patients off dialysis and prevent the need for some transplants has captured the world’s attention.

Developed by the University of Melbourne, St Vincents Institute of Medical Research and Bio21, the FT011 therapy is being touted as a cure for renal failure by healing scar tissue in kidneys.

The first human trials in 60 Victorian diabetic neuropathy sufferers have recently been completed, however the drug’s ability to combat fibrosis in a range of organs has seen further trials planned for patients with heart and lung disease.

The breakthrough is so promising the company set up to develop the drug has just been sold in one of Australia’s biggest biotechnology deals.

Established with $7 million in local investment, Fibrotech Therapeutics was last month sold to Irish pharmaceutical company Shire in a deal worth an estimated $600 million.

Fibrotech chief executive Dr Darren Kelly, who began developing the drug eight years ago, said it prevented kidney scarring that caused renal failure and a life on dialysis or requiring a transplant.

“We have discovered a novel receptor that the drug blocks which causes the scar tissue to form,” Dr Kelly said.
“It’s applicable to other diseases — we have an interest in heart disease because after a heart attack you get fibrosis and scarring which causes heart disease; and we have it indicated in other diseases like liver fibrosis and lung fibrosis as well. So there is a huge potential for FT011. [Read more]




PKD Care 

From PKD Foundation of Canada 

Health Notes

This month in PKD Health Notes, Renal Dietician Kelly Welsh serves up a delicious recipe for Chicken Salad with Asparagus. With the warm weather finally here, this is the perfect dish for picnic season!

Get the recipe from her most recent blog post here.

Type of Kidney Disease May Dictate Cancer Risk

A study recently published online in the Journal of the American Society of Nephrology found that PKD patients may be less likely to develop cancer than those with other types of kidney disease, but they still have a higher cancer risk than people in the general population.

“After adjusting for a number of factors, the researchers concluded that patients with polycystic kidney disease were 16 percent less likely to develop cancer than those with other kidney diseases. Compared to people in the general population, cancer risk was 48 percent higher in polycystic kidney disease patients and 86 percent among those with other kidney diseases.”



From Business Wire, London, UK

EUROPEAN ADPKD FORUM (EAF) LAUNCHES: EXPERT GROUP TO IMPROVE THE MANAGEMENT OF AUTOSOMAL DOMINANT POLYCYSTIC KIDNEY DISEASE (ADPKD) THROUGHOUT EUROPE


Today marks the formation of the European ADPKD Forum (EAF), a new multidisciplinary group of leading medical and patient group experts dedicated to improving the health and quality of life of people with ADPKD – a progressive and chronic genetic kidney disease.

The EAF initiative, co-chaired by Tess Harris, President of PKD International, and Dr Richard Sandford, Consultant Clinical Geneticist at Addenbrooke’s Hospital, Cambridge aims to:
Increase awareness of the impact of ADPKD on patients and health services
Recommend strategies at the health policy level to improve ADPKD care, based on the latest scientific evidence and expert insight
Encourage and facilitate collaboration between the individuals and groups involved in the management of people with ADPKD.

ADPKD is a progressive and chronic systemic disease, for which there are no approved therapies, formal care pathways or clinical guidelines.1, 2 The condition, which accounts for 10% of all patients in end stage renal failure, is characterised by the development and expansion of fluid-filled cysts in the kidney, leading to a substantial increase in total kidney volume.1, 3, 4 Patients commonly suffer from acute and chronic pain, and cysts can affect other organs, notably the liver.1, 3, 4 Ultimately, ADPKD leads to kidney failure in the majority of affected people; approximately 50% of ADPKD patients will reach ESRD by age 59 and 75% will reach ESRD by age 70.5

As one of the most common inherited diseases, and the fourth leading cause of kidney failure, the condition represents a significant clinical and economic challenge to healthcare professionals and services throughout Europe. [Read more]




Kidney Concerns

From Chicago Tribune Health Section, Medical Edge Mayo Clinic

For many, lifestyle changes and medication can slow progression of chronic kidney disease


DEAR MAYO CLINIC: My wife was diagnosed with "moderate" chronic kidney disease about three months ago. What does this mean? Are there things she can do to stop the progression of the disease?

ANSWER: Your kidneys are two bean-shaped organs, each the size of a fist. They're located in the back of your abdomen, one on each side of your spine. Your kidneys' main job is filtering waste and excess fluid from blood to make urine. They also do other tasks, including adjusting the balance of minerals and acids in the blood and regulating blood pressure.

Kidney disease occurs when the kidneys have been damaged and no longer work the way they should. Early on, kidney disease may not cause symptoms. As it worsens, symptoms may appear. But they're often vague and can include fatigue, poor appetite, nausea and swollen ankles, legs or hands.

Chronic kidney disease, or CKD, is usually diagnosed with a blood test that measures creatinine. Creatinine is produced by muscles and removed from the body by the kidneys. As kidney function decreases, the level of creatinine in the blood increases. This level is used to calculate the estimated glomerular filtration rate, or eGFR, which is a better indicator of kidney function than creatinine alone. Abnormal amounts of protein or other markers of kidney damage in the urine may indicate CKD, as well.

Chronic kidney disease is often broken down into five stages. In stage three, or "moderate" CKD, eGFR is between 30-59 ml/min/1.73m2. Stage three CKD is usually progressive. That means it can get worse as time goes on. It is unlikely that it can be completely cured, but in many cases, lifestyle changes and medications help slow its progress. Slowing the progress depends, in part, on the cause. Although many diseases and conditions can damage the kidneys, the two main causes of CKD are diabetes and high blood pressure.

In most cases, controlling blood pressure is the most important step a person with CKD can take. Keeping blood pressure at a healthy level may involve taking medication, eating less sodium, staying at a healthy weight and increasing physical activity.

If your wife has diabetes, following her doctor's directions for controlling blood sugar can help slow kidney disease. Over time, both high blood pressure and high blood sugar can damage small blood vessels and cause scarring in the kidneys, making it difficult for them to work properly.

Avoiding medications that can harm the kidneys and getting treatment for other medical conditions that lead to CKD also can help. Some of those conditions include inherited disorders such as polycystic kidney disease, immune system disorders, infections, kidney stones and damage from medications. Even medications available without a prescription (including ibuprofen, naproxen and omeprazole) can hurt the kidneys. She should check with her doctor before taking new medications. [Read more]




From MedicalXpress

Findings show benefit of changing measure of kidney disease progression

Developing therapies for kidney disease can be made faster by adopting a new, more sensitive definition of kidney disease progression, according to a study published byJAMA. The study is being released early online to coincide with its presentation at the European Renal Association-European Dialysis and Transplant Association Congress.

Chronic kidney disease (CKD) is a worldwide public health problem, with increasing prevalence, poor outcomes, and high treatment cost. Yet, despite the avail¬ability of simple laboratory tests to identify people with earlier stages of CKD, there are fewer clinical trials for kidney disease than for other common diseases. One contributing reason may be that the established CKD progression end point (i.e., a doubling of serum creatinine concentration from baseline, corresponding to a 57 percent reduction in estimated glomerular filtration rate [GFR]), is a late event, requiring long follow-up periods and large sample size, which limits the feasibility of kidney-related clinical trials. Improved methods for estimating GFR may allow using smaller decreases in estimated GFR as alternative end points to assess CKD progression, according to background information in the article.

Josef Coresh, M.D., Ph.D., of the Johns Hopkins Bloomberg School of Public Health, Baltimore, and colleagues with the Chronic Kidney Disease Prognosis Consortium, examined the association of decline in estimated GFR with subsequent progression to end-stage renal disease (ESRD; initiation of dialysis or transplantation). The study included 1.7 million participants with 12,344 ESRD events and 223,944 deaths after repeated measurements of kidney function over a 1 to 3 year baseline period. Data collection took place between 1975 and 2011.

The researchers found that declines in estimated GFR smaller than a doubling of serum creatinine concentration were strongly and consistently associated with subsequent risk of ESRD. A doubling of serum creatinine, corresponding to a 57 percent decline in estimated GFR, was associated with a greater than 30-fold higher risk of ESRD. However, over a 1- to 3-year period, a doubling of serum creatinine concentration was present in less than 1 percent of participants. In contrast, a 30 percent decline in estimated GFR was nearly 10 times more common and was associated with an approximately 5-fold increased risk of ESRD. [Read more]




From ABC 6 News, Augusta Georga, By Randy Key

Obese, Older, Caucasian Women On Dialysis Most At Risk For Rare Deadly Condition

Obese, Caucasian females over age 50 with diabetes and on dialysis because their kidneys have failed are among those at highest risk for the rare and deadly condition calciphylaxis, according to an analysis of the United States Renal Data System.

Calciphylaxis occurs when calcium and phosphorus bind to form a biological cement that blocks and inflames small blood vessels, putting patients at risk for major infection and skin ulcers as well as patches of dying skin, said Dr. Lu Huber, nephrologist at the Medical College of Georgia at Georgia Regents University.

“It’s all about balance, and our kidneys help regulate that balance,” said Huber, who scoured the national database of 2.1 million patients with failed kidneys to better define incidence and risk factors with the goal of better identifying and managing those at highest risk.

Her findings were cited as one of eight best abstracts submitted to the 51st European Renal Association - European Dialysis and Transplant Association Congress May 31st-June 3rd in Amsterdam.

Huber found the condition occurred in 459, or 0.02 percent, of the patients, who were mostly white, older women on traditional hemodialysis, where an external machine filters the total blood volume typically three times a week rather than the continuous efforts of healthy kidneys.

The median time from the first dialysis treatment to a diagnosis of calciphylaxis was less than four years, median survival time was 176 days, and 50 percent of deaths were within 87 days. Being over age 65, Caucasian, and diabetic are significant risk factors for death from calciphylaxis. [Read more]