Day: 05/28/2015

Injectable Testosterone Tied To Higher MI, Stroke Risk Than Gels

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Injectable testosterone is associated with a higher short-term risk of cardiovascular events compared with testosterone gel or patch formulations, according to a new epidemiologic study of three large, diverse databases, which is the first research to compare cardiovascular events associated with different testosterone formulations.

The study is published online May 11 in JAMA Internal Medicine.

“There’s a large spike of serum testosterone that happens after an injection, so the injections may carry a slightly higher cardiovascular risk,” lead author Dr J Bradley Layton, from the University of North Carolina at Chapel Hill, told Medscape Medical News.

“The US Food and Drug Administration has just ruled that testosterone is really indicated and approved only for men with very specific endocrine disorders and not just general age-related decreases in testosterone,” he stressed.

Thus, clinicians considering starting a patient on testosterone should carefully consider the medical reasons for this therapy, he advised.
“With continuing concern about the safety and effectiveness of testosterone treatment in men with primary and age-related hypogonadism and the trend of treatment in men with normal testosterone levels or without recent baseline testing, it is important to understand the potential hazards of testosterone treatment,” he and his colleagues conclude.

And in an accompanying editorial, Dr Margaret E Wierman, from the Denver Veterans Affairs Medical Center, in Colorado, writes that the study findings support the Endocrine Society guidelines that recommend testosterone therapy purely for men who have hypogonadism as opposed to only low serum testosterone levels or related symptoms.

“The absolute risk [of cardiovascular events] between testosterone-therapy groups was small in this epidemiologic analysis, but the risk does raise concern, considering the marked increase in testosterone prescriptions both in the United States and internationally,” she adds.

More Than 500,000 Men in Three Cohorts

There have been mixed reports regarding adverse cardiovascular events with use of testosterone, Dr Layton and colleagues write.

Although it is known that testosterone injections cause spikes in serum testosterone levels, whereas transdermal patches and gels cause more subtle but sustained increases, until now, no studies have compared the cardiovascular safety of the different testosterone formats.
The researchers performed a retrospective cohort study in 544,115 men who had just been prescribed testosterone therapy after not having had any in the past 6 months.

The data came from three cohorts:

  • 515,132 men in the United States with employer insurance (through Truven MarketScan) who made insurance claims for testosterone from 2000 through 2012.
  • 22,376 men in the United States with Medicare insurance who made insurance claims for testosterone from 2007 through 2010.
  • 6607 men in Great Britain who were seen by general practitioners and had healthcare claims for testosterone from 2000 until 2013,

The average age of men in the Medicare cohort was about 73, whereas the average age in the other two cohorts was about 54.

More men in the employer-insurance cohort received testosterone as a gel (56.5%), and the rest received an injection (36.7%) or, less often, a patch (6.8%). In the Medicare cohort, more men received an injection (51.2%), and the rest received a gel (42.9%), and again, less often, a patch (5.9%).

In the UK cohort, about the same percentage of men received a gel (42.4%) or an injection (39.6%), and a fair number received patches (18.1%).

Compared with men using testosterone gels, men receiving testosterone injections were more likely to have a cardiovascular event (myocardial infarction, stroke, or unstable angina), be hospitalized, or die within a year of starting treatment. Rates of venous thromboembolism did not differ between the formulations.

Risk of Outcome Within 1 Year, Testosterone Injection vs Gel

Outcome HR (95% CI)*
MI, unstable angina, or stroke 1.26 (1.18–1.35)
Hospitalization 1.16 (1.13–1.19)
Death 1.34 (1.15–1.56)
Venous thromboembolism 0.92 (0.76–1.11)
*Adjusted for multiple confounders

These risks were similar among users of testosterone gels and patches.

Risk of Outcome Within 1 Year, Testosterone Patch vs Gel

Outcome HR (95% CI)*
MI, unstable angina, or stroke 1.10 (0.94–1.29)
Hospitalization 1.04 (1.00–1.08)
Death 1.02 (0.77–1.33)
Venous thromboembolism 1.08 (0.79–1.47)
*Adjusted for multiple confounders

The 1-year rates of cardiovascular events and mortality were higher in the older Medicare cohort, and hospitalization rates were higher in the US cohorts.

Many Start Testosterone Without Testing

Many patients were started on testosterone without any record of serum testosterone test results or relevant diagnoses, but the researchers did not have complete data for this.

However, the findings are consistent with the “recent alarming US Food and Drug Administration report that more than 25% of testosterone prescriptions in the United States are written without determination of a [testosterone] level and that more than 30% of patients receiving testosterone therapy do not have follow-up laboratory testing,” Dr Wierman writes.

During the course of the study, the use of gels increased and use of the other formats decreased, which is “somewhat reassuring,” she adds.

The lack of evidence of a signal for venous thromboembolism was another important finding, and study strengths include the large number of men and patient and prescriber diversity.

The findings emphasize the need to prescribe testosterone only when warranted and to be aware of potential risks with certain formats and with values exceeding physiologic ones.

The study “can reassure physicians who rationally provide treatment for men with true hypogonadism with approaches that result in physiologic levels of testosterone, which is a safe and effective therapy,” according to Dr Wierman.

It also “[hints] that injectable Depo-Testosterone [testosterone cypionate, Pfizer] or other formulations that consistently result in levels outside the physiologic range should be restricted or at least more carefully monitored for cardiovascular risk.”

‘Baron of Botox’ Dr Fredric Brandt Dead at Age 65

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Fredric Brandt, MD, a world-renowned dermatologist, died at his home in Coconut Grove, Florida, on April 5. The 65-year-old hanged himself, according to the Miami, Florida, police.

His publicist, Jacquie Tractenberg, told the Washington Post he had been suffering from depression and was upset by a recent episode of Tina Fey’s Netflix comedy series, “Unbreakable Kimmy Schmidt,” in which Martin Short appeared to parody him. Short’s character had thinning blonde hair with a receding hairline, exaggerated cheekbones, and a face so frozen his speech was distorted.

“It definitely bothered him. It was a very mean portrayal,” she told the Post, but added, “He didn’t kill himself because of that one particular show.”
Dr Brandt was a pioneer in the use of onabotulinum toxin A (Botox Cosmetic, Allergan) and collagen fillers. He had dermatology practices in Manhattan, New York, and Coral Gables, Florida. “He was a giant in this field…he was recognized as a world leader in cosmetic medicine,” Roy G. Geronemus, MD, director, Laser and Skin Surgery Center of New York, told Medscape Medical News. “He really took the science and made it an art.”

“He was a brilliant and caring physician. He really helped transform the techniques for the approach towards the aging face and body,” he said.

Dubbed the “Baron of Botox” and the “King of Collagen,” Dr Brandt had reportedly used more Botox Cosmetic and collagen fillers than any other dermatologist in the world. His celebrity clients included the singer Madonna, television talk-show host Kelly Ripa, and comedian Joy Behar.


Dr Fredric Brandt.
Dr Geronemus said he has known Dr Brandt since 1978, when they were both at the University of Miami in Florida. Dr Brandt was a medical resident and Dr Geronemus was a medical student there. The two dermatologists had worked together for 20 years. Dr Brandt treated patients at the Laser and Skin Surgery Center of New York in Manhattan at the time of his death.

Loved by Patients and Colleagues.

“The staff that we shared absolutely loved him. He was very creative in making everyone feel like a part of his family. His staff were his family, his patients were his family. The response that we’re getting from his patients with his death is truly overwhelming. His patients are just devastated,” Dr Geronemus said.

Dr Brandt would often relax his patients by singing to them as he was treating them, Dr Geronemus said. “He was very, very knowledgeable about medicine; he was not just someone looking to put a few needles into someone’s face in exchange for a few dollars. He was very creative and really had a true vision for what a younger face should look like.”

“He was a good friend. Many of his patients became his personal friends,” Dr Geronemus added, noting that even colleagues who were considered competitors liked him.

Clinical Practices in Manhattan and Coral Gables

Dr Brandt was born on June 26, 1949, in Newark, New Jersey, to Irving and Esther Brandt and grew up there. He is survived by his brother, Paul.

He graduated with a Bachelor of Arts degree from Rutgers University in New Brunswick, New Jersey, in 1971 and earned a medical degree from Hahnemann Medical College (now known as Drexel University College of Medicine) in Philadelphia, Pennsylvania, in 1975.

Dr Brandt completed an internship at New York University in New York City from 1975 to 1976, a residency in internal medicine at New York University from 1976 to 1978, and a residency in dermatology at the University of Miami in Florida from 1978 to 1981, according to his curriculum vitae. The information in his curriculum vitae conflicts with media reports that say he completed medical residencies at New York University and Memorial Sloan Kettering Cancer Center in Manhattan, with residencies in nephrology and oncology.

Dr Brandt went into private practice in Coral Gables in 1982 and in New York City in 1996. He was the founder and chairman of the board for Cosmetic Dermatology Inc in Miami from 1990 until his death. It was there that he created the Dr Brandt skincare line, which has been sold in more than 40 countries. “He was very creative and thoughtful about what he was doing with [his product line],” Dr Geronemus noted.

He was a clinical voluntary associate professor in the Department of Dermatology at the University of Miami in Florida from 1999 until May 2001.

Esteemed Researcher, Author

He founded and was the principal investigator for the Dermatology Research Institute LLC in Coral Gables from 2006 until his death. “He had a clinical research program in Miami, [and] we did some drug studies in New York as well,” Dr Geronemus explained. “He was involved with the clinical development of many of the products that he used, so he understood them quite well. He understood their limitations, he understood their strengths, he understood which products should be used where, and would always look for any method possible for improving the outcome of his patients.”

“A lot of it was based on his own research, with the knowledge that he gained helping these companies develop their products or doing the phase 1, 2, and 3 clinical trials for the [US Food and Drug Administration],” he added.

Along with the multiple studies in which he was the principal investigator, Dr Brandt was also a sought-after presenter at scores of dermatology conferences around the world.

He was a board-certified member of the American Board of Internal Medicine and the American Board of Dermatology. He was a member of the International Society for Dermatologic Surgery, International Society of Cosmetic Laser Surgeons, American Medical Association, American Society for Dermatologic Surgery, Dermatology Foundation Leaders Society, and Florida Medical Association, among others.

Dr Brandt wrote two books about skin aging and maintaining a youthful appearance: 10 Minutes/10 Years: Your Definitive Guide to a Beautiful and Youthful Appearance and Age-less: The Definitive Guide to Botox, Collagen, Lasers, Peels, and Other Solutions for Flawless Skin.

“He had some novel ideas, concepts, and techniques in terms of the use of botulinum toxin and filler substances,” Dr Geronemus said. “[M]any physicians in the country and around the world have adopted them into their daily practice.”

Dr Brandt claimed he tested every product he used on himself before using them on his patients.

Cranial Radiation Ups Obesity Risk After Childhood Cancer

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Childhood cancer survivors are more likely to be obese than other people of the same age, sex, and race without a history of childhood cancer, a new population-based study confirms.

In particular, cranial radiation for childhood cancers appears to have the greatest influence on obesity in adult life, with 47% of those who received this form of treatment becoming obese, vs 29.4% who did not.

The presence of obesity at cancer diagnosis also affects outcomes, as do age at diagnosis and the presence of polymorphisms in genes responsible for neural growth, repair, and connectivity in patients who received cranial radiation.
The study was published online May 11 in Cancer. Lead researcher Carmen Wilson, PhD, from St Jude Children’s Research Hospital, Memphis, Tennessee, told Medscape Medical News, “These results are important because obesity is associated with an increased risk of premature death and a variety of health problems, including cancer and heart disease.”

She also pointed out that the findings stem from “one of the most comprehensive studies yet of obesity in childhood cancer survivors”; of the almost 2000 survivors in the study, “36.2% had a body mass index [BMI] of 30 kg/m2 or more [during 25 years of follow-up], which is defined as obese.”

And she emphasized that the long-term goal of the St Jude research group is to develop effective weight-management strategies for the growing population of childhood cancer survivors in the United States.

Reflecting on the paper, which he found both “fascinating and provocative,” Gerald Denis, PhD, associate professor of pharmacology and medicine, Cancer Research Center, Boston University School of Medicine, Massachusetts, said the results demonstrate the challenges of minimizing the risk of obesity while treating the childhood cancer.

The latter is understandably the priority given the lack of certainty that patients will go on to develop obesity, “but the concern here is partly disciplinary: they [oncologists] are not licensed to treat obesity later in life.”
“Still, in light of these new data, it would be helpful for the professional societies to formally discuss the relative risks and benefits of whether to avoid cranial radiation for any cancer in children unless absolutely necessary,” he commented.

Childhood Cancer Survivors Followed up for 25 Years

Prior studies have identified a high risk of obesity among childhood cancer survivors, particularly those exposed to cranial radiation, and there is also evidence that genetic variation can modify this risk.

In view of these findings, Dr Wilson and colleagues set out to examine factors influencing adult obesity among those included in a register of patients previously treated at St Jude Children’s Research Hospital. In total, 1996 childhood cancer survivors who had received treatment and had survived for over 10 years from diagnosis were included. Their median age at diagnosis was 7.2 years, median age at follow-up was 32.4 years, and median follow-up time was 25 years.

Over a third of individuals (36.2%) were obese at a median follow-up of 25 years after diagnosis; this was 14% higher than the rate in an age-, sex-, and race-matched population drawn from National Health and Nutrition Examination Survey (NHANES) data (31.6%).

The risk of obesity was greatest for those were older at evaluation (≥ 30 years vs < 30 years; P < .001) and those whose pediatric cancer treatment included cranial radiation (P< .001) and chemotherapy with glucocorticoids (P = .004), Dr Wilson and colleagues say.

Patients aged 4 or younger when their cancer was discovered were more likely to be obese than survivors who were older when their cancer was found (40.4% of male and 39.5% of female survivors with a diagnosis before age 5 years were obese).

The researchers also identified genetic polymorphisms in regions near or within the FAM155A, SOX11, CDH18, andGLRA3 genes that may increase the odds of obesity among survivors who received cranial radiation.

Abdominal Radiation Appears to Be Protective

Obesity also differed by cancer type. Over 25% of lymphoma or solid-tumor survivors (excepting females with renal cancer) were obese, compared with 43% of lymphoblastic leukemia survivors.

By gender and cancer type, the highest prevalence of obesity was seen among males who had survived leukemia, at 42.5%, while those who had been treated for other tumors had an obesity prevalence of 38.8%. Among women survivors, the highest prevalence was seen in survivors of neuroblastoma, at 43.6%, and of leukemia, at 43.1%.

But those treated with chest, abdominal, or pelvic radiation were only about half as likely to be obese as other survivors (22.4% vs 40.7%, odds ratio [OR] = 0.48, P < .001); this was regardless of whether they had received cranial radiation or not (P < .0001).

With regard to these findings, Dr Denis said: “It is fascinating that abdominal radiation was inversely associated with obesity. Perhaps visceral adipogenesis was affected because the preadipocytes were ablated due to radiation exposure, whereas subcutaneous preadipocytes elsewhere in the body that were not exposed remained unaffected.

“Additional information about body composition and metabolic parameters would be very helpful to understand the possible mechanisms,” he added.

Cranial Radiation: Does It Damage Hypothalamus?

Dr Wilson hypothesized that the higher prevalence of obesity among childhood cancer survivors who received cranial radiation could be “radiation-induced damage to the hypothalamic-pituitary axis, leading to alterations in leptin sensitivity or growth-hormone production.

“However, this remains to definitively established,” she observed.

And Dr Denis questioned the use of cranial radiation in some patients — specifically those diagnosed with renal cancer or leukemia — and noted that data on whether brain metastases were present or not would have been helpful.

“It would be useful to have more information about the specifics of the cases, because unless it is obvious that the patient requires cranial radiation for a brain tumor, this is clearly a bad idea from the standpoint of obesity risk,” he commented.

He added that it would also be helpful to delve further into the cases of those who survived childhood cancer and were exposed to cranial radiation but who did not become obese later in life.

“Do these patients have protective factors? Could a mechanism be identified that would lead to a novel chemoprotective agent that should be administered to all patients who are about to undergo cranial radiation to reduce their risk for obesity?” he asked.

“These observations will be important for clinical and radiation oncologists to appreciate.”

Genetic Findings May Help Tailor Cancer Treatment in Kids

This study is also one of the first to explore how genetics may affect obesity in childhood cancer survivors, Dr Wilson told Medscape Medical News.

“The four regions of genetic variation identified as being associated with obesity in survivors treated with cranial radiation could lead to better methods of managing obesity risk in young cancer patients during and after treatment,” she observed.

The strongest observed link was near FAM155A, a region previously associated with an increased percentage of fat mass in children of Hispanic descent and with anorexia nervosa.

“Although little is known about the function of FAM155A, it is expressed in the hypothalamus and pituitary, consistent with the hypothesis that [cranial radiation] may modify the risk of obesity among survivors by disrupting the hypothalamic-pituitary axis,” she commented.

Weight Management in High-Risk Groups

In conclusion, Dr Wilson remarked that their results suggest the high prevalence of obesity among survivors of childhood cancer persists many years after cancer therapy and that “the likelihood of a survivor being obese in adulthood may be influenced by the type of therapy they received and whether or not they were obese at diagnosis.”

She emphasized that individuals who care for survivors of childhood cancer “should be aware that the risk of obesity is increased among certain subpopulations of survivors, particularly those treated with cranial radiation and glucocorticoids,” adding that “the findings highlight the need for the development of effective counseling and weight-loss interventions designed to meet the unique needs of childhood cancer survivors.”

And with respect to the genetic associations, “the ability to identify patients at increased risk of obesity on the basis of genetic susceptibility may improve early detection of high-risk subgroups,” she and her colleagues conclude.

Microstent Keeps Intraocular Pressure Low

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In glaucoma patients, the implantation of an intracanalicular microstent (Hydrus, Ivantis) maintains low intraocular pressure for 2 years and reduces the need for medication, a new study has shown.

This is the first randomized controlled trial of a microinvasive glaucoma surgery device using a washout period to separate the effects of drugs from surgery, said Thomas Samuelson, MD, an ophthalmologist in Minneapolis.

Dr Samuelson presented the findings here at the American Glaucoma Society 2015 Annual Meeting.

Microstents are an alternative to trabeculectomy because the implantation is less invasive, and they are an alternative to medication because they eliminate issues related to allergies and convenience.

The stent used in the study — which is composed of nitinol, a nickel–titanium alloy — bypasses the trabecular meshwork and scaffolds and dilates Schlemm’s canal. Its open windows are intended to prevent the obstruction of collector channels and improve the flow of aqueous humor into the canal.

To study the effect of the stent on intraocular pressure, the researchers recruited patients with primary open-angle glaucoma, pseudoexfoliative glaucoma, or pigment dispersion glaucoma from seven sites in Europe.

Fifty eyes were randomly assigned to stent implantation during cataract surgery, and 50 eyes, which served as the control group, were randomly assigned to cataract surgery alone.

All patients discontinued their hypotensive medications during washout periods before surgery, 12 months after surgery, and 24 months after surgery so that intraocular pressure could be assessed without the influence of topical hypotensive medications.

Intraocular pressure and the need for medication decreased after surgery in both groups. In the stent group, the reductions were maintained at 24 months. In the control group, however, pressure and medication use increased after 12 months.

At 24 months, intraocular pressure was significantly better in the stent group than the control group (P = .0093).

A reduction in intraocular pressure of at least 20% was achieved by more patients in the stent group than in the control group at 12 months (88% vs 74%) and at 24 months (80% vs 46%; P = .0008).

At 24 months, more patients in the stent group than in the control group were receiving no hypotensive medications (73% vs 38%).

Table. Intraocular Pressure During the Study Period

Intraocular Pressure Stent Group (mm Hg) Control Group (mm Hg)
Before washout 18.6 18.9
At baseline washout 26.6 26.3
At 12-month washout 17.4 16.6
At 24-month washout 19.2 16.9

 

There were few surgical complications. The most common adverse events were focal peri-stent peripheral anterior synechiae or adhesion, which occurred in 15 eyes in the stent group and two in the control group.

After the presentation, session moderator Janet Serle, from Mount Sinai Hospital in New York City, asked Dr Samuelson about the learning curve for this particular stent, compared with other stents.

“One thing that’s a little bit different is that you have to maintain your very good view and the patient can’t have any saccades throughout the deployment process,” Dr Samuelson explained.

And the Hydrus tracks well within Schlemm’s canal, “so there’s really no doubt whether you’re in the canal or not; there’s no guessing. If it doesn’t track, you know something has gone awry,” he said.

In general, however, the learning curve is “fairly similar” to the other canal-based devices and to the Glaukos iStent, Dr Samuelson reported.

Dr Serle also wanted to know whether stent patients could achieve intraocular pressure from 10 to 12 mm Hg without the use of medication.

The prospect of such low pressure is doubtful without medication, Dr Samuelson said. “But I think with the mixed procedures and the good pharma we have, we could start to achieve levels in the low teens.”

A panelist at the session, Paul Palmberg, MD, from the University of Miami, asked if there really were no cases of hypotony or other serious adverse events. Dr Samuelson confirmed that there were not.

Green Light for Cancer Immunotherapies in Europe

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The European Medicines Agency (EMA) has recommended granting marketing authorization for three cancer immunotherapies ― pembrolizumab (Keytruda, Merck & Co, Inc) for melanoma, nivolumab (Opdivo, Bristol-Myers Squibb Company) for lung cancer, and dinutuximab (Unituxin, United Therapeutics Corporation) for neuroblastoma.

In addition, the EMA recommended approval for the additional indication of Waldenstrӧm’s macroglobulinaemia for ibrutinib (Imbruvica, Pharmacyclics, Inc, Janssen Biotech, Inc) and also for a generic version of bortezomib (Bortezomib Accord, Accord Healthcare) for use in the treatment of multiple myeloma and mantle cell lymphoma.

Pembrolizumab for Advanced Melanoma

Pembrolizumab will be the second drug that acts as a programmed death inhibitor for the treatment of advanced melanoma in Europe, joining nivolumab, which was recommended for approval for this indication just a few weeks ago. Both drugs are already approved in the United States for use in advanced melanoma.

The data supporting the recommendation for approval come from one uncontrolled study and early results from two ongoing randomized, controlled trials, one comparing pembrolizumab with standard chemotherapy, and the other comparing pembrolizumab with ipilimumab (Yervoy, Bristol-Myers Squibb Company), another immunotherapy but with a slightly different mechanism of action.

The Committee for Medicinal Products for Human Use (CHMP) says the data so far have demonstrated the efficacy of pembrolizumab in adults with unresectable or metastatic melanoma, both in patients who had and in those who had not previously received ipilimumab. The committee also looked at safety information from more than 1000 patients enrolled in clinical studies and regarded the safety profile to be manageable.

Nivolumab for Lung Cancer

Nivolumb was recommended for approval for use in the treatment of squamous non–small cell lung cancer (NSCLC) when the disease is advanced and the patient has already been treated with chemotherapy. It is the first immunotherapy to be approved for use in lung cancer, and was welcomed by experts when this approval was announced in the United States.

In Europe, for this indication the product will have the trade name Nivolumab BMS, whereas for the treatment of melanoma, it will be marketed as Opvido, the tradename used in other countries.

The CHMP notes that this recommendation for approval is based on data from a phase 3 trial in 272 patients with squamous NSCLC in whom chemotherapy had failed. These patients were randomly assigned to receive either nivolumab or chemotherapy with docetaxel. This study found that nivolumab improved overall survival compared with docetaxel (median, 9.2 months, compared with 6.0 months). After 12 months, 42% of patients treated with nivolumab were still alive compared with 24% of patients treated with docetaxel, the CHMP notes. Details of this study are due to be presented next week at the annual meeting American Society of Clinical Oncology.

There were also further data from an uncontrolled study involving 117 patients with squamous NSCLC who had undergone at least two previous chemotherapy treatments and who were then treated with nivolumab, the CHMP noted.

Dinutuximab for Neuroblastoma

Dinutuximab was recommended for approval for use in the treatment of high-risk neuroblastoma in children who had already responded to an induction treatment with chemotherapy, followed by myeloablative therapy and autologous stem-cell transplant. The product should be administered in combination with granulocyte-macrophage colony-stimulating factor (GM-CSF), interleukin-2 (IL-2), and isotretinoin.

The product was recently approved in the United States.

Neuroblastoma is a rare cancer, so dinutuximab has orphan drug designation for this indication. The tumor forms from immature nerve cells and is usually seen as a lump in the abdomen or around the spine. It typically occurs in children younger than 5 years, the EMA explained in a press release. In many cases, it is present at birth, but the diagnosis is made only later, when the cancer has already spread to other parts of the body, and the child begins to show symptoms of the disease.

Dinutuximab is a monoclonal antibody designed to recognize and attach to disialoganglioside (GD2), an antigen that is present in high amounts on the surface of neuroblastoma cells but in lower amounts in normal cells. When the product attaches to the neuroblastoma cells, it marks them as targets for the body’s immune system, which is then expected to attack the cancer cells and thereby reverse or slow down the progression of the disease, the EMA explained.

The recommendation for approval was based on data from a clinical trial in children with high-risk neuroblastoma who had already responded to chemotherapy (showing at least a partial response) and were further treated with myeloablative therapy and autologous stem-cell transplant. The study randomly assigned 230 patients to receive dinutuximab combined with GM-CSF and IL-2 and oral isotretinoin, or isotretinoin alone.

After 2 years, 66% of patients receiving the dinutuximab combination were alive and free from recurrence or tumor growth, compared with 48% of patients treated with isotretinoin alone.

Dinutuximab “provides a much-needed treatment option to prolong survival” of patients who are considered to have high-risk neuroblastoma, the agency commented.

The most common side effects of dinutuximab are pain, allergic reactions, and hypotension. Because the protein targeted by the product is also present on normal nerve cells, its use may cause irritation and severe pain of the nerve cells, so pain relief is recommended both before and during treatment. Despite prophylaxis, two thirds of children experience pain, and about 40% experience severe pain.

The CHMP recommended that the safety profile be further assessed post authorization, and the agency required the company to include this in their risk management plan for dinutuximab.

Ibrutinib for Rare Lymphoma

An indication extension was recommended for ibutinib (Imbruvica, Pharmacyclics, Inc, Janssen Biotech, Inc). This drug is already approved for use in chronic lymphocytic leukemia and mantle cell lymphoma. The new indication covers its use in Waldenstrӧm’s macroglobulinemia (also known as lymphoplasmacytic lymphoma), a type of non-Hodgkin’s lymphoma. Ibrutinib will be the first drug for the treatment of this rare blood cancer. It has orphan drug designation for this indication.

Waldenstrӧm’s macroglobulinemia is characterized by an excess of abnormal B lymphocytes and plasma cells in the bone marrow and sometimes in other organs, the EMA explains. These abnormal cells produce large amounts of an immunoglobulin M (IgM), which can make the blood thicker than normal. This cancer usually begins in people older than 60 years. Five years after diagnosis, between 36% and 87% of patients are still alive, depending on their individual risk factors.

Ibrutinib offers a novel strategy in the treatment of malignancies involving B lymphocytes. It acts as an inhibitor of Bruton’s tyrosine kinase (Btk), which has a key role in the survival of B lymphocytes and their migration to the organs where these cells normally divide. By blocking Btk, ibrutinib decreases survival and migration of B lymphocytes, thereby delaying the progression of the cancer, the agency explains.

The recommendation for approval is based on the results of a phase 2 study in 63 patients with previously treated Waldenstrӧm’s macroglobulinemia. Around 90% of the patients treated with ibrutinib responded positively to the treatment, and approximately 80% of patients were alive without disease progression after 18 months.

The adverse events reported during the clinical trial were similar to those observed in the already approved indications of ibrutinib, the agency noted. They include neutropenia and thrombocytopenia.

Generic Bortezomib for Multiple Myeloma

In addition, the EMA recommended for approval a generic version of bortezomib (Bortezomib Accord, Accord Healthcare) for the treatment of multiple myeloma and mantle cell lymphoma.

Bortezomib Accord is a generic version of Velcade (Takeda/Millennium), which has been authorized for use in the European Union since April 2004, the agency noted. “Studies have demonstrated the satisfactory quality,” it added, stating that because Bortezomib Accord is administered intravenously and is 100% bioavailable, a bioequivalence study vs the reference product Velcade was not required.

General Surgery Safe for Pregnant Women, Study Shows

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Compared with women who are not pregnant, those who are pregnant have no significant difference in postoperative complications after general surgery, according to a retrospective cohort study published online May 13 in JAMA Surgery.

“Pregnancy is associated with physiologic changes in body habitus and the coagulation, cardiovascular, pulmonary, and immune systems,” write Hunter B. Moore, MD, from the Department of Surgery, School of Medicine, University of Colorado, Aurora, and colleagues. “These changes pose a diagnostic and treatment challenge to surgeons because physical examination findings and laboratory test values are different from those routinely encountered. Therefore, it might be expected that postoperative complications in pregnant patients are increased compared with those in nonpregnant patients.”
Approximately 1 in 500 pregnant women require nonobstetric surgery. Findings from previous research comparing the occurrence of adverse outcomes after such surgery in pregnant vs nonpregnant women have been conflicting. The investigators suggest this may be because of insufficient adjustment for differences between pregnant and nonpregnant women, and they used propensity matching to overcome this obstacle.

Using the American College of Surgeons’ National Surgical Quality Improvement Program participant user file from January 1, 2006, to December 31, 2011, the investigators identified pregnant surgical patients and matched them, on the basis of 63 preoperative characteristics, with nonpregnant women undergoing the same operations by general surgeons.

Before matching, the patient pool included 2764 pregnant women, of whom 50.5% had emergency general surgery, and 516,705 nonpregnant women, of whom 13.2% had emergency general surgery. Compared with nonpregnant women, pregnant women were more likely to have surgery in an inpatient setting (75.0% vs 59.7%). They were also younger, with fewer comorbidities but more abnormal laboratory test results.

Using propensity matching, the investigators identified 2539 pregnant and 2539 nonpregnant women with no meaningful differences in preoperative characteristics.

At 30 days, pregnant women and nonpregnant women had similar rates of mortality (0.4% vs 0.3%, respectively; P = .82), overall morbidity (6.6% vs 7.4%; P = .30), and 21 individual postoperative complications.

Limitations of this study include observational design, which precludes determination of causality and lack of data on fetal outcomes.

“We did not account for fetal complications in this study and would not advocate that our findings be generalized to elective surgical situations that can be postponed until after delivery,” the study authors write. “These findings support previous reports that pregnant patients who present with acute surgical diseases should undergo the procedure if delay in definitive care will lead to progression of disease.”

First Study on Bladder Cancers Presenting as UTIs

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Persistent symptoms characteristic of urinary tract infection (UTI) that do not improve with time or treatment could indicate bladder cancer.

That’s the simple “take-home message” from a first of its kind study of UTI-like symptoms and bladder cancer, according to lead author Kyle Richards, MD, from the University of Wisconsin–Madison.

The message is for clinicians and applies to both men and women, he told reporters during a press briefing here at the American Urological Association 2015 Annual Meeting.

Awareness is especially important when it comes women, said Dr Richards, because bladder cancer is most commonly associated with men.

“A lot of primary care doctors who are [initially] seeing these [symptomatic] patients are less aware that bladder cancer is even a possibility in women,” he explained.

And he pointed out that because bladder cancer most commonly presents as blood in the urine, or hematuria, UTI-like symptoms do not always raise suspicion for this cancer.

In their study — the first to look at patients with bladder cancer who present with UTIs — Dr Richards and his colleagues assessed the impact of this presentation on patient outcomes.

They report that diagnoses take longer and outcomes are poorer in men and women who present with UTIs than in men who present with hematuria.

The investigators used 2007 to 2009 data from the Surveillance, Epidemiology, and End Results (SEER)–Medicare database to identify 9326 men and 2869 women who were diagnosed with hematuria or UTI in the year before they were diagnosed ith bladder cancer.

The average time from initial symptom claim to bladder cancer diagnosis was longer in women than in men (72.2 vs 58.9 days; P < .0001).

A closer look at the data indicated that UTIs were the reason for this disparity.

In an analysis of patients presenting with hematuria alone, the time to subsequent bladder cancer diagnosis was similar for women and men (46.1 vs 47.3 days; P = .75).

However, in an analysis of patients presenting with either hematuria or UTI, time to diagnosis was significantly different. “Women had a longer interval from UTI to diagnosis of bladder cancer,” Dr Richards reported.
On logistic regression analysis, women presenting with a UTI were more likely to have advanced (pT4) pathology at diagnosis than men presenting with hematuria (odds ratio [OR], 2.79; 95% confidence interval [CI], 2.04 – 3.83). The same same pattern was seen for men presenting with a UTI (OR, 2.08; 95% CI, 1.56 – 2.79).

On Cox proportional hazards analysis, risk for bladder-cancer-specific and overall mortality was higher in women presenting with a UTI than in men presenting with hematuria (hazard ratio [HR], 1.72; 95% CI, 1.46 – 2.03). The same pattern was seen for men presenting with a UTI (HR, 1.41; 95% CI, 1.28 – 1.56).

“Symptoms of urinary tract infection in older patients might be a harbinger of bladder cancer, and misdiagnosis may lead to inferior oncologic outcomes,” the authors write in their meeting abstract.

Don’t just chalk it up to urinary tract infection.
The message was reinforced by Tomas Griebling, MD, MPH, a urologist from the University of Kansas in Kansas City, who moderated the press briefing.

When there are persistent symptoms, “don’t just chalk it up to urinary tract infection,” he said. There is a tendency to do so because they are so common, he explained.

“The money and resources spent on UTIs eclipses everything else we do [in urologic diseases],” he noted, including prostate and bladder cancer.

In fact, in the United States, “the numbers are astronomically higher” for UTIs, Dr Griebling emphasized.

The delay in diagnosis in women is understandable because their urologic care is typically delivered by primary care physicians and Ob/Gyns, said Dr Richards.

“A lot of women don’t get to see a urologist until it’s much later in the process,” he said, “whereas men are apt to see a urologist.”

Clip Ligation Shows Long-term Durability for Aneurysms

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Microsurgical clip ligation in the treatment of intracranial aneurysm shows long-term durability, with a small risk for recurrence when residual aneurysms are present after treatment, according to a new study.

“This is the largest study to date with the longest follow-up data that confirms the long-term efficacy of aneurysm clip ligation,” said first author Mason Brown, a medical student with the Indiana University School of Medicine, Indianapolis, in presenting the findings at the American Association of Neurological Surgeons (AANS) 83rd Annual Meeting.

Previous studies have estimated the recurrence risk with aneurysm clip ligation to be approximately 0.26% to 0.053% annually, and the risk for de novo aneurysm at 0.84% to 1.8% per year; however there is currently no standard protocol for the timing or length of follow-up after surgery, Brown said.

For the study, the researchers retrospectively reviewed records on 616 patients (mean age, 48 years) who underwent microsurgical clip ligation and follow-up imaging for more than 1 year following discharge from the university’s medical center.

Among the patients, 919 aneurysms were treated, including 753 that underwent surgical clip ligation for ruptured and unruptured aneurysms.

With angiographic imaging available on the aneurysms at a mean of 7.2 years after discharge, the authors found only one recurrent aneurysm (0.14%) of the 699 (92.2%) clipped aneurysms that showed no residua following the initial operation.

The recurrence rate was higher among the 59 (7.8%) known residual aneurysms following clip ligation, with 8 (13.6%) of the aneurysms regrowing and 4 requiring treatment.

Of 111 patients presenting with multiple aneurysms on admission, 8 (7.2%) had a de novo aneurysm formation on follow-up. Meanwhile, there were no de novo aneurysms among patients presenting with a single aneurysm on admission.

“Our results demonstrate a low recurrence of 0.14% to 13.6% after clip ligation, while recurrence rates after coil embolization can be as high as 30% to 40%,” Brown said.

Nevertheless, he underscored that the findings indicate that anything less that completely clipped aneurysms should have careful follow-up.

“There is a significant growth risk for residual aneurysms after incomplete clip ligation, and the findings necessitate continued follow-up, late angiographic imaging and further intervention.”

Adam S. Arthur, MD, MPH, from the Semmes-Murphey Clinic in Memphis, Tennessee, who co-moderated the session, agreed that the findings provide important insights on potential areas of risk after clip ligation.

“These findings document the low risk of aneurysm recurrence after clip ligation,” he told Medscape Medical News.

“Importantly, however, this recurrence risk is not zero. As we have developed new ways to treat aneurysms we have struggled to evaluate the long-term durability of these treatments.”

“It has become clear that we should also research the durability of the gold standard historical treatment for aneurysms, surgical clipping.”

Lipid Lowering for Primary Stroke Prevention in Elderly?

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The use of statins or fibrates to lower cholesterol was associated with a one third lower risk for stroke, but no reduction in coronary events, in older adults without previous vascular disease in a new observational study.

The authors suggest that if the results are replicated, lipid-lowering drugs might be considered for the prevention of stroke in older populations.

The study, published May 19 in the BMJ, was conducted a group led by Annick Alpérovitch, MD, from INSERM, Bordeaux, France.

Senior investigator Christophe Tzourio, MD, also from INSERM, France, commented to Medscape Medical News that these results were out of line with results from the Prospective Study of Pravastatin in the Elderly at Risk (PROSPER) study, the only randomized clinical trial of statins in the elderly.

“PROSPER suggested a reduction in coronary deaths, but no effect on stroke. Our results show completely the opposite effect. I don’t know how to interpret this,” he said. “But our population is very different, in that they were much lower risk and they had been taking lipid-lowering medication for much longer — more than 12 years in most cases.”

He added: “You can’t really compare the patients enrolled in randomized trials and those in this ‘real-world’ study. Randomized trials may be the gold standard, but patients enrolled in them are highly selected.”

Dr Tzourio said he had no explanation as to why they did not see an effect on cardiac events. In observational studies, there would normally be a higher rate of cardiovascular events in those taking the cardiovascular drugs because these patients are at higher risk, he said. “We call this an indication bias. We saw this for antihypertensives and aspirin, and for the lipid-lowering drugs for coronary heart disease events. This was expected.

“But when we looked at the stroke results, there was a reduction in stroke events in those taking the lipid-lowering drugs even before adjustment. That seems crazy,” he added. “We didn’t believe the result in the beginning.”

Compelling Results

In an accompanying editorial, Graeme J. Hankey, MD, professor of neurology at the University of Western Australia, Perth, says the study “will not change guidelines because of its observational design and inherent potential for systematic error. However, the results are sufficiently compelling to justify further research testing the hypothesis that lipid lowering may be effective in the primary prevention of stroke in older people.”

In the BMJ paper, the French researchers note that because most randomized trials exclude older patients, there is little information on the use of cholesterol-lowering drugs in the elderly.

To look at this issue, they examined data from the Three-City study, a prospective study aiming to assess the association between vascular diseases and risk for dementia in a random sample of community dwelling population aged 65 years and older living in three French cities: Bordeaux, Dijon, and Montpellier.

The current analysis involved 7484 men and women with a mean age of 74 years and no known history of vascular events at entry. Mean follow-up was 9.1 years, during which time participants were examined every 2 years and data were collected on medical history and drugs being taken.

This showed that 27.4% of the population reported using lipid-lowering drugs (13.5% statins and 13.8% fibrates) at baseline. Total cholesterol, low-density lipoprotein, and triglyceride levels were significantly lower in users than in nonusers, both for statins and fibrates.

Results showed that individuals who took lipid-lowering drugs were at decreased risk for stroke compared with nonusers.

Table. Risk for Stroke in Patients Taking Statins or Fibrates

Treatment Hazard Ratio (95% Confidence Interval)
Statin or fibrate 0.66 (0.49 – 0.90)
Statin 0.68 (0.45 – 1.01)
Fibrate 0.66 (0.44 – 0.98)

No association was found between lipid-lowering drug use and coronary heart disease (hazard ratio, 1.12; 95% confidence interval, 0.90 – 1.40).

Analyses stratified by age, sex, body mass index, hypertension, systolic blood pressure, triglyceride concentrations, and propensity score did not show any effect modification by these variables, either for stroke or for coronary heart disease.

Dr Tzourio says he would like these findings to lead to a randomized trial in elderly low-risk patients, but he believes such a study will be difficult to do.

“Because there are no other studies in this population, we wanted to publish our findings for the scientific community to see. Yes, they may be due to chance, but we would encourage other groups to look at their cohorts and see if they can replicate our findings.”

The researchers are not making any recommendations for clinical practice based on their findings. Dr Tzourio commented: “At present, most guidelines do not recommend use of these agents in patients over 75. As this is only an observational study, we are not recommending that everyone over 75 starts taking these drugs. But perhaps if patients are already on these drugs, they should not stop taking them after age 75. It could be that there is an effect on stroke of very long-term use.”

In his editorial, Dr Hankey says the study reinforces the need for more robust evidence from large randomized trials evaluating lipid lowering, specifically in older people without previous vascular disease.

He concludes: “Meanwhile, for clinicians and patients, the decision to start statins for primary prevention of vascular disease in people over 75 continues to be based on sound clinical judgment after consideration of each person’s predicted vascular risk without and with statins, the predicted risk of adverse effects of statins (against a backdrop of increasing comorbidities, polypharmacy, and other safety considerations), and the patient’s own priorities and preferences for treatment.”

How to rewire the eye

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Transforming nerve cells into light-sensing cells aims to restore sight in some blind patients

optogenetics

SEEING THE LIGHT  The brain’s window on the visual world is a multilayered tissue at the back of the eye called the retina. Light-detecting rods and cones sit at the very back of the tissue. They pass information to the brain via bipolar cells and ganglion cells. Humans and some animals have sharp vision thanks to the fovea, a window in the retina that offers direct access to the cones.

A man who had been blind for 50 years allowed scientists to insert a tiny electrical probe into his eye.

The man’s eyesight had been destroyed and the photoreceptors, or light-gathering cells, at the back of his eye no longer worked. Those cells, known as rods and cones, are the basis of human vision. Without them, the world becomes gray and formless, though not completely black. The probe aimed for a different set of cells in the retina, the ganglion cells, which, along with the nearby bipolar cells, ferry visual information from the rods and cones to the brain.

No one knew whether those information-relaying cells still functioned when the rods and cones were out of service. As the scientists sent pulses of electricity to the ganglion cells, the man described seeing a small, faint candle flickering in the distance. That dim beacon was a sign that the ganglion cells could still send messages to the brain for translation into images.

That 1990s experiment and others like it sparked a new vision for researcher Zhuo-Hua Pan of Wayne State University in Detroit. He and his colleague Alexander Dizhoor wondered if, instead of tickling the cells with electricity, scientists could transform them to sense light and do what rods and cones no longer could.

The approach is part of a revolutionary new field called optogenetics. Optogeneticists use molecules from algae or other microorganisms that respond to light or create new molecules to do the same, and insert them into nerve cells that are normally impervious to light. By shining light of certain wavelengths on the molecules, researchers can control the activity of the nerve cells.

Optogenetics is a powerful tool for probing the inner workings of the brain (SN: 1/30/10, p. 18). In mice, researchers have used optogenetics to study feeding behavior (SN: 3/7/15, p. 8), map aggression circuits (SN: 3/21/15, p. 18) and even alter memories (SN: 10/4/14, p. 6SN: 8/24/13, p. 18).

After years of work with animals, researchers are now poised to insert optogenetic molecules into the retinal cells of people. The aim is to restore vision in those whose rods and cones don’t work.

“It makes sense that the organ that is light sensitive would benefit from [optogenetics] first,” says José-Alain Sahel, director of the Vision Institute in Paris. He is involved in one of two efforts to bring optogenetics out of the lab and into the eye clinic.

Studies in people could begin next year.

Circumvent the damage

Optogenetics is, at its heart, a gene therapy. Traditional gene therapy places a healthy copy of a mutated or damaged gene into the cells of a person with an inherited condition. The healthy copy is first packed into a virus. The virus delivers the gene to the “broken” cells and unloads its cargo. Once inside the cell, the gene produces functional copies of the proteins that the original mutations damaged, and the cell starts working again.

This type of gene therapy has famously been used to treat children born with faulty immune systems (SN: 8/10/13, p. 19). It has also restored some vision in people with a rare type of inherited blindness called Leber congenital amaurosis (SN: 5/24/08, p. 8; See ‘Unafraid of the Dark).

That type of blindness, however, is the absolute best-case scenario for gene therapy, says neuroscientist Botond Roska. LCA patients eligible for gene therapy still have light-gathering rods and cones in their retinas but the cells don’t work properly because they have a mutation in a gene called RPE65 (one of a dozen gene mutations that can cause LCA). Introducing the normal version of the gene allows the rods and cones to function again. However, two studies published online this month in the New England Journal of Medicine suggest that even in patients who experience vision improvements after gene therapy for LCA, the photoreceptors continue to die and vision deteriorates over time (SN Online: 5/3/15). This could mean that, for long-term benefit, another approach is needed.

Most people with inherited blindness don’t even have the hope of temporary restoration. Mutations in any of more than 250 genes may lead to blindness, says John Flannery, a cell and molecular biologist at the University of California, Berkeley. Gene therapy is currently impractical or impossible for most of those diseases, he says.

Approximately 200,000 people in the United States have inherited retinal diseases that affect the rods and cones, according to estimates from the Foundation Fighting Blindness. Once those photoreceptors are gone, there’s no bringing them back, says Roska, of the Friedrich Miescher Institute for Biomedical Research in Basel, Switzerland.

The optogenetics approach that Pan and others are studying circumvents the missing photoreceptors. That means it differs from traditional gene therapy in important ways: It doesn’t fix broken genes, so the therapy should work regardless of which of the 250 genes are causing problems. And instead of trying to resurrect dead or damaged photoreceptors, the scientists aim to transform relay cells into ersatz photoreceptors.

Pan and Dizhoor began kicking around the idea of making bipolar and ganglion cells light sensitive in 2000. In principle it sounded simple: Just move the rods’ light-sensing protein, known as rhodopsin, to the other cells. But rhodopsin doesn’t work alone. It is part of a light-driven machine in the eye that has more than a dozen parts, says Dizhoor, a molecular biologist now at Salus University in Elkins Park, Pa. “Technically, it’s just unfeasible” to move that many cogs, he says. The researchers needed a simple molecule that could make ganglion and bipolar cells sensitive to light.

The breakthrough came two years later when scientists discovered a light-responsive protein called channelrhodopsin in a single-celled algae called Chlamydomonas reinhardtii.

Channelrhodopsins form channels in a cell’s outer membrane. When certain wavelengths of light hit the protein, the channel opens and lets positively charged ions flow into the cell. That flow of energy is a nerve cell’s signal to talk to its neighbors and to the brain. Pan and Dizhoor immediately recognized its potential.

“We thought, ‘Wow! This is the molecule we’ve been waiting for,’ ” Pan says.

They lost little time packing a gene encoding a specific channelrhodopsin, ChR2, into a virus that could infect ganglion cells in blind mice. The researchers reported in Neuron in 2006 that the protein could make the cells light sensitive and send a message to the brain in response to blue light shone into the eyes of the mice (SN: 4/8/06, p. 211).

A gaggle of ganglion cells

The experiment was just the first step toward restoring vision, though. Researchers have had to wrangle with the issue of which of the cells — ganglion or bipolar — might restore the most vision. Each type of cell has its pros and cons.

To understand the dilemma requires some clarity on how the eye works. Light enters the eye through the pupil and is focused on the retina, a thin, multilayer tissue in the back of the eye.

Light first encounters the retinal ganglion cells. These nerve cells have long tails that bundle together to form the optic nerve and send messages to the brain about what the eye detects. They aren’t normally light sensitive. Neither are the bipolar cells, the next layer of cells that light hits. Below both these layers, at the very back of the eye, are the light-detecting rods and cones. Bipolar cells collect light information from these photo­receptor cells and pass it to the ganglion cells, which send it on to the visual processing areas in the brain. Unlike mouse eyes, human eyes have a tiny window called the fovea where bipolar cells and ganglion cells sit off to the side, allowing light to shine directly on the photoreceptors.

The ganglion cells are easiest to reach, which makes them appealing for optogenetics. But human eyes contain about 20 different types of retinal ganglion cells, each of which may convey slightly different visual information to the brain.

Variety may spice up life, but it’s potentially the main strike against ganglion cells as a target for optogenetics. That’s because the viruses used to ferry optogenetic molecules cannot distinguish between the various ganglion cells. Optogeneticists and gene therapists favor viruses called adeno-associated viruses for delivering their cargo. The viruses come in a variety of packages that determine which types of cells they can infect, but no one has devised a package that will dock only with particular ganglion cell types.

The problem, then, is that optogenetic proteins could be made, and activated, in all 20 ganglion-cell varieties at the same time, including ones that send contradictory information to the brain, says Sahel, in Paris. “It’s like saying yes and no to the same thing,” he says.

Bipolar expedition

Dizhoor has always thought the bipolar cells were the way to go. After all, they are the natural middlemen between the photoreceptors and the ganglion cells. If their connections with the ganglion cells still hold in degenerated retinas, activating the bipolar cells, which come in two major varieties, should give a less noisy picture of the world than 20 types of ganglion cells chattering at once.

Bipolar cells are described as either ON or OFF. ON bipolar cells are activated when light levels increase, like when you switch on a lamp in a dark room or walk outside into bright sunlight. OFF bipolar cells get excited when light levels decrease. In 2008, Roska and his colleagues put ChR2 into ON bipolar cells in blind mice, enabling them to see patterns about half as well as mice with normal sight (SN: 5/24/08, p. 8).

So far, researchers haven’t demonstrated that targeting bipolar cells paints a clearer picture of the world than targeting ganglion cells does. Plus, bipolar cells are hard to reach. The viruses have to be injected under the retina, risking detaching the fragile tissue.

No matter which cells they target, researchers have gotten so good at using optogenetics to restore vision in blind mice that every experiment is virtually guaranteed to work, Roska says. New researchers in his lab often mistake blind mice that have had optogenetic therapy for normally sighted mice. Unfortunately, experience with mice doesn’t make moving the technology into humans any easier, he says. “You have to reengineer everything you have.”

Story continues below infographic

Sahel, Roska and a few other scientists have teamed up to form a company in Paris called GenSight Biologics. The goal is to develop gene therapy and optogenetic therapy for people with one of the most common genetic forms of blindness, a retina-degrading disease called retinitis pigmentosa, and for people with some rare eye diseases. Both GenSight and RetroSense Therapeutics, headquartered in Ann Arbor, Mich., hope to begin clinical trials by the end of  2016. Though they are using similar approaches, they may not end up targeting the same cells.

GenSight is still weighing its options. RetroSense is aiming its optogenetic therapy at the ganglion cells, largely because those cells are easy to access via injection into the center of the eye.

Retinal ganglion cells also have staying power. In retinitis pigmentosa, the photoreceptors are the first to go. Usually, the rods succumb, then the cones. Later, bipolar cells may also die off. But even “very late in the disease process, the ganglion cells are still there,” says RetroSense’s chief medical officer, Peter Francis. If the approach works, patients who get optogenetic therapy targeted at their retinal ganglion cells may be able to hold on to their new vision for decades, he says.

A monochromatic response

Which cells are made light sensitive isn’t the only factor in determining how well people may be able to see. The optogenetic molecules themselves are important.

The photoreceptors that detect light in human eyes operate over a wide range of intensities from dim starlight to a glaring day at the beach, says Flannery of UC Berkeley. And most people can see a rainbow of colors, thanks to the cones’ natural light-harvesting proteins. But the light-activated molecules used in optogenetics are far more limited; they are not as sensitive to different degrees of brightness and they detect only certain wavelengths, and thus colors, of light. “It’s a bit like a bike with one gear, compared with a bike with 20 gears,” Flannery says. The current molecules, he adds, don’t work very well at twilight.

Flannery’s collaborator Ehud Isacoff, a UC Berkeley neuroscientist, is among researchers devising light-activated molecules to be more flexible than channelrhodopsin and the other proteins that are borrowed from microbes.

In December, Flannery and collaborators reported in the Proceedings of the National Academy of Sciencesthat they had tested a light-activated version of a protein called an ionotrophic glutamate receptor. In bipolar cells and other cells, when the communication chemical glutamate docks with the receptor, a channel opens and ions flow into the cell. The researchers coupled the receptor protein to a molecule called a photo­switch. In the dark, the photoswitch holds glutamate away from its docking port. But when blue light hits the engineered receptor, called LiGluR, the photoswitch allows glutamate to dock and open the channel.

Placing the LiGluR protein in either the retinal ganglion cells or in the ON bipolar cells of blind mice restored the rodents’ vision. The mice could see well enough to scurry for the shadows when placed in a brightly lit area. They could also navigate a water maze.

Flannery, Isacoff and colleagues at the University of Pennsylvania also inserted the LiGluR protein into retinal ganglion cells of blind dogs. The cells became responsive to light, but the team is still testing whether the therapy helps the dogs see.

LiGluR has some pros and cons, says Isacoff. It requires a constant supply of the chemical photo­switch, which will probably mean weekly eye injections. On the positive side, patients could receive upgrades as the photoswitch is improved, without needing additional gene therapy. And if optogenetic-powered vision proves to be confusing or uncomfortable for patients, doctors could just stop injecting the chemical. Other optogenetic molecules have no such off switch, Isacoff says.

Because current optogenetic proteins respond only to specific wavelengths of light, people who undergo optogenetic therapy will probably see in shades of gray. Pan and others are tweaking the molecules to extend the range of wavelengths to restore some color vision. That goal is a long way off, Pan says.

Even with improved light-sensing molecules in place, people who get optogenetic therapy will probably need additional help. Special goggles may be needed to boost ambient light levels and tune the wavelengths to optimally activate the proteins.

The brain will probably need some training as well. “We’re providing a new language to the retina, and it will take time to learn,” Roska says.

RetroSense’s Francis isn’t worried that patients won’t be able to understand what they are seeing. “The brain is extremely good at adapting to visual input and making sense of those images,” he says. At least that has been the experience of people who have electrodes implanted on the retinal ganglion cells.

Those early experiments with electrodes that showed the blind man a dim candle eventually evolved into retinal implants. Last year, a company called Second Sight Medical Products of Sylmar, Calif., began selling its “bionic eye” in the United States. The device uses 60 electrodes, each stimulating several ganglion cells in the retina. It’s enough to allow blind people to navigate and make out windows and doors. Some say they can see tables in their path and even dishes on the table. It’s a big improvement, Sahel says, but it is nowhere near normal vision.

Partial restoration

Optogenetics researchers think they can do better. There are about 1 million ganglion cells and 10 million bipolar cells in the retina. If even 10 percent of those cells can be made light sensitive, that’s a potentially huge gain in resolution over the implants. Of course, no one knows if more signal is actually better. It may just increase the noise the brain must decipher.

Even if everything goes swimmingly, patients shouldn’t expect to see perfectly, Sahel says. “It won’t reach the sophistication of normal vision. It’s partial restoration.”

The researchers are moving swiftly but cautiously toward trying the therapy in people.

Safety tests in primates look promising so far, but researchers don’t have final results and can’t move into human trials until they know it is safe. “We want to be first, but we want to be first to do things right,” Sahel says.

Unafraid of the Dark

FOUNDATION FIGHTING BLINDNESS

When Allison Corona (right) and her friends played the card game Uno, they had a rule that green and blue were the same color. The rule was instituted because Corona, 23, has an inherited form of blindness called Leber congenital amaurosis.The light-gathering cells in her retinas don’t work properly due to a mutation in a gene called RPE65. As a result, Corona’s world was indistinct. During the day, she could see light, but not shadows. She saw colors, but had trouble telling them apart. After sunset the world went dark. Corona was afraid to schedule college classes after 3 p.m. because she couldn’t navigate unfamiliar surroundings alone.

But Corona has one of the few conditions doctors can treat with traditional gene therapy. In 2012, she participated in a clinical trial at the University of Pennsylvania in which doctors injected viruses carrying healthy copies of theRPE65 gene into her eyes. The viruses delivered the gene to retinal cells, where it makes a normal version of the protein that Corona otherwise lacks.

Shortly after the surgery, her vision changed. At first, the light was overwhelming and painful.

“I just sat in the dark,” Corona says. “I wore sunglasses everywhere. I looked like a rapper.”

But she adjusted, and her sight improved dramatically, although she is still legally blind.

Today, she plays Uno without the green-equals-blue rule. But she’s most excited about having night vision. “Now fear isn’t a thing,” she says. “I’m able to move around at night. That’s a big accomplishment.”

Despite recent reports of people with LCA eventually losing their light sensitivity, Jean Bennett, a U Penn molecular geneticist who helped conduct the study that Corona was involved in, says her early data indicate the improvements will last. — Tina Hesman Saey