Gene Therapy for Rare Form of Blindness Approved in US
美國批準一種罕見失明疾病的基因療法
American health officials recently approved the first gene therapy treatment for an inherited disease – the type that can pass from parent to child.
美國衛(wèi)生官員最近批準了第一種治療遺傳性疾病的基因療法。遺傳性疾病是指可以從父母傳給孩子的疾病。
The treatment improves the sight of patients suffering from a genetic mutation that destroys their ability to see. It is the first gene therapy approved where a corrective gene is given directly to patients.
這種療法可以改善受基因突變破壞視覺能力的患者的視力。它是第一種獲得批準的將修正基因直接賦予病人的基因療法。
People with the disease usually start losing their sight before they are 18. This often progresses to total blindness. The gene that causes the disease could suddenly appear when a child is born with a copy of the gene from both parents.
患有這種疾病的患者通常會在18歲之前喪失視力,這往往會導致完全失明。當孩子遺傳了來自父母雙方的這種致病基因時,這種基因可能會突然呈現(xiàn)。
Only a few thousand people in the U.S. are thought to have the condition.
美國只有幾千人被認為患有這種疾病。
Patients receive the therapy, called Luxturna, through two injections, one for each eye. These replace the problem gene that prevents the retina, a tissue at the back of the eye, from changing light into electronic signals sent to the brain.
患者通過兩次注射,每只眼睛接受一次注射來接受這種被稱為Luxturna的療法。這些基因會取代妨礙視網膜將光線轉化為電子信號發(fā)送給大腦的問題基因。視網膜是眼睛里面的一種組織。
Mistie Lovelace received one of the early treatments. She said, "One of the best things I've ever seen since surgery are the stars. I never knew that they were little dots that twinkled."
米斯提·洛夫雷斯(Mistie Lovelace)接受了這種早期治療。她說:“手術之后我看到的最美好的東西就是星星。我從來不知道它們就是些閃爍的小光點。”
Drugmaker Spark Therapeutics has not set the price for the treatment. Its own research, however, has put the value of the therapy at around $1 million.
制藥商Drugmaker尚未確定這種療法的價格。然而,該公司自己的研究將這種療法的價值定在1百萬美元左右。
The company says the reason for the high price is due to their prediction that Luxturna will be given only once, with lasting positive effects. To date, the company has researched patients in a study for as long as four years and has not seen their vision worsen.
該公司表示,高價格是因為他們預測Luxturna療法只有一次能夠具有持久的積極影響。迄今為止,該公司已經對病人進行了長達四年的研究,并且他們的視力沒有出現(xiàn)惡化。
The Food and Drug Administration has approved three gene therapies since August. The two other treatments are specially designed treatments for forms of blood cancer.
自8月份以來,美國食品和藥品管理局已經批準了三種基因療法。另兩種療法是對白血病的特別定制療法。
New success for difficult field
高難度領域的新成功
The approval marks an important growth for a field of study that has struggled with safety concerns.
獲得批準標志著深受安全擔憂困擾的這一研究領域取得了重要進展 。
In 1999, a patient treated for a rare metabolic disorder at the University of Pennsylvania died. In another case, patients treated for an immune disorder later developed leukemia.
1999年,一名在賓夕法尼亞大學接受罕見代謝紊亂疾病治療的患者去世。在另一起案例中,接受一種免疫疾病治療的患者后來患上了白血病。
Dr. David Valle said the excitement about the possibilities for genetic medicine create opportunities for research on individual diseases.
戴維·瓦勒博士(Dr. David Valle)表示,遺傳醫(yī)學的這種可能性為研究具體疾病創(chuàng)造了機會。
University of Pennsylvania researcher Dr. Jean Bennett said she and her husband, Dr. Albert Maguire, first imagined using genetic medicine to treat retinal blindness in the mid-1980s.
賓夕法尼亞大學研究員吉恩·班納特博士(Dr. Jean Bennett)表示,她和她的丈夫艾伯特·馬奎爾博士(Dr. Albert Maguire)最初在上世紀80年代中期就設想了利用遺傳醫(yī)學治療視網膜疾病導致的失明。
But it took many years to develop the science and technology. The first animal tests happened in 2000 and the first human tests in 2007.
但是開發(fā)這類科學技術花了很多年時間。第一次動物試驗是在2000年,第一次人體試驗是在2007年。
"We didn't know what genes caused the disease, we didn't have animal models with those genes, we didn't have the ability to clone genes and deliver them to the retina — so it took time to develop all that," said Bennett.
班納特表示:“我們不知道是什么基因導致了這種疾病,我們不具備這些基因的動物模型,我們不具備克隆基因并將它傳遞到視網膜的能力,所以需要花費時間來開發(fā)以上這些技術。”
I'm Phil Dierking.
菲爾·德爾金報道。
American health officials recently approved the first gene therapy treatment for an inherited disease – the type that can pass from parent to child.
The treatment improves the sight of patients suffering from a genetic mutation that destroys their ability to see. It is the first gene therapy approved where a corrective gene is given directly to patients.
People with the disease usually start losing their sight before they are 18. This often progresses to total blindness. The gene that causes the disease could suddenly appear when a child is born with a copy of the gene from both parents.
Only a few thousand people in the U.S. are thought to have the condition.
Patients receive the therapy, called Luxturna, through two injections, one for each eye. These replace the problem gene that prevents the retina, a tissue at the back of the eye, from changing light into electronic signals sent to the brain.
Mistie Lovelace received one of the early treatments. She said, “One of the best things I’ve ever seen since surgery are the stars. I never knew that they were little dots that twinkled.”
Drugmaker Spark Therapeutics has not set the price for the treatment. Its own research, however, has put the value of the therapy at around $1 million.
The company says the reason for the high price is due to their prediction that Luxturna will be given only once, with lasting positive effects. To date, the company has researched patients in a study for as long as four years and has not seen their vision worsen.
The Food and Drug Administration has approved three gene therapies since August. The two other treatments are specially designed treatments for forms of blood cancer.
New success for difficult field
The approval marks an important growth for a field of study that has struggled with safety concerns.
In 1999, a patient treated for a rare metabolic disorder at the University of Pennsylvania died. In another case, patients treated for an immune disorder later developed leukemia.
Dr. David Valle said the excitement about the possibilities for genetic medicine create opportunities for research on individual diseases.
University of Pennsylvania researcher Dr. Jean Bennett said she and her husband, Dr. Albert Maguire, first imagined using genetic medicine to treat retinal blindness in the mid-1980s.
But it took many years to develop the science and technology. The first animal tests happened in 2000 and the first human tests in 2007.
“We didn’t know what genes caused the disease, we didn’t have animal models with those genes, we didn’t have the ability to clone genes and deliver them to the retina — so it took time to develop all that,” said Bennett.
I’m Phil Dierking.
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Words in This Story
clone - n. a plant or animal that is grown from one cell of its parent and that has exactly the same genes as its parent
dots - n. small round marks
gene therapy - n. a way of treating some disorders and diseases that usually involves replacing bad copies of genes with other genes
immune - adj. not capable of being affected by a disease
inherit - v. to have (a characteristic, disease, etc.) because of the genes that you get from your parents when you are born
leukemia - n. a very serious disease in which the body forms too many white blood cells
metabolic - adj. the chemical processes by which a plant or an animal uses food, water, etc., to grow and heal and to make energy
mutation - n. a change in the genes of a plant or animal that causes physical characteristics that are different from what is normal
surgery - n. medical treatment in which a doctor cuts into someone's body in order to repair or remove damaged or diseased parts
twinkle - v. a quick, unsteady movement of light
opportunity - n. ?an amount of time or a situation in which something can be done?
deliver - v. ? to take (something) to a person or place?