A.10:30. | B.11:30. | C.11:00. |
1. Why does the man make the phone call?
A.To make an appointment. |
B.To get to know Dr. Sharp. |
C.To ask about her e-mail address. |
A.A form signed by Dr. Sharp. |
B.A full physical check-up. |
C.A test about the position. |
A.By calling him. | B.By e-mailing him. | C.By visiting him. |
3 . When delivering medications to patients, one of the most effective methods is direct injection (注射) into the bloodstream using a needle. But this can be an uncomfortable experience, especially for kids or adults with a fear of needles. While patients do have the option to take oral pills instead, drugs containing large molecules (分子) are not absorbed effectively this way.
Now, inspired by octopus suckers (章鱼吸盘), researchers from China and Switzerland have designed a needle-free alternative: a tiny, drug-filled, cup-like patch (贴片) that sticks to the inside of the cheeks. The device is easily accessible, and it can be removed at any time and the drug gets absorbed through the lining of the inner cheek, the team reports in a paper in Science Translational Medicine.
To test the design, the team 3D printed the suckers. They loaded each with the drug and stuck them inside the cheeks of three beagles, a kind of dog which has a similar inner cheek lining to humans. For comparison, they also delivered the drug to beagles via a pill. After three hours, the team found that drug blood concentrations in dogs with the patch were more than 150 times higher than in the dogs that took a tablet. They also found patches worked effectively for drugs with large molecules.
40 healthy human volunteers self-applied water-filled patches to see how well they would stay on while talking and moving their mouths. After 30 minutes, only five of the 40 patches had fallen off, which was because of improper placement. Most volunteers said they would prefer a patch over injections for daily applications.
Still, the team only tested the patch for a short time so they would need to find out what would happen if it was used repeatedly. They’d also need to determine which drugs would work with the technology: the target is large molecules, such as those used to treat obesity or osteoporosis, but they can’t be too large to fit in the cup.
1. Why do the researchers develop the patch?A.To help patients overcome the fear of needles. |
B.To enable kids to swallow tablets smoothly. |
C.To offer a better way of drug delivery. |
D.To guarantee the efficiency of oral pills. |
A.It is technologically possible to 3D print the patches. |
B.The cheek lining of dogs is similar to that of humans. |
C.Patches fall easily with their mouth movement. |
D.Drugs are absorbed better through patches than pills. |
A.Innovative and profitable. |
B.Effective and user-friendly. |
C.Affordable and accessible. |
D.Flexible and long-lasting. |
A.The related issues to be solved. |
B.The risk of using patches repeatedly. |
C.The way to identity large molecules. |
D.The trouble of improving the technology. |
4 . The Best Medicine
As I approach the hospital wearing my white coat, I look just like any other doctor. That is until I put on my curly rainbow wig, big red nose, and add my name badge “Doctor Larry Laugh-Out-Loud”. I walk through the doors into the waiting area, where there’s a familiar atmosphere of boredom and tension. People sit uncomfortably on plastic chairs, looking through old magazines, all of which have been read hundreds of times previously. Anxious parents do what they can to comfort nervous and crying children.
In the middle of this particular scene I spot a small girl whose ankle is twice its normal size. I speak with the on-duty nurse, who tells me that Lara’s parents rushed her to the hospital after she fell off her bicycle.
Scientific studies show that laughter produces chemicals to make people feel better, which means clown doctors can be helpful. We are specially trained clowns who work as part of a programme known as “hospital clowning”.
Visiting hospitals and other health care facilities, we clown doctors work together with medical professionals. On a typical day, we spend our time cheering up patients, their families, and more often than not, the hospital staff, too! We do this by doing magic tricks, singing songs, telling stories and, of course, telling silly jokes. Some children, though, don’t feel like laughing, especially if they’re in pain. We have to be very sensitive and work closely with the doctors and nurses, who keep us updated on each patient.
And as for me? Well, when I take off my wig and my red nose, I’m still wearing a big smile, as I remember all the fun and laughter of the day. While there might be more hospital visits ahead for Lara and others, I hope that clown doctors help make it a friendlier place to visit.
A.And my magic medicine does indeed seem to do the trick |
B.As the saying goes, he who laughs last laughs the best |
C.After all, it really is true that “laughter is the best medicine” |
D.I chose this career because of my experience of going to hospital when I was a kid |
E.Since getting here, Lara has spent her time crying in pain |
The culture of traditional Chinese medicine (TCM) became
Visitors to the TCM culture area
“Foreign guests particularly enjoyed experiencing Chinese therapeutic massages. They were highly
“TCM culture is an important part of traditional Chinese culture and we are committed to
A.In a pet hospital. | B.In a park. | C.In a zoo. |
A.At a canteen. | B.At a clinic. | C.At a bank. |
For Dr. Janice Graham, an anthropologist in the Division of Pediatric Infectious Diseases, vaccines are more than medicine—they are social products. “
A flu vaccination is particularly important,especially during severe flu seasons. The Centers for Disease Control and Prevention announced in its
On June 5 China launched the three-person Shenzhou 14 mission, which is
They will also carryout 24 in-orbit medical experiments during
“These space medical experiments are designed
Li also noted that the body data
10 . In a first-of-its-kind surgery, a 57-year-old patient with terminal (晚期的) heart disease received a successful transplant of a genetically-modified (转基因的) pig heart and is still doing well three days later. It was the only currently available option for the patient. The historic surgery was conducted by the University of Maryland Medical Center (UMMC).
This organ transplant showed for the first time that a genetically-modified animal heart can function like a human heart without immediate rejection by the body. The patient, David Bennett, a Maryland resident, is being carefully monitored over the next weeks to determine whether the transplant provides lifesaving benefits. He had been considered ineligible for a traditional heart transplant at UMMC and several other leading transplant centers that reviewed his medical records.
“It was either die or do this transplant. I want to live. I know it’s a shot in the dark, but it’s my last choice,” said Mr. Bennett, the patient, a day before the surgery was conducted. He had been hospitalized for the past few months.
Before the surgery, three genes, responsible for the rejection of pig organs by humans, were “knocked out” in the donor pig (供体猪). Six human genes responsible for immune acceptance of the pig heart were put in. Lastly, one additional gene in the pig was knocked out to prevent unreasonable growth of the pig heart tissue, which totaled 10 unique gene edits made in the donor pig.
“This was a breakthrough surgery and brings us one step closer to solving the organ shortage crisis. There are simply not enough donor human hearts available to meet the long list of potential receivers,” said Bartley P. Griffith, Doctor of Medicine, who surgically transplanted the pig heart into the patient. Daniel Maluf, Doctor of Medicine, said: “This event is the final achievement of years of research and testing from our multidisciplinary (多学科的) team and represents a beginning of a new era in the field of organ transplantation medicine.”
1. Why is the transplant seen as the first of its kind?A.A major breakthrough to cure cancer. | B.A new technology to edit genes. |
C.An available option for all patients. | D.A successful use of a pig heart. |
A.Grateful. | B.Unqualified. | C.Suitable. | D.Irresponsible. |
A.To increase the success rate of the surgery. |
B.To give the donor pig a better survival rate. |
C.To stop the overgrowth of the pig lung tissue. |
D.To improve the acceptance of the additional gene. |
A.The lack of heart medicine. | B.The lack of donor human organs. |
C.The lack of clinical tests. | D.The lack of medical facilities. |