1 . Everybody should have some first aid techniques,because accidents and medical emergencies can happen anywhere at any time and in such an urgent situation lives can be saved. St. John First Aid courses give you the knowledge and confidence to provide effective first aid whenever it is needed.
First Aid Level 1
Ideal for anyone who wants to learn basic first aid or needs to renew their first aid qualification (资格). Courses can be held at St. John or your workplace.
Fee: $162 (includes GST)
Duration: eight hours
First Aid Level 2
Includes all course content from First Aid Level 1,plus an additional half day. Ideal for special first aiders,health and safety managers and anyone who needs a first aid qualification.
Fee: $235 (includes GST)
Duration: twelve hours
Pre-Hospital Emergency Care (PHEC)
Advanced training for first aiders who already hold unit standards 6400 and 6402. Ideal for people who require advanced first aid skills or a pre-hospital emergency care qualification for their work.
Fee: $635 (includes GST)
Duration: three days
Child First Aid
Ideal for parents,grandparents and other family caregivers.A recognized qualification for childcare workers.
Fee: $65 (includes GST)
Duration: four hours
Outdoor First Aid
First aid response to accidents and medical emergencies in the wilderness. For groups of eight or more.
Duration: one to two days depending on experience
Sports First Aid
First aid response to common sports injuries and medical emergencies. Includes ACC injury prevention advice.
Fee: $65 (includes GST)(If you are a trainer, you can get a 20% discount.)
Duration: eight hours
1. If you are going to camp,which course should you choose in advance?A.Child First Aid. | B.Sports First Aid. |
C.First Aid Level 1. | D.Outdoor First Aid. |
A.$162 | B.$78 | C.$65 | D.$52 |
A.First aid in childcare. | B.Basic emergency care. |
C.Advanced first aid skills. | D.Injury prevention methods. |
2 . Robotic surgery is one thing, but sending a robot inside the body to car you tan operation is quite another, which has long been a goal of some researchers to produce tiny robotic devices. These devices are capable of traveling through the body to deliver drugs or to make repairs without the need for a single cut, the possibility of which has just got a bit closer.
However, unlike the plot of one film — which featured a microscopic crew and submarine traveling through a scientist’s bloodstream this device could not be put into blood vessels (血管) because it is too big. While other types of miniature robots that can be swallowed were developed in the past, their role has mostly been limited to capturing images inside the body. In a presentation this week to the International Conference, Daniela Rus and Shuhei Miyashita of the Massachusetts Institute of Technology described a robot they have developed that can be swallowed and used to collect dangerous objects accidentally taken in.
To test their latest version, Dr. Rus and Dr. Miyashita designed a robot as a battery hunter, which might seem to be an odd task. However, more than 3,500 people in America alone, most of them children, swallow the tiny button cells used in small electronic devices by accident every year. To start with, the researchers created an artificial esophagus (食道) and stomach made out of silicone (硅胶). It was closely modeled on that found in a pig and filled with medical liquid; the robot itself is made from several layers of different materials, including pig intestine (肠), and contains a little magnet (磁铁). This is folded up and wrapped in a 10mmx27mm capsule of ice. Once this reaches the stomach, the ice melts and the robot unfolds which is moved and guided with the use of a magnetic field outside the body. In their tests, the robot was able to touch a button battery and draw it with its own magnet, and during dragging it along, the robot could then be directed towards the intestines where it would eventually be gotten rid of through the anus. After it, the researchers sent in another robot loaded, with medication to deliver it to the site of the battery to speed up healing.
The artificial stomach being transparent on one side, the researchers can see the batteries and visually control the robots. If not, that will require the help from imaging system, which will be a bit more of a challenge, but Dr. Rus and Dr. Miyashita, are determined to succeed.
1. According to the passage, the robot operation will probably be able to .A.travel through a scientist’s bloodstream |
B.photograph the body to convey it to the doctor |
C.enter the body to deliver drugs or make repairs |
D.operate on a person outside the body completely |
A.the researchers did the experiment on a chosen animal |
B.the robot took necessary drugs besides a little magnet |
C.digesting the swallowed batteries is difficult for children |
D.the actual size of the robot maybe larger than the capsule of ice |
A.The surgeries will cost patients much money. |
B.Patients will suffer less for some surgeries. |
C.Fewer children will swallow the button cells. |
D.A robot will be invented traveling blood vessels. |
A.An Experiment on Robot | B.Tiny Robot, Significant Role |
C.The Robotic Voyage in Body | D.The Exploration of Robot Technology |
3 . I grew up in a home with a mother who believes that vaccines cause brain damage, and do not contribute to the health and safety of a society. The only shot I received was for tetanus (破伤风) when I was two months old. After that, nothing.
At the beginning of each school year, I was very anxious. Delayed term paper? Mischievous (捣蛋的) behaviour? Late for school? None of them. I’d be pulled out of class and brought to the headmaster’s office. The school doctor would tell me I haven’t received any of the necessary shots to attend school. But the same thing occurred each time: my mom would exempt (免除) me from the shots and nothing would happen.
After doing a lot of research, I found although people who don’t vaccinate their children make up only a relatively small group, they can cause major consequences. People who, for health or age reasons, cannot receive vaccines are at a higher risk of catching a preventable disease.
Eventually, I turned 18. In Ohio, where I live, I had to wait until I became a legal adult to make the decision to receive vaccine shots. A huge factor in taking the step to ensure my health was the message board website Reddit. Last year, I asked Reddit users for advice about what vaccines to ask for and how to go about getting them from a doctor. After my post received more than 1,000 comments, I made an appointment with my family physician. Despite how strongly my mother felt, I went through with it anyway.
I did something every person should do. It wasn’t special in any way. Vaccines protect the health and safety of not only yourself but also other people. Vaccination is important because someone could die if you don’t get vaccinated. This was the biggest reason I got vaccinated despite the opposition.
1. What can we know about the author from Paragraph 1?A.He was born disabled. | B.He suffered from tetanus. |
C.He was hardly vaccinated. | D.He was spoiled by his mother. |
A.Because he would never behave himself. |
B.Because he couldn’t go to school on time. |
C.Because he often forgot to do his term paper. |
D.Because he would be called to meet headmaster. |
A.Grateful | B.Annoyed | C.Excited | D.Guilty |
A.Obeying the old pays off. | B.Keeping fit is the best policy. |
C.Doing the right thing matters. | D.Following advice is beneficial. |
4 . Wu Ming, a young German born after 1995, is a big fan of Chinese culture. As he thought some diseases can’t be treated
Studying TCM also
Wu
Wu thinks there’s no big difference between China and Western countries. “
A.immediately | B.gradually | C.thoroughly | D.consistently |
A.depend on | B.dig into | C.look up | D.work out |
A.created | B.enjoyed | C.advanced | D.acknowledged |
A.overcame | B.seized | C.divided | D.shifted |
A.raised | B.sorted | C.cooked | D.tasted |
A.aspects | B.standards | C.themes | D.means |
A.enriched | B.secured | C.expanded | D.changed |
A.exposed | B.reduced | C.restricted | D.addicted |
A.businesses | B.recreations | C.routines | D.tasks |
A.balanced | B.wealthy | C.humble | D.efficient |
A.employs | B.promotes | C.outlines | D.conveys |
A.scanning | B.checking | C.exploring | D.comparing |
A.concern | B.wish | C.demand | D.passion |
A.Misunderstanding | B.Destruction | C.Stress | D.Failure |
A.source | B.basis | C.bridge | D.tool |
5 . At Southmead Hospital in Bristol, researchers are experimenting with robots programmed to interact with patients for simple forms of physiotherapy (物理治疗). Another possible use might be basic bedside checks. Real applications are still some way off, but hospital leaders think this could help ease workforce pressure.
Everyone understands that people want more out of healthcare as they live longer. Hospitals have not enough workforce to meet those demands, and of course, robotics and technology can be taught to repeat unskilled tasks.
The hospital is working with Bristol Robotics Laboratory, looking at future care of patients in their own homes. This device can be controlled remotely to help with basic household tasks. Technology can clearly help those who need assistance at home, but might people feel they lose out from lack of human contact?
Professor Praminda Caleb-Solly at Bristol Robotics Laboratory said, “In no way are we looking to replace people, because nurses and doctors always think of what other people need and give them emotional support. The idea here is to improve the quality of care that can be provided. However, there are big questions over what that will mean for patients’ experiences and the impact on staff.”
And away from patients, there’s automation. Robots deliver most supplies around the hospital, including supplies to operating theatres and meals for the wards. They even have their own lifts. Because they do the heavy physical work, staff injuries have been reduced. Robot technology is also at work in the hospital drugstore. Orders for medicines are processed rapidly and made ready for clinical (临床的) teams. Pharmacists (药剂师) say it improves patient safety by eliminating (消除) human error.
Hugh Pym, BBC health editor, says that “robotic devices are thought to offer, potentially, major long-term benefits to hospitals. There’s great potential there.” They won’t necessarily offer cups of tea or even look like this. But the fact that hospital leaders are working with engineers on robotics shows there is a new vision for post-pandemic health and care.
1. What do we know about the robots programmed at Southmead Hospital?A.They will be put to use in the near future. |
B.They could control patients’ home at a distance. |
C.They can help patients to communicate with doctors. |
D.They may make up for the lack of staff in the hospital. |
A.Robots will replace doctors in medical treatment. |
B.Robots are favored by patients and medical staff. |
C.Robots are less considerate than human medical staff. |
D.Robots can be emotional with the help of technology. |
A.The theory behind the robotic technology. |
B.The advantages of using robots in hospitals. |
C.The cooperation between robots and doctors. |
D.The effect of automation on medical treatment. |
A.Positive. | B.Negative. |
C.Neutral. | D.Unclear. |
serious immediately which heal second burning liquids a within called |
There are three types of burns. Burns are
● First degree burns. These affect only the top layer of the skin. These burns are not
● Second degree burns. These affect both the top and the
● Third degree burns. These affect all three layers of the skin and any tissue and organs under the skin. Examples include burns caused by electric shocks,
It seems that people in western countries are becoming increasingly
I made an
Due to the outbreak of the novel coronavirus pneumonia (NCP), people all over the world are wearing masks
With several outbreaks of
9 . In 1875, hundreds of Peruvian railroad workers began coming down with a strange fever, which was followed by severe joint pain and then death. As the body count increased, alarm set in across the country. Desperate to explain the origins of this strange new disease, a Peruvian medical society announced a contest. A 26-year-old medical student named Daniel Carrion entered.
Scientists in Peru predicted the fever was connected to Peruvian warts (疣). But they struggled to prove a link. To Carrion, whose father was a well-known physician, there was a simple solution. If someone injected him with tissue from a wart on one of the sick patients, and he got sick, then the problem was solved—there was the connection. But there was another problem: Those who got the fever generally died.
Carrion was undeterred. “Once he made the decision that experimentation on a human was necessary, he must have asked himself: On whom?” wrote Lawrence K. Altman, a physician. “Carrion answered that question in the only way his conscience (良心) would allow: Myself.” He got the fever. And he died.
Altman’s book is titled “Who Goes First?” It’s a question that’s been asked throughout history when scientists have been faced with a serious new illness.
In the race to discover how disease spreads and what treatments might stop it, someone has to be tested first. That someone is often the doctor in the white coat. “Historically, self- experimentation was an important part of the scientific process, allowing medical advances that would have been hard to achieve otherwise,” wrote two researchers in a 2018 paper titled “Adventures in self-experimentation.”
In more modern times, vaccines (疫苗) are tested on animals for months and often years before reaching humans. Throughout history, though, impatient and desperate scientists decided to throw their own necks in the ring.
Twelve self-experimenters have won Nobel Prizes for their efforts. Carrion didn’t t live to see fame. But his bravery is immortal (不朽的).
1. What was the purpose of the contest declared by a Peruvian medical society?A.To find promising medical students. |
B.To find out the cause of a new disease. |
C.To compete for an opportunity to work with a famous physician. |
D.To learn from each other by exchanging views on strange diseases. |
A.Uneducated. | B.Unfortunate. |
C.Energetic. | D.Determined. |
A.Medical advances are very hard to achieve nowadays. |
B.Modern scientists turn their back on self experimentation. |
C.Scientific progress goes hand in hand with medical advances. |
D.Self-experimenters have made great contributions to medical advances. |
A.Vaccines help scientists win Nobel Prizes |
B.A new book about Peruvian warts will be published |
C.Scientists risked death testing vaccines on themselves |
D.Self experimentation has both advantages and disadvantages |