PRE2015 4 Groep3
Members of this group:
- Maurits Ambags - 0771400
- Wesly Chu - 088994
- Arthur Geel - 0907552
- Jasper Sparla - 0844019
- Twan Weernink - 0851703
Potential ideas for this project
- Autonomous Refueling Stations
- Guidance system for elderly/demented people
- Cleaning robots for in café's/bars
- Delivery robots in buildings (Packages, but also for food/drinks)
- Cooking robots
- Agriculture robots (Both for small greenhouses as for big fields)
- Window cleaning robots
Week 2 Discussed new possible options for project. We decided to develop a new smart medication intake system. Mailed the project supervisors for feedback on this idea. We made the powerpoint presentation for this subject and discussed the neccesary problems for this subject. https://docs.google.com/presentation/d/1P7jWKwyMBLSlZsZ2kOfQlemWNvSBaDBneIOfY8xGeBs/edit Main literature link for problem http://www.rivm.nl/Documenten_en_publicaties/Algemeen_Actueel/Nieuwsberichten/2013/Miljoen_65_plussers_loopt_risico_op_verkeerd_medicijngebruik
[We should probably scrap this chapter and replace it with a brief introduction of the project, preferably 2-3 lines of text so that readers of this wiki can quickly get an indication of what this is about]
Introduction
In present day, people are using more medicine than ever. Patients are expected to take the right amount of their medicine at the right time, often multiple different ones per day. Each of these activities is a process that can easily go wrong, which has the potential to do some serious damage. As we get older, we generally use multiple medicines at the same time, yet our memory becomes worse. The budget cuts in health care result in doctors and pharmacists having less time for each patient, which means they might not understand exactly what they are taking. With the rush of internet and communication sciences, a lot of the patients files are being converted to digital files, yet not everyone is using a standardized format, which means communication can be an issue.
A report that the dutch government has released in 2013, entitled ‘polyfarmacie bij kwetsbare ouderen’ [citation needed], states that over one million people aged 65 and over take five different types of medication every single day. When we expand our view to those aged 75 and over, we see that 20 percent of those take nine different types of medication every day. When you combine that with the fact that up to 40 percent of the elderly receive insufficient information about their medication, an over- or underconsumption of medicine is the frightening result. Often, the medicine old people take are quite potent, leading to hazardous situations when taken incorrectly.
Finally, when we consider the prevalence of dementia amongst the elderly, of which over thirty percent of the people older than 80 years old suffer, it is clear that there is a need for a tool that helps people with their medication, both for when they need to take their medicine, but also as a safeguard to prevent dangerous combinations.
State of the art
Introduction
Medicine boxes are not a novel concept. Medicine has been around ever since the ancient ages, and medicine boxes are a straight-forward extension of medication to keep things organised. Modern pharmacies often have the medication distributed in individually sealed bags with the date of when the medicine should be taken on them, and there are also a plethora of physical medicine cases with dates on them to remind the patients of when medicine needs to be taken. Some of the aforementioned medicine cases can be locked to prevent medicine abuse.
Physical medicine boxes
Medicine boxes that are able to be locked have been around since the
Example two
Example three
Conclusion
So, what is actually wrong with the current things, and what can we add to make our concept valuable in the market? Well, what we can do is ..., ... and ... . The end.
Requirements
This medicine box should be able to dispense medicine into a compartment that the user can access whenever the time is right. To do this, the box should keep track of its schedule and dispense medicine when necessary. When medicine is due, the user should be notified by the box that medicine is ready to be taken. The medicine storage consists of several separate containers, not directly accessible by the user. The box should dispense medicine from these containers into the aforementioned compartment, according to its internal scheduler. It should also remind the patient in what kind of manner it has to use the medicine e.g. on a empty stomach, before sleep etc,etc.
Secondly, the box should be remotely accessible by caretakers and doctors. They should be able to use an application to update the dosage of medicine in the box. This should alleviate some of the confusion for the patient when dosages change, and should prevent over-consumption of medicine, since dosage can be changed without an intermediate appointment with the doctor. It should also be possible for the doctors and caretakers to see the historical medicine intake of the patient and if it is following its prescription.
To refill the box, the user should be able to pick up (parts of) the box, so that it can be taken with them to the doctor and/or pharmacist. We rely on the caretakers' expertise to fill the box and update the data in the application accordingly, so that the user should not have to concern themselves with their medicine intake.
USE Aspects
User
The main benefit of this technology is that we can provide a better structure in the medicine intake of the patient. This should relieve the user of the burden of remembering when to take which medicine, and also notify them to take medicine when the user might otherwise forget. This should provide the user with several benefits:
More controlled medicine intake
Patients nowadays are generally solely responsible for taking their medicine and finishing treatments. This leads to cases where a patient might forget to take medicine, or even take too much medicine. In the first case, this has a direct negative effect on the effectiveness of the treatment. In the latter case this will probably have a negative effect on the well-being of the patient. Especially when medicine treatment is required over longer time period, or when patients should continue taking medicine even if they are no longer sick (think of for instance antibiotics), patients are more likely to slack on their medicine intake. By encouraging the patient to continue taking their required medicine, we hope to see treatments being more effective.
Preventing over-consumption after treatment ends
Since patients so often are required to take several kinds of medication simultaneously, it may be difficult for the patient to keep track of when to stop taking which medicine. This may result in patients continuing to take medicine even after the intended end of the treatment. Pharmacies nowadays already attempt to prevent over-consumption by only giving exactly as much medicine as is required, though this is not always the case. Also, considering the above, if a patient forgets to take their medicine several times, they assume that they have to finish all of their medicine anyway, resulting in them taking medicine after the end of intended treatment.
More importantly, especially in the case of elderly, some medicine may be given on a recurring schedule until further notice from a doctor and/or caretaker. In these cases, the patient should meet with the doctor once more, at which point the doctor may decide whether to continue using the medicine or not. However in reality, patients may continue taking medicine just because they are in the habit of doing so. This is especially a problem for the elderly, where long-lasting or even continuous treatments are not uncommon. This technology should serve as some kind of threshold for the doctor to consider repeating a prescription, and hopefully cancelling it when possible to prevent unnecessary medicine intake.
Minimising medicine resistance
Over-consumption of medicine also leads to future risks in the form of medicine resistance. In some cases, the patient's body may regard the incoming medicine as being hostile (especially for antibiotics) and the immune system may try to combat the medicine. On the long term, this results in the immune system effectively dispatching of the medicine, and therefore making the patient immune to the medicine's effect. Needless to say, over-consumption of medicine will only speed up this process, and preventing medicine resistance may be beneficial to the patient in the future.
Society
The medicine box should remind people to finish their prescription and not simply stop when their are feeling better. When they complete their prescription they prevent unnecessary bacteria resistance against the medicine.
Enterprise
Standardising the way people take medicine should allow pharmacists and doctors to more effectively prescribe and dispatch medicine to patients. This in turn should allow both parties to be more time-efficient.
It is worth noting that over-consumption of medicine is beneficial to pharmacists and pharmaceutical companies, since it increases their sales. While this technology does not in any way hinder their intended sales, there may be a decrease in sales from these enterprises as a result of less redundant medicine intake.
Stakeholders
The primary stakeholders for the medicine box are elderly people who can still live on their own or with assistance. The patient must be able to take the pills on their own in the correct way since the box can only encourage medicine usage and cannot enforce it. The patient doesn't have to worry about their pill intake anymore and wonder whether they have taken their pills. Since pills are stored in a central place the risk of accidents will be smaller. Small children will be less at risk of finding medicine randomly scattered in a home and eating them.
The secondary stakeholders are the pharmacists who will fill the box and the doctors who will set the schedule for the machine. The pharmacist already is able to see which treatment the patient is on. He will need to have a way to accurately restock the machine with the correct medicine in the right compartment. The doctor must have the ability to see the historical medicine usage of the patient and whether the patient adheres to the treatment. If he sees an anomaly in the usage he can discuss this with the patient. The doctor also must be able to change the prescription and dose remotely.
Tertiary stakeholders will be the companies that will produce and install these machines in peoples homes.
Scenario/functionalities
It's 1 o' clock, its time to take your medication.The smart medicine dispenser turns on it's alarm and lights start to blink, the brightness and sound volume increase over a period of 5 minutes. The subject has to walk up to the dispenser and touch a button on the screen in order to turn off the alarm. At the time the button is pressed the medicines are released.
Planning
Week 1
Field research
Week 2
Clarify our project goals
Define USE aspects
Literature research
Field research
Week 3
Design sketches
Start up qualitative questionnaires
Start up quantitative questionnaires
Week 4
Develop UI for app
Start prototyping the final design
Questionnaire Data processing
Week 5
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Week 6
User-test medicine box
Week 7
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Week 8
Review wiki and update if necessary
Buffer week
Week 9
Prepare final presentation
Used Literature
Below is an example of how we should reference to the literature we have used, also known as APA style referencing.
- Author, A.A.. (Year of Publication). Title of work. Publisher City , State: Publisher.
- Author, A.A.. (Year, Month Date of Publication). Article title. Retrieved from URL