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Wednesday, November 29, 2023

Health Care Systems - Four Basic Models | Which would you like?

Health Care Systems - Four Basic Models


An excerpt from correspondent T.R. Reid’s upcoming book on international health care, titled “We’re Number 37!,” referring to the U.S.’s ranking in the World Health Organization 2000 World Health Report. The book is scheduled to be published by Penguin Press in early 2009.

There are about 200 countries on our planet, and each country devises its own set of arrangements for meeting the three basic goals of a health care system: keeping people healthy, treating the sick, and protecting families against financial ruin from medical bills.

But we don’t have to study 200 different systems to get a picture of how other countries manage health care. For all the local variations, health care systems tend to follow general patterns. There are four basic systems:


The Beveridge Model

Named after William Beveridge, the daring social reformer who designed Britain’s National Health Service. In this system, health care is provided and financed by the government through tax payments, just like the police force or the public library.

Many, but not all, hospitals and clinics are owned by the government; some doctors are government employees, but there are also private doctors who collect their fees from the government. In Britain, you never get a doctor bill. These systems tend to have low costs per capita, because the government, as the sole payer, controls what doctors can do and what they can charge.

Countries using the Beveridge plan or variations on it include its birthplace Great Britain, Spain, most of Scandinavia and New Zealand. Hong Kong still has its own Beveridge-style health care, because the populace simply refused to give it up when the Chinese took over that former British colony in 1997. Cuba represents the extreme application of the Beveridge approach; it is probably the world’s purest example of total government control.


The Bismarck Model

Named for the Prussian Chancellor Otto von Bismarck, who invented the welfare state as part of the unification of Germany in the 19th century. Despite its European heritage, this system of providing health care would look fairly familiar to Americans. It uses an insurance system — the insurers are called “sickness funds” — usually financed jointly by employers and employees through payroll deduction.

Unlike the U.S. insurance industry, though, Bismarck-type health insurance plans have to cover everybody, and they don’t make a profit. Doctors and hospitals tend to be private in Bismarck countries; Japan has more private hospitals than the U.S. Although this is a multi-payer model — Germany has about 240 different funds — tight regulation gives government much of the cost-control clout that the single-payer Beveridge Model provides.

The Bismarck model is found in Germany, of course, and France, Belgium, the Netherlands, Japan, Switzerland, and, to a degree, in Latin America.


The National Health Insurance Model

This system has elements of both Beveridge and Bismarck. It uses private-sector providers, but payment comes from a government-run insurance program that every citizen pays into. Since there’s no need for marketing, no financial motive to deny claims and no profit, these universal insurance programs tend to be cheaper and much simpler administratively than American-style for-profit insurance.

The single payer tends to have considerable market power to negotiate for lower prices; Canada’s system, for example, has negotiated such low prices from pharmaceutical companies that Americans have spurned their own drug stores to buy pills north of the border. National Health Insurance plans also control costs by limiting the medical services they will pay for, or by making patients wait to be treated.

The classic NHI system is found in Canada, but some newly industrialized countries — Taiwan and South Korea, for example — have also adopted the NHI model.


The Out-of-Pocket Model

Only the developed, industrialized countries — perhaps 40 of the world’s 200 countries — have established health care systems. Most of the nations on the planet are too poor and too disorganized to provide any kind of mass medical care. The basic rule in such countries is that the rich get medical care; the poor stay sick or die.

In rural regions of Africa, India, China and South America, hundreds of millions of people go their whole lives without ever seeing a doctor. They may have access, though, to a village healer using home-brewed remedies that may or not be effective against disease.

In the poor world, patients can sometimes scratch together enough money to pay a doctor bill; otherwise, they pay in potatoes or goat’s milk or child care or whatever else they may have to give. If they have nothing, they don’t get medical care.

These four models should be fairly easy for Americans to understand because we have elements of all of them in our fragmented national health care apparatus. When it comes to treating veterans, we’re Britain or Cuba. For Americans over the age of 65 on Medicare, we’re Canada. For working Americans who get insurance on the job, we’re Germany.

For the 15 percent of the population who have no health insurance, the United States is Cambodia or Burkina Faso or rural India, with access to a doctor available if you can pay the bill out-of-pocket at the time of treatment or if you’re sick enough to be admitted to the emergency ward at the public hospital.

The United States is unlike every other country because it maintains so many separate systems for separate classes of people. All the other countries have settled on one model for everybody. This is much simpler than the U.S. system; it’s fairer and cheaper, too.


Note - Reid’s “Beveridge” model corresponds to what PNHP would call a single payer national health service (UK); “Bismark” model refers to countries that PNHP would say use non-profit “sickness funds” or a “social insurance model” (Germany); and “National health insurance” corresponds to single payer national health insurance (Canada, Taiwan). Reid’s “out-of-pocket” model is what PNHP would call “market driven” health care. Some countries have mixed models (e.g. Sweden has some features of a national health service such as hospitals run by county government; but other features of national health insurance such as physicians being paid on a FFS basis). This explains why Reid might classify the Scandinavian systems as “Beveridge” while PNHP classifies them as “single payer national health insurance.”



Health Care Systems - Four Basic Models | Physicians for a National Health Program

Sunday, November 26, 2023

When am I going to see the doctor? ”Nurse: “Oh, you don’t see the doctor anymore.




A man sits in an exam room.  His appointment is with a specialist to help with his serious and chronic condition.  After a few minutes a nurse walks into the room.  The nurse asks him the standard list of intake questions and puts the information into a laptop.  When she is finished, she leaves the room and tells the man she will be right back.  Ten minutes later the nurse returns to the room.

Nurse: “Mr. Johnson, here is your prescription and an order for an MRI.  You can schedule your MRI when you check out as well as another follow up visit in the next 6 weeks.  Do you have any questions?”

The man is a bit confused and says, “Well yes.  When am I going to see the doctor?”

Nurse: “Oh, you don’t see the doctor anymore.  You see we found it to be much more efficient and profitable if we just put your information into our new care delivery algorithm.  The computer will tell us what you need.  But don’t worry, a doctor signs off on every chart.  This is so much more efficient.  Why yesterday one of our doctors signed off on over 25,000 charts in one day!”


Patient: “But wait.  That means the doctor only spent about 1 second reviewing each chart before signing off.”

Nurse: “I didn’t say he “reviewed” the charts.  I said he signed off on them.  You see, this is much more efficient than spending the time to review the charts.  But don’t worry, we have the utmost faith in the new computer algorithm.”

Patient: “So a computer is actually practicing medicine now and telling me what care I can get?”

Nurse: “Oh no. Of course not.  That would expose us to liability.  You can get whatever care you want.  We are not limiting the care you can get.  We are only telling you what our computer recommends.  It’s up to you if you want to follow that recommendation or not.   The other interesting thing is right after we got our new MRI and started making money on MRIs the computer started ordering them on every patient.  It’s almost like the computer is programed to do what is good for our bottom line and not necessarily what the patient needs.   You have a great day Mr. Johnson, and I will see you again in 6 weeks.”

So, I ask you, how is this different than what the payers are doing when denying care?  I will tell you how it’s different.  One is immoral and illegal and the other is just immoral.

Wednesday, November 22, 2023

Sound therapy may ease concussion symptoms - ScienceBlog.com


New research indicates that acoustic stimulation of the brain may ease persistent symptoms in individuals who experienced mild traumatic brain injury (concussion) in the past.

The study, which is published in Annals of Clinical and Translational Neurology, included 106 military service members, veterans, or their spouses with persistent symptoms after mild traumatic brain injury 3 months to 10 years ago. Participants were randomized 1:1 to receive 10 sessions of engineered tones linked to brainwaves (intervention), or random engineered tones not linked to brainwaves (sham control). All participants rested comfortably in a zero-gravity chair in the dark with eyes closed and listened to the computer-generated tones via earbud-style headphones. The primary outcome was change in symptom scores, with secondary outcomes of heart rate variability and self-reported measures of sleep, mood, and anxiety.   The results indicate that although acoustic stimulation is associated with marked improvement in postconcussive symptoms, listening to acoustic stimulation based on brain electrical activity, as it was delivered in this study, may not improve symptoms, brain function, or heart rate variability more than randomly generated, computer engineered acoustic stimulation.Among all study participants, symptom scores clinically and statistically improved compared with baseline, with benefits largely sustained at 3 months and 6 months; however, there were no significant differences between the intervention and control groups. Similar patterns were observed for secondary outcomes.

Conclusions

Participating in a study involving approximately 10 cumulative hours of resting comfortably in a zero-gravity chair in the dark with eyes closed and listening to computer-generated acoustic stimulation is well tolerated and is associated with clinically and statistically significant improvement in postconcussive symptoms. However, the results of this study do not suggest that in a primarily active duty group with postconcussive symptoms listening to acoustic stimulation based on one's own brain electrical activity reduces symptoms, or improves brain function or heart rate variability, more than randomly generated, computer engineered acoustic stimulation. In addition, ongoing work indicates that the combination of acoustic stimulation and microelectrical stimulation of the scalp, also based on brain electrical activity, may have greater power to improve postconcussive symptoms. Future studies will determine if the gains seen in this study can be improved (i.e., greater symptom improvement with fewer treatment sessions) using the combination of acoustic and microelectrical stimulation in a similar noninvasive neurotechnology intervention.

“Postconcussive symptoms have proven very difficult to treat, and the degree of improvement seen in this study is virtually unheard of, though further research is needed to identify what elements are key to its success,” said corresponding author Michael J. Roy, MD, MPH, of Uniformed Services University and the Walter Reed National Military Medical Center, in Bethesda.

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Sound therapy may ease concussion symptoms - ScienceBlog.com

Tuesday, November 21, 2023

Neuroplasticity in Stroke Recovery


What is Neuroplasticity?

Neuroplasticity, also known as neural plasticity or brain plasticity, refers to the brain’s ability to adapt or change (1). Neuro refers to the neurons, the nerve cells that are the building blocks of the brain and nervous system, while plasticity refers to change


The brain rewires itself through neuroplasticity. Brain cells send messages, which are the neural connections around the brain. However, when an individual experiences a stroke, the stroke damages some of the connections inside the brain in addition to the connection between the brain and the rest of the body (4). Rehabilitation activities help the brain in making new neural connections in the healthy parts of your brain. More neural connections can improve your brain’s ability to control your body and perform daily activities. Every time you take an extra step, say a new word or do an exercise, it helps the brain make new connections (4).
The brain rewires itself through neuroplasticity. Brain cells send messages, which are the neural connections around the brain. However, when an individual experiences a stroke, the stroke damages some of the connections inside the brain in addition to the connection between the brain and the rest of the body (4). Rehabilitation activities help the brain in making new neural connections in the healthy parts of your brain. More neural connections can improve your brain’s ability to control your body and perform daily activities. Every time you take an extra step, say a new word or do an exercise, it helps the brain make new connections (4).



Physical Benefits:

  • Speeds up all-around stroke recovery

  • Recovers strength

  • Improves balance

  • Increases walking speed

  • Boosts the ability to perform daily routine activities

  • Prevents the recurrence of strokes


Mental Benefits:

  • Reduces depression and enhances mood

  • Boosts brain health

  • Relieves stress

  • Helps in increasing a sense of self-worth and self-reliance that can decrease after a stroke

  • Gives patients a sense of purpose and a goal to work towards

  • What is the Ipsihand?



References:

https://positivepsychology.com/neuroplasticity/#stroke-neuroplasticity (1)

https://www.ncbi.nlm.nih.gov/books/NBK557811/ (2)

https://www.verywellmind.com/what-is-brain-plasticity-2794886 (3)

https://www.stroke.org.uk/effects-of-stroke/neuroplasticity-rewiring-the-brain (4)

https://www.flintrehab.com/neuroplasticity-after-stroke/ (5)

https://tactustherapy.com/neuroplasticity-stroke-survivors/ (6)

https://www.stroke.org.nz/sites/default/files/inline-files/Your%20Guide%20to%20Exercise%20after%20a%20Stroke%202017%20%281%29.pdf (7)

https://www.scielo.br/j/anp/a/JL9mMt9QKWp8g85shXndnWs/ (8)

https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3266302/ (9)

https://www.neofect.com/us/blog/the-ultimate-guide-to-stroke-exercises (10)

https://strokerecoverybc.ca/wp-content/uploads/2011/11/GRASP_All_3_levels11490.pdf (11)

https://ninkatec.com/nutrition-and-fitness-for-stroke-recovery/ (12)
Seek out a qualified rehabilitation counselor.
Is Ipsihand covered by insurance? Not yet
How much is Ipsihand? The Neurolutions IpsiHand system is a qualified medical expense under a heath savings account (HSA) or flexible spending account (FSA). Please verify youreligibility by checking with your individual physicianNeuroplasticity in Stroke Recovery