Max Sherman Gives Some Ideas Of What To Be Thankful For

November 23, 2021 at 7:14 p.m.


When or if someone at Thanksgiving asks you what you are thankful for during a round table discussion, I have a suggestion. Why not start with describing all the things your body does to keep you healthy and alive, the automatic processes you have no control over.

You could start with the immune system so important during a pandemic. It consists of two different responses to anything that enters the body that doesn't belong, innate and adaptive. The innate immune system is responsible for the first wave of defense when confronted with an invader, whether it is bacteria, virus or venom.

The adaptive system remembers previous attackers, and allows the body to mount a better response the next time those invaders attempt to reenter the body. As soon as invaders are detected the innate system takes action. Mast cells, packed with histamine and heparin and macrophages engulf anything that does not belong there. Inflammation is triggered – it is a carefully regulated response to kill some types of bacteria and viruses without damaging the body.

Macrophages eat bacteria, viruses and other foreign particles. If the macrophages do not destroy all of the invaders, they release compounds which attract neutrophils, a type of white blood cell.

As the battle continues between the innate system and the unwelcome visitors, the adaptive system kicks in. It includes dendritic cells and T cells. All T cells contain have specialized receptors and only those whose receptors match what the dendritic cells are presented will be activated. Some will remain as memory T cells, while others become killer T cells to help macrophages and neutrophils. A third subset activate B cells, which are the body's antibody factories. With the combined attack of the antibodies, T cells, macrophages and neutrophils, the invaders should be defeated. Just imagine trying to orchestrate that cascade under your direction.  Moreover, you should recall that before the birth of modern medicine, it was the patient's immune system that cured him or her, or that didn't.

When you finish profusely thanking the immune system you can extol the virtues of your liver. According to Natalie Angier from the New York Times, its to-do list is second only to the brain and numbers well over 300 items. This includes systematically reworking the food we eat into usable building blocks for our cells; neutralizing harmful potentially harmful substances we incidentally ingest; generating a vast store house of hormones, enzymes, clotting factors and immune molecules; controlling blood chemistry, and so on.

There is no machine available to replace all of the liver's diverse functions. The liver is our largest internal organ, weighing three and half pounds and measuring six inches long. It is always flush with blood, holding about 13% of the body's supply at any given time. Finally, it is the liver's responsibility to keep track of the body's moment-to-moment energy demands, releasing glucose as needed from its stash of stored glycogen, along with any vitamins, minerals, lipids, amino acids or other micronutrients that might be required.

If you still have an audience at the dinner table you can then praise your pancreas. It, indeed, is another miraculous organ and performs a number of vital functions without our instructions or knowledge. The pancreas is composed of two main elements, exocrine and endocrine tissues. The exocrine tissue is organized into a large number of sac-like structures lined with cells that secrete various enzymes important to the digestive process.

As these pancreatic juices are made, they flow into the main pancreatic duct connecting the pancreas to the liver and gall bladder. Scattered throughout the exocrine tissue are small, isolated pockets of endocrine tissue, these pockets are known as the islets of Langerhans. Islets may be composed of several types of cells, predominantly alpha and beta cells. Granules in the beta cells produce insulin, while those in the alpha cells provide glucagon. Insulin helps control carbohydrate metabolism, while glucagon counters the action of insulin. Strangely, the pancreas can churn out huge quantities of enzymes to rapidly reduce our fast food diets into particles of amino acids, carbohydrates and fats, miraculously without digesting its own tissue in the process.

Any unlikely remaining individual could then be lectured about the central nervous system, blood, hormones, respiration, and circulation.  With regard to the former, one author summarized the central nervous system as essentially a number of masses of nerve cells connected to each other by a complex set of fibers. The function of a nerve cell is to interpret the impulse brought by the nerve fiber, and to initiate new impulses to be sent out over other nerve fibers. He indicated that his summary contains everything that matters; none of which are under our immediate supervision. We indeed have a lot to be thankful for.

Final Thoughts

My suggestion for items to be thankful for disclosed at a Thanksgiving day dinner will likely not guarantee you will be invited back next year.

Max Sherman is a medical writer and pharmacist retired from the medical device industry. His new book “Science Snippets” is available from Amazon and other book sellers. It contains a number of previously published columns. He can be reached by email at [email protected].

When or if someone at Thanksgiving asks you what you are thankful for during a round table discussion, I have a suggestion. Why not start with describing all the things your body does to keep you healthy and alive, the automatic processes you have no control over.

You could start with the immune system so important during a pandemic. It consists of two different responses to anything that enters the body that doesn't belong, innate and adaptive. The innate immune system is responsible for the first wave of defense when confronted with an invader, whether it is bacteria, virus or venom.

The adaptive system remembers previous attackers, and allows the body to mount a better response the next time those invaders attempt to reenter the body. As soon as invaders are detected the innate system takes action. Mast cells, packed with histamine and heparin and macrophages engulf anything that does not belong there. Inflammation is triggered – it is a carefully regulated response to kill some types of bacteria and viruses without damaging the body.

Macrophages eat bacteria, viruses and other foreign particles. If the macrophages do not destroy all of the invaders, they release compounds which attract neutrophils, a type of white blood cell.

As the battle continues between the innate system and the unwelcome visitors, the adaptive system kicks in. It includes dendritic cells and T cells. All T cells contain have specialized receptors and only those whose receptors match what the dendritic cells are presented will be activated. Some will remain as memory T cells, while others become killer T cells to help macrophages and neutrophils. A third subset activate B cells, which are the body's antibody factories. With the combined attack of the antibodies, T cells, macrophages and neutrophils, the invaders should be defeated. Just imagine trying to orchestrate that cascade under your direction.  Moreover, you should recall that before the birth of modern medicine, it was the patient's immune system that cured him or her, or that didn't.

When you finish profusely thanking the immune system you can extol the virtues of your liver. According to Natalie Angier from the New York Times, its to-do list is second only to the brain and numbers well over 300 items. This includes systematically reworking the food we eat into usable building blocks for our cells; neutralizing harmful potentially harmful substances we incidentally ingest; generating a vast store house of hormones, enzymes, clotting factors and immune molecules; controlling blood chemistry, and so on.

There is no machine available to replace all of the liver's diverse functions. The liver is our largest internal organ, weighing three and half pounds and measuring six inches long. It is always flush with blood, holding about 13% of the body's supply at any given time. Finally, it is the liver's responsibility to keep track of the body's moment-to-moment energy demands, releasing glucose as needed from its stash of stored glycogen, along with any vitamins, minerals, lipids, amino acids or other micronutrients that might be required.

If you still have an audience at the dinner table you can then praise your pancreas. It, indeed, is another miraculous organ and performs a number of vital functions without our instructions or knowledge. The pancreas is composed of two main elements, exocrine and endocrine tissues. The exocrine tissue is organized into a large number of sac-like structures lined with cells that secrete various enzymes important to the digestive process.

As these pancreatic juices are made, they flow into the main pancreatic duct connecting the pancreas to the liver and gall bladder. Scattered throughout the exocrine tissue are small, isolated pockets of endocrine tissue, these pockets are known as the islets of Langerhans. Islets may be composed of several types of cells, predominantly alpha and beta cells. Granules in the beta cells produce insulin, while those in the alpha cells provide glucagon. Insulin helps control carbohydrate metabolism, while glucagon counters the action of insulin. Strangely, the pancreas can churn out huge quantities of enzymes to rapidly reduce our fast food diets into particles of amino acids, carbohydrates and fats, miraculously without digesting its own tissue in the process.

Any unlikely remaining individual could then be lectured about the central nervous system, blood, hormones, respiration, and circulation.  With regard to the former, one author summarized the central nervous system as essentially a number of masses of nerve cells connected to each other by a complex set of fibers. The function of a nerve cell is to interpret the impulse brought by the nerve fiber, and to initiate new impulses to be sent out over other nerve fibers. He indicated that his summary contains everything that matters; none of which are under our immediate supervision. We indeed have a lot to be thankful for.

Final Thoughts

My suggestion for items to be thankful for disclosed at a Thanksgiving day dinner will likely not guarantee you will be invited back next year.

Max Sherman is a medical writer and pharmacist retired from the medical device industry. His new book “Science Snippets” is available from Amazon and other book sellers. It contains a number of previously published columns. He can be reached by email at [email protected].

Have a news tip? Email [email protected] or Call/Text 360-922-3092

e-Edition


e-edition

Sign up


for our email newsletters

Weekly Top Stories

Sign up to get our top stories delivered to your inbox every Sunday

Daily Updates & Breaking News Alerts

Sign up to get our daily updates and breaking news alerts delivered to your inbox daily

Latest Stories


Public Occurrences 11.22.24
County Jail Bookings The following people were arrested and booked into the Kosciusko County Jail:

Big Second Half Propels Plymouth Past Triton 45-30
Searching for its first win of the season, the Triton girls basketball team welcomed their neighbors to the west, Plymouth, to the Trojan Trench Thursday night. The first half was incredibly competitive and featured multiple lead changes, but it was all Lady Pilgrims in the second half as the visitors picked up a 45-30 win.

Lancer Hoops Blitzes Marian In Crossroads League Opener
The Crossroads League season could not have started any better for Grace’s men’s basketball team on Wednesday.

KYLA Students Develop Leadership, Team Building Skills
The Kosciusko Youth Leadership Academy (KYLA) class of 2024–25 gathered for its third session on Nov. 6 at Creighton’s Crazy Egg Café.

Richard Holmes
SYRACUSE – Richard Holmes, 92, Syracuse, died on Nov. 21, 2024, at the Waters Of Syracuse.