Cure and prevention of Type 1 diabetes

List the hormones secreted by pancreas.

https://byjus.com/question-answer/list-the-hormones-secreted-by-pancreas/

Glucagon responses in type 1 diabetes – a matter of complexity … In recent years the role of altered alpha cell function and glucagon secretion in type 1 diabetes has attracted scientific attention. … “In recent years the role of altered alpha cell function and glucagon secretion in type 1 diabetes has attracted scientific attention. It is well established that glucagon responses to hypoglycemia are absent in type 1 diabetes,”

Bisgaard Bengtsen M, Møller N. Mini-review: Glucagon responses in type 1 diabetes – a matter of complexity. Physiol Rep. 2021 Aug;9(16):e15009. doi: 10.14814/phy2.15009. PMID: 34405569; PMCID: PMC8371343.

Glucagon is a hormone that is involved in controlling blood sugar (glucose) levels. It is produced by the alpha cells, found in the islets of Langerhans … “Glucagon works along with the hormone insulin to control blood sugar levels and keep them within set levels. Glucagon is released to stop blood sugar levels dropping too low (hypoglycaemia), while insulin is released to stop blood sugar levels rising too high (hyperglycaemia).”

https://www.yourhormones.info/hormones/glucagon/

The prevention and management of exercise-induced hypoglycaemia remains a challenge for patients with type 1 diabetes. Strategies involving changes to insulin dosing and/or carbohydrate consumption in anticipation of or during different types of exercise have proved to be helpful but not sufficient to fully prevent the hypoglycaemic risk. .. In non-diabetic individuals, coordinated hormonal responses ensure the maintenance of normal glycaemic ranges; … fear of hypoglycaemia is identified as the major barrier to exercise, which in turn entails an elevated risk of its occurrence …

Taleb, N., Rabasa-Lhoret, R. Can somatostatin antagonism prevent hypoglycaemia during exercise in type 1 diabetes?. Diabetologia 59, 1632–1635 (2016). https://doi.org/10.1007/s00125-016-3978-4

Type 1 diabetes mellitus is believed to result from destruction of the insulin-producing β-cells in pancreatic islets that is mediated by autoimmune mechanisms. The classic view is that autoreactive T cells mistakenly destroy healthy (‘innocent’) β-cells.

Before any thought about a cure for type 1 diabetes, clinical studies need to; 1) Confirm (or deny) the breathing biomechanics (type of breathing) in people affected with Type 1 diabetes, people with Type 2 diabetes and people without diabetes. 2) Confirm (or deny) that people with type 1 diabetes have disproportional small circumferences of the trunk section where the pancreas is. 3) Confirm (or deny) that in people affected with Type 1 diabetes, the area of the trunk where the pancreas is located doesn’t optimally expand and constrict during inhalation and exhalation.

As yet, only one study confirms my observation about postural/musculoskeletal characteristics in people with Type 1 diabetes. ^{Still, specific postural/musculoskeletal profiles promote upper-chest breathing, but it is not directly for Type 1 diabetes (insufficient insulin production by the pancreas).}

Suppose clinical studies confirm my observation about breathing biomechanics in people with Type 1 diabetes, people with Type 2 diabetes and people without diabetes. In that case, Type 1 diabetes is no longer a lifelong condition. It only needs to create a therapeutic program for Type 1 diabetes cure and prevention.

Note 1! It is expected that many will think that breathing exercises are the solution for optimal work of the pancreas, but that would be the wrong conclusion.
Breathing exercises produce a benefit, mainly for the time of doing breathing exercises, but habitually breathing biomechanics continue unchanged after that. Our breathing muscles never sleep, and they work all the time, whether we are awake or sleeping.

Note 2! It needs to bear in mind that sudden-rapid changes in breathing biomechanics cause changes in internal organ activity, which may produce severe or fatal consequences. ^{(Clarification note: it means sudden changes of the type of breathing, not increases or decreases of breathing rate that naturally happen during increased physical effort.)}

Note 3! The cause of Type 1 diabetes is understandable to ordinary people. Still, the treatment for Type diabetes should not be attempted without supervision from a team of diabetes specialists consisting of diabetes care providers and people with backgrounds in biomechanics, like kinesiologists, physiotherapists, podiatrists, chiropractors, etc.

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The paragraph below should be actual only after clinical studies confirm my observation _{about the breathing biomechanics in people with Type 1 diabetes. Confirm (or deny) that people with type 1 diabetes have disproportional small circumferences of the trunk section where the pancreas is. The area of the trunk where the pancreas is located doesn’t optimally expand and constrict during inhalation and exhalation.}

For effective treatment and cure of Type 1 diabetes and Type 2 diabetes, it needs to develop a therapeutic program involving physical and occupational therapy that will gradually produce a lasting change in habitually breathing biomechanics.

Improving locomotor skills and postural control cause improvement in habitually breathing biomechanics. Still, the book “Locomotor Skills and Postural Control Weight Loss Exercises” with the subtitle: “Ancient Greek and New Calisthenics – Beauty and Strength Exercises”, is not for preventing or curing type 1 diabetes or type 2 diabetes but aims to explain how to achieve healthy weight loss and gain a desirable body shape.

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Below are links to the authors’ research work on Type 1 Diabetes from 2004 through 2012.

1. Postural Profile of People with Type 1 Diabetes – https://www.modernscienceofbiomechanics.com/biomechanology-of-type-1-diabetes/postural-profile-of-people-with-type-1-diabetes
2. Musculoskeletal Profile of Normal Weight People without and with T1D – https://www.modernscienceofbiomechanics.com/biomechanology-of-type-1-diabetes/musculoskeletal-profile-of-normal-weight-people-withou
3. A Link Between Occupation and Type 1 Diabetes – https://www.modernscienceofbiomechanics.com/biomechanology-of-type-1-diabetes/a-link-between-occupation-and-type-1-diabetes
4. Weight Loss and Type 1 Diabetes – https://www.modernscienceofbiomechanics.com/biomechanology-of-type-1-diabetes/weight-loss-and-type-1-diabetes
5. Obesity and Type 1 Diabetes – https://www.modernscienceofbiomechanics.com/biomechanology-of-type-1-diabetes/obesity-and-type-1-diabetes
6. Insulin Therapy and Weight Gain – https://www.modernscienceofbiomechanics.com/biomechanology-of-type-1-diabetes/insulin-therapy-and-weight-gain
7. Spontaneous Remission of Type 1 Diabetes – https://www.modernscienceofbiomechanics.com/biomechanology-of-type-1-diabetes/spontaneous-remission-of-type-1-diabetes
8. Post-exercise Hypoglycemia – https://www.modernscienceofbiomechanics.com/biomechanology-of-type-1-diabetes/post-exercise-hypoglycemia
9. What Stimulates the Pancreas to Work Properly – https://www.modernscienceofbiomechanics.com/biomechanology-of-type-1-diabetes/what-stimulates-the-pancreas-to-work-properly
10. Type 1 Diabetes in American Indians, Alaska Natives – https://www.modernscienceofbiomechanics.com/biomechanology-of-type-1-diabetes/type-1-diabetes-in-american-indians-and-alaska-natives
11. Chiropractic Pioneering Research into Type 1 Diabetes – https://www.modernscienceofbiomechanics.com/biomechanology-of-type-1-diabetes/chiropractic-pioneering-research-into-type-1-diabetes