Best adjuvant (assist) for chemotherapy | 1+1>487% |
Effectively improve chemotherapy effect, treatment, immunity.
Reduce side effects and recurrence.
Overview / Relation / Abstract / Role / Principle / Action / Mechanism / Function / Work |
Abstract / Summary / Overview of Apoptosis.
Why do cells undergo apoptosis?
The relationship between cancer cells and apoptosis.
Where are the weaknesses and symptoms of cancer cells?
Are cancer cells aggressive?
Extraordinary Solamargine (Role, Principle, Action, Mechanism, Function, Work)
Solamargine's major function mechanism:
Solamargine vs cancer
Best Chemotherapy Adjuvant (1+1>478%)
Effectively improve chemotherapy effect and cure.
When cancer cells are less resistant to drugs, chemotherapy becomes more effective.
Extract : https://www.cancer.org/cancer/brain-spinal-cord-tumors-adults/about/types-of-brain-tumors.html
Types of Brain and Spinal Cord Tumors in Adults
There are two main types of brain and spinal cord tumors:
- Tumors that start in the brain or spinal cord are called primary brain (or spinal cord) tumors.
- Tumors that start in another part of the body and then spread to the brain or spinal cord are called metastatic or secondary brain (or spinal cord) tumors.
In adults, metastatic tumors to the brain are actually more common than primary brain tumors, and they are treated differently. This information is about primary brain tumors.
Unlike cancers that start in other parts of the body, tumors that start in the brain or spinal cord rarely spread to distant organs. Even so, brain or spinal cord tumors are rarely considered benign (non-cancerous). They can still cause damage by growing and spreading into nearby areas, where they can destroy normal brain tissue. And unless they are completely removed or destroyed, most brain or spinal cord tumors will continue to grow and eventually be life-threatening.
How brain and spinal cord tumors are classified
Several factors are important when doctors are trying to figure out how best to treat a brain or spinal cord tumor and what the prognosis (outlook) is likely to be:
The type of tumor (based on the type of cell it starts in): Tumors can form in almost any type of tissue or cell in the brain or spinal cord. Some tumors have a mix of cell types. Different types of tumors tend to start in certain parts of the brain or spinal cord, and tend to grow in certain ways. (The most common types of brain and spinal cord tumors in adults are described below.)
The grade of the tumor: Some types of brain and spinal cord tumors are more likely to grow into nearby brain or spinal cord tissue (and to grow quickly) than are others. Brain and spinal cord tumors are typically divided into 4 grades (using Roman numerals I to IV), based largely on how the tumor cells look under a microscope:
- Lower grade (grade I or II) tumors tend to grow more slowly and are less likely to grow into (invade or infiltrate) nearby tissues.
- Higher grade (grade III or IV) tumors tend to grow quickly and are more likely to grow into nearby tissues. These tumors often require more intense treatment.
Gene changes in the tumor cells: Even for a specific type of brain tumor, the changes in the genes (DNA) of the tumor cells can be different. For example, many types of tumors are now divided based on whether the cells have mutations in one of the IDH genes (IDH1 or IDH2). For a specific type of tumor, those with IDH mutations tend to have a better outlook than those without a mutation. Other gene mutations can also be important for certain types of tumors.
The location of the tumor: Where the tumor is in the brain or spinal cord can affect what symptoms it causes, as well as which treatments might be best.
Abstract / Summary / Overview of Apoptosis.
Overview of apoptosis
•Programmed cell death
•Apoptosis is a form of programmed cell death, or “cellular suicide.”
•Apoptosis is different from necrosis, in which cells die due to injury.
•Apoptosis removes cells during development, eliminates potentially cancerous and virus-infected cells, and maintains balance in the body.
Why do cells undergo apoptosis?
- Basically, apoptosis is a general and convenient way to remove cells that should no longer be part of the organism.
- Some cells are abnormal and could hurt the rest of the organism if they survive, such as cells with viral infections or DNA damage.
- Apoptosis is part of development
- In many organisms, programmed cell death is a normal part of development.
The relationship between cancer cells and apoptosis.
Apoptosis can eliminate infected or cancerous cells.
When a cell’s DNA is damaged, it will typically detect the damage and try to repair it.
If the damage is beyond repair, the cell will normally send itself into apoptosis, ensuring that it will not pass on its damaged DNA.
When cells have DNA damage but fail to undergo apoptosis, they may be on the road to cancer.
However, “successful” cancer cells successfully evade the process of apoptosis.
This allows them to divide out of control and accumulate mutations (changes in their DNA).
Apoptosis is key to immune function.
Apoptosis also plays an essential role in the development and maintenance of a healthy immune system.
Where are the weaknesses and symptoms of cancer cells?
The symptoms of cancer cells are in the nucleus.
The nucleus controls the outer cytoplasm, cell composition, cell viability, etc.
DNA mutations also mutate in the nucleus.
Therefore, to treat cancer cells, we must first enter the nucleus.
Let the “regulatory cell gene” mechanism enter the nucleus to regulate
Are cancer cells aggressive?
After the action of Solamargine, the aggressiveness of cancer cells is alleviated.
So after using Solamargine, many patients feel that I am half better.
Although the tumor does not disappear quickly, patients feel that the degree of aggressiveness is reduced.
Extraordinary Solamargine (Role, Principle, Action, Mechanism, Function, Work).
Solamargine's major function mechanism:
When Solamargine enter,
Solamargine activates receptors that are turned off by cancer cells, allowing cancer cells to modulate again.
Solamargine modulates the anti-modulates genes of cancer cells, making cancer cells less resistant.
Reduced drug resistance.
When cancer cells are less resistant to drugs, chemotherapy becomes more effective.
Solamargine modulates the mutated genes in cancer cells and then initiates cancer cell apoptosis to achieve anti-cancer effects.
Solamargine combined with which chemotherapy drugs are more effective in treating cancer cells?
Solamargine vs cancer
Solamargine vs cancer
The picture shows the death of cancer cells.
The black and black parts are cancer cell nuclei.
Even if the nucleus ruptures, the cancer cells will die.
The figure shows that cancer cells can cause death.
The figure shows that cancer cells can cause death.
The figure shows that the death of lung cancer cells is relatively slow, and it will not be obvious until eight hours later.
The figure shows that the death of liver cancer cells is very obvious, even more obvious in eight hours.
The graph shows that breast cancer cells die faster. It was obvious from the beginning that breast cancer is easy to treat, and patients with breast cancer need not worry.
Best Chemotherapy Adjuvant (1+1>487%)
Effectively improve chemotherapy effect and treatment.
ANTI-CANCER
Patent protection in 32 nations.
A comparison study showing Solamargine vs. other therapeutic drugs with respect to lung cancer cells.
A comparison study showing Solamargine vs. other chemotherapeutic drugs with respect to breast cancer cells.
SR-T100 combination therapy with effective result against breast cancer cells.
Combination Therapy | Research results for lung cancer cells.
A. Chemotherapy (100μM), 16% of cancer cell apoptosis.
B. Alone SM (4.8μM), 28% of cancer cell apoptosis.
C. SM (4.80μM) + Chemotherapy (40μM), 66% of cancer cells apoptosis.
D. SM (4.80μM) + Chemotherapy (100μM), 78% of cancer cell apoptosis.
SM has a clearing effect better than Chemotherapy.
The combined treatment of Solamargine and Chemotherapy significantly increased the apoptosis of lung cancer cells.
SM (4.8μM) + Chemotherapy (40μM), increased from 16% to 66% (up to 4.125 times).
SM (4.8μM) + Chemotherapy (100μM), increased from 16% to 78% (up to 4.875 times).
Reorganized from: BBRC. Action of Solamargine on TNFs and drug-resistant human lung cancer cells 2004.
