Material:
(A) 400ml milk, 500g honeydew melon, a pinch of salt, 200g sugar, 1 tablespoon agar powder, 1/2 tablespoon instant gelatin powder
(B) 80g custard powder, 100ml milk, 4 egg yolks
(C) 30g butter
(D) Honeydew melon balls
Additional ingredients: 800ml water, 150g sugar, 3 teaspoons agar powder
Instructions:
1. Prepare a round sponge cake with a diameter of about 25 cm and cut it into two layers.
2. In a pot, combine (A) ingredients and bring to a boil. Once boiling, add the pre-mixed (B) mixture and continue cooking until the mixture thickens. Then, stir in (C) butter until fully melted and well combined. This creates a smooth and creamy pudding base.
3. Place one layer of the sponge cake at the bottom of a serving mold.
4. Pour half of the pudding over the cake layer and place the second cake on top.
5. Add the remaining pudding and then gently place honeydew melon balls on top. Let it cool to room temperature before proceeding.
6. Prepare the agar layer by combining the additional ingredients (water, sugar, and agar powder) and bring to a boil. Stir well and let it cool slightly before pouring it evenly over the pudding cake.
7. Once everything is set, refrigerate for at least 2 hours, then carefully unmold and serve.
Tips: While making the pudding, always keep stirring when adding (B) to prevent lumps and ensure a smooth texture. Also, make sure the agar layer isn’t too hot when pouring over the pudding, as this could melt or damage the structure of the dessert. Letting it cool a bit first will help maintain the shape and appearance of your layered pudding cake. Enjoy your delicious and refreshing creation!
Antihypertensive Ingredients Such as Dandelion Extract, Stevia Rebaudiana , Geniposid e,Heparin Sodium, Adenosine Cyclophosphate, and Adenosine.
Blood pressure reduction can be broadly divided into the following categories:
1. Diuretics:
Diuretics reduce blood volume by increasing the kidneys' excretion of sodium and water, thereby reducing the amount of fluid in the circulatory system. This helps reduce the pressure on the walls of blood vessels, resulting in lower blood pressure. Common diuretics include hydrochlorothiazide and indapamide. When using diuretics, it is necessary to be aware of possible side effects such as electrolyte disturbance.
2. Beta-blockers:
These drugs work by binding to the heart's beta receptors, reducing heart rate and myocardial contractility, and reducing cardiac output. At the same time, they also reduce sympathetic nerve activity, causing blood vessels to dilate, thereby lowering blood pressure. Common beta-blockers are metoprolol, bisoprolol, and so on. However, in some cases, such as patients with severe chronic obstructive pulmonary disease or asthma, it should be used with caution.
3. Calcium channel blockers:
Calcium channel blockers inhibit the contraction of vascular smooth muscle by preventing the influx of calcium ions in vascular smooth muscle cells, to dilate blood vessels and reduce peripheral vascular resistance, thereby reducing blood pressure. Nifedipine and amlodipine are common calcium channel blockers. They also have a certain dilating effect on coronary arteries and can improve blood supply to the heart muscle.
4. Angiotensin-converting enzyme inhibitors (ACEI) and angiotensin II receptor antagonists (ARBs) :
ACEI can inhibit the activity of angiotensin-converting enzyme and reduce the production of angiotensin II, thereby dilating blood vessels and lowering blood pressure. At the same time, they also have a certain protective effect on the heart and kidneys. Common ACEI are captopril, enalapril and so on.
ARBs play an antihypertensive role by blocking the binding of angiotensin II to receptors. This class of drugs has similar antihypertensive effects and organ protection to ACE but may be better tolerated in some patients. Common ARBs include valsartan, irbesartan and so on.
5. Alpha blockers:
Alpha-blockers work primarily by blocking alpha receptors on the smooth muscle of blood vessels, causing blood vessels to dilate and reducing peripheral resistance, thereby lowering blood pressure. This class of drugs is mainly used to treat high blood pressure caused by prostate hyperplasia but is relatively rarely used when used alone to lower blood pressure.
It should be noted that different types of blood pressure-lowering drugs have their specific indications and contraindications, and should be individually selected and adjusted according to the specific situation of the patient when using, while closely monitoring blood pressure changes and side effects of the drug.
Diuretics reduce blood volume by increasing the kidneys' excretion of sodium and water, thereby reducing the amount of fluid in the circulatory system. This helps reduce the pressure on the walls of blood vessels, resulting in lower blood pressure. Common diuretics include hydrochlorothiazide and indapamide. When using diuretics, it is necessary to be aware of possible side effects such as electrolyte disturbance.
2. Beta-blockers:
These drugs work by binding to the heart's beta receptors, reducing heart rate and myocardial contractility, and reducing cardiac output. At the same time, they also reduce sympathetic nerve activity, causing blood vessels to dilate, thereby lowering blood pressure. Common beta-blockers are metoprolol, bisoprolol, and so on. However, in some cases, such as patients with severe chronic obstructive pulmonary disease or asthma, it should be used with caution.
3. Calcium channel blockers:
Calcium channel blockers inhibit the contraction of vascular smooth muscle by preventing the influx of calcium ions in vascular smooth muscle cells, to dilate blood vessels and reduce peripheral vascular resistance, thereby reducing blood pressure. Nifedipine and amlodipine are common calcium channel blockers. They also have a certain dilating effect on coronary arteries and can improve blood supply to the heart muscle.
4. Angiotensin-converting enzyme inhibitors (ACEI) and angiotensin II receptor antagonists (ARBs) :
ACEI can inhibit the activity of angiotensin-converting enzyme and reduce the production of angiotensin II, thereby dilating blood vessels and lowering blood pressure. At the same time, they also have a certain protective effect on the heart and kidneys. Common ACEI are captopril, enalapril and so on.
ARBs play an antihypertensive role by blocking the binding of angiotensin II to receptors. This class of drugs has similar antihypertensive effects and organ protection to ACE but may be better tolerated in some patients. Common ARBs include valsartan, irbesartan and so on.
5. Alpha blockers:
Alpha-blockers work primarily by blocking alpha receptors on the smooth muscle of blood vessels, causing blood vessels to dilate and reducing peripheral resistance, thereby lowering blood pressure. This class of drugs is mainly used to treat high blood pressure caused by prostate hyperplasia but is relatively rarely used when used alone to lower blood pressure.
It should be noted that different types of blood pressure-lowering drugs have their specific indications and contraindications, and should be individually selected and adjusted according to the specific situation of the patient when using, while closely monitoring blood pressure changes and side effects of the drug.
Dandelion Extract,Stevia Rebaudiana,Geniposide,Heparin Sodium,Adenosine Cyclophosphate,Adenosine
Shaanxi Changsheng Industrial Co., Ltd. , https://www.cncsbio.com