Page view:

Monosialotetrahexosylganglioside Sodium (GM1)

Clinical literature
Chinese Pinyin
Dantuoyesuan Sijitang Shenjingjieganzhina
Molecular formula
C73H130N3NaO31 or C75H134N3NaO31
Molecular weight
1568.84 or 1597.18
White or off-white Powder or liquid

Monosialotetrahexosylganglioside Sodium (GM-1) 


CAS:  37758-47-7


Structure chart:


Molecular formula:C73H130N3NaO31 or  C75H134N3NaO31

Formula weight:    1568.84  or  1597.18

Category:White or off-white Powder or liquid

Brand:Satis-key ®

Feature: environmental protection, safe, higher yield



Neural Repair

Hypoxic ischemic encephalopathy

Traumatic and various cardiovascular diseases of nerve damage

A variety of chronic diseases in the late nerve dysfunction (e.g. the numbness of late diabetes)

Brain atrophy

Alzheimer's disease

Mental disorders

Parkinson's disease


Packaging and specifications:

Ampoule bottle




Or in aluminum foilbag, 1kg/bag

Storage: Sealed preservation, avoid sunlight 

Exp.: 24 months


China National Standard


Corresponding parameter set not found, please add it in property template of background

1.A description of Monosialotetrahexosylganglioside Sodium

Ganglioside is sheath glycolipids, which containing sialic acid is the most abundant in the nervous system

According to the different content of sialic acid, divided into GM (Single saliva),GD( two saliva),GT(three saliva) etc.

According to the different number of glycosyl ,divided into GM1(4 glycosyls)、GM2(3 glycosyls )、GM3(2 glycosyls )

In exogenous ganglioside, only GM1 participates in neural development, neural axon growth, signal transduction and other functions through the blood-brain barrier (BBB).

2. GM1 mechanism of action

(1) To protect cell membrane : Ganglioside is natural component of nerve cell membrane , which can adjust protein in cell membrane, stable and strength double layer structure of bilayer lipid membrane.

(2) Regulation of ion channels : To maintain the Na+-K+-ATP atpase in the central nervous cell membranes and active of Ca2+-Mg2+-ATP atpase, meanwhile to prevent accumulation of Ca2+ in the cell, strengthen the stability of membrane , correct ion imbalance, reduce oedema .

(3) Neuroplasticity: Survival of nerve cells, the growth of axons, the formation of synapses

(4) To reduce the radicals: To increase the mean arterial pressure, improve the blood flow of the brain tissue local, has high affinity to the Ca2 +, can reduce the inflow of Ca2 + & generation of free radical .

(5) Against the excitatory amino acid : GM1can against glutamate function hyperfunction after brain injury and improve the dopaminergic and cholinergic function, inhibition of protein kinase C activity and transfer, reduce the neurotoxic effect of nerve cells

3. Neumax ®Application advantage

Wide application , can be used for the following clinical departments:

Neurosurgery: craniocerebral injury, spontaneous subarachnoid hemorrhage, and spinal cord injury etc.

Neurology: cerebrovascular disease, peripheral neuropathy, myelitis, etc.

Agedness department: the nervous system degenerative disease (Parkinson's disease, Alzheimer’s disease)

Bone department : spinal cord injury etc.

Pediatrics:Hypoxic ischemia encephalopathy, infantile cerebral palsy, etc

Blood internal medicine, emergency center, department of rheumatology , otolaryngological department, oncology department etc.