Hydrocephalus, unlike the frequent references to common diseases, is of great concern in the area of neurosurgery and is a “hidden killer” that threatens brain health, affects quality of life and even lives. It is important to understand their morbidity, clinical performance and to explore effective treatment strategies to safeguard life and restore health.
The formation of hydrocephalus is mostly due to “traffic congestion” or absorption barriers in the condensation of the brain’s spine. Brain spinal fluids, like “protective fluids” and “nutrient transmissors” of the brain, continue to be produced in the brain room system, cycling along specific corridors, and are eventually absorbed by cobweb particles, maintaining a delicate balance. But once this cycle of “orbits” goes wrong, the problems follow. Among congenital factors, an abnormal structure of the brain system during the development of the foetus, such as a narrow catheter, is like a inherently narrow river, a weak flow of brain fluids, which accumulates in the brain and causes brain water; genetic defects can also “vailed pens”, leading to an abnormal flow of fluid from the spine or the absorption of related cell functions. The same is true of the day-to-day causes, where cerebral inflammation, such as meningitis, inflammation of the inflammation, “stucking” the compost of the spider membrane particles, which interferes with absorption; post-cranial haemorrhage, which is condensed into lumps of blood, which oppresses and blocks the flow of the brain vertebrae; and brain tumours, which are even more “hegemonic”, which, whether originating in the immediate vicinity of the brain room or subsequent transfer, may directly seize space, oppress the pipe and disrupt the normal flow of the brain vertebrae.
Clinical performance of hydrocephalus varies according to age and pathology. In early childhood, an abnormal increase in the size of the head is a remarkable sign, with a lumberling brain, a short period of rapid expansion, an imbalance in the body ratio, a boom in the door, a high level of tension, accompanied by a sunset sign, a swing in the eye, white on the balm, a state of the eye at the end of the sunset, and a weak and slow development, which would have led to a rise and a rise in the age of the month, but the brain was “infiltrated” with water and pressure, making it difficult to master skills. Adults are more invisible, with early periods likely to be only minor headaches, dizziness, increased work or emotional fluctuations, and prone to being treated as common fatigue and stress. As water accumulates, cognitive functions decline, memory diminishes, new things are forgotten, words are said, steps are shaky, walking like cotton and shaking, and urinal incontinence comes to pass, casts a heavy shadow on life, falls into a coma and lives are in danger.
Diagnosing brain water is like a sophisticated “mystery”. The visual inspection is a “heavy-pound weapon”, the skull CT scan is quick to visualize the extent and form of the brain room, and the water is concentrated in a low-density image of the film, as if the “water lid” occupied the brain room; the MRI is more powerful, multi-dimensional, high-resolution, brain structure, precise location of the blockage, determination of the flow of the brain vertebrae, insinuation of fine pathologies and of the soft tissue around the catheter. The vertebrae puncture and brain vertebrae tests are also necessary to determine the severity of the pressure, to analyse the pathological clues of the brain pelvic composition, such as infections and haemorrhage, and to “correct the direction” for subsequent treatment.
The treatment strategy for hydrocephalus is diverse and is determined by the disease, depending on its condition. The active resistance to infection is critical in cases of mild or special cases, such as meningitis-induced cerebral water, where the use of sensitive antibiotics to “exercise” the disease, to mitigate the damage caused by inflammation to the cobine membrane particles and to assist in the recovery of the absorption function of the spinal fluid; and dehydrants such as glycerine, rapid intravenous infusion, which can reduce the internal pressure of the skull, reduce the flow of brain fluids, mitigate brain swelling and seek “buffer time” for subsequent treatment.
Surgery intervention is the “life-saving straw” of most brain-drain patients. The abdominal abdominal shunt is a classic “difficult work”, with a silt between the brain and the abdominal cavity, and with a condensation of the brain pelvis from the high-pressure to the low-pressure abdominal cavity, absorbed by the peritoneum, such as the opening of a new “gavages” for the clogged “river lanes”, which are technically mature but require long-term attention to the truncation and protection against infection; the concussion is more “precision”, using an inner lens to “open the hole” between the cavity of the brain and the lower cavity of the cavity, to re-establish the circulatory flow of the brain, and to avoid placing alien objects in the body, although the skill of the surgeon and his pathology requirements are high and apply to obstructive brain water. For particular causes, such as tumour oppression, water accumulation, the removal of tumours is fundamental to the elimination of the “incapacitator” and, in conjunction with the revolving measures of the cerebral lobe, the multi-pronged treatment of the disease.
Hydrocephalophagus treatment is not a once-in-a-lifetime process, but requires periodic post-operative review of skull images, monitoring of brain-vertebral fluid stress and composition, and attention to patients ‘ neurofunctional recovery and improvement of their ability to live. Rehabilitation training is essential to improve cognitive, step-by-step and other functions. Families take care of them, provide them with careful guidance, help them to return to normal life, fuel the flames of hope for life and health and free themselves from the shadows of brain water.
Brain water.
