Loss of memory

I am José Moya, and I strive to create and contribute content that provides valuable and educational information. This not only enriches platforms but also offers users an alternative to learn and expand their knowledge while they browse and entertain themselves with lighter topics that assist them in whatever is of immediate interest to them. If I manage to grab the attention of many, I will surely invest substantial resources in an app to help everyone, for free, to assess their body and health without intermediaries. In this extended version, I explain:

In the medical field, analyzing the timing and progression of signals is crucial for diagnosing or ruling out diseases. An abrupt event, like a symptom that suddenly appears, makes us think of vascular alterations. This is because blood vessels have the critical role of distributing blood, and an immediate failure in this system would trigger symptoms detectable in a clinical exam, as well as complaints that the patient could share.

A clear example is when someone vomits suddenly, without having felt nausea beforehand or without any clue it was about to happen. This is a signal of intracranial compression causing pressure, resulting in vomiting without the usual accompanying reflexes, such as nausea or skin color changes. This phenomenon is known as "pistoletazo" or projectile vomiting, and it's likely caused by a brain mass or tumor pressing on adjacent structures.

On the other hand, if the signals we observe are continuous and their intensity gradually increases without reverting, we lean towards considering metabolic risks. Here, toxic substances and abnormal proteins accumulate due to failures in the body's cleaning systems. In individuals over sixty years old, if we notice faltering memory, insecurity, suspicions, and a loss of everyday skills, an Alzheimer's diagnosis becomes probable, especially if there's a family history of the disease.

Historically, it's known that a healthy brain relies on the constant communication of neurons, which transmit signals through electrical charges and chemicals. Astrocytes and microglia contribute to maintaining this neuronal health. However, in Alzheimer's, this balance is disrupted by toxic proteins like tau and beta-amyloid, which accumulate and affect neurons. This accumulation disrupts the communication among neurofibrils.

Furthermore, factors like vascular problems, glucose deficiencies, and chronic inflammation impact brain health. Specifically, the hippocampus is affected, leading to symptoms like memory loss and cognitive challenges. Deeply understanding these mechanisms is vital for the creation of more efficient therapies. Progress in contemporary research focuses on identifying biomarkers, specific therapies, and lifestyle-related approaches to bolster brain health. With these advancements, the aim is to prevent or at least delay the effects of dementia.

For those interested in delving deeper, there are medications proven effective in slowing the progression of Alzheimer's. I invite readers to check out the full article I've prepared to inform about the latest advancements in medicine in this field.