BioQuakes

AP Biology class blog for discussing current research in Biology

Tag: #epidemic

Cracking Down on Long COVID

In a study funded by the National Institutes of Health (NIH), nearly 10,000 Americans, including COVID-19 survivors, became the researcher’s focus, attempting to figure out the complexities of “Long COVID-19”. This condition leaves individuals fighting with lingering symptoms even after the virus has been vanquished, which presents various challenges, ranging from persistent fatigue to cognitive fog and prolonged dizziness. Nature Reviews Microbiology further examines the ongoing challenges in “long COVID” symptoms, emphasizing the necessity for consistent research efforts. This exploration acknowledges the need for continued studies to understand and address the complexities of the condition. It urges a proactive approach, encouraging the scientific community to stay observant and work together to enhance our understanding of long COVID. By prioritizing continuous research,  strategies for diagnosis and management can adapt to the evolving nature of this condition. As part of the NIH’s 1.15 billion dollar “recover initiative,” the study revealed vital insights, showing that the severity of “Long COVID” is higher in individuals infected before the emergence of the 2021 Omicron variant. SARS-CoV-2 illustration (17)

The research identified 12 key symptoms, establishing a comprehensive scoring system that not only aids in diagnosis but also classifies patients into distinct subgroups, hence refining our understanding of the condition. Health Affairs jumps into the global impact of long COVID, stressing the significance of collaborative international efforts in research and treatment. Furthermore, the study described the influence of vaccination status and the timing of infection, compared with unvaccinated individuals and those infected pre-2021, demonstrating a higher susceptibility to severe forms of long COVID-19.
In the context of our AP Biology class, this study aligns with our exploration of infectious diseases and the biological responses to pathogens. The study advances our scientific understanding of the complexities between our immune system and the evolving nature of viral threats. B and T memory cells are formed during vaccination when specific immune cells are activated in response to antigens present in the vaccine. These memory cells, produced by both B and T cells, retain a “memory” of the encountered antigens. Upon exposure to the same pathogen, these memory cells enable a quicker and more effective immune response, contributing to long-term protection through vaccines. Throughout the year, we have learned the biology behind vaccines, and this study reinforces our learning by demonstrating that vaccines play a crucial role in preventing individuals from experiencing ‘Long Covid’ symptoms. The reason behind this is the vaccine’s ability to prime the immune system, effectively fighting the virus and reducing the risk of prolonged symptoms. Decoding the mysteries of “long COVID” through collaborative initiatives like NIH’s “RECOVER” not only fuels my scientific curiosity but also emphasizes the real-world impact of scientific research on global health.

Symptoms of coronavirus disease 2019 4.0

(Post includes edits made through Grammarly)

Cocaine’s Abuse on the Body: How Far Does it Go?

Cocaine powder on black table | 🇩🇪Professional Photographe… | FlickrCocaine pictured above

When it comes to cocaine, there is a long list of the drastic. negative effects it has on the human body–not only physically, but mentally as well. When we see major celebrities such as Mac Miller, Don Rogers, and Whitney Houston pass from a cocaine overdose, what do you think plays a part in it?

What is cocaine?

Cocaine is a powerful and highly addictive stimulant drug, which first arose in the US in the late 1800s. It can be snorted, injected, rubbed in one’s mouth, and smoked. It is made from the coca plant of South America. It raises our dopamine levels which cause us to feel joy and relief, however, it damages the natural communication cycle in our brain, leading people to take highter and more frequent doses in an attempt to achieve the same high as when they first began using.

Effect of cocaine on our bodies

Short-term health effects of cocaine include, but are not limited to:

  • extreme happiness and energy
  • mental alertness
  • hypersensitivity to sight, sound, and touch irritability
  • paranoia—extreme and unreasonable distrust of others

Some long-term effects of cocaine abuse include, but are not limited to:

  • headaches
  • extreme weight loss
  • cardiac complications such as irregular heartbeat, cardiomyopathy, and acute myocardial infarction (heart attack)
  • loss of smell/olfactory function
  • mood swings
  • movement disorders, including Parkinson’s disease
  • paranoia
  • auditory hallucinations
  • irregular heartbeat
  • death by overdose
On a cellular level…

Once in our system, cocaine rapidly crosses the blood-brain barrier and binds to various plasma membrane transporters on neurons. Neurons are the main focus here, as our brains are comprised of 3 to 6 layers. What are they? They are “the fundamental units of the brain and nervous system, the cells responsible for receiving sensory input from the external world, for sending motor commands to our muscles, and for transforming and relaying the electrical signals at every step in-between” (Queensland Brain Institute). Neurons contain cytoplasm, mitochondria and other organelles. Neurons carry out basic cellular processes such as protein synthesis and energy production. Regarding basic cell types and structure, neurons have a cell body comprised of a nucleus and cytoplasm, and also have a mitochondria. The nucleus produces ribosomes which are involved in protein production. The cytoplasm acts as a suspension medium for organelles, and the mitochondria is involved in complex processes of neurotransmission. Overall, this cell body is essential to the neuron’s function as it carries genetic information, maintains the neuron’s structure, and provides energy to drive important cellular activities.

File:Blausen 0657 MultipolarNeuron.png - Wikimedia CommonsNeuron structure pictured

Or, to put it very simply, cocaine alters our brains and DNA in a complex manner, relating to several neurotransmitter systems, leading to seizures and neurological disorders such as Parkinson’s disease, as well as the more mild symptoms listed above.

Crack and cocaine users: are they bad?

Yes, crack and cocaine use is objectively terrible. They can alter our behavior, emotions, physical abilities, and our future children in drastic ways. However, it is important not to villainize those suffering from substance abuse. Rather, we should focus on what causes these people to turn to drugs. Systemic racism plays a large role in who uses and is distributed crack/cocaine. Lack of access to mental healthcare is yet another factor. As a society, we need to do better and be aware of all these things. If you or someone you know may be susceptible or vulnerable to drug abuse, please contact the Substance Abuse National Helpline at 1-800-662-4357.

 

 

 

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