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ABSTRACT Since the dawn of civilization, ancient cultures have utilized hallucinogens from plants and fungi in the context of religious and healing practices. Recently, their use has expanded to other cultures. Hallucinogens are natural or synthetic substances that alter the perception of reality at nontoxic doses, producing intense psychological and physiological effects. The initial research on hallucinogens began in the 1950s. However, their non-medical use, studies without proper controls, and negative social opinion resulted in legal restrictions that limited their use for clinical and preclinical research for more than two decades. A renewed interest in studying hallucinogens as potential therapeutic agents for treating different psychiatric conditions has recently re-emerged. This review summarizes the effects of main hallucinogen drugs and their therapeutic potential. Classic hallucinogens such as LSD, dimethyltryptamine, psilocin, and mescaline have chemical structures similar to serotonin and directly activate 5-hydroxy-tryptamine (5-HT2A) receptors. Ketamine is a dissociative anesthetic with antagonist effects at the glutamatergic N-methyl-D-aspartate receptor, indirectly activating 5-HT2A receptors. Ketamine has rapid antidepressant effects and reduces suicidal ideation, but its effects are short-lasting. Other hallucinogens are under study. It is necessary to continue this research with a more rigorous methodology and include studying the long-term effects of psychedelics use.
ABSTRACT
Introdução: A maculopatia ou retinopatia solar é uma lesão foto-traumática da mácula causada pela observação direta ou indireta de fontes luminosas intensas, que ocorre comumente na presença de distúrbios psíquicos ou após o uso de drogas recreativas. O prognóstico visual varia e a conduta é expectante. Descrição do caso: Paciente V.V.A.M., sexo masculino, 20 anos, estudante, com queixa de escotoma central em ambos os olhos. Nega antecedentes patológicos e oculares. Solicitaram-se tomografia de coerência óptica (OCT) e retinografia, que revelaram uma lesão central, bilateral e simétrica na retina externa. Paciente relatou ter feito uso de Dietilamida de ácido lisérgico (LSD) e, sob influência da droga, ter olhado de forma direta para o sol por aproximadamente 40 minutos. Discussão: O prognóstico da retinopatia solar é variável e relaciona-se com o tempo de exposição e com o comprimento da onda da fonte de luz. A etiopatogênese é explicada pelo dano causado ao epitélio pigmentar da retina (EPR) pela radiação. Conclusões: Deve haver maior orientação ao público sobre os possíveis efeitos danosos de exposição a fontes de luz de origens diversas. Além disso, destaca-se a importância do OCT para a identificação da maculopatia solar. (AU)
Introduction: Solar maculopathy or retinopathy is photo-traumatic damage created on the macula, caused by direct or indirect observation of intense light sources, commonly occurring in the presence of psychic disorders or after the use of recreational drugs. The visual prognosis varies. There is currently no known treatment. Case report: A 20-year-old male with no previous complaints reported central scotoma in both eyes despite 20/20 uncorrected vision. Bilateral, symmetric, central changes could be seen in the macula in fundoscopy. Optical coherence tomography (OCT) confirmed loss of the external retina suggestive of Solar Maculopathy. The patient later claimed to have spent 40 minutes looking directly into the sun after use of Lysergic Acid Diethylamide (LSD). Discussion: The prognosis of solar retinopathy is related to the exposure time and to the wavelength of the light source, with those between 300-350 nm being the most harmful. Its etiopathogenesis is explained by damage caused to the retinal pigment epithelium (EPR) caused by radiation, interrupting the interdigitations between this layer and the external segment of the photoreceptors. Ophthalmoscopically, solar maculopathy is characterized by a small foveolar lesion that might become yellowish in the days following exposure, in the form of exudate or edema, followed by loss of foveal reflex and thinning of the fovea. The initial yellowed lesions are subsequently replaced by a spotted EPR or even by a lamellar orifice. Conclusions: There should be public guidance on the possible harmful effects of exposure to sources of light from diverse origins, as it usually occurs during solar eclipses, after exposure to certain types of lasers or observation of fires since this habit can cause severe and sometimes irreversible visual loss. (AU)