The word 'neurosis' was coined in 1776 by the Scottish physician William Cullen in his 'First Lines of the Practice of Physic.' Cullen constructed the term from Greek 'neûron' (nerve, sinew) and the medical suffix '-osis' (condition, disease, abnormal state), intending it to describe a class of disorders that he believed originated in the nervous system. The term marked a significant conceptual shift: rather than attributing mental symptoms to humoral imbalance (the dominant theory since Galen), Cullen located their origin in the nerves themselves.
The Greek 'neûron' has a fascinating etymological history. In its oldest attested usage, it meant 'sinew,' 'tendon,' or 'bowstring' — the tough, cord-like structures visible in animal and human anatomy. The word derives from PIE *sneh₁-wr̥ (sinew), from the root *sneh₁- (to spin, to twist, to sew), which also produced Latin 'nervus' (sinew, nerve — source of English 'nerve,' 'nervous,' 'enervate') and possibly the English word 'needle' through a different derivation path.
The semantic shift from 'sinew' to 'nerve' occurred gradually in Greek and Latin medical writing. Hippocratic physicians (fifth–fourth century BCE) used 'neûron' for tendons and ligaments — the visible cord-like structures they encountered in surgery and dissection. As anatomical knowledge advanced, particularly through the work of Galen (second century CE), who performed detailed dissections and traced nerve pathways, 'neûron' and Latin 'nervus' came to designate specifically the nerves — the white fibers that carry sensation and motor commands. The old
Cullen's coinage of 'neurosis' in 1776 classified a broad range of conditions under a single neurological umbrella: everything from epilepsy and apoplexy (which we would now attribute to brain disease) to hysteria and hypochondria (which we would now classify as psychiatric conditions). His taxonomy was based on the assumption that all these conditions involved disorder of the nervous system, a hypothesis that was partially correct (epilepsy is indeed neurological) but overly broad.
The meaning of 'neurosis' narrowed dramatically in the nineteenth and early twentieth centuries. As neurological conditions with identifiable organic causes (epilepsy, paralysis, stroke) were reclassified under neurology, 'neurosis' came to designate specifically those conditions without detectable organic pathology — the 'functional' nervous disorders. Freud made 'neurosis' the central concept of psychoanalysis, arguing that neuroses were caused by unconscious psychological conflicts, particularly repressed childhood experiences. His division of mental illness into 'neurosis' (milder
The term 'neurosis' was officially retired from the DSM (Diagnostic and Statistical Manual of Mental Disorders) in 1980, with the publication of DSM-III. The conditions formerly grouped under 'neurosis' — anxiety disorders, obsessive-compulsive disorder, depressive disorders, dissociative disorders — were reclassified as separate diagnostic categories based on observable symptoms rather than theoretical etiology. This was a deliberate move away from psychoanalytic theory, which had been the framework for the 'neurosis' concept, toward a more empirical, symptom-based classification.
Despite its official retirement, 'neurosis' and 'neurotic' remain deeply embedded in everyday English. To call someone 'neurotic' is to describe them as anxious, overthinking, fretful, and prone to worry — a colloquial usage that captures a genuine personality style even if it no longer corresponds to a formal diagnosis. The word has become part of the cultural vocabulary of self-description: 'I'm being neurotic about this' is a common, self-aware acknowledgment of excessive worry.
The prefix 'neuro-' extracted from 'neûron' has become one of the most productive combining forms in modern scientific English: neurology, neuroscience, neurosurgery, neurotransmitter, neuroplasticity, neuroimaging. The ancient Greek word for 'bowstring' now anchors the vocabulary of brain science — a semantic journey from the archery range to the MRI scanner.