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Amygdalotomy

Amygdalotomy is a stereotactic psychosurgical procedure involving the targeted ablation or destruction of the , a key brain structure in the responsible for processing emotions such as and , primarily used to treat severe, treatment-refractory aggressive behaviors and related disorders like with behavioral abnormalities. The procedure traces its roots to early 20th-century animal studies, including the 1939 Klüver-Bucy syndrome experiments demonstrating behavioral changes after lesions, but human application began in the with stereotactic techniques developed by Japanese neurosurgeon Hiroshi Narabayashi, who performed the first amygdalotomies in 1963 to address and . Over the subsequent decades, more than 1,000 cases were reported worldwide, peaking during the psychosurgery era before declining in Western countries by the late 1990s due to ethical concerns, advancements in pharmacotherapy, and shifts toward less invasive options like . In practice, amygdalotomy typically employs bilateral lesions created via radiofrequency thermocoagulation or under general , using a stereotactic frame to precisely target the amygdala's basal or corticomedial nuclei at coordinates derived from , with lesion sizes around 15 mm verified postoperatively by MRI to minimize damage to adjacent structures like the . Clinical applications focus on patients with intractable unresponsive to medications or , including those with , organic brain syndromes, or -associated , where studies report behavioral improvements in over 70% of cases and seizure reduction in about 40% of epileptic patients, though outcomes vary from 33% to 100% across series and complications such as new-onset or occur in less than 1% of procedures.

Overview

Definition

Amygdalotomy is a form of that involves the targeted destruction or lesioning of the or its subregions, aimed at modulating excessive emotional and behavioral responses, particularly intractable . This procedure selectively interrupts amygdaloid fibers within the to alleviate severe psychiatric symptoms unresponsive to conventional treatments. The , a key structure in processing emotions such as and linking sensory inputs to affective responses, serves as the primary target to achieve these therapeutic effects. Historically, the term "amygdalectomy" referred to the open surgical removal of the , often as part of broader temporal lobe resections, while "amygdalotomy" emerged to describe more precise lesioning techniques. Over time, evolved alongside technological advancements, shifting from invasive excisions to stereotactic amygdalotomy, which employs minimally invasive methods for localized without extensive tissue removal; contemporary approaches include MRI-guided (LITT) for conditions such as (PTSD). This progression reflects a broader trend in toward greater specificity and reduced collateral damage. Unlike broader psychosurgical interventions such as , which indiscriminately sever connections in the frontal lobes to blunt overall emotional reactivity, amygdalotomy focuses exclusively on the to address targeted behavioral dysregulation while preserving higher cognitive functions. This specificity distinguishes it within the spectrum of psychosurgeries, emphasizing anatomical precision over diffuse neural disruption.

Amygdala Anatomy and Function

The is an almond-shaped collection of nuclei situated deep within the medial of the , anterior to the and superior to the , forming a key component of the . It exists bilaterally, with symmetric left and right structures that integrate sensory inputs to influence emotional and behavioral responses. This positioning allows the to receive sensory information from cortical areas and subcortical regions, facilitating rapid processing of emotionally stimuli. Structurally, the amygdala comprises approximately 10–13 interconnected cortical and subcortical nuclei, each with distinct cytoarchitecture and connectivity profiles. Key subnuclei include the basolateral complex (encompassing the lateral, basal, and accessory basal nuclei), which serves as a primary for sensory and associative learning; the central , involved in coordinating autonomic and behavioral outputs; and the cortical nucleus, which processes olfactory and pheromonal inputs. These subregions form a , with the basolateral amygdala receiving direct projections from sensory cortices and the central amygdala projecting to structures for effector responses. The plays a central role in emotional processing, particularly in the detection and response to and , through its involvement in classical where neutral stimuli become associated with aversive outcomes. It modulates by integrating and motivational states, with projections to the triggering defensive or offensive behaviors via the hypothalamic-pituitary-adrenal axis. Additionally, the contributes to emotional by enhancing the encoding of affectively charged events through bidirectional connections with the , and it influences by evaluating facial expressions and interpersonal cues via links to the . These functions are supported by dense neural pathways, including amygdalo-hypothalamic tracts for autonomic and amygdalo-cortical loops for cognitive regulation of emotions. Amygdala hyperactivity has been implicated in the of psychiatric disorders, where excessive activation contributes to heightened responses in anxiety conditions and impulsive in behavioral dysregulation. For instance, elevated reactivity to threat-related stimuli correlates with symptom severity in anxiety disorders, while overactivation in response to social provocations is associated with aggressive outbursts. This dysregulation underscores the 's role as a critical node in limbic circuits, where imbalances can amplify maladaptive emotional states.

Procedure

Surgical Techniques

Amygdalotomy has primarily utilized stereotactic techniques since its inception in the 1960s, evolving from early frame-based methods relying on for targeting to modern MRI-guided approaches that enhance precision and minimize invasiveness. Initial procedures employed chemical agents like or injections to create lesions in the , but these were largely supplanted by thermal ablation methods, including cryoprobe cooling and , by the 1970s. Contemporary techniques favor radiofrequency (RF) thermocoagulation, gamma knife , and laser interstitial thermal therapy (LITT), which allow for controlled lesioning while reducing risks associated with open . In stereotactic RF amygdalotomy, the procedure begins with the application of a stereotactic frame to the patient's head under local anesthesia, followed by general anesthesia for burr hole creation and lesioning; imaging—typically MRI or CT—is used to define the target coordinates within the amygdaloid complex, often the basolateral or corticomedial nuclei. A burr hole is drilled in the skull, and an electrode is advanced through a cannula to the target site, with physiological confirmation via electrical stimulation to verify proximity to the amygdala and avoid adjacent structures like the optic tract. Lesioning occurs through controlled RF heating (typically 70-90°C for 30-60 seconds per site), creating spherical ablations of 4-6 mm in diameter; multiple tracks may be used for larger lesions around 15 mm total. Post-ablation, imaging confirms the lesion size, and the procedure can be unilateral or bilateral, with bilateral approaches sometimes staged to monitor for complications like memory deficits. Gamma knife radiosurgery represents a non-invasive alternative for amygdalotomy, delivering focused gamma radiation without incision. The process involves frame fixation under local and general , high-resolution MRI for targeting the central amygdaloid , and planning to concentrate 192 sources at the site. A maximum dose of 120 is prescribed at the 50% isodose line (60 marginal dose), creating a necrotic over weeks to months; unilateral targeting is preferred for the dominant hemisphere to mitigate risks like . Confirmation relies on serial MRI to assess and volume, with the procedure often combined with hypothalamotomy in staged sessions. LITT for amygdalotomy employs MRI-guided for precise thermal destruction of the , particularly the right (non-dominant) side in cases of fear-related disorders such as PTSD-associated . After stereotactic planning (frame-based or frameless), a small burr hole is created, and a probe is inserted via a planned to avoid critical fibers; real-time MRI monitors heat (55-95°C, with peaks up to 90°C) to ablate the target volume while sparing adjacent , with safety thresholds of 45°C for adjacent tissues. The procedure is typically unilateral, and recent applications as of 2022 have shown promise for PTSD with violent behaviors. Immediate post-operative MRI verifies the , offering reduced recovery time compared to RF methods.

Targeting and Imaging Methods

Amygdalotomy procedures rely on precise stereotactic techniques to localize and ablate targets within the while minimizing damage to surrounding structures. -based stereotactic systems, such as the modified Todd-Wells apparatus or CRW , have been traditionally employed to establish a fixed coordinate reference using a head affixed to the , enabling accurate planning for or probe insertion. More contemporary frameless neuronavigation systems, including optical or electromagnetic tracking integrated with software like the ClearPoint SmartFrame, utilize scalp fiducials and intraoperative registration to achieve similar precision without invasive frames, facilitating flexible adjustments during surgery. Preoperative imaging primarily involves high-resolution (MRI), often at with contrast, to delineate the 's boundaries and plan trajectories. Images are typically reoriented along the -posterior commissure (/PC) to standardize coordinates, with the targeted at approximately 16-20 mm lateral to the midline, 4 mm posterior to the , and 18 mm inferior to the /PC , depending on individual . Lateral X-rays may supplement MRI for alignment in frame-based approaches. Intraoperative imaging enhances real-time guidance; for radiofrequency or open procedures, (CT) verifies probe placement, while interstitial thermal therapy (LITT) employs continuous MRI thermal imaging (MRTI) on a 1.5T or to gradients, ensuring zones remain confined to the target with safety thresholds of 45°C for adjacent tissues. in LITT visualizes heat diffusion, allowing termination at 90-95°C within the to prevent overextension. Target selection emphasizes the basolateral or central nuclei of the , using landmarks such as the tip of the temporal horn and head of the to define borders, with lesions sized around 15 mm in diameter for bilateral coverage. In Gamma Knife radiosurgery variants, T1-weighted MRI directly visualizes the central nucleus relative to the AC/PC line, applying focused radiation without invasive probes. Critical to safety is avoiding the and optic tract by selecting trajectories that spare the and maintain at least 2-3 mm clearance from vascular structures like the . Postoperative MRI, such as T1- or T2-weighted sequences, confirms extent and symmetry, guiding any refinements in multi-stage procedures. These methods support techniques by providing submillimeter accuracy essential for functional .

History

Animal Research

Early animal research on amygdalotomy laid the groundwork for understanding the 's role in emotional regulation, beginning with 19th-century experiments on dogs. In the 1890s, Friedrich Goltz conducted studies involving the removal of temporal lobes, including the , in canines, which resulted in markedly reduced and a taming effect, suggesting the region's involvement in aggressive behaviors. These findings highlighted the potential of targeted interventions to modulate , though the procedures were crude and not specifically isolated to the . The 1930s brought more precise insights through studies, notably the discovery of what became known as Klüver-Bucy syndrome. Heinrich Klüver and Paul Bucy performed bilateral temporal lobectomies on rhesus monkeys, removing large portions of the temporal lobes encompassing the , leading to a cluster of behavioral changes including hyperorality (excessive oral exploration), , placidity, and diminished responses. This syndrome demonstrated the 's critical function in processing emotional stimuli and social behaviors, with the tameness observed underscoring its influence on aggression and . Subsequent analyses confirmed that these effects stemmed primarily from amygdaloid damage rather than adjacent structures. Mid-20th-century investigations in rodents and primates further linked the amygdala to fear conditioning via lesions and electrical stimulation. Studies in rats showed that amygdaloid lesions reduced emotional reactivity and defensive reactions, in contrast to septal lesions, which increased emotional excitability. Concurrently, Lawrence Weiskrantz's work in monkeys revealed that bilateral amygdala ablations abolished avoidance learning and fear responses to threatening stimuli, such as snakes, without impairing other sensory or motor functions. Electrical stimulation experiments, including those by José Delgado, elicited intense fear or rage-like behaviors in primates upon direct amygdaloid activation, reinforcing its centrality in conditioned emotional states. These preclinical findings established the amygdala as a key node in fear circuitry, paving the way for later translational research.

Human Applications and Trials

The origins of human amygdalotomy trace back to the early 1960s, when neurosurgeon Hirotaro Narabayashi pioneered the procedure as a stereotactic intervention to address severe aggressive behavior disorders, often linked to in psychiatric patients. Narabayashi's team reported the initial clinical series of 60 patients in 1963, utilizing a frame-based stereotactic device to target the with oil-wax lesions, marking the first systematic application in humans. Over the subsequent decades, more than 1,000 cases were reported worldwide, with Narabayashi and collaborators in performing a significant number. In the United States, neurosurgeon , along with Frank Ervin, independently adopted and adapted amygdalotomy in the mid-1960s for similar indications, focusing on violent outbursts in patients with psychiatric conditions and suspected limbic dysfunction. 's group at performed the procedure on at least 13 patients by 1973, employing stereotactic techniques to lesion the bilaterally, often in cases of episodic dyscontrol syndrome associated with aggression. These early U.S. applications built on emerging understandings from animal models but faced growing scrutiny amid broader debates. By the 1970s, amygdalotomy gained traction in other regions through larger-scale studies. In , Ramamurthi and colleagues reported the most extensive series to date in 1970, involving 100 patients with severe behavioral disturbances, using for targeting in cases of aggression tied to psychiatric and epileptic conditions. Reviews in the documented variable international adoption, with centers in and contributing smaller cohorts to refine techniques like . The procedure's prominence waned from the late 1970s onward, supplanted by advances in such as and medications that offered less invasive management of and related symptoms. By the , amygdalotomy saw its last episodes of widespread clinical use, largely confined to rare, refractory cases in select institutions, as ethical and regulatory pressures further curtailed interventions. Isolated cases have continued to be reported into the , including in as of 2024.

Indications

Psychiatric Disorders

Amygdalotomy has been primarily indicated for severe aggression and violence associated with psychiatric disorders such as and , where patients exhibit uncontrollable impulsive behaviors that pose significant risks to themselves or others. In these conditions, the procedure targets the amygdala's role in and fear responses, which contribute to recurrent violent outbursts unresponsive to conventional interventions. Other applications include obsessive-compulsive disorder (OCD) and schizophrenia characterized by violent outbursts, particularly in cases where aggression is intertwined with core psychotic or obsessive symptoms, though evidence is limited to isolated cases. For instance, in schizophrenia, amygdalotomy has been considered for patients displaying pathological aggression linked to limbic hyperactivity, while in OCD, it addresses severe anxiety-driven compulsions that escalate to violent self-harm or harm to others in rare reported instances. Patient selection for amygdalotomy in these psychiatric contexts emphasizes individuals who have failed exhaustive pharmacological and psychotherapeutic trials, with behaviors indicating imminent harm risk, such as repeated assaults or self-injurious acts. Criteria typically require a multidisciplinary assessment confirming the diagnosis, exclusion of organic causes via neuroimaging, and rigorous informed consent processes that account for cognitive impairments common in affected populations, such as those with comorbid intellectual disabilities. Ethical oversight ensures selection is limited to severe, refractory cases where no less invasive alternatives suffice. Recent research as of 2025 has explored amygdala-targeted procedures, including techniques similar to amygdalotomy, for refractory (PTSD) with prominent aggression, showing potential in reducing symptoms through disruption of hyperactive fear circuits.

Neurological Conditions

Amygdalotomy serves an adjunctive role in the management of (TLE), particularly in cases with involvement contributing to propagation and associated aggressive behaviors. By targeting epileptogenic foci within the amygdala, the procedure aims to disrupt aberrant neural circuits, thereby reducing frequency and mitigating behavioral symptoms without addressing the underlying pathology. Historical case series from the 1960s and 1970s provide the primary evidence for its application in TLE. In a 1966 report, Heimburger et al. described outcomes in 25 patients with and severe who underwent stereotactic amygdalotomy using cryoprobe lesions; the procedure effectively palliated aggressive outbursts in most cases, with variable improvements in control. Similarly, and Ramamurthi's 1970 series, the largest at the time, involved patients with TLE and behavioral disturbances treated via lesions guided by and depth electrodes, resulting in notable reductions in and hyperactivity, though persisted in some. More recent evidence supports its efficacy for seizure palliation in select TLE cases. A 2021 case series of 7 patients with drug-resistant TLE and confirmed amygdala lesions underwent selective amygdalectomy via a transventricular approach; all achieved Engel Class Ia outcomes ( freedom) postoperatively, with no new neurological deficits, highlighting the procedure's role in symptom control for amygdala-centric . Overall, the evidence base comprises limited case series from the to , demonstrating symptom palliation—such as reduced and —without curing the underlying neurological pathology.

Efficacy

Short-Term Outcomes

Following stereotactic amygdalotomy, patients often exhibit rapid behavioral improvements, particularly a marked reduction in and emotional excitability within the first 1-3 months post-surgery. In a seminal series by Narabayashi et al., 85% of 60 patients (51 cases) demonstrated significant decreases in hyperexcitability, assaultive tendencies, and violent outbursts, with normalized observed shortly after the procedure. Similar early efficacy was reported in other studies, such as Chitanondh's observation of 100% (7/7) significant behavioral amelioration and Heimburger et al.'s finding of 75% (15/20) improvement in behavioral abnormalities among patients with severe . These outcomes highlight amygdalotomy's potential for acute "taming effects" in intractable cases, though response variability existed, with Hitchcock and Cairns noting only 33% (6/18) early improvement in violent behavior. Early studies from the consistently showed initial success rates varying from 33% to 100% in reducing aggressive incidents among violent patients, often assessed through clinical observation of decreased outbursts and improved compliance, with many series reporting improvements around 70-85%. For instance, bilateral amygdalotomy led to prompt calming and transition from frequent violent episodes to more manageable behaviors within weeks to months in the majority of improved cases, as seen in Narabayashi's series and similar reports. In later validations using standardized tools like the , postoperative scores reflected substantial declines in verbal and physical domains, confirming the procedure's short-term impact on disruptive symptoms. Temporary reduction in autonomic arousal and emotional excitability, potentially linked to amygdala disruption, has been reported in some patients during the early recovery phase but typically resolved without long-term cognitive deficits. While these short-term benefits provide initial stabilization, their durability over years requires further evaluation in dedicated long-term analyses.

Long-Term Results

Long-term follow-up studies on indicate variable durability of benefits, with sustained improvement in control reported in 67.5% to 84% of patients at 2 to 13 years post-procedure across multiple series. A comprehensive review of 27 historical studies encompassing 1,217 patients found an average improvement rate of 69.5% in behavioral outcomes, including reduced , maintained over extended periods up to 156 months. A 2024 of 1,033 patients across studies confirmed overall behavioral improvements in more than 70%, with follow-ups ranging from 6 months to 11 years and seizure reductions in about 40% of epileptic cases. However, relapse rates appear higher in complex psychiatric cases, such as those involving , where up to 50% of patients experienced unsuccessful long-term outcomes over 8 years. Quality of life assessments from and follow-ups highlight improvements in social functioning, with many patients achieving greater educability, occupational resumption, and reduced institutionalization. For instance, in a series with 1- to 11-year follow-ups, 38% of patients showed enhanced alongside reduction. Conversely, potential has been noted as a lingering effect in some cases, manifesting as diminished initiative or emotional blunting, observed up to 10 years post-surgery in patients with lesions. Outcomes are influenced by procedural and patient-specific factors. Bilateral lesions, performed in approximately 80% of cases, were associated with higher improvement rates (up to 100% in select series) compared to unilateral approaches. Younger patients, particularly those aged 5-13 years, demonstrated better sustained behavioral control. Pre-operative also plays a role, with post-epileptic responding more favorably than primary psychiatric disorders like .

Risks and Complications

Intraoperative and Immediate Risks

Amygdalotomy, typically performed via stereotactic techniques involving a burr hole or small , carries risks of intraoperative bleeding, , and due to the invasive access to deep structures. Hemorrhage occurs in a minority of cases, often related to vascular disruption during placement or lesioning, with reported rates varying across procedures but generally low in modern stereotactic approaches. , including , has an incidence of approximately 1.4% in related surgeries, mitigated through prophylaxis. is a common transitory complication, potentially leading to from or ischemia, though it typically resolves with administration and close monitoring. Rare vascular injuries, such as to branches of the middle cerebral artery, can occur due to the proximity of surgical trajectories to major vessels, potentially resulting in stroke or infarction, though such events are infrequent in targeted amygdalotomy series. Intraoperative seizures may arise from direct stimulation or irritation of epileptogenic tissue, with transient episodes reported in up to 22% of cases in early studies. In the immediate postoperative period, seizures manifest in 5-10% of patients, often as new-onset or exacerbated events resolving within months, necessitating anticonvulsant therapy and intensive care unit monitoring for hemodynamic stability. Transient memory deficits may occur shortly after surgery due to edema or temporary disruption of adjacent limbic pathways, though studies report no significant overall cognitive impairments. Overall procedure-related complication rates range from 0% to 42%, with mortality up to 3.8% historically linked to severe hemorrhage or infection. In modern series using MRI-guided techniques, complication rates are reported to be less than 1% as of 2024. Postoperative ICU surveillance and prophylactic measures, including antibiotics and seizure prophylaxis, are standard to minimize these acute risks.

Long-Term Side Effects

One of the primary long-term emotional changes following amygdalotomy is a diminished response, which can manifest as reduced anxiety to previously aversive stimuli but may also contribute to recklessness or impaired in and daily activities. In a case series of unilateral for severe PTSD, patients exhibited persistent tolerance to trauma triggers without accompanying at 12 months postoperatively, highlighting the procedure's impact on emotional processing. Klüver-Bucy-like symptoms, including hyperorality and a tendency to examine objects orally, have been reported in rare human cases of bilateral damage, though these are often transient and resolve within months after stereotaxic amygdalotomy. Cognitive impacts primarily involve memory impairments, affecting declarative memory and retrieval processes for novel or context-poor information, with deficits persisting at one year post-unilateral amygdalotomy in patients with . Reviews of clinical series indicate that overall complication rates vary widely from 0% to 42% depending on patient selection and surgical technique, with significant long-term side effects being infrequent in reported cases. These effects underscore the need for careful preoperative evaluation to mitigate chronic repercussions beyond immediate postoperative recovery.

Ethical Considerations

Historical Controversies

During the mid-20th century, amygdalotomy and related psychosurgical procedures raised significant concerns regarding , particularly among vulnerable populations such as institutionalized s with severe mental illnesses. In the 1950s and 1960s, many procedures were performed on involuntarily confined individuals, including those with or aggressive behaviors, who often lacked the autonomy to provide meaningful consent due to their institutionalization and cognitive impairments. A landmark case, Kaimowitz v. Department of Mental Health (1973), involved a proposed amygdalotomy on an involuntarily detained and highlighted how coercion within psychiatric institutions invalidated consent, as s faced pressures from authorities and had limited understanding of the experimental nature and irreversible risks of the surgery. These practices echoed earlier abuses in , where consent was frequently nominal or obtained from guardians without input, exacerbating ethical violations during the 1950s-1970s era. The broader backlash against in the 1970s was intensified by its association with the notorious abuses of prefrontal in the preceding decades, which had been performed on tens of thousands of patients, often resulting in severe and loss of cognitive function. Public outcry, fueled by civil rights advocates, media portrayals, and critics like Peter Breggin who warned of a "return of the ," led to congressional hearings and federal scrutiny of procedures like amygdalotomy, viewed as tools for behavioral control rather than therapeutic interventions. This culminated in the 1977 report by the National Commission for the Protection of Human Subjects, which recommended strict regulations on , including mandatory institutional review boards, rigorous protocols, and prohibitions for certain vulnerable groups like prisoners and minors, effectively restricting its use in the United States. Cultural and regional differences further highlighted controversies, with higher acceptance of amygdalotomy and similar ablative psychosurgeries in parts of compared to outright restrictions or bans in the . In , during the late 20th and early 21st centuries, such procedures were more liberally applied for conditions like , , and , with one surgeon alone performing nearly 1,000 brain surgeries between 2004 and 2007, often promoted as "miracle cures" amid lax oversight and inadequate on risks. This overuse prompted a 2009 Ministry of crackdown, classifying psychosurgery as a high-risk, unproven requiring special licensing, contrasting sharply with Western ethical frameworks that had largely curtailed such practices by the late 1970s due to human rights concerns.

Current Status and Alternatives

Amygdalotomy has largely been abandoned as a routine psychosurgical since the , following the widespread availability of effective pharmacological treatments such as antipsychotics and selective serotonin inhibitors (SSRIs), which offer non-invasive management of and related psychiatric symptoms. Globally, fewer than 100 cases have been reported post-2000, primarily in limited contexts like refractory or isolated psychiatric emergencies in regions with restricted access to advanced . This decline reflects broader ethical and clinical shifts away from irreversible lesioning procedures toward reversible and less invasive options. A 2022 review highlights case reports of successful symptom reduction in refractory PTSD patients using MRI-guided LITT to ablate portions of the basolateral , based on 2020 procedures, alleviating hyperarousal and responses without broad cognitive deficits. Similar targeted ablations have shown promise for severe in select cases, with over 70% behavioral improvement in small cohorts. As of 2025, emerging non-invasive techniques like low-intensity transcranial targeting the show promise for treatment-resistant mood and anxiety disorders, prompting ongoing ethical debates on accessibility and long-term effects compared to invasive ablations. As a reversible alternative, (DBS) of amygdala-adjacent structures like the posteromedial has emerged for intractable , reducing self-destructive behaviors by 30-100% in patients with intellectual disabilities or , while allowing parameter adjustments to minimize side effects. Non-surgical alternatives predominate for managing conditions historically treated by amygdalotomy, including with beta-blockers like to attenuate in PTSD or impulsive disorders, and SSRIs such as sertraline for core anxiety and mood symptoms. (), particularly trauma-focused variants, serves as a first-line for PTSD and , promoting emotional through exposure and coping strategies with high efficacy in reducing symptom severity. For refractory cases, targeting limbic networks offers a neuromodulatory option superior to in reversibility, with long-term follow-up showing sustained control in over 70% of patients without permanent tissue damage. These approaches prioritize minimal invasiveness and ethical considerations, rendering traditional amygdalotomy obsolete in most clinical guidelines.