Botulinum Toxin Therapy: A Comprehensive Review on Clinical and Pharmacological Insights
Journal of Clinical Medicine (JCM)
Abstract and Figures
Background: Botulinum toxin (BoNT), produced by Clostridium botulinum, has transitioned from being a lethal neurotoxin to a versatile therapeutic agent. Its ability to inhibit neurotransmitter release by targeting Soluble N-ethylmaleimide-sensitive factor Attachment Protein Receptor (SNARE) proteins underpins its applications in treating conditions such as spasticity, dystonia, chronic pain, and overactive bladder. The clinical and pharmacological properties of BoNT have been extensively studied, with significant advancements in its therapeutic use, safety profile, and understanding of associated adverse effects. Objective: This comprehensive review aims to consolidate historical developments, molecular mechanisms, clinical applications, and challenges associated with BoNT, with a focus on expanding its therapeutic scope while ensuring safety and efficacy. Method: A narrative approach was used to analyze and synthesize insights from 155 references spanning experimental studies, clinical trials, and reviews. Key topics included BoNT's historical milestones, mechanisms of action, therapeutic applications, and adverse events. Findings: BoNT demonstrates remarkable efficacy in a wide range of medical and cosmetic applications. In movement disorders such as dystonia and spasticity, it reduces muscle overactivity and improves functional outcomes. In chronic pain management, including migraines and neuropathic pain, BoNT significantly alleviates symptoms by modulating neurotransmitter activity. Cosmetic use for conditions like glabellar lines and hyperhidrosis highlights its precision and safety when administered appropriately. For conditions like strabismus and blepharospasm, BoNT effectively restores muscle control, reducing involuntary contractions. In urological applications, BoNT has proven to be an effective therapy for overactive bladder, offering significant symptom relief in refractory cases. However, concerns about long-distance effects, where the toxin may spread beyond the injection site to affect distant muscles or systems, have been reported in certain high-dose or sensitive populations. These findings emphasize the importance of dose optimization and patient-specific approaches. Adverse effects such as localized pain, hematoma, dysphagia, and systemic effects, particularly in high-risk groups, underscore the need for careful monitoring. The development of immunogenicity, leading to neutralizing antibodies, remains a challenge that impacts long-term therapeutic efficacy. Emerging research on novel serotypes, including BoNT/X, and innovations in delivery mechanisms, offer promising avenues to address current limitations. Advances in optimizing dosing regimens and refining injection techniques have also contributed to minimizing complications and improving outcomes across diverse patient populations. Conclusions: BoNT remains a cornerstone in neurology and cosmetic medicine, with its therapeutic potential still expanding. The balance between efficacy and safety, driven by innovations in formulation and application, underscores the importance of continued research. Future directions should focus on minimizing adverse effects, reducing immunogenicity, and exploring novel indications to further enhance its clinical utility.
![Botulinum toxin structure (schematic diagram) [22].](https://www.researchgate.net/profile/Nahla-Ayoub-3/publication/390527645/figure/fig1/AS:11431281355396218@1743903682577/Botulinum-toxin-structure-schematic-diagram-22_Q320.jpg)
![(a) Surface view of the BoNT-X (green)–NTNH (blue) complex. (b) Cartoon view of the different domains in each protein. BoNT-X domains are colored in green shades, and NTNH-X domains are colored in blue shades. (c) Local resolution estimates (Å) for the cryo- EM map of the M-PTC/X. (d) cryo-EM map around the LC active site. (e) cryo-EM map around the SxWY ganglioside-binding motif. (f) cryo-EM map around the HC patch rich in aromatic residues [24].](https://www.researchgate.net/profile/Nahla-Ayoub-3/publication/390527645/figure/fig2/AS:11431281330264007@1743186522568/a-Surface-view-of-the-BoNT-X-green-NTNH-blue-complex-b-Cartoon-view-of-the_Q320.jpg)
![Schematic of the SNARE/SM protein cycle mediating fusion, and the role of synaptotagmin and complexin in Ca²⁺—triggering of fusion [40].](https://www.researchgate.net/profile/Nahla-Ayoub-3/publication/390527645/figure/fig3/AS:11431281330145592@1743186523658/Schematic-of-the-SNARE-SM-protein-cycle-mediating-fusion-and-the-role-of-synaptotagmin_Q320.jpg)
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In the present paper, a comprehensive review was conducted to evaluate the performance of botulinum toxin type A (BTX-A) in managing various types of pain, including myofascial, muscular temporomandibular joint pain, orofacial pain, chronic migraines, and more. Firstly, the mechanism of action and anti-inflammatory effects of BTX-A was introduced. Following this, recent advancements in BTX-A applications were discussed, with an emphasis on emerging combination therapies, regenerative medicine, and personalized treatment strategies. Unlike previous reviews, this study explored a broader spectrum of pain conditions and highlighted BTX-A's versatility and potential as a long-term, minimally invasive pain management option. Additionally, the importance of tailoring BTX-A treatment was emphasized through the integration of biomarkers, genetic factors, and optimized dosing regimens to enhance efficacy and minimize side effects. Novel combinations with regenerative therapies, such as stem cells and tissue engineering, were identified as promising avenues for joint and nerve repair, providing both symptomatic relief and tissue regeneration. Furthermore, digital health tools and artificial intelligence were suggested as innovative approaches to monitor treatment responses and optimize dosing protocols in real-time, advancing personalized pain management. Overall, this review underscores BTX-A's potential in comprehensive and patient-centered pain management and offers recommendations to guide future studies in optimizing BTX-A therapy.
Botulinum toxin (BoNT), the most potent substance known to humans, likely evolved not to kill but to serve other biological purposes. While its use in cosmetic applications is well known, its medical utility has become increasingly significant due to the intricacies of its structure and function. The toxin’s structural complexity enables it to target specific cellular processes with remarkable precision, making it an invaluable tool in both basic and applied biomedical research. BoNT’s potency stems from its unique structural features, which include domains responsible for receptor recognition, membrane binding, internalization, and enzymatic cleavage. This division of labor within the toxin’s structure allows it to specifically recognize and interact with synaptic proteins, leading to precise cleavage at targeted sites within neurons. The toxin’s mechanism of action involves a multi-step process: recognition, binding, and catalysis, ultimately blocking neurotransmitter release by cleaving proteins like SNAP-25, VAMP, and syntaxin. This disruption in synaptic vesicle fusion causes paralysis, typically in peripheral neurons. However, emerging evidence suggests that BoNT also affects the central nervous system (CNS), influencing presynaptic functions and distant neuronal systems. The evolutionary history of BoNT reveals that its neurotoxic properties likely provided a selective advantage in certain ecological contexts. Interestingly, the very features that make BoNT a potent toxin also enable its therapeutic applications, offering precision in treating neurological disorders like dystonia, spasticity, and chronic pain. In this review, we highlight the toxin’s structural, functional, and evolutionary aspects, explore its clinical uses, and identify key research gaps, such as BoNT’s central effects and its long-term cellular impact. A clear understanding of these aspects could facilitate the representation of BoNT as a unique scientific paradigm for studying neuronal processes and developing targeted therapeutic strategies.
Advances in oncological treatments have improved the survival rates of cancer patients but have often resulted in significant physical changes that negatively impact their self-esteem and psychological well-being. Cancer patients frequently ask esthetic practitioners to perform procedures to address such changes. However, practitioners often hesitate to satisfy such requests due to lacking guidelines or recommendations. The use of botulinum toxins (BoNTs) for esthetic purposes has shown significant promise in improving the quality of life for cancer patients. This review explores the broad application of BoNTs in many medical branches, focusing on oncology. A substantial amount of literature shows that BoNTs are safe and effective as a type of adjunctive therapy compared to classical cancer treatments. We provide our expert opinion that the use of BoNTs for esthetic purposes is safe for cancer patients and even recommended for those whose mood is influenced by the worsening of their physical appearance. Careful patient selection and interdisciplinary collaboration are essential to the safe integration of BoNTs into cancer care.
Botulinum neurotoxin type-A (BoNT/A), which blocks quantal acetylcholine (ACh) release at the neuromuscular junction (NMJ), has demonstrated its efficacy in the symptomatic treatment of blepharospasm. In 3.89% of patients treated for blepharospasm at Tenon Hospital, BoNT/A was no longer effective in relieving the patient’s symptoms, and a partial upper myectomy of the Orbicularis oculi muscle was performed. We used surgical waste samples from 14 patients treated with repeated injections of either abobotulinumtoxinA (Dysport®) or incobotulinumtoxinA (Xeomin®). These muscle fragments were compared to others from 4 normal subjects, naïve of BoNT/A. The morphological study was performed blinded to the BoNT/A treatment and between treated and control samples. Neuromuscular specimens analyzed by confocal laser scanning microscopy, using fluorescent staining and immune-labeling of presynaptic proteins, revealed that the pattern of innervation (e.g., polyneuronal and convergent innervation), the muscle nicotinic ACh receptors (nAChRs), and the NMJs exhibited marked differences in BoNT/A-treated muscles (regardless of the toxin clinically used), with respect to controls. BoNT/A-treated junctions exhibited profuse polyneuronal innervation in which 2–6 axons innervated 74.84% of single muscle fibers, while 99.47% of control junctions were mono-innervated. Another new finding was the stable convergent innervation, in which several motor axons end onto the same endplate. Morphological signs of synapse elimination included the presence of retraction bulbs in axons and nerve terminals and a reduced extension of postsynaptic nAChRs. These outcomes suggest that synapse elimination is altered and raise questions on the origin and factors contributing to the plasticity changes observed and the functioning of NMJs.
Objective: To compare the effectiveness, patient satisfaction, and complications associated with pretarsal botulinum toxin type A (BTX-A) injections
using half versus full doses of benign essential blepharospasm (BEB).
Materials and Methods: A prospective double-masked randomized control trial was conducted in 20 patients. Each patient was randomized to
receive either 40 or 80 units of BTX-A injections at Thammasat Hospital between April 2022 and August 2023. The primary outcome measures
were frequency and severity using the Jankovic Rating Scale (JRS), latency to response, self-response scale, and patient satisfaction scale at four
weeks and 12 weeks post-injection. The secondary outcome measures were complications of injection in each visit.
Results: There were no significant differences between the groups receiving half-dose and full-dose BTX-A injections in the self-response scale
at 2.60±0.52 versus 2.00±1.15, (p=0.277), patient satisfaction scale at 8.30±1.57 versus 7.00±1.49, (p=0.063) at four weeks and JRS frequency at
1.00±0.82 versus 1.20±0.92, (p=0.687), JRS severity at 1.30±1.16 versus 1.40±0.97, (p=0.784), latency to response at 5.80±1.99 versus 6.80±1.93,
(p=0.214), self-response scale at 2.70±0.48 versus 2.20±0.63, (p=0.067), and patient satisfaction scale at 8.10±1.60 versus 8.30±1.49, (p=0.776)
at 12 weeks. Complications, including epiphora, dry eye, and lagophthalmos, were observed in both groups.
Conclusion: The present study indicated no significant differences between half-dose and full-dose BTX-A injections. Either dose showed
comparable efficacy and safety in treating BEB.
Regular and long-term injections of botulinum toxin (BoNT) are considered the first line therapy for essential blepharospasm (BEB), but no data exists on the long-term effect of this therapy on depressive symptoms and quality of life. This study aims to prospectively evaluate the long-term effects of BoNT therapy on depressive symptoms as well as on daily activities, emotional well-being and quality of life using validated questionnaires (BEB-scale, Beck`s Depression Inventory (BDI)). 86 patients diagnosed with BEB were followed up for a median of 4 years. Clinical symptoms improved significantly after BoNT-injections. Everyday activities and subjective assessment of the overall situation improved gradually under long-term BoNT therapy. Significant correlations (p < 0.0001; r-values between 0.498 and 0.706) were found between the BDI and items of the BEB-scale. No significant antidepressive effect of long-term BoNT therapy was found with a low median BDI total score (5/max. 63), but up to 31.3% of BEB patients had a BDI score ≥ 11, indicating clinically relevant depressive symptoms. Of these, 65.4% had no known history of depression. Although, several studies reported an antidepressant effect of botulinum toxin injections in patients with major depression, this effect does not seem to be present in patients with BEB despite clinical improvement of symptoms. A high prevalence of previously undetected depressive symptoms was found in BEB patients. As this may influence BoNT therapy success, identifying potential depressive symptoms at the time of BEB diagnosis and initiating appropriate treatment seems important.
Background
Hemifacial spasm (HFS) is a neuromuscular disorder characterized by unilateral facial muscle spasms, negatively impacts quality of life due to social embarrassment. Botulinum Neurotoxin (BoNT) injections have emerged as a viable therapeutic approach. This systematic review evaluated the efficacy and safety of BoNT injections for HFS management, along with effects on patients’ quality of life and mental health.
Materials and methods
A systematic search for studies on BoNT treatment for HFS published between January 1, 2000, and May 1, 2024, was performed across major databases. Study quality was evaluated using Cochrane and Joanna Briggs Institute (JBI) tools, with data management handled by EndNote X9 and statistical analyses conducted via Review Manager (RevMan 5.4) and STATA 14.0.
Results
Thirty-five studies met the inclusion criteria: 2 RCTs comprising 83 HFS patients compared the efficacy of perioral injections of botulinum toxin and placebo, while 33 single-arm studies reported outcomes for 2786 patients post-BoNT injection. The selection of 17 single-arm studies focused on the effectiveness rate as the key outcome metric. Pooled estimate signified a remarkably high effectiveness (ES: 0.882, 95% CI: 0.830, 0.926, P < 0.001). Analysis of depression scale (SMD: -0.85, 95% CI: -1.34, -0.35, P < 0.001), anxiety scale (SMD: -1.50, 95% CI: -2.19, -0.80, P < 0.001) and total scale of quality of life (SMD: -0.64, 95% CI: -0.87, -0.41, P = 0.766) showed that BoNT therapy worked well especially in improving mental state and quality of life. Ptosis was considered as the most common adverse reaction during BoNT injections (OR: 0.30, 95% CI: 0.11, 0.81, P = 0.843).
Conclusion
BoNT injection showed validity and clinical safety in the treatment of HFS, particular for depression relief. Injections around the mouth were only effective for HFS cases with severe symptoms. A standardized strategy for BoNT injections in managing HFS, detailing parameters such as injection sites, doses, and frequencies, remained elusive. Additional RCTs are necessary to further elucidate the interplay between efficacy and these components.
Introduction and purpose Hyperhidrosis (HH) is a medical conditions that affects more and more people every year. It is characterized by undue sweating without any temperature changes and significantly above the body’s thermoregulation needs. Primary hyperhidrosis is associated with genetic and psychological factors, as the etiology is not yet found. Treatment is aimed at the symptoms. Secondary hyperhidrosis happens as an adverse event of drugs taken by patient or is a part of neurological, endocrine or oncological diseases. Teratment should be focused on the main underlying disease. The quality of life of these patients is reduced and it affects their psychological health.This study inevstigates currently available methods of treatment. State of knowledge Various treatment options for hyperhidrosis range from topical aluminum salts for mild cases to oral anti-cholinergic agents for more severe conditions. Additional methods include iontophoresis, lasers like Nd:Yag, and botulinum toxin injections, known for their effectiveness. Surgical procedures such as Endoscopic Thoracic Sympathectomy, local skin excision, liposuction-curettage are also available for severe cases. Consultation with a healthcare provider is crucial to determine the most suitable treatment based on individual needs and preferences. Conclusions Literature provides valuable insights into hyperhidrosis and its treatments, emphasizing the importance of patient expectations and safety. Starting with topical aluminum salts for mild cases, treatments need to be reapplied regularly. Surgical options are considered if conservative treatments fail, but they come with potential risks. Botulinum toxin injections stand out for their efficacy, quick procedure, and the convenience of one or two annual sessions, making them a popular choice in many aesthetic clinics. Consulting with healthcare professionals is key to selecting the most suitable treatment approach for individual needs.