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In the realm of sports, we are constantly reminded that the best stories are those that inspire us, those that challenge us to rethink our own limitations, and show us the power of the human spirit. The story of Miguel Ángel Sabalaga Rivera, ambassador for Gogoa Mobility Robots and Movex Clinics, is precisely one of those exceptional tales, a modern epic of resilience, courage, and triumph over adversity. This article marks the second installment highlighting Miguel Ángel's impressive sporting achievements, reflecting his notable progress since the previous one and showcasing his inspiring story of overcoming. A few years ago, Miguel Ángel's life took an unexpected turn when a workplace accident left him with a devastating spinal cord injury. A crane fell on him, bending his body and leaving him without sensation in his legs. In the blink of an eye, his destiny changed forever. However, amidst the darkness, he found a glimmer of hope in Movex Clinics' robotic neurorehabilitation clinics. With the help of cutting-edge technology and the unwavering support of a dedicated team, Miguel Ángel began his journey towards recovery. Every step of the way was filled with immense challenges, but his unwavering determination and steadfast faith in his ability to overcome adversity carried him through the shadows into the light. In Miguel Ángel's own words as he underwent rehabilitation: "Getting up from the chair was like witnessing the birth of my child." These words capture the magnitude of his achievement and the emotion that accompanied him at every step of his progress. As he immersed himself in the rehabilitation process, he discovered a newfound strength within himself, a strength that propelled him beyond what he ever believed possible. Recently, Miguel Ángel has brought that same determination and strength to the playing field, pushing the boundaries of body and mind. In Guadalajara, he showcased his prowess on the track by surpassing his own records in the 800 meters with an impressive time of 2:16, the 200 meters in 0:32, and the 5000 meters in 15:25, marking significant progress from the previous year. But his true test came in the Movistar half marathon in Madrid. Despite encountering a flat tire at kilometer 4 of the race, Miguel Ángel didn't stop. With courage and determination, he crossed the finish line in a remarkable time of 1:08:40 minutes, securing a second place in the competition. Congratulations from the entire team! This achievement is more than just a sporting milestone; it's a testimony to the resilience of the human spirit and the power of will to overcome any obstacle. The story of Miguel Ángel Sabalaga Rivera is a beacon of hope in a world full of challenges, an inspiring reminder that with determination and faith, there is no limit to what can be achieved. Gogoa Mobility Robots takes pride in having Miguel Ángel as an ambassador, a true symbol of courage, resilience, and triumph over adversity. His story will continue to inspire future generations to overcome obstacles and reach new heights in the pursuit of greatness. Attached is a selection of photos illustrating the highlights of Miguel Ángel's competitions, capturing his passion, dedication, and triumph in sports. These images are a visual testament to his admirable journey to success and a celebration of his unwavering determination.

In a world where over a billion people face various forms of disability, the quest for innovative solutions in the field of neuro-rehabilitation becomes imperative. In this context, it gives us great pleasure to announce our involvement in the AI-REHAB project, a collaborative effort promising to revolutionize the way we approach mobility rehabilitation. This exhilarating project is undertaken in collaboration with two renowned institutions: the University of Deusto and the Miranda Foundation. With the support of business R&D assistance programs such as HAZITEK, we are propelling research and development of groundbreaking solutions in the field of robotic neuro-rehabilitation. Furthermore, it is important to highlight that this initiative is co-funded by the Basque Government and the European Union through the Regional Development Fund 2021-2027 (FEDER), demonstrating a joint commitment to promote scientific and technological excellence in our region. This multidisciplinary collaboration and governmental endorsement enable us to progress towards our goal of leading change in the realm of mobility and rehabilitation. AI-REHAB aims primarily to enhance therapy and procedures for robotic neuro-rehabilitation of mobility, integrating artificial intelligence to provide precise diagnostics and tailor treatments to each patient. This translates into a dynamic approach to rehabilitation, tailored to the individual needs of each person. Additionally, this innovative project explores the potential of robotic systems to prevent frailty, an increasingly pressing issue in our society. The aging population and the rise of chronic illnesses are creating a growing demand for health and rehabilitation services. In this context, robotic neuro-rehabilitation emerges as a promising solution. While robotic rehabilitation systems have proven effective in improving mobility and functionality in patients with motor disorders, the lack of a scientific approach to customize therapy has hindered its widespread adoption. This is where artificial intelligence plays a crucial role. Thanks to recent advancements in AI technology, we can unify criteria, determine the precise frequency and intensity of treatment for each patient, and even optimize process parameters in real-time. This means we can tailor robotic systems to the individual needs of each patient, thereby enhancing the effectiveness of treatments through personalization and continuous feedback. However, AI-REHAB goes beyond individualized therapy. The combination of artificial intelligence with robotic systems also offers the potential to detect frailty early, an increasingly relevant public health issue. By applying AI algorithms to precise measurements of motor performance provided by robotic systems, we can identify early signs of frailty and offer preventive interventions in a timely manner. Ultimately, AI-REHAB represents an opportunity to generate new knowledge and improve existing technology in the field of robotic neuro-rehabilitation. We are committed to leading this project and contributing to the advancement of science and technology for the benefit of people with disabilities and motor frailty. At Gogoa Mobility Robots, we firmly believe in the transformative power of technology to enhance people's quality of life. With AI-REHAB, we are taking a significant step towards a future where mobility is an accessible reality for all.

It is an honour for us to announce our prominent participation at EXO Berlin on April 16th and 17th, 2024! As one of the leading biomedical engineering firms in the sector, we are delighted to present our latest breakthrough at this prestigious fair: BELK+, the first European personal exoskeleton designed to assist in walking. But that's just the beginning; we will also share with the international community our advancements in robotic neurorobilitation technology and the design of innovative therapies developed in our MOVEX LIVING LAB. What is BELK+? BELK+ is an advanced lower limb exoskeleton featuring motorized joints, designed to be used on a single leg or both legs simultaneously. Who is BELK+ for? BELK+ is designed for individuals seeking to regain mobility and achieve a natural gait by assisting their legs. It offers an innovative solution to effectively strengthen knee joint functionality. What makes it unique? Plug & Play functionality ensures seamless integration, reacting intuitively to the user's intent. BELK+ offers adjustable settings and extended autonomy for prolonged use, prioritizing knee assistance and weight distribution on the ground. Pioneering in its global approach, it utilizes sensitized soles for transparent walking assistance. Users can customize movement and speed for personalized training, with adaptive assistance for evolving needs. Join Us at EXO Berlin We extend a warm invitation to all technology and innovation enthusiasts to join us at EXO Berlin. Besides witnessing the global launch of BELK+, you'll have the opportunity to immerse yourself in our conferences and live demonstrations, where we'll share exclusive insights into the future of mobility and rehabilitation. Information about GOGOA's conferences at EXO Berlin: https://exo-berlin.de/guestevent/ SESSION A: Empowering Mobility: Official Launch and Product Demonstration of BELK+, Europe's First Personal Gait Assistance Exoskeleton Date and time: April 16th, 15:30h Link: https://guestevent.exo-berlin.de/gogoa/Session_A.html SESSION B: Creating Technology + Designing Robotic Neurorehabilitation Therapies: Insights from MOVEX LIVING LAB Date and time: April 16th, 16:00h Link: https://guestevent.exo-berlin.de/gogoa/Session_B.html Information about EXO Berlin: EXO Berlin is recognized as the leading summit in the field of assistive robotics and human augmentation. Since its inception in 2018, it has been the meeting point for the brightest minds and the most innovative companies in the biomedical sector. Here, ideas are shared, partnerships are forged, and the most exciting advancements that are transforming the landscape of health and mobility are presented. We look forward to meeting you at EXO Berlin and sharing our passion for biomedical engineering and technological progress! #EXOBerlin2024 #RoboticMobility #InnovationInRehabilitation #BELKPlus #AssistiveTechnology GOGOA EXO Berlin 2024 BELK+

By Maite Molinuevo, Head of Neurology Specialized Physiotherapy and Clinic Coordinator at Movex Living Lab In the broad field of neurological diseases, Amyotrophic Lateral Sclerosis (ALS) emerges as a formidable figure, challenging both those who suffer from it and healthcare professionals striving to understand and address it in the best possible way. Currently, it is the third most common neurodegenerative disease in Spain. From my experience in specialized neurology physiotherapy, I have been able to accompany patients along their journey and at different stages of this disease, and today I wish to share with you an insight into its nature, symptoms, treatments, and a look at the forefront of neurorehabilitation, where exoskeletons stand out as a promising tool. What is ALS? ALS, Amyotrophic Lateral Sclerosis, is a progressive neurodegenerative disease caused by the loss of spinal, bulbar, and cortical motor neurons, resulting in the paralysis of voluntary and respiratory muscles. It predominantly affects people between 40 and 70 years of age, and it is worth noting that the clinical course and pathophysiology of this disease are as heterogeneous and individual as the patients we may encounter. Symptoms of ALS Symptoms of ALS can vary significantly between individuals and over time. However, some common signs include muscle weakness, muscle spasms, difficulty speaking, swallowing, or breathing, changes in coordination, and difficulty in controlling voluntary muscle. It is important to note that ALS does not affect cognitive function, meaning that the person remains mentally alert, aware, and oriented as the disease progresses with all its symptoms. ALS Treatment To date, there is no cure or definitive therapy for ALS. However, there are various treatment strategies aimed at relieving symptoms, delaying disease progression, and improving the quality of life of patients. These may include physical rehabilitation therapies, medications to control symptoms, respiratory and feeding assistance equipment, as well as emotional and psychological support for both the patient and their family and caregivers. Personal Experience: Human Connection in the Fight against ALS Throughout my career, I have been able to work with various people facing ALS. Each patient has their own story, and each encounter has taught me the importance of empathy, understanding, and commitment in the rehabilitation process, always with the aim of providing, as much as possible, a better quality of life to each individual. As a therapist accompanying the daily journey of each patient, each person leaves their personal mark on you. I especially remember J., a middle-aged man who, despite the constant progression of his disease and his difficulty in walking, never stopped trying every single day. For J., walking was a daily struggle, as he experienced an average of 5 falls per month. It was in this context that rehabilitation with exoskeletons restored his autonomy and quality of life, and with it, a new hope, both for him and for the entire team, as after several months of rehabilitation, he went on to have a maximum of 2 falls per year. Exoskeletons: Innovation in Neurological Rehabilitation In the field of neurorehabilitation, exoskeletons are emerging as a revolutionary tool for improving gait quality and mobility in patients with various neurological pathologies, including ALS. These biomechanical devices provide support and assistance to different joints and body structures through the principle of neuroplasticity, thus allowing improvement in strength, muscle activation, endurance, stability, and body schema deficient after a neurological injury or pathology. In J.'s case, the use of an exoskeleton not only provided him with greater stability and balance while walking but also gave him a renewed sense of freedom. Through carefully tailored training sessions and continuous support from an interdisciplinary team, J. was able to maintain his mobility and independence for longer than he ever thought possible. Conclusion: A Future of Hope and Empowerment ALS can be a devastating disease, both for those who suffer from it and for their loved ones. However, in the midst of adversity, human resilience and technological innovation emerge. As we continue our search for more effective treatments and more accessible solutions for ALS, we must always remember the importance of addressing this disease comprehensively, providing not only medical care and physical therapies but also emotional and psychosocial support. Ultimately, the fight against ALS is a fight for human dignity, quality of life, and hope. Let us continue moving forward together, united in our commitment to improve the lives of those facing this relentless disease. Keywords: ALS, ALS disease, Amyotrophic Lateral Sclerosis, what is ALS. ALS Exoskeletons Neurological Rehabilitation

In the world of neurological rehabilitation, every small advancement is cause for celebration, every achievement represents a victory over adversity. At Gogoa Mobility Robots, we bear witness daily to these transformations, stories that inspire us and remind us of the purpose of our work. Today we want to share with you the story of one of our patients, who, out of respect for their privacy, has chosen to remain anonymous. This patient is in the midst of a challenging rehabilitation journey. With a diagnosis of brain tumor and communication difficulties, their path to recovery has not been easy. However, thanks to Movex Clinics' innovative approach and GOGOA technology, they are gradually regaining their mobility and voice. Through dedicated and personalized rehabilitation sessions, our patient is rebuilding their life step by step. Although they face challenges with aphasia, a speech difficulty, their determination and positive spirit are evident in every session. Recently, our patient surprised us with a touching gesture: they created a song as a token of appreciation towards the team at Movex Clinics and Gogoa Mobility Robots. This song is not only a gift to us but a symbol of their resilience and ability to find joy amidst adversity. Under our new motto, "Rebirth to Rediscover Enjoyment in Life," each small step taken by our patient carries special meaning. At Gogoa Mobility Robots, we not only create technology but design comprehensive therapies that promote the recovery and well-being of our patients. We are leaders in the field of robotic neurorehabilitation, offering customized treatments for a variety of pathologies, from strokes to neurodegenerative diseases and muscular dysfunctions. In this field, we are committed to the progress and welfare of our patients. Every day, we feel honored to be part of our patient's journey to recovery. Their strength and determination are an inspiration to us and to all those who strive to overcome obstacles. We invite you to join us on this journey of hope and transformation. Together with our patient, we are writing a story of resilience and triumph. Though the road may be tough, we believe in the power of the human spirit to find light even in the darkest moments. In this post, we share the song created by our courageous patient as a symbol of hope and gratitude. We invite you to listen to it and join us in celebrating the strength of the human spirit and the power of rehabilitation. Because every small advancement is a step forward on the path to recovery. - A Song of Gratitude from MOVEX CLINICS

Since the dawn of humanity, we have looked to nature for inspiration and learning. The patterns found in flora and fauna have guided our advancements in technology, medicine, and design. In this journey of discovery, we have encountered a fascinating phenomenon: the exoskeleton. This term, which literally means "external skeleton," leads us into a world where the line between the organic and the technological blurs, offering a new horizon of possibilities for enhancing human life. A Glimpse into the Evolution of the Exoskeleton The term "exoskeleton" comes from Greek, where "exo" means "external" and "skeleton" refers to the support structure. In the animal kingdom, the exoskeleton manifests as an external covering that protects and supports the organism's body. For example, in the phylum of arthropods, such as spiders, insects, and crustaceans, the exoskeleton is a structure composed mainly of chitin, a resilient polysaccharide that provides support and protection. This biological design has inspired the creation of artificial exoskeletons, designed to enhance human mobility, strength, and endurance. The earliest attempts at mechanical exoskeletons date back to the 20th century, when they were used in military and industrial applications. However, it was in the 21st century that technology reached a level that allowed the creation of advanced exoskeletons, capable of integrating more seamlessly with the human body. The Convergence of Nature and Technology in the Modern Exoskeleton Today, the exoskeleton has acquired a broader and deeper meaning. It is not just a tool to increase strength or mobility, but a gateway to man-machine integration. Exoskeleton technologies are being used in a variety of fields, from medicine to sports, with the aim of improving human capabilities and quality of life. Companies like ours, Gogoa Mobility Robots, are at the forefront of this revolution, developing advanced exoskeletons for neurorehabilitation and mobility assistance. Their approach is based on mimicking the biomechanical principles found in nature, creating devices that perfectly adapt to the human body and enhance its function. The Future of the Exoskeleton: Integration and Continuous Improvement As we move towards the future, the exoskeleton promises to play an increasingly important role in our lives. Companies like Cyber Human Systems, a spin-off of Gogoa Mobility Robots, are exploring innovative applications to prevent workplace injuries and enhance human capabilities in demanding work environments. Similarly, the spin-off Levier is bringing exoskeletons into the sports arena, with devices designed to improve performance in sports such as skiing and snowboarding. Ultimately, the exoskeleton represents a perfect synthesis of nature and technology. By studying and learning from the designs found in the natural world, we can create tools that not only enhance our physical capabilities but also improve our experience as human beings. In this sense, the exoskeleton is a form of biodesign aimed at enriching our lives and leading us towards a future where the boundaries between the organic and the artificial blur ever more. - Exoskeleton: Alliance of Nature and Technology

Exploring the Boundaries between Body and Machine: The Impactful Collaboration of "Exografías" at TABAKALERA The intersection of art, science, and technology has birthed a fascinating exhibition that challenges conventional norms and opens new doors to imagination. "Machines of Ingenuity," a recently concluded exhibition at TABAKALERA, has left an enduring mark on the cultural landscape, with one singular piece standing out among the rest: "Exografías." EITB's TEKNOLOPOLIS program immersed us in this world of innovation and creativity by showcasing the unique fusion of scientific research and artistic expression in "Exografías." At the heart of this work lies an inspiring collaboration between Tekniker, the talented artist Amaia Vicente, and the team at Gogoa Mobility Robots, which has breathed life into an unparalleled experience. "Exografías" delves into the boundaries between the human body and technology, unraveling the complex and fascinating emotional relationship between people and machines. At the core of this installation is HANK, an ambulatory exoskeleton designed to rehabilitate lower limb walking. But this is not merely a functional device; it is a work of art in itself, challenging the conventional notion of technology as a purely utilitarian tool. The collaboration between Tekniker, Amaia Vicente, and Gogoa Mobility Robots resulted in a piece that captivated all who witnessed it during its exhibition. "Exografías" prompts us to reflect on how technology can become an extension of the human body, a manifestation of our creativity, and a tool for artistic expression. This project represents a milestone in the convergence of art and technology, highlighting the transformative power of interdisciplinary collaboration. By joining forces, something truly unique was created: a work that challenges our perceptions and invites us to imagine a future where technology not only enhances our lives but also enriches our human experience. As "Machines of Ingenuity" comes to a close, we are left with the legacy of "Exografías" and its lasting impact on our understanding of the world. This work reminds us that technology, far from being purely functional, can also be an expression of creativity, emotion, and limitless possibility.

In the dynamic world of medical technology, each step forward is a stride toward a better quality of life for those facing health challenges. In this context, we are pleased to share the progress achieved during the first year of work at the MOVEX LIVING LAB, the pioneering global laboratory for the design and development of robotic neurorehabilitation therapies, founded and led by Gogoa Mobility Robots in Euskadi. Since its inception, the MOVEX LIVING LAB has been a beacon of innovation, attracting international attention due to its pioneering advancements and commitment to progress in the field of neurorehabilitation. Throughout this inaugural year of operations, we have achieved significant milestones that are redefining the landscape of neurological rehabilitation. One of the most notable achievements has been a deeper understanding of the interaction between the individual and the exoskeleton, enabling the incorporation of new functionalities. Among these is the ability to control step-by-step gait, with the flexibility to adjust the waiting time between each step. This advancement represents a quantum leap in the customization of rehabilitation, adapting to the individual needs of each patient. Furthermore, we have incorporated olfactory stimulation as an integral component of our therapies. Carefully selected citrus aromas have been shown to have beneficial effects on neuronal function, accelerating the recovery process. This integration of aromatherapy into our clinical practices reflects our commitment to adopting holistic and scientifically supported approaches to neurorehabilitation. Likewise, neuroactive music has played a fundamental role in our therapy sessions. This music, carefully designed to enhance communication between the brain and muscles, has proven to be a powerful tool for improving neurological rehabilitation outcomes. Scientific research supports this claim, highlighting the positive effects of music on brain plasticity and motor function. Our commitment to innovation is also reflected in the development of new systems for vagus nerve stimulation, which will soon be available on the market. These advancements represent a step forward in our mission to provide comprehensive solutions for neurorehabilitation, addressing the complexities of neurological recovery from multiple perspectives. In addition to these innovations, we have further improved our HANK exoskeleton with the integration of sensorized insoles and accelerometers. These devices allow for a more active interaction of the user with the exoskeleton, effectively engaging them in the rehabilitation process. This cutting-edge technology not only enhances the effectiveness of our therapies but also accelerates recovery times and improves overall rehabilitation outcomes. In conclusion, the MOVEX LIVING LAB has proven to be a beacon of innovation and scientific excellence in the field of robotic neurorehabilitation. As we move forward into the future, we are committed to continuing to lead the way in the pursuit of transformative solutions to enhance the lives of those facing neurological challenges. Scientific References: Bavarsad, N. H., Bagheri, S., Kourosh-Arami, M., & Komaki, A. (2023). Aromatherapy for the brain: Lavender’s healing effect on epilepsy, depression, anxiety, migraine, and Alzheimer’s disease: A review article. Heliyon, 9(8), e18492. https://doi.org/10.1016/j.heliyon.2023.e18492 Evancho, A., Tyler, W. J., & McGregor, K. (2023). A review of combined neuromodulation and physical therapy interventions for enhanced neurorehabilitation. Frontiers in human neuroscience, 17.https://doi.org/10.3389/fnhum.2023.1151218 Galińska, E. (2015). Music therapy in neurological rehabilitation settings. Psychiatria polska, 49(4), 835–846. https://doi.org/10.12740/pp/25557 Martial, C., Poirrier, A.-L., Pottier, L., Cassol, H., Mortaheb, S., Panda, R., Lopez, M., Perrin, T., Boilevin, A., Gosseries, O., & Laureys, S. (2023). From nose to brain: The effect of lemon inhalation observed by whole brain voxel to voxel functional connectivity. Cortex; a Journal Devoted to the Study of the Nervous System and Behavior, 165, 119–128. https://doi.org/10.1016/j.cortex.2023.04.012 Sowndhararajan, K., & Kim, S. (2016). Influence of fragrances on human psychophysiological activity: With special reference to human electroencephalographic response. Scientia Pharmaceutica, 84(4), 724–751. https://doi.org/10.3390/scipharm84040724 Ueda, K., Horita, T., & Suzuki, T. (2023). Effects of inhaling essential oils of Citrus limonum L., Santalum album, and Cinnamomum camphora on human brain activity. Brain and Behavior, 13(2). https://doi.org/10.1002/brb3.2889

Today marks the exciting start of the much-anticipated Biomedical Realities Conference at Universidad Rey Juan Carlos (URJC), an initiative in which Gogoa Mobility Robots plays a pivotal role. These conferences promise to immerse participants in the fascinating world of biomedical engineering, offering a comprehensive view of the latest trends and applications in this ever-evolving field. From keynote lectures to hands-on workshops, the conference program is designed to inspire, educate, and connect students, professionals, and technology and health enthusiasts alike. And at the heart of this educational experience lies Gogoa, a leader in the development of innovative technologies such as the HANK robotic exoskeleton, which is transforming the way we approach rehabilitation and personal assistance. The hands-on workshop offered by Gogoa is a unique opportunity for attendees to get firsthand knowledge of HANK's operation and application. With subject matter experts guiding the experience, participants will explore how this technology is changing lives and how they can be part of this revolution in biomedical engineering. Additionally, keynote speeches by prominent speakers such as Carlos Fernandez Isoird and Guillermo Asín Prieto will provide in-depth insights into the latest advancements in the field. From biomechanics to bioinformatics, these presentations will offer a broad perspective on the possibilities that biomedical engineering offers for improving health and well-being. For those looking to explore new professional opportunities or simply wanting to stay informed about the latest innovations in technology and health, the Biomedical Realities Conference at URJC is the place to be. So join us today and discover how Gogoa is leading the way toward a brighter and healthier future for all. We look forward to seeing you there!

In a world where technology is advancing at lightning speed, it's inspiring to witness the boundaries between what's possible and what's impossible blur each day. In this vein of innovation, we are excited to announce the collaboration between Gogoa and 7Sense, two leaders in their respective fields, to develop the market for haptic technology applied to the perception of the environment by visually impaired individuals. The partnership between the Estonian StartUp, 7Sense, and Gogoa has led to a truly revolutionary advancement: the application of 3D scanning technology of the environment, combined with artificial intelligence, to translate captured images into points of pressure and vibration. This process allows visually impaired individuals to physically feel what's happening around them, providing a tactile experience that, until recently, seemed straight out of science fiction. This breakthrough not only has the potential to improve the quality of life for visually impaired individuals but also represents the creation of a new sense: the seventh. This sense redefines the relationship between blind individuals and their environment, offering a new way to perceive the world around them. It's no longer just about "seeing" or "not seeing" but about experiencing and understanding through touch. Imagine being able to walk down a busy street and feel the vibrations indicating the presence of other pedestrians, detect obstacles before stumbling upon them, or even experience the texture of objects around you simply by touching them. This is what Gogoa and 7Sense's haptic technology makes possible: it transforms images of the environment into tactile sensations, creating a complete and enriching sensory experience for visually impaired individuals. This collaboration between Gogoa and 7Sense represents a significant milestone on the path to inclusion and equal opportunities for individuals with visual impairments. By providing an innovative tool that enables them to access and understand their environment more fully, we are breaking down barriers and building a more inclusive world for everyone. In summary, the union of Gogoa and 7Sense is marking a before and after in the development of haptic technology applied to the perception of the environment by visually impaired individuals. This exciting advancement not only represents a technical achievement but also a step forward towards a world where diversity and inclusion are fully celebrated and supported.

In the world of adapted sports, perseverance and willpower are qualities that stand out among athletes. But there are cases that go beyond, cases that inspire and motivate all those facing similar challenges. Miguel Ángel Sabalaga Rivera is one of those exceptional cases, and today we are proud to announce that he has become the first official ambassador for both Gogoa and Movex Clinics. Miguel Ángel has traversed a path full of obstacles and challenges since a tragedy changed his life forever. A few years ago, while at work, a crane fell on him, bending his body in half. In that instant, he noticed one leg felt nothing, and gradually, the sensation in the other leg faded until he felt nothing at all. This tragic incident resulted in a T12 ASIA D spinal cord injury of traumatic etiology, leaving Miguel Ángel with a series of spinal and medullary injuries challenging his ability to move and his life in general. However, he found a ray of hope in the robotic neurorobotics clinics of Movex Clinics. Here, with the help of cutting-edge technology and the unwavering support of a dedicated team, he began his journey to recovery. Despite the immense challenges he faced, Miguel Ángel clung to unwavering determination and unwavering faith in his ability to overcome this adversity. In Miguel Ángel's own words as he rehabilitated with us: "Getting up from the chair was like seeing my child being born." These words summarize the enormity of his achievement and the emotion that accompanied every step of his progress. As he immersed himself in the rehabilitation process, he discovered a new strength within himself, a strength that carried him beyond what he ever believed possible. His commitment to personal improvement did not stop at the clinic. Miguel Ángel is passionate about sports, and through handbike, he has found a way to express his determination and skill. With remarkable skill, he often reaches the podium in every competition he participates in, especially excelling with silver medals. Despite the physical limitations imposed by his injury, Miguel Ángel has exceeded expectations and has demonstrated time and time again his ability and dedication to sport and life itself. His calendar is filled with exciting challenges: from the athletics track to the most prestigious marathons, such as those in Seville, Barcelona, Madrid, and Jaén, as well as half marathons in the Spanish capital. Additionally, he competes in diverse locations such as Hospitalet de Llobregat (Barcelona), Madrid, the Basque Country, and the Canary Islands. Most inspiring of all is that Miguel Ángel not only competes for himself but also carries the banner of overcoming and human potential. As the official ambassador of Gogoa and Movex Clinics, he represents the fundamental values of perseverance and indomitable spirit. When the therapist tells you they can't do anymore, this 'frame' becomes your second body and allows you to look out the window," reflects Miguel Ángel on his experience with rehabilitation technology. It is a touching testimony of how technology can not only restore physical mobility but also uplift the human spirit. Miguel Ángel has achieved something truly extraordinary by becoming a symbol of hope and overcoming for many. At Gogoa and Movex Clinics, we are proud to support people like him, whose stories of overcoming remind us of the infinite capacity of the human being to face challenges and triumph over adversity. His dedication and passion are a reminder that, with determination and proper support, there are no limits to what we can achieve. Additionally, we want to celebrate his recent achievement in Seville as our ambassador, where he achieved an official time of 2 hours, 10 minutes, and 5 seconds, covering a total of 42.51 km. It is an exceptional time, and we are delighted to congratulate him on his incredible achievement! - Miguel Ángel Sabalaga Embajador Gogoa Movex Clinics

In an exciting step towards more effective and personalized neurorehabilitation, Gogoa Mobility Robots is on the verge of changing the landscape with its innovative development based on the theory of Central Pattern Generators (CPGs). These CPGs, described as neural networks that endogenously generate rhythmic patterns, represent a significant milestone in the understanding and application of neuroengineering to improve mobility in patients with neurological injuries. Picture this: at the beginning of the robotic neurorehabilitation process, when you engage with an exoskeleton, you're following a predetermined gait pattern, a sort of guide for your movements. But then, as your walking ability improves and your gait becomes more natural, that's when the GCP-based controllers come into play. This innovative control system adapts to your unique gait pattern, inspired by the natural movement of your body, providing personalized and precise assistance tailored to your specific needs. Having GCP-inspired control represents a revolutionary advancement in applied neuroengineering. Although this development has not yet been integrated into HANK, Gogoa Mobility Robots' flagship exoskeleton, it is expected to be soon, taking robot-assisted rehabilitation to a new level of effectiveness and personalization. The scientific foundation behind CPGs dates back over 50 years, when they were discovered in invertebrate animals by pioneering researchers like Wiersma, Hughes, and Wilson in the 1960s. Subsequent studies revealed that these neural generators are capable of producing coordinated motor patterns without relying on external sensory inputs, challenging previous conceptions about the need for proprioceptive feedback for the generation of complex movements. Figure 1. Coordinated motor outputs in leg nerves for swimming in the abdominal nerve chain of the crayfish. A. Three cycles of motor outputs from the pair of legs on the left and right sides of an abdominal segment. B. Eight simultaneous recordings showing two cycles of firing in axons innervating four pairs of legs in four abdominal segments. (Mulloney and Smarandache, 2010) The demonstration of "fictive motor patterns" in invertebrate preparations was crucial in understanding the endogenous nature of rhythmic pattern generation. This phenomenon, where motor neurons generate activity similar to what they would produce in vivo even in the absence of sensory inputs, provided solid evidence of the autonomy of CPGs in producing coordinated movements. The initial surprise at the discovery of CPGs lay in the prevailing belief that the generation of complex motor patterns required peripheral sensory information. However, further research revealed that these neural generators are capable of handling a variety of rhythmic behaviors, including locomotion, swimming, and breathing, in both invertebrates and mammals. Figure 2. Mechanisms of rhythmicity in the central pattern generator. a) Network-based rhythmicity (heartbeat rhythm generator of the leech). The network (top left) consists of a ring of six interconnected neurons with reciprocal inhibitory synapses. Neuron pairs 3 and 4 are particularly important as each forms a medio-central oscillator. Neurons in each pair discharge in antiphase (top right), while neurons 1 and 2 form a coordinated coupling between the medio-centers of neuron 3 and neuron 4; the network produces a two-phase pattern in which opening and closing neurons discharge in antiphase (left). Arrows indicate slow depolarization that allows the off-neuron to escape inhibition. Modified from Marder and Calabrese (1996). b) The pyloric network of the lobster is driven by an endogenous oscillatory neuron. Left, the complement of the neuronal network and synaptic interconnectivity (inhibitory synapses, stick-ball connectors; electrical coupling, resistors; rectifying electrical coupling, diode). Neuron AB is an endogenous oscillator and in most cases is the rhythmic driver of the network. Input to neuron AB induces post-inhibitory rebound and plateau in its follower neurons and as a consequence of these effects and interactions between follower neurons, the network produces a multifase rhythmic neural output (right). Neurons, VD, ventricular dilator; PL, late pyloric; PE, early pyloric. The application of this knowledge in clinical settings has revolutionized the rehabilitation of neurological injuries, especially in patients with spinal cord injuries. CPGs offer a new perspective on movement generation, showing that neural rhythmicity can be induced through interactions between neurons in neural networks or through interactions between ionic currents in individual neurons. Understanding the mechanisms underlying rhythmic pattern generation has led to the development of computational and experimental models that have revealed the complexity and flexibility of CPGs in producing multiple output patterns. This versatility offers promising potential for personalizing mobility assistance in neurorehabilitation, dynamically adapting to the individual needs and capabilities of each patient. The integration of GCP-inspired controls into mobility assistance devices such as Gogoa Mobility Robots' HANK exoskeleton represents an exciting step forward in the practical application of this groundbreaking theory. By offering personalized and adaptable assistance based on each individual's unique gait pattern, GCPs are poised to transform the way neurological rehabilitation is approached, paving the way for more effective and satisfying recovery for patients. For more information on the scientific basis behind this development, you can refer to the following links: http://www.facmed.unam.mx/Libro-NeuroFisio/FuncionesGenerales/CPGs/CPGs.html In summary, Central Pattern Generator-based controllers represent a crucial innovation in neurorehabilitation, based on decades of scientific research that has revealed the intrinsic ability of the nervous system to generate coordinated movements. With their clinical application and integration into mobility assistance devices, GCP-based controllers promise to significantly improve the quality of life for patients with neurological injuries, offering hope and opportunities for more complete and functional recovery. - Central Pattern Generators Controllers by GOGOA