Description

Become one of the most demanded professionals of the moment thanks to the completion of this very complete advanced master’s degree online”

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In the last 20 years, veterinary anesthesia in large species has experienced great progress thanks to the introduction of new techniques and drugs, as well as the development of specific anesthetic monitors and machines.  

Additionally, the introduction of new surgical techniques has created the need to develop new anesthetic protocols, and there is a growing concern about the impact of anesthesia and analgesia on animal welfare and on the final outcome of surgical procedures.  

High skills in anesthesia management are essential for veterinary surgeons, since anesthetic techniques are closely linked to surgical interventions. 

Therefore, in this advanced master’s degree the main contents related to anesthetic techniques and the main tools for diagnosis, treatment and orthopedic intervention in large species, such as ruminants (cattle and sheep), camelids (camels, alpacas and llamas), swine (pigs and wild boars) and equids (horses, donkeys and mules), including the description of the main musculoskeletal and rehabilitation surgical interventions, are united in this advanced master’s degree. 

It’s necessary to take into account that this specialized course is aimed at professionals who generally have long working days, which prevents them from being able to continue with their specialization in face-to-face classes and who cannot find high quality online courses adapted to their needs. In this context of the need for competent and quality online specialization, we present this advanced master’s degree in Anesthesia and Orthopedic Surgery in Large Species , which has come to revolutionize the world of veterinary specialization, both for its contents, as well as for its teaching staff and its innovative teaching methodology.  

Furthermore, as it is a 100% online specialization, the student decides where and when to study. Without the restrictions of fixed timetables or having to move between classrooms, this course can be combined with work and family life.   

A specialization created for professionals who aspire to excellence and that will allow you to acquire new skills and strategies in a fluent and efficient way”

This advanced master’s degree in Anesthesia and Orthopedic Surgery in Large Species  contains the most complete and up-to-date scientific program on the market. The most important features include:

  • The latest technology in online teaching software
  • A highly visual teaching system, supported by graphic and schematic contents that are easy to assimilate and understand
  • Practical cases presented by practising experts
  • State-of-the-art interactive video systems
  • Teaching supported by remote education
  • Continuous updating and retraining systems
  • Self-organised learning which makes the course completely compatible with other commitments  
  • Practical exercises for self-evaluation and learning verification
  • Support groups and educational synergies: Questions to the expert, discussion forums and knowledge
  • Communication with the teacher and individual reflection work
  • Content that is accessible from any, fixed or portable device with an Internet connection
  • Databases of supplementary materials are permanently available, even after the completing the program

We give you the opportunity to take a deep and complete dive into the strategies and approaches in Anesthesia and Orthopedic Surgery in Large Species "   

Our teaching staff is made up of working professionals. In this way we ensure that we deliver the educational update we are aiming for. A multidisciplinary staff of trained and experienced professionals from a variety of environments, who will develop theoretical knowledge in an efficient manner, but above all, will bring their practical knowledge from their own experience to the course.     

The efficiency of the methodological design of this master's degree, enhances the student's understanding of the subject. Developed by a multidisciplinary team of e-learning experts, it integrates the latest advances in educational technology. In this way, you will be able to study with a range of easy-to-use and versatile multimedia tools that will give you the necessary skills you need for your specialization.     

The design of this program is based on Problem-Based Learning, an approach that sees learning as a highly practical process. To achieve this remotely, we will use telepractice learning. With the help of an innovative interactive video system, and learning from an expert, you will be able to acquire the knowledge as if you were actually dealing with the scenario you are learning about. A concept that will allow you to integrate and fix learning in a more realistic and permanent way.    

This specialization comes with the best didactic material, providing you with a contextual approach that will facilitate your learning"

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This 100% online advanced master’s degree will allow you to combine your studies with your professional work while increasing your knowledge in this field"

Objectives

Our objective is to prepare highly qualified professionals for the working An objective that is complemented, moreover, in a global manner, by promoting human development that lays the foundations for a better society. This objective is focused on helping professionals reach a much higher level of expertise and control. A goal that you will be able to achieve thanks to a highly intensive and detailed course.   

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If your goal is to improve in your profession, to acquire a qualification that will enable you to compete among the best, then look no further: Welcome to TECH”   

General Objectives

  • Examine the anatomy and physiology of the cardiovascular system and the functioning of the respiratory system  
  • Establish the normal functioning of the digestive and renal systems  
  • Develop specialized knowledge about the functioning of the nervous system and its response to anesthesia  
  • Analyze the particularities of the different species (ruminants, swine, camelids and equids)  
  • Examine the requirements of a pre-anesthetic assessment and develop expertise in interpreting anesthetic risk  
  • Establish the pre-anesthetic preparation required for large species  
  • Analyze the pharmacological properties of injectable drugs  
  • Determine available sedative and tranquilizing drugs  
  • Delve into the available protocols for deep sedation  
  • Gain advanced knowledge of pharmacology and clinical maneuvers in the induction and intubation period in small and large ruminants, swine and camelids  
  • Provide safe options of current and new combinations of these agents for safe and effective induction of general anesthesia in the equine patient  
  • Detail the procedure of endotracheal intubation in the equine patient  
  • Examine the main physiological, anatomical and clinical needs related to the different types of decubitus and limb positioning of the equine patient  
  • Determine the components and operation of anesthetic machines, respiratory systems, oxygen delivery systems and artificial ventilation  
  • Generate specialized knowledge of the pharmacology of halogenated inhalation anesthetics, injectable anesthetics, sedative adjuvants, as well as the most recent TIVA and PIVA techniques described for ruminants, swine and camelids, and for equine species.,
  • Develop advanced knowledge on mechanical ventilation to recognize the need for mechanical ventilation and the most effective and safe settings for ruminants, swine and camelids, as well as for equine species  
  • Determine the pharmacology and clinical application of neuromuscular blocking agents   
  • Build specialist knowledge on the anesthetic recovery phase in ruminants, swine, camelids and equine species  
  • Determine the vital importance of the correct use of the anesthetic record during general anesthesia  
  • Examine and gain an in-depth understanding of the vital signs that should be monitored during general anesthesia or sedation of the equine patient  
  • Establish the technical characteristics of the main monitoring equipment used in the equine patient  
  • Develop the main peculiarities of monitoring in ruminants, swine and camelids  
  • Analyze the pathophysiological principles governing pain processes  
  • Determine the characteristics and correct use of pain scales specific to the equine species  
  • Generate specialized knowledge of the pharmacology of the main families of analgesic agents  
  • Examine the pharmacological peculiarities of analgesic agents in ruminants, swine and camelids  
  • Examine the anatomy relevant to the loco-regional techniques to be performed  
  • Generate specialized knowledge on the clinical pharmacology of the local anesthetics to be used  
  • Determine the equipment necessary to perform the different loco-regional techniques  
  • Detail how to perform the different loco-regional techniques on large ruminants, small ruminants, swine and camelids  
  • Establish how to perform the different loco-regional techniques on horses  
  • Identify, prevent and resolve complications during the perianesthetic period in the horse
  • Establish the appropriate clinical approach to cardiorespiratory resuscitation in the adult horse and neonatal foal
  • Identify, prevent and resolve complications during the perianesthesia period in small and large ruminants, swine and camelids
  • Establish the basis of body fluid and electrolyte physiology in the equine patient  
  • Determine the acid-base balance and interpret the most common alterations in the equine patient  
  • Examine the techniques and skills required for venous catheterization in the equine patient  
  • Establish the clinical and laboratory parameters important for monitoring fluid therapy in the equine patient  
  • Establish the special physiological considerations related to fluid therapy for ruminants, swine and camelids
  • Examine the main characteristics of crystalloid and colloid solutions frequently used in ruminants, swine and camelids  
  • Acquire specialized knowledge related to the therapeutic applications of fluid therapy for ruminants, swine and camelids  
  • Analyze the types of fluids available to the equine patient  
  • Get to know the main characteristics of the most frequently performed procedures in the station under sedation  
  • Detail the most relevant characteristics related to the anesthetic management of the most frequent diagnostic and therapeutic procedures   
  • Generate specialized knowledge for the correct anesthetic management of animals destined for human consumption  
  • Become an expert on the legislation related animals for human consumption as, well as experimental animals  
  • Detail the main logistical, pharmacological and clinical requirements for the correct anesthetic management of wild animals   
  • Specify the most characteristic peculiarities of the anesthetic management of the most frequent diagnostic and therapeutic procedures in foals  
  • Perform euthanasia protocols that respect the physical and mental well-being of the horse
  • Establish the basic system and procedures in a lameness examination
  • Identify the means available to locate an anatomical site as the cause of a claudication  
  • Establish the indications for the use of the different imaging techniques in the presence of an orthopedic problem
  • Examine the main therapeutic options currently available on the market
  • Examine the main pathological entities of the musculoskeletal system  
  • Analyze the main lesions of the axial skeleton 
  • Define the etiology of palmar hoof pain or podotrochlear pathology 
  • Compile the main findings in the diagnosis of bone, joint and soft tissue pathologies 
  • Present the different therapeutic options in the management of these pathologies 
  • Evaluate the equipment and instruments used in synovial cavity surgery 
  • Fundamental knowledge of arthroscopy, tenoscopy and bursoscopy techniques  
  • Develop synovial cavity exploration techniques 
  • Establish endoscopy as a method of surgical treatment of synovial pathologies 
  • Gain fundamental knowledge of musculoskeletal injuries and infections 
  • Establish an appropriate methodology for its exploration, diagnosis and treatment
  • Generate specialized knowledge of the different materials and techniques used for the treatment of these pathologies
  • Propose therapeutic strategies in wound management alternative to the conventional ones 
  • Gain advanced knowledge of the angular deformities, flexural deformities, osteochondrosis, and subchondral cysts  
  • Determine the different treatments for angular and flexural deformities   
  • Establish an appropriate methodology for the identification, treatment and prognostication of osteochondral lesions  
  • Generate specialized knowledge on the etiopathogenesis, identification, treatment and prognosis of subchondral cysts  
  • Propose therapeutic strategies to limit the negative consequences of these pathologies 
  • Gain advanced knowledge of the angular deformities, flexural deformities, osteochondrosis, and subchondral cysts  
  • Determine the different treatments for angular and flexural deformities   
  • Establish an appropriate methodology for the identification, treatment and prognostication of osteochondral lesions  
  • Generate specialized knowledge on the etiopathogenesis, identification, treatment and prognosis of subchondral cysts  
  • Propose therapeutic strategies to limit the negative consequences of these pathologies 
  • Develop specialized knowledge to correctly plan surgery  
  • Examine the necessary general pharmacological, anesthesia and equipment to deal surgically with the different pathologies
  • Analyze the most frequent anesthetic complications in the Large Animals clinic, particularly those related to orthopedic surgery 
  • Examine the most frequent surgical complications in orthopedic surgery and provide useful protocols to solve or avoid them 
  • Develop the fundamentals of bone physiology and bone healing 
  • Systematically approach the care of an animal with a fracture 
  • Present the implants and materials used for fracture fixation 
  • Present the different fracture reduction and fixation techniques 
  • Establish surgical methodology for the resolution of musculoskeletal problems in large animals 
  • Examine each surgical technique in detail for each commonly occurring muscle and tendon pathology 
  • Determine each surgical technique in detail for each commonly occurring bone pathology 
  • Establish survival, sports and productive prognoses for the pathologies described 
  • Establish the most appropriate surgical methodology for the resolution of musculoskeletal problems in large animals 
  • Examine each surgical technique in detail for each commonly occurring forelimb and hind limb bone pathology and for each commonly occurring axial skeletal bone pathology 
  • Establish survival, sports and productive prognoses for the pathologies described 
  • Examine the importance of musculoskeletal injury rehabilitation in horses 
  • Establish the basis of the techniques used in rehabilitation 
  • Analyze the main musculoskeletal rehabilitation techniques in sport horses
  • Present rehabilitation plans based on the location of the injury

Specific Objectives

  • Examine the anatomical and physiological peculiarities of large and small ruminants that are relevant to the design of a safe anesthetic protocol in these species
  • Examine equine cardiac anatomy, the basis of electrophysiological behavior of the heart and the stress response produced by anesthesia in the equine patient 
  • Develop the anatomical and physiological peculiarities of swine and camelids that are relevant to the design of a safe anesthetic protocol for these species
  • Determine the cardiac mechanical processes related to blood circulation 
  • Establish the hormonal and neuronal mechanisms involved in the control of the cardiovascular system 
  • Develop processes related to ventilation and gas exchange  
  • Analyze the clinical implications of respiratory alterations in anesthetized patients 
  • Determine the normal anatomy and physiology of the digestive system and the consequences of anesthesia on the digestive system 
  • Establish the excretion and hormonal processes related to the renal system 
  • Generate specialized knowledge on the anatomy and physiology of the nervous system 
  • Analyze the alterations produced by anesthetic drugs in the nervous system 
  • Determine the physical examination and common findings in the equine pre-anesthetic assessment 
  • Strengthen the basics of pre-anesthesia laboratory assessment 
  • Analyze, identify and interpret the patient's anesthetic risk  
  • Establish the necessary actions in the preparation of the patient for anesthesia 
  • Detail the pharmacological particularities of the main sedative drugs in ruminants, swine and camelids
  • Develop expertise in pharmacokinetics and pharmacodynamics of drugs in horses 
  • Know the pharmacological properties and clinical implications of sedative and tranquilizing drugs
  • Establish the most common station procedures and protocols in the equine patient 
  • Generate specialized knowledge on the pharmacology of dissociative agents and barbiturates given the side effects and the main contraindications for their administration 
  • Examine the pharmacology of propofol, alfaxalone and etomidate, given the side effects and major contraindications for their administration 
  • Develop advanced knowledge of the pharmacology of muscle relaxants such as benzodiazepines and guaifenesin
  • Examine the anatomical, physiological and pharmacological considerations necessary to perform effective and safe induction of general anesthesia and endotracheal intubation in small and large ruminates, swine and camelids 
  • Determine the physiological and anatomical considerations necessary to perform an effective and safe take-down for patients and staff in the equine population 
  • Compile the clinical and anatomical knowledge necessary for the safe performance of endotracheal intubation in the equine patient 
  • Develop anatomical and physiological knowledge essential for the correct positioning of the equine patient in decubitus, in order to avoid the complications associated with decubitus
  • Analyze the most frequent problems in the anesthetic machine and the circular circuit, in order to identify and solve them 
  • Gain knowledge and understand the operation of oxygen delivery systems and artificial ventilation during general anesthesia of large species 
  • Know the pharmacology of halogenated inhalation anesthetics and their adverse effects in large animals 
  • Gain an in-depth knowledge of injectable sedative and hypnotic agents that can be used as adjuvants or general anesthetics, as well as the latest techniques described for equine PIVA and TIVA 
    Detail the techniques of general anesthesia, both inhalable and injectable, described in large and small ruminants, swine and camelids 
  • Recognize the need for mechanical ventilation during anesthesia, know the positive and negative consequences of mechanical ventilation, and know the appropriate ventilatory parameters for its safe application 
  • Expand knowledge about specific particularities of mechanical ventilation in large and small ruminants, swine and camelids 
  • Detail the mechanism of action of neuromuscular blocking agents as well as their pharmacology
  • Become familiar with the techniques for monitoring neuromuscular blockade and the agents used to reverse this blockade  
  • Recognize the importance of recovery from general anesthesia in equines. Expand knowledge related to the techniques that can be used and the necessary preparation of the patient and the box 
  • Detail the specific particularities of anesthetic recovery in large and small ruminants, swine and camelids 
  • Detail the correct and regular use of the anesthetic record during general anesthesia 
  • Determine the importance and the most characteristic clinical signs of anesthetic depth monitoring in the equine patient 
  • Generate specialized knowledge on blood oxygenation monitoring and with the monitoring of proper ventilation 
  • Analyze the importance and main technical features related to the monitoring of cardiovascular and hemodynamic constants 
  • Develop the leading role of arterial blood gases in the clinical monitoring of the equine patient during general anesthesia 
  • Detail the peculiarities of monitoring other types of vital parameters, such as glucose, lactate, temperature or the degree of neuromuscular blockade 
  • Examine the main peculiarities of anesthetic monitoring in other species such as ruminants, swine and camelids 
  • Examine the definition of pain, as well as the different types of pain in relation to their pathophysiology and evolution over time 
  • Determine the main physiological components associated with pain sensation 
  • Generate specialized knowledge related to the nociception pathway 
  • Determine the main pathophysiological consequences of untreated pain 
  • Analyze the knowledge of the use of pain scales in the equine patient 
  • Gain advanced knowledge of the pharmacology of opioids, NSAIDs, alpha-2 agonist agents, ketamine, lidocaine and other co- analgesic drugs 
  • Establish the main side effects of opioids, NSAIDs, alpha-2 agonist agents, ketamine, lidocaine and other co- analgesic drugs
  • Determine the main contraindications to the administration of opioids, NSAIDs, alpha-2 agonist agents, ketamine, lidocaine and other co- analgesic drugs 
  • Examine the clinical uses of opioids, NSAIDs, alpha-2 agonist agents, ketamine, lidocaine, and other co- analgesic drugs 
  • Establish the main pharmacological peculiarities of analgesic agents in ruminants, swine and camelids 
  • Determine the drugs to be administered 
  • Establish the equipment to be used 
  • Examine the anatomy of the head in relation to the nerve blocks performed 
  • Generate specialized knowledge on local head, forelimb and hind limb techniques 
  • Examine the anatomy of the forelimb and hind limb in relation to nerve blocks  
  • Detail the anatomy of the abdomen relevant to the nerve blocks performed  
  • Generate advanced knowledge on local abdominal techniques 
  • Examine the anatomy of the vertebral canal 
  • Develop the epidural technique 
  • Determine the main loco-regional techniques in other large animal species 
  • Know the published studies on mortality and perianesthetic morbidity in horses 
  • Know the risk factors and causes for perianesthetic mortality
  • Identify, anticipate and resolve complications that occur in the premedication phase
  • Identify, anticipate and resolve complications that occur in the induction phase 
  • Identify, anticipate and resolve complications that occur in the maintenance phase 
  • Identify, anticipate and resolve complications that occur in the recovery and postoperative phase 
  • Early recognition of life-threatening cardiorespiratory emergencies in horses 
  • Develop effective cardiorespiratory resuscitation protocols 
  • Be aware of the complications related to improper positioning of the ruminant, swine or camelid patient 
  • Recognize the main cardiovascular complications in ruminants, swine and camelids 
  • Identify and know the main arrhythmias in ruminants, swine and camelids 
  • Recognize the main respiratory complications in ruminants, swine and camelids 
  • Gain knowledge about the complications related to endotracheal intubation in swine 
  • Recognize the complications related to the digestive tract of ruminants 
  • Study the complications associated with the gastrointestinal system in camelids 
  • Recognize complications associated with intravenous catheter placement in ruminants, swine and camelids  
  • Broaden knowledge of the pathophysiology of malignant hyperthermia 
  • Identify the complications that can occur during anesthetic recovery in ruminants, swine and camelids 
  • Detail the physiology and movement of body water 
  • Delve into the physiology and alterations of the most important electrolytes 
  • Determine the acid-base balance and its regulation 
  • Interpret pH alterations 
  • Reinforce the important factors for catheter and catheterization site selection 
  • Detail the most frequent complications of venous catheterization 
  • Analyze the most frequent crystalloid fluids 
  • Detail the properties of blood derivatives and know their complications 
  • Delve into the physiological particularities of ruminants, swine and camelids in relation to fluid therapy 
  • Establish the properties of the isotonic, hypotonic and hypertonic crystalloid solutions most frequently used in ruminants, swine and camelids 
  • Delve into the study of the use of colloids in ruminants, swine and camelids 
  • Clinical fluid therapy applied to the perioperative period, as well as to electrolyte and glucose imbalances in ruminants, swine and camelids 
  • Generate specialized knowledge on the most frequent surgical and imaging procedures  
  • Establish the most appropriate protocols according to the procedure to be performed 
  • Detail the main differences in the anesthesia of foals compared to adults 
  • Be aware of the risk factors and complications in colic anesthesia in order to adapt the anesthetic protocol 
  • Detail the physiological aspects to be taken into account during anesthesia in geriatric horses 
  • Gain in-depth knowledge of the anesthetic management of the main diagnostic and therapeutic procedures in large and small ruminants 
  • Detail the anesthetic management of ruminant adnexal organs such as horns, hooves or tails 
  • Master the features of anesthesia in swine transplantation models, as well as for laparoscopy in experimental swine 
  • Establish basic characteristics of field anesthesia in pigs and castration of piglets 
  • Determine the basic principles of field anesthesia in camelids 
  • Define the main behavioral, physiological and anatomical characteristics of donkeys and mules 
  • Delve into the pharmacology of anesthetic and analgesic agents in donkeys and mules  
  • Master the legislation applicable to the anesthesia of animals intended for human consumption 
  • Master the veterinary prescription drug cascade 
  • Establish waiting times and maximum residue limits applicable to species for human consumption 
  • Master the legislation applicable to experimental animals 
  • Detail the particularities of anesthesia for ruminants and experimental swine 
  • Broaden knowledge of the logistics and pharmacological methods most appropriate for the capture and handling of wild species 
  • Master sedation and field anesthesia protocols in wild ruminants 
  • Determine protocols for sedation and field anesthesia in wild swine 
  • Detailed protocols for sedation and field anesthesia in wild camelids 
  • Expand knowledge related to monitoring alternatives in these non-domestic species 
  • Determine analgesic techniques that can be applied in these non-domestic species 
  • Examine the main physical and chemical methods of euthanasia 
  • Specialize the student in the collection of essential data to obtain a complete anamnesis
  • Differentiate between the different conformations that are predisposed to developing injuries in the musculoskeletal system
  • Recognize the symptoms presented by a patient with thoracic limb claudication
  • Recognize the symptoms presented by a patient with pelvic limb claudication
  • Interpret the results of local or regional anesthesia as diagnostic tools
  • Generate criteria that allows for the appropriate selection of imaging diagnostic techniques in each case
  • Assess in detail the indications and considerations of each pharmacological group in the therapeutic management of a musculoskeletal injury
  • Gain specialized knowledge for diagnosing and treating an articular pathology
  • Recognize the symptoms of tendon and ligament injuries
  • Analyze the etiology and pathogenesis of lesions associated with biomechanical maladaptation processes
  • Present the most frequent acute and subclinical myopathies
  • Identify and recognize pathologies of the axial skeleton that are involved in a drop in sports performance
  • Analyze the different differential diagnoses related to podotrochlear pathology and their therapeutic management
  • Examine the different treatment strategies based on biological therapy
  • Develop specialized knowledge of materials used in endoscopy surgery of synovial cavities
  • Specify the indications of endoscopy for the treatment of synovial pathologies
  • Specify the techniques of endoscopic surgery in joint cavities, bursae and synovial sheaths
  • Perform correct endoscopic treatment of synovial pathologies
  • Justify the use of endoscopy in the treatment of joint fractures
  • Expose the possible complications associated with the arthroscopy, bursoscopy and tenoscopy techniques
  • Present the different postoperative care and rehabilitation guidelines
  • Develop knowledge of the different phases of skin healing.
  • Specify the different types of wounds that can occur in large animal clinics
  • Indicate the tests to be performed on a patient with a musculoskeletal injury or infection to determine the significance of the injury.
  • Determine the techniques of tissue management, hemostasis, suturing, reconstruction and skin grafting.
  • Set guidelines for the choice of different types of sutures, needles and drains
  • Select the appropriate dressing or bandage for each clinical situation.
  • Expose the importance and application of the fiberglass technique
  • Apply the different therapeutic guidelines in acute and chronic wounds
  • Carry out a correct diagnosis and treatment of synovial and bone infections
  • Specify the use of the different tenorrhaphy techniques
  • Present the different causes of exuberant granulation and its treatment.
  • Apply the different therapeutic guidelines in burns
  • Develop specialized knowledge on the etiopathogenesis of angular deformities, flexural deformities, osteochondrosis and subchondral cysts
  • Carry out a correct diagnosis of the different alterations presented
  • Specify the techniques for delaying and stimulating bone growth used in the surgical treatment of angular deformities
  • Determine the medical treatments and application of resins, splints and orthopedic tools used in the treatment of angular and flexural deformities
  • Specify the demotomy and tenotomy techniques used in the treatment of flexural deformities
  • Establish the specificities in the treatment of deformities according to the age of the patient and the anatomical area affected
  • Determine the prevalence, predisposing factors, diagnosis, localization, treatment and prognosis of osteochondral lesions and subchondral cysts
  • Analyze the importance of patient acceptance for surgery, operative risks and pre-surgical evaluation of the patient
  • Fundamentals of the basic principles of general anesthesia and sedation for orthopedic surgical procedures
  • Recognize the general material necessary for general orthopedic surgery in Large Animals
  • Establish correct disinfection protocols for surgical material
  • Differentiate the diagnostic imaging techniques available as an intra-surgical aid
  • Establish a scheme of work for the preparation of the patient, the surgeon and the surgical field
  • Develop post-operative treatment protocols for major orthopedic surgeries in the large animal clinics
  • Gather the necessary information in order to develop knowledge of the physiology of bone metabolism and its healing
  • Analyze the biomechanics of the bone and classify the fractures 
  • Stabilize a patient with a fracture 
  • Generate specialized knowledge on how to reduce fractures 
  • Specify the most common materials for the manufacturing of implants 
  • Establish the instruments and implants used to fix fractures 
  • Determine the use of screws and the use of plates and screws 
  • Analyze the technical complications in the use of implants 
  • Discuss the surgical techniques for each particular problem 
  • Analyze the surgical techniques related to the common muscle-tendon injuries of the forelimb and hind limb  
  • Determine the surgical techniques related to common bone injuries of the forelimb and hind limb including hoof, phalanges and metacarpo-metatarsus 
  • Justify surgery for each particular problem described 
  • Propose surgical alternatives for some procedures 
  • Specify the equipment needed for each procedure 
  • Examine the prognosis of each procedure
  • Provide a rationale for the surgical techniques to be described for each particular problem 
  • Determine the surgical techniques related to common bone injuries of the forelimb and hind limb including and adjacent to the carpus and tarsus 
  • Examine the surgical techniques related to bone injuries of the axial skeleton in large animals 
  • Justify surgery for each particular problem described  
  • Propose surgical alternatives for some procedures 
  • Specify the equipment needed for each procedure 
  • Examine the prognosis of each procedure 
  • Analyze the significance of musculoskeletal injuries and the correct recovery needed
  • Gain knowledge of the basic principles of physiotherapeutic examination in horses
  • Evaluate the physical restrictions and physiological adaptations that occur as a consequence of an injury
  • Examine the different physiotherapeutic techniques available to the equine veterinarian
  • Determine the physical properties of each one of the therapies available in veterinary medicine
  • Create prevention plans for equine athletes
  • Propose rehabilitation plans depending on the musculoskeletal injury 
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Quality specialized training for outstanding students. At TECH, we offer the perfect education for high level specialization in your field”

Advanced Master's Degree in Anesthesia and Orthopedic Surgery in Major Species

The veterinary field is a highly demanding sector, especially in the surgical field, in which pressure and complex decision making are a constant on a daily basis. In TECH Global University we understand the above mentioned, so we designed the Advanced Master's Degree in Anesthesia and Orthopedic Surgery in Major Species with the aim of boosting the capabilities of professionals through updated thematic axes and focused on the main needs of the labor market. In our 1,500 academic hours program, you will access a sophisticated curriculum, which has been specifically structured for you to develop new anesthetic protocols, deepening in animal welfare and in the final outcome of surgical procedures. 

The best postgraduate degree in anesthesia and orthopedic surgery in major species

The TECH program has a highly prepared and experienced faculty. Through their guidance you will be properly qualified in the following topics: applied physiology, developmental diseases, preoperative aspects and fracture repair, as well as other topics that will be essential for you to perform correctly in daily practice. In addition, upon graduation you will have the necessary skills to lead complex operative procedures, in which you will apply the latest veterinary studies and tools to ensure the success of the process and the safety of the patient in question.