Rehabilitation in the first 48 hours after surgery     

Shumway R 《Clinical Techniques in Small Animal Practice》2007,22(4):166-170

Physical therapy is commonly used postoperatively in humans to decrease pain, inflammation and recovery time. The same goals can be achieved in our veterinary patients using similar modalities such as; cryotherapy, passive range of motion, massage, transcutaneous electrical stimulation and low-level light laser therapy. When used in the first 48 hours following surgery, the reduction in pain, increased mobility, and decreased inflammation will aid in early return to normal function. Applied appropriately these treatments have both immediate and long term benefits.  相似文献   

Hyperbaric gaseous cryotherapy for postoperative rehabilitation enhances functional recovery of canine stifle joint: a report on a short-term study     

Ju-Yeol Han  Wan Hee Kim  Byung-Jae Kang 《Journal of veterinary science (Suw?n-si, Korea)》2021,22(6)

BackgroundHyperbaric gaseous cryotherapy (HGC) is a type of cryotherapy used in human medicine for rehabilitation after orthopedic surgeries. Because HGC is known to reduce acute or chronic pain, research is needed to prove its effectiveness in veterinary medicine.ObjectivesTo compare the effects of HGC between the HGC treatment group and the nontreatment (NT) group on postoperative swelling, range of motion, lameness score, postoperative pain, and kinetic measurements after stifle joint surgery in dogs.MethodsDogs were randomized in an HGC group or NT groups. In the HGC group, HGC was applied once a day for a total of 2 days after surgery. All parameters were measured postoperatively and at 1, 2, 10, and 28 days after surgery.ResultsTwenty dogs were enrolled: 10 in the HGC group and 10 in the NT group. Soft tissue swelling was not significantly different between groups at any time point. In the HGC group, pain scores decreased significantly 24 h after surgery and 48 h after surgery. Dogs in the HGC group showed a significantly decreased lameness and improvement for all kinetic measurements beginning 48 h after surgery. In addition, the HGC group indicated a significant increase in range of motion as compared with the NT group at 28 days after surgery.ConclusionsHGC plays a powerful role in decreasing initial postoperative pain. Furthermore, the improvement in pain affects the use of the operated limb, and the continued use of the limb eventually assists in the quick recovery of normal function.  相似文献   

Therapeutic exercise     

Saunders DG 《Clinical Techniques in Small Animal Practice》2007,22(4):155-159

Therapeutic exercise is a key component of any rehabilitation program and should be included as part of the concurrent care of any patient whether that patient has two or four legs. Physical therapists have been utilizing therapeutic exercises with great success since the conception of the profession in the beginning of the twentieth century and it has been demonstrated to be fundamental in improving function, performance and disability. Therapeutic exercise can consist of a variety of exercises inclusive of balance, strengthening, range of motion, endurance, and plyometric activities. The goals of therapeutic exercises include the restoration of movement, improvement of function and strength, improvement in gait and balance, and the prevention and the promotion of health, wellness, and fitness. Specific exercises are aimed at restoring strength, power and work, or endurance, or a combination. Therapeutic exercises are also utilized to increase range of motion, decrease pain, improve balance and proprioception, and restore function.  相似文献   

The canine stifle     

Canapp SO 《Clinical Techniques in Small Animal Practice》2007,22(4):195-205

Cranial cruciate ligament (CCL) injury is a leading cause of lameness in dogs. Recent advances in diagnostic visualization and surgical treatments for CCL injury have stimulated an increased emphasis on early clinical recognition and an early return to function. Many surgical treatments have been described that aim to restore stifle joint stability and minimize the progression of osteoarthritis. Major advances have occurred not only in the treatment of CCL injury, but also in postoperative recovery, specifically, rehabilitation therapy. The benefits of rehabilitation therapy following CCL surgery are multifaceted including pain relief, decreased inflammation and swelling, increased tissue flexibility, strengthening, improved proprioception, improved limb and joint biomechanics, and improved weight-bearing. In this article, we introduce a variety of rehabilitation therapy options for postoperative CCL patients including modalities, manual therapy, therapeutic exercise, and the benchmarks for a full return to function.  相似文献   

Equine rehabilitation therapy for joint disease.     

Mimi Porter 《Veterinary Clinics of North America: Equine Practice》2005,21(3):599-607, vi

The principles of physical rehabilitation therapy can be applied to the horse to provide a reduction in discomfort and dysfunction associated with the various forms of joint disease. Physical agents,such as ice, heat, electricity, sound, light, magnetic fields, compression, and movement, can be used by the rehabilitation therapist to attempt to control pain, reduce swelling, and restore optimal movement and function in the affected joint. The equine therapist's attention is focused not only on the affected joint but on the body as a whole to manage secondary or compensatory problems.  相似文献   

Select modalities     

Canapp DA 《Clinical Techniques in Small Animal Practice》2007,22(4):160-165

Physical rehabilitation modalities such as therapeutic ultrasound (TU), transcutaneous electrical neuromuscular stimulation (TENS), neuromuscular electrical stimulation (NMES), cold or low-level laser therapy (LLLT), and pulsed magnetic field therapy (PMF) can all, when used properly, assist in treating orthopedic injuries, neurological conditions, and chronic conditions brought about by normal aging in our small animal companions. TU uses sound waves to produce both thermal and nonthermal effects that aid in tissue healing, repair, and function. TENS uses different frequencies of electrical current to decrease pain and inflammation. NMES also uses an electrical current to stimulate muscle contraction to assist in normal neuromuscular function in postorthopedic and neurological injuries. LLLT uses light energy to reduce pain, decrease inflammation, and stimulate healing at a cellular level. PMF uses magnetic field to stimulate normal cellular ion exchange and oxygen utilization and promote generalized healing of tissues. These modalities are discussed in detail covering mechanism of action, parameters, settings, and indications/contraindications of use in our small animals. Although these modalities are important in the physical rehabilitation of small animals, they need to be incorporated with a proper diagnosis, manual therapy, and home exercise program into a specific and individualized patient treatment protocol.  相似文献   

The influence of lameness on equine stride length consistency     

Peham C  Licka T  Girtler D  Scheidl M 《Veterinary journal (London, England : 1997)》2001,162(2):153-157

The aim of this study was to assess the influence of orthopaedic pain on the variation of stride length as a kinematic system-parameter in 21 horses with forelimb lameness. Data were collected while the horses were trotting on a treadmill during a minimum of 12 motion cycles, both before and after intra-articular or perineural anaesthesia. Stride length was assessed for each motion cycle, and the mean and standard deviation were calculated for each condition. Forelimb lameness was documented as percentage of asymmetry of vertical head movement. With significant decrease of forelimb lameness after regional anaesthesia, the SD of stride length increased significantly (+0.35%, P< 0.05). Our results show that in the presence of orthopaedic pain horses keep stride variability low, possibly because the lame horse employs an optimum compensatory mechanism to reduce the pain in the affected limb, and every deviation from this pattern increases pain.  相似文献   

Biomechanics of rehabilitation.     

Joseph P Weigel  Greg Arnold  David A Hicks  Darryl L Millis 《Veterinary Clinics of North America: Small Animal Practice》2005,35(6):1255-85, vii

The biomechanics of motion and rehabilitation are complex, with many tissue types and structures involved. In addition, consideration must be given to the stage of tissue healing with some injuries, such as fractures.A more thorough knowledge of some of the infrequently discussed biomechanical aspects of musculoskeletal tissues and motion during rehabilitation, combined with known features of tissue recovery, should enhance the development of rehabilitation programs for patients.  相似文献   

Rehabilitation of fractures in small animals: maximize outcomes, minimize complications     

Doyle ND 《Clinical Techniques in Small Animal Practice》2004,19(3):180-191

Successful fracture management accomplishes 2 major objectives: bony union and return to functional activities. For many years, Physical Therapy has routinely helped human patients recovering from fractures reach their functional goals by helping them regain movement, flexibility, strength, coordination, and balance. Rehabilitation is now commonly provided to small animals recovering from fractures to accomplish similar goals. Knowledge of tissue healing is critical when determining the appropriate stresses to apply throughout the healing timeline. The detrimental effects of immobilization, including the potential for development of fracture disease, must be considered when formulating a Rehabilitation plan of care. Many Rehabilitation interventions are readily amenable to application by both Veterinary professionals and owners of patients. Superficial thermal modalities, passive range of motion and stretching, soft tissue massage, therapeutic ultrasound, electrical stimulation, and therapeutic exercise can ensure a more complete patient recovery. Providing owners with education regarding appropriate patient handling and home modifications allows a safer return to the home environment. Detailed written instructions for rehabilitation at home promotes owner compliance and accurate completion.  相似文献   

Veterinary Neurologic Rehabilitation: The Rationale for a Comprehensive Approach     

Lauren R. Frank  Patrick F.P. Roynard 《Topics in companion animal medicine》2018,33(2):49-57

The increase in client willingness to pursue surgical procedures, the heightened perceived value of veterinary patients, and the desire to provide comprehensive medical care have driven the recent demand of using an integrative treatment approach in veterinary rehabilitation. Physical therapy following neurologic injury has been the standard of care in human medicine for decades, whereas similar rehabilitation techniques have only recently been adapted and utilized in veterinary medicine. Spinal cord injury is the most common neurologic disease currently addressed by veterinary rehabilitation specialists and will be the primary focus of this review; however, research in other neurologic conditions will also be discussed. Of particular interest, to clients and veterinarians are techniques and modalities used to promote functional recovery after neurologic injury, which can mean the difference between life and death for many veterinary patients.The trend in human neurologic rehabilitation, often regardless of etiology, is a multimodal approach to therapy. Evidence supports faster and improved recoveries in people after neurologic injury using a combination of rehabilitation techniques. Although the primary neurological disorders researched tend to be spinal cord injury, peripheral neuropathies, allodynia, multiple sclerosis, and strokes—many correlations can be made to common veterinary neurological disorders. Such comprehensive protocols entail gait training activities in combination with neuromuscular electrical stimulation and directed exercises. Additionally, pain-relieving and functional benefits are bolstered when acupuncture is used in addition to rehabilitation. Studies, both laboratory and clinical, support the use of acupuncture in the management of neurologic conditions in small animals, specifically in cases of intervertebral disc disease, other myelopathies, and neuropathic pain conditions. Acupuncture’s ability to promote analgesia, stimulate trophic factors, and decrease inflammation, including neuroinflammation, make it an alluring adjunct therapy after neurologic injury.Although there is limited research in veterinary medicine on physical techniques that expedite recovery after neurologic injury, there are sparse publications on clinical veterinary research suggesting the benefits of acupuncture, rehabilitation, and LASER in dogs with intervertebral disk disease. Accordingly, due to the relative lack of evidence-based studies in veterinary neurologic rehabilitation, much of the data available is human or laboratory-animal based, however, evidence supports the utilization of an early, comprehensive treatment protocol for optimal neurologic recovery. The rationale for why an integrative approach is critical will be detailed in this review; in addition, literature on specific physical rehabilitation techniques that have evidence of improved recoveries after neurologic injury, will be addressed.  相似文献   

Successful medical management of lumbar intervertebral disc prolapse in a ferret     

I. Srugo  O. Chai  D. Yaakov  L. Sharon  M. H. Shamir 《The Journal of small animal practice》2010,51(8):447-450

Thoracolumbar disc herniation was diagnosed in a two-year-old ferret using a myelogram followed by a computed tomography scan. The ferret was paraplegic with no control over urination and defecation. Conservative treatment that included cage rest and passive range of motion exercises for three weeks followed by extensive physiotherapy and hydrotherapy resulted in full recovery two months after the onset of treatment. Although intervertebral disc disease has been reported previously in four ferrets, this is the first report in which a postmyelogram computed tomography was used to demonstrate the herniated disc, and physiotherapy was used as principal treatment modality.  相似文献   

Stretching Exercises for Horses: Are They Effective?     

Ava Frick 《Journal of Equine Veterinary Science》2010

This article aims to present research in both animals and humans that support the use of stretching exercises in horses as a means of increasing range of motion, improving body flexibility and posture, and preventing injury by strengthening the supportive tissues. Too often veterinarians may overlook the importance of stretch exercises. This could partially be due to a lack of familiarity of what type of exercises to recommend, how to perform them, or where to obtain the desired information. Studies demonstrate the beneficial effects of stretching, warm-up, and temperature on the mechanical properties of muscle, potentially reducing the risk of strain injury to muscles. Evidence demonstrates that various approaches to conditioning that include warm-up and stretching along with other techniques such as strength training and proprioceptive training enhance performance and prevent certain types of injury. In addition, stretching of specific muscles and articulations for specific activities might enhance the effectiveness of these other pre-exercise activities, which is consistent with a multifactorial model for injury prevention. Stretches are either dynamic (having motion) or static (having no motion). Dynamic stretching involves moving parts of the body and gradually increasing reach, speed of movement, or both. It is controlled movement or swings that gently take the limb to the limits of range of motion. Static stretching consists of stretching a muscle (or group of muscles) to its farthest point and then maintaining or holding that position. Passive or relaxed and isometric stretching are both types of static stretches. Passive or relaxed is where a position is maintained by holding it with some other part of your body, or with the assistance of a partner or some other apparatus. This type of stretching is the most common type used with stretching exercises in horses as we control the motion and positioning desired. Slow, relaxed stretching is useful in relieving spasms in muscles that are healing after an injury. Relaxed stretching is also good for “cooling down” after a workout and helps reduce postworkout muscle fatigue and soreness. A case study and an example of a stretch exercise program and what to look for in a “how to” guide is also presented.  相似文献   

The development of safe and effective rehabilitation protocols for horses     

K. K. Haussler  M. R. King  K. Peck  H. S. Adair 《Equine Veterinary Education》2021,33(3):143-151

Rehabilitation has become an important aspect of equine practice. Unfortunately, there is limited knowledge or awareness of the general principles and methods used to develop safe and effective rehabilitation programmes. By following a few basic principles, appropriate rehabilitation programmes can be developed for individual horses with a wide range of injuries and sources of musculoskeletal pain or dysfunction. This article provides an outline of general guidelines to help practitioners interested in developing rehabilitation programmes or working with sports medicine and rehabilitation experts to provide the best possible treatment for individual horses with injuries at different stages of healing.  相似文献   

Effect of a single acupuncture treatment on surgical wound healing in dogs: a randomized,single blinded,controlled pilot study     

Erja E Saarto  Anna K Hielm-Bj?rkman  Khadije Hette  Erja K Kuusela  Cláudia Valéria S Brand?o  Stélio PL Luna 《Acta veterinaria Scandinavica》2010,52(1):57

Background

The aim of the study was to investigate the effect of acupuncture on wound healing after soft tissue or orthopaedic surgery in dogs.

Methods

29 dogs were submitted to soft tissue and/or orthopaedic surgeries. Five dogs had two surgical wounds each, so there were totally 34 wounds in the study. All owners received instructions for post operative care as well as antibiotic and pain treatment. The dogs were randomly assigned to treatment or control groups. Treated dogs received one dry needle acupuncture treatment right after surgery and the control group received no such treatment. A veterinary surgeon that was blinded to the treatment, evaluated the wounds at three and seven days after surgery in regard to oedema (scale 0-3), scabs (yes/no), exudate (yes/no), hematoma (yes/no), dermatitis (yes/no), and aspect of the wound (dry/humid).

Results

There was no significant difference between the treatment and control groups in the variables evaluated three and seven days after surgery. However, oedema reduced significantly in the group treated with acupuncture at seven days compared to three days after surgery, possibly due the fact that there was more oedema in the treatment group at day three (although this difference was nor significant between groups).

Conclusions

The use of a single acupuncture treatment right after surgery in dogs did not appear to have any beneficial effects in surgical wound healing.  相似文献   

Post-operative analgesia in the dog: a comparison of morphine, buprenorphine and pentazocine   总被引：1，自引：0，他引：1  

POLLY M. TAYLOR  JOHN E. F. HOULTON 《The Journal of small animal practice》1984,25(7):437-451

The efficacy of buprenorphine and pentazocine in controlling pain in dogs following orthopaedic surgery was compared with that of morphine. All three analgesics provided effective pain relief with no undesirable side effects.  相似文献   

Successful treatment of necrotizing fasciitis in the hind limb of a great dane     

Csiszer AB  Towle HA  Daly CM 《Journal of the American Animal Hospital Association》2010,46(6):433-438

A 5-month-old, intact female Great Dane was presented for an acute onset of rapidly progressive lameness, severe pain, and diffuse swelling of the right hind limb. Ultrasound evaluation revealed echogenic fluid pockets extending along fascial planes of the right hind limb, from the proximal femur to the hock. Necrotic soft tissues were debrided, and closed-suction drains were placed. No foreign material was identified at surgery. Fluid culture identified a beta-hemolytic Streptococcus sp., and affected fascial histopathology was consistent with necrotizing fasciitis. Postoperatively, the puppy was managed with intravenous broad-spectrum antibiotics, local infusions of amikacin, and daily physical rehabilitation. Oral pentoxifylline was administered to treat bronchopneumonia and streptococcal toxic shock syndrome that developed secondary to necrotizing fasciitis. To our knowledge, this is the first report of a successfully managed case of beta-hemolytic, streptococcal, necrotizing fasciitis successfully managed after a single surgical debridement in combination with systemic broad-spectrum antibiotics, local amikacin infusion, active closed-suction drainage, daily cytology, massage, and passive range-of-motion exercises to maintain limb function.  相似文献   

Techniques for objective outcome assessment     

Hesbach AL 《Clinical Techniques in Small Animal Practice》2007,22(4):146-154

Companion animal rehabilitation, a collaborative practice of physical therapy and veterinary medicine, can only demonstrate the effectiveness of its theories, techniques, interventions, and modalities through evidence-based practice, utilizing standardized, reliable, and valid outcome measures, correlated with objective diagnostic data. This essay examines existing and potential objective outcome measures utilized in companion animal rehabilitation and physical therapy regarding pain, vital signs, body condition and composition, range of motion, muscle strength, inflammation, functional mobility, and gait. Discussion is included of the traditional disablement model and the evolution of the physical therapy diagnosis, prognosis, and plan of care.  相似文献   

Weight reduction and possible implications for the rehabilitation of horses with ambulatory difficulties     

S. L. Steinke  J. L. Carmalt  J. B. Montgomery 《Equine Veterinary Education》2021,33(3):152-158

Equine musculoskeletal injuries, or other causes of reduced movement, can have a poor prognosis partially due to the secondary complications that may develop during recovery or rehabilitation. These can include supporting limb laminitis due to excessive weightbearing on healthy limbs and also problems associated with ventilation or perfusion due to prolonged recumbency. The risk of these complications is reported to increase with increasing body weight. While many methods have been attempted to reduce load and prevent complications, there is no current standard practice when managing horses with ambulatory difficulties. One critical consideration with load reduction devices is maintaining sufficient mobility to allow for blood flow and the prevention of muscle wasting. One of the most challenging obstacles with any weight reduction method or device is preventing pressure sores/ulcers or other tissue trauma because load is redistributed away from the limbs and onto regions of the body unaccustomed to weightbearing. Reported methods to aid in recovery and rehabilitation include rescue slings, forced recumbency, flotation tanks, water treadmills and aquatic therapy. While these methods have been successful in some horses, significant complications have also been reported. If too much weight is removed, muscle wasting or osteopenia occurs; conversely, if insufficient weight is lifted blood flow is hindered. The optimal load reduction is not known because each individual horse will have different requirements depending on the severity of the injury. The goal would be to restore normal weight distribution on the noninjured limbs, while supporting the weight that would normally be placed on the injured limb.  相似文献   

Autologous point‐of‐care cellular therapies variably induce equine mesenchymal stem cell migration,proliferation and cytokine expression     

A. KOL  N. J. WALKER  L. D. GALUPPO  K. C. CLARK  S. BUERCHLER  A. BERNANKE  D. L. BORJESSON 《Equine veterinary journal》2013,45(2):193-198

Reasons for performing study: Autologous cellular therapy products including adipose‐derived stromal vascular fraction (SVF), bone marrow mononuclear cells (BMMNs), cord blood mononuclear cells (CBMNs) and platelet rich plasma are options for treatment of acute orthopaedic lesions while mesenchymal stem cells (MSCs) are culture expanded. These products may contribute to healing by secreting matrix proteins or growth factors, but they may also act on endogenous MSCs to facilitate healing. Objectives: To determine the effects of cell therapy products on MSCs function in vitro. The hypothesis was that cell therapy products promote MSCs functions including proliferation, migration and mediator release. Methods: Fat, bone marrow (BM), cord blood and platelets were obtained from 6 Quarter Horses. The BM‐MSCs and their autologous cell therapy products were co‐incubated in transwells. Mesenchymal stem cells proliferation, migration, gene expression and cytokine concentrations were determined. Results: All cell therapy products increased MSCs proliferation, but SVF induced significantly more proliferation than any other product. Also SVF elicited more MSCs chemotaxis and, along with BMMNs, significantly more MSCs chemoinvasion. Cord blood mononuclear cells stimulated MSCs to produce high concentrations of interleukin‐6 (IL‐6), transforming growth factor‐β1 (TGF‐β1), and prostaglandin E₂ (PGE₂). Stromal vascular fraction and platelet lysate did not stimulate MSCs but SVF and platelet lysate themselves contained high concentrations of PGE₂ and IL‐6 (SVF) and TGF‐β1 (platelet lysate). Conclusions: Autologous cell products variably stimulate MSCs functions with 2 primary patterns apparent. Products either contained preformed mediators that may have intrinsic healing function, or products stimulated MSCs to secrete mediators. Potential relevance: The specific clinical indications for these products may differ to include administration as a sole treatment modality prior to MSCs injection for intrinsic cell and cytokine activity (i.e. SVF) or administration concurrently with MSCs to activate MSCs for treatment of chronic lesions (i.e. CBMNs).  相似文献   

Treatment of traumatic cervical myelopathy with surgery, prolonged positive-pressure ventilation, and physical therapy in a dog     

Smarick SD  Rylander H  Burkitt JM  Scott NE  Woelz JS  Jandrey KE  Aldrich J  Sturges BK 《Journal of the American Veterinary Medical Association》2007,230(3):370-374

CASE DESCRIPTION: A 9-year-old dog was evaluated for traumatic cervical myelopathy after a surgical attempt to realign and stabilize the C2 and C3 vertebrae. CLINICAL FINDINGS: The dog could not ventilate spontaneously and was tetraplegic; positive-pressure ventilation (PPV) was maintained. Myelography and computed tomography revealed spinal cord compression with subluxation of the C2 and C3 vertebrae and extrusion of the C2-3 intervertebral disk. TREATMENT AND OUTCOME: Surgically, the protruding disk material was removed and the vertebrae were realigned with screws and wire. For PPV, assist control ventilation in volume control mode and then in pressure control mode was used in the first 6 days; this was followed by synchronized intermittent mandatory ventilation until 33 days after the injury; then only continuous positive airway pressure was provided until the dog could breathe unassisted, 37 days after the injury. Physical therapy that included passive range of motion exercises, neuromuscular electrical stimulation, and functional weight-bearing positions was administered until the dog was discharged 46 days after injury; the dog was severely ataxic and tetraparetic but could walk. Therapy was continued at home, and 1 year later, the dog could run and had moderate ataxia and tetraparesis. CLINICAL RELEVANCE: Hypoventilation with tetraparesis in traumatic spinal cord injury can be successfully treated with PPV exceeding 30 days, surgery, and physical therapy.  相似文献