Use of stem cells in equine musculoskeletal disorders

Stem cell therapies for musculoskeletal disorders are becoming commonplace in the horse. In order to decipher the many options available for stem cell therapy and interpret results of accumulating experimental and clinical data, practitioners should have a basic understanding of stem cells.     

Low‐field magnetic resonance imaging of keratomas of the hoof wall

Standing low‐field magnetic resonance imaging (MRI) was used to image the feet of 21 horses affected by keratomas. The animals had variable clinical histories including acute, chronic or recurrent lameness. Of the 21 horses, only 14 (66%) had radiological changes suggestive of keratoma. Standing low‐field MRI revealed a smoothly demarcated hoof wall lesion in all horses, with deformity of the adjacent surface of the distal phalanx in 15 cases. The signal characteristics of the keratomas varied, with most showing either hypointensity or heterogeneous mixed signal intensity in T1‐ and T2*‐weighted images and hypointensity in STIR sequences. An intermediate or high STIR signal intensity was present in the trabecular bone of the adjacent region of the distal phalanx in 5 cases. Surgical debridement was performed in 16 horses. Recurrence was common, especially in cases where the lesion was ill‐defined; the prior MRI appearance of these cases tended to be of heterogeneous signal intensity.     

A study of ultrasound-guided perineural injection of the caudal cervical spinal nerve roots in equine cadavers

ObjectivesTo develop an ultrasound-guided cervical perineural injection technique for horses and to evaluate and compare the distribution of contrast agent among perineural, intra-articular and periarticular injections.Study designProspective, experimental cadaveric study.AnimalsA total of 14 equine cadaveric necks.MethodsBilateral ultrasound-guided perineural injection technique for the caudal cervical spinal nerve roots (CSNRs 5–7) was developed. Paramagnetic or iodinated contrast was injected and the distribution of contrast was evaluated using magnetic resonance (MR) or computed tomography (CT) imaging, respectively. The presence of contrast in the CSNR region was determined by an observer unaware of the technique used for each injection performed. The ability of the perineural injection technique to distribute contrast agent to the CSNR region was compared with intra-articular and periarticular injection techniques.ResultsPerineural injection delivered contrast agent to the CSNR region 100% of the time and was significantly different when compared with intra-articular injection (p = 0.008). There was no difference in ability to deliver contrast agent to the CSNR region between the perineural and periarticular injection techniques or between the intra-articular and periarticular injection techniques.Conclusion and clinical relevanceThe ultrasound-guided perineural injection technique developed in this study accurately delivered contrast agent to the CSNR region in equine cadavers. This technique could potentially be used for the diagnosis and treatment of cervical pain in horses, particularly in cases where intra-articular cervical articular process joint injections have not been beneficial. Further studies are necessary to assess the effectiveness of the ultrasound-guided perineural injection technique in live horses.     

Advances in diagnostic imaging of the larynx and pharynx

Imaging of the larynx and pharynx has traditionally been limited to upper airway endoscopy and radiography. Recently, ultrasonography, magnetic resonance imaging and computed tomography have become used more widely. These modalities have increased our diagnostic yield when investigating disorders of the upper airway. The Case Report in this issue ( Koenig et al. 2012 ) describes the diagnosis and biopsy of a laryngeal mass using ultrasonography illustrating one novel application of laryngeal ultrasonography. Increased use of laryngeal ultrasonography and advanced imaging of the larynx and pharynx will hopefully lead to a better understanding of conditions of the upper airway and improved treatment strategies.     

A review of how magnetic resonance imaging can aid in case management of common pathological conditions of the equine foot

Magnetic resonance imaging (MRI) has become a valuable tool for the diagnosis of a multitude of conditions previously grouped into the vague diagnosis of palmar heel pain based on the response to palmar digital nerve diagnostic analgesia. The use of MRI not only determines a specific pathological diagnosis of the numerous structures within the foot but also the findings of the MRI help direct treatment and rehabilitation protocols, as well as providing prognostic information. Common injuries include damage to the navicular apparatus, deep digital flexor tendon, arthropathy of the distal interphalangeal joint and desmopathy of the collateral ligaments of the distal interphalangeal joint. This article reviews common MRI abnormalities in the equine foot and how treatment can be directed by the findings. Medical and surgical treatment options, as well as shoeing and rehabilitation protocols, are also discussed in relation to MRI findings. Using MRI can help create a more individually tailored and case‐specific treatment regimen, which can, in turn, promote a more positive outcome in equine cases.     

A review of equine paranasal sinusitis: Medical and surgical treatments

Treatment of the different types of equine sinusitis, in particular those of chronic (>2 months' duration) sinusitis can be difficult, with many such cases not responding to more conservative measures such as rest, antibiotic therapy or sinus lavage. Such refractory cases require further clinical examinations and imaging as outlined in a companion article to achieve confirmation of the cause of the sinusitis. Many sinusitis cases will then require some form of surgical treatment that may include sinusotomy, dental extraction or intrasinus growth removal, that are increasingly being performed by less invasive techniques under standing sedation.     

Evaluation of poor performance in competition horses: A musculoskeletal perspective. Part 1: Clinical assessment

Lack of willingness to go forward freely, lack of power, shortened steps, stiffness of the cervical or thoracolumbosacral regions are common nonspecific signs of musculoskeletal causes of poor performance in sports horses. Understanding musculoskeletal causes of poor performance requires knowledge of how normal horses move, the requirements of specific work disciplines, the nomenclature used by riders to describe how a horse is performing and the interactions between horses and riders. Determining the underlying causes needs an in‐depth history and clinical assessment, including in hand, on the lunge and ridden. Ridden exercise should include all aspects with which the rider is experiencing problems. Change of the rider can sometimes help to differentiate between horse and rider problems, but most normal horses are compliant and just because a horse goes better for a more skilled rider does not preclude an underlying pain‐related condition. Lungeing and ridden exercise should include not only trot but also transitions and canter which may highlight gait abnormalities not seen at trot. An accurate history combined with thorough clinical examination of the whole horse should permit the establishment of a list of problems requiring further investigation.     

Effect of a novel solution for organ preservation on equine large colon in an isolated pulsatile perfusion system

REASONS FOR PERFORMING STUDY: Several therapeutic agents have been tested in models of ischaemia and reperfusion injury (IRI) in equine jejunum, with mixed results. This study was based on the use of an organ perfusion solution (OPS) designed to protect human allografts from IRI. HYPOTHESIS: A modified OPS can preserve the integrity of equine large colon during 12 h of isolated pulsatile perfusion, in the absence of oxygen and blood. METHODS: Segments of large colon were removed from anaesthetised horses, the contents removed and the mucosa rinsed with 0.9% saline. Experimental segments were perfused for 12 h with one litre modified OPS (n = 7) delivered by pulsatile flow through an extracorporeal circuit. Control segments (n = 4) were perfused on the same circuit with one litre of autologous blood. Vascular resistance, flow and pressure were measured serially, and aliquots of OPS and blood drawn hourly for routine biochemical analyses. Mucosal biopsies of the experimental and control segments were taken at 0, 6 and 12 h and in vivo mucosal tissue at 0 h for baseline comparison. All biopsies underwent histomorphometric analysis and immunohistochemical assessment of calprotectin activity. RESULTS: All colon segments were machine perfused without technical complications. Vascular and biochemical indices remained constant over 12 h in the OPS group, and were constant over 6 h in the control group, but deteriorated later. Mucosal integrity, expression of cyclooxygenases-1 and -2, and expression of mucosal calprotectin were unchanged in the OPS group compared with the baseline tissues, and mucosal integrity was superior to the control tissues. CONCLUSIONS: A modified OPS designed to target specific pathways of damage from IRI can preserve colonic mucosal integrity for 12 h in the absence of blood and oxygen.