Dear colleagues,
Dear colleagues,
Mochi is a 20kg, 16 m old male intact Samoyed presented for exercise and excitement triggered syncopes. PE: grade 3-4/6 holosystolic heart murmur. The echocardiography study was done under torbugesic sedation (0.15mg/kg) which kept a normal-low heart rate but an uncontrollable panting happened all throughout the exam. I found this a real problem as lung would be constantly interfering in the field. Eventually, dog calmed a bit and I managed to see a bit more than I had anticipated. However, inexperience and this panting difficulty, makes my diagnosis and full echo study challenging.
Findings are as follow (I would appreciate your reassurance and any input and tips you may consider beneficial in this case):
– General subjective information:
LVOT narrowing below the level of the valve with turbulent flow on doppler; a fibrous band or more like a nodule is seen near the IVS just below the septal valve. There is post valvular dilation. These findings are consistent in R parasternal long and short axis views and Left apical 4 and 5 chamber views. These are compatible with subaortic stenosis.
There is subjective concentric LV hypertrophy (I’m afraid all my M-modes pics are missing the RV and this is a consistent issue, I see it in the image on top but it does not become obvious in the linear M-mode image; so for now I have no M-mode measurements, which really frustrate me). IS there RV Hypertrophy? mildly? Sometimes I think there might be some mild PS…
There is no obvious signs of other congenital diseases: PDA, VSD. With regard to pulmonic stenosis, It appears to me like normal but I am not so sure because the flow is alised in doppler. However, I do not see a post valvular dilation (in some videos it may appear like a very mild one). Same with mitral dysplasia: I do not see abnormalities in the MV (is there septal leaflet stiffness and channeling?) and I cannot pick up a MR with doppler, but I have never seen mitral dysplasia before nor any congenital disease, really, so this is my first case and I am not sure I might be missing something else, (and on top of all, the exam is far from complete…).
I tried to get a CW on the Left apical view for an Aortic flow max velocity, however, I did not manage to align the flow properly and all I can get is a very small max velocity which I’m sure is not real.
I also tried getting the LVOT:AO ratio. I have attached the 2 pictured I have used for this. I am not sure the measurements are at the right place, it’s difficult to get them in diastole without the ECG (I had to remove it from patient because of too much discomfort from the forceps and exacerbated panting and moving). If they are correct, the ratio is 0.23= severe. Does this match the symptoms? Should it be worse symptomatology? Is there correlation?
My last question would be…I usually have good patients for echo and I do not sedate them but, when they are panting and their HR is normal-low, and they already got torbugesic…what other drugs and doses can be used without interfering in results? assuming stable patients. We usually use ACE for routine sedations but I find even a low dose of 0.01mg/kg causes marked bradicardia…Any tips? My senior vet advices me to not be frightened to heavily sedate a case in order to get my exam…I’m not a cardiologist and I am unsure of what other protocols to use for minimal echo variations and proper exam…
Sorry for long post and lots of questions…
Comments
I have not had much
I have not had much experience either. It looks like a subaortic stenosis to me with post stenotic dilation. I can’t comment about other abnormalities based on the cine’s here. The L atrium does not appear to be overtly dilated- making other defects causing L atrial dilation a bit less likely.
If you were getting aliasing on the pulmonary outflow- that would worry me. If using PW you should be OK to -2.5 m/sec without aliasing. CW should fix that issue.
I am certain EL and Peter will have more info for you. I did a VIN search about sedation protocol from North Carolina and I will copy and paste it below.
Introduction
With more veterinary cardiologists, radiologists and internal medicine specialists working in small animal practice and the increasing availability of traveling sonographers, many veterinary technicians may find themselves assisting with a cardiac ultrasound or echocardiogram on a dog or cat with confirmed heart disease or a newly diagnosed heart murmur. While chest radiographs can reveal the overall size of the heart from the outside, an echocardiogram (echo) uses sound waves to generate a real time two-dimensional image inside the atria, ventricles, and great vessels to aid in diagnosis and treatment. The room used to perform echoes should be a quiet zone, especially when handling a nervous dog or cat. Ultrasound supplies, adjustable lighting, the echo machine and a functional table to lay the patient on are needed. In addition, effective restraint and positioning of the animal by support staff is necessary to obtain diagnostic images in a timely manner. This will sometimes require the administration of intravenous (IV) or intramuscular (IM) sedatives to an overly anxious or aggressive patient. Some will be asymptomatic with mild heart disease, while others could be hemodynamically unstable or in heart failure. Sedation should be administered cautiously, using low doses of agents with the least adverse effects on cardiac and respiratory function. At NCSU, a low dose of the tranquilizer Acepromazine is used and often combined with the opiatesBuprenorphine or Butorphanol. Before proceeding with sedation, or if it is not an option, there are some distraction techniques that can be tried to avoid it. The goal is to have a stable animal cooperative enough to place a transducer on the thorax for ten to fifteen minutes of imaging.
Echo Supplies
Make sure the echo sonographer has everything needed within reach. This will include a set of clippers, a spray bottle of alcohol to part the hair-coat over the chest and plenty of ultrasound gel. Alcohol breaks down skin oils present in the dog and cat and allows for good contact of the gel. Gel is placed on the active end of the echo probe or transducer to enhance image quality by eliminating air that causes the sound waves to refract or scatter. In addition, a tap cart on wheels stocked with supplies should be nearby in case large volume pericardial, pleural or peritoneal effusion is discovered and needs to be removed.
Echo Room Lighting
A dimly lit room is optimal for viewing the black, white, and grays of echo video clips and stills. A combination of fluorescent overhead lights which can be turned off and recessed lighting in the ceiling that can be dimmed during the study seems to work best. A small lamp placed on a counter in the room and turned away from the echo screen will also provide dim lighting.
Echo Table Design
The echo table should be constructed of sturdy material such as fiberglass to support a heavy patient. A soft, non-slip pad placed on top can provide comfort for an older or frail patient. A hydraulic lift to raise and lower the table via a foot pedal allows for easier lifting and dismounting of large dogs. It also ensures a comfortable standing position for staff holding the patient during the study. A cut out section should be present in the middle of the echo table or at either end. This allows the operator to hold the transducer underneath the patient to obtain images from the down side lateral thorax. The table should be designed to slant downwards at a slight angle towards the echo sonographer to allow the heart to fall toward the transducer.
Echo Machine
The echo machine used for canine and feline studies should employ phased array transducers with varying degrees of penetration to create a fan shaped beam for adequate two dimensional images of the heart. The ability to perform motion-modes, color flow, and spectral Doppler studies is paramount to an accurate diagnosis by the veterinarian. Care and maintenance of ultrasound equipment is important. A cleaning with a mild soap solution should be compatible with most systems. Keep air filters, track balls, and control panels free of animal hair, dander and ultrasound gel. If air intake filters become clogged with hair, the machine can over heat and may shut down unexpectedly. The transducers must be handled carefully and never dropped as they contain piezoelectric crystals which send out and receive sound waves to generate images. Archiving patient studies onto storage media may also be the responsibility of veterinary staff. Use an ultrasound company with good customer support.
Restraining the Dog or Cat for an Echo
Most studies begin with the patient held in right lateral recumbence by one or two staff members to obtain the right parasternal long axis and short axis views of the heart. Placing the patient on its side allows the heart to lay closer to the chest wall and compresses the lungs to decrease air artifact. The person restraining the front end of the patient pulls the right down leg forward to facilitate placement of the transducer onto the chest wall at the level of the heart. The top leg is allowed to hang loosely down. If only one person is available to hold a large dog, an elongated sand bag or “sand snake” can be placed over the back end. Shaking or panting in dogs results in excessive chest motion interfering with image quality and can be minimized by either laying a hand gently but firmly on the “up” chest wall or by closing the mouth for a few seconds during image acquisition. Giant breed dogs may have to stand for echoes as the table may not be large or strong enough to support their weight. The staff member standing by the patient will have to pull the right or left foreleg forward and away from the chest for the echo sonographer to image the heart. Most echo views should be obtained with the patient attached to a corresponding electrocardiogram (ECG) tracing at the bottom or top of the screen to correlate stills and clips with either systole or diastole. Observation and treatment of a tachy or bradyarrhythmia at the beginning of the echo may need to be documented with a separate diagnostic ECG machine before switching to left apical views in left lateral recumbence.
Patient Demeanor and the Severity of Heart Disease
An echocardiogram is a non-invasive procedure and generally well-tolerated. Some patients that are challenging to work with in an exam room with their owners may be cooperative when taken for imaging. That said, the fear or anxiety experienced by some companion animals separated from their owners can result in shivering, shaking, excessive panting, or aggressive behavior such as biting, striking, or growling. Tachycardia caused by increased sympathetic tone in heart failure patients can become worse with stress. Older patients may be painful due to arthritis. Puppies and kittens can become frightened and struggle. Other patients may have trouble breathing due to congestive heart failure and be in need of chest radiographs or a brief initial standing echo until stabilized with oxygen, diuretics and anxiolytic medications. Complications obtaining echo views can occur and may include exacerbation of cardiac arrhythmias or formation of pulmonary edema. Some patients will respond to distraction while others may need to be muzzled or sedated. If intravenous sedation is to be administered, using a hind leg vein such as the medial saphenous in the cat and the lateral saphenous in the dog is recommended.
Distraction Techniques
Tactics used with uncooperative patients to avoid sedation for an echo include offering small amounts of food such as baby food, peanut butter, or dog and cat treats; having a third person by the head petting and talking to the animal; or having the owner present in the echo room during the exam.
Echo Sedatives Used at NCSU
1. Acepromazine is an effective tranquilizer that does not provide analgesia. Low doses are recommended for animals with cardiac disease because of its adrenaline blocking effects on vascular smooth muscle resulting in vasodilatation. Lowering arterial blood pressure normally does not affect a patient with adequate systolic function; however, if cardiac output is already poor due to conditions such as dilated cardiomyopathy or pericardial effusion, acepromazine can cause hypotension and collapse. Acepromazine may also lower the seizure threshold in some canine breeds. At NCSU, it is used alone or combined with Buprenorphine or Butorphanol. The pharmacy dispenses it in a dilute form of 1 milligram (mg) per milliliter (ml), allowing small doses to be given accurately.
2. Buprenorphine is a partial opiate agonist that blocks pain at the mu receptor in the central nervous system and is used primarily as an injectable long lasting analgesic in the dog and cat. It is compatible with acepromazine and can also be applied to the buccal mucosa. It is considered safe to give to patients with cardiac disease and is used frequently at NCSU. It comes in 1 ml vials at the strength of 0.3 mg/ml.
3. Butorphanol is a partial opiate kappa agonist and antagonist at the mu receptor and is used as an analgesic for treating mild to moderate pain. It is compatible with acepromazine and comes in 1 mg and 2 mg per ml vials and at 10mg per ml in a 10 ml bottle.
4. Ketamine inhibits NMDA or memory receptors in the CNS and is considered a dissociative anesthetic agent. It increases sympathetic tone, so effects on the cardiovascular system may include tachycardia and hypertension at higher doses. Ketamine is not recommended in cats with hypertrophic cardiomyopathy. At NCSU, ketamine is used in low doses on fractious cats that are not adequately sedated after receiving acepromazine combined with an opiate. Ketamine comes in 10 ml vials at 100 mg/ml. Many cats experience pain when injected IM; administering the agent slowly with a small gauge needle may alleviate this. Eyes will remain open after administration, so don’t forget to lubricate them.
Commonly Used Echo Sedation Protocols at NCSU
Dog
Cat
Contraindicated Sedative
Dexmedetomidine is an alpha2 agonist that depresses sympathetic tone, reducing contractility of the heart muscle and causing vasoconstriction of peripheral arteries resulting in bradycardia and transient hypertension. It will adversely affect systolic function measurements taken by echo and should not be used for this imaging procedure. Even more importantly, its negative inotropic effects make it an unwise choice for sedating dogs and cats with heart disease.
The Fractious Feline
Fractious cats can be especially challenging to restrain for an echo. The best advice is to stay clear of the “danger zone” of front claws and face. Work slowly and quietly from the side and handle with thick towels placed over the shoulder blades. One strategy used to pull the front down leg forward for an echo, is to loop a long strip of tape around it with a large tab at the end. This keeps the restrainer’s right hand far away from the front end. Face muzzles may be difficult to place on an unsedated cat. If sedation is needed; a protocol employed at NCSU is to administer Acepromazine 0.02 mg/kg mixed with Butorphanol at 0.2 mg/kg IM. If more sedative is needed, Ketamine is administered at 5–10 mg IV or IM.
Conclusion
In North Carolina, the number of boarded veterinary cardiologists has increased from four in 1998 to eight in 2012. Cardiology Residents in training at the NCSU Veterinary Health Complex have grown from one to three DVMs. While this increase may not be typical for all areas of the country, it could be predictive of a future trend. As the number of these specialists rise, there is going to be more need for knowledgeable and trained staff to help them perform echocardiograms on dogs and cats.
References
1. Abbo LA, et al. Pharmacokinetics of burprenorphine following intravenous and oral transmucosal administration in dogs. Veterinary Therapeutics2008;9(2):83-93.
2. Bonagura JD, Kirk RW. Kirk’s Current Veterinary Therapy XII Small Animal Practice 1995:773–779.
3. Fields EL. Ultrasound: what you need to know. 16th Annual NCVC. 2011.
4. Fox P, et al. Textbook of Canine and Feline Cardiology 1999:853–8655.
5. Hopfensperger M. Humane handling of dogs to minimize fear and maximize safety in the veterinary clinic setting. 16th Annual NCVC. 2011.
6. Plumb DC. Plumb’s Veterinary Drug Handbook 5th ed 2004:2, 98, 10, 399, 439, 480.
7. Sherman BL. Managing fear responses in dogs. 16th Annual NCVC 2011.
8. Simpson W. Beyond the “scruff & stretch”: low stress handling to make your life easier working with cats. 16th Annual NCVC. 2011.
9. Stepien RL, et al. Cardiorespiratory effects of acepromazine maleate and buprenorphine hydrochloride in clinically normal dogs. American Jour of Vet Research 1995;56:78–84.
I have not had much
I have not had much experience either. It looks like a subaortic stenosis to me with post stenotic dilation. I can’t comment about other abnormalities based on the cine’s here. The L atrium does not appear to be overtly dilated- making other defects causing L atrial dilation a bit less likely.
If you were getting aliasing on the pulmonary outflow- that would worry me. If using PW you should be OK to -2.5 m/sec without aliasing. CW should fix that issue.
I am certain EL and Peter will have more info for you. I did a VIN search about sedation protocol from North Carolina and I will copy and paste it below.
Introduction
With more veterinary cardiologists, radiologists and internal medicine specialists working in small animal practice and the increasing availability of traveling sonographers, many veterinary technicians may find themselves assisting with a cardiac ultrasound or echocardiogram on a dog or cat with confirmed heart disease or a newly diagnosed heart murmur. While chest radiographs can reveal the overall size of the heart from the outside, an echocardiogram (echo) uses sound waves to generate a real time two-dimensional image inside the atria, ventricles, and great vessels to aid in diagnosis and treatment. The room used to perform echoes should be a quiet zone, especially when handling a nervous dog or cat. Ultrasound supplies, adjustable lighting, the echo machine and a functional table to lay the patient on are needed. In addition, effective restraint and positioning of the animal by support staff is necessary to obtain diagnostic images in a timely manner. This will sometimes require the administration of intravenous (IV) or intramuscular (IM) sedatives to an overly anxious or aggressive patient. Some will be asymptomatic with mild heart disease, while others could be hemodynamically unstable or in heart failure. Sedation should be administered cautiously, using low doses of agents with the least adverse effects on cardiac and respiratory function. At NCSU, a low dose of the tranquilizer Acepromazine is used and often combined with the opiatesBuprenorphine or Butorphanol. Before proceeding with sedation, or if it is not an option, there are some distraction techniques that can be tried to avoid it. The goal is to have a stable animal cooperative enough to place a transducer on the thorax for ten to fifteen minutes of imaging.
Echo Supplies
Make sure the echo sonographer has everything needed within reach. This will include a set of clippers, a spray bottle of alcohol to part the hair-coat over the chest and plenty of ultrasound gel. Alcohol breaks down skin oils present in the dog and cat and allows for good contact of the gel. Gel is placed on the active end of the echo probe or transducer to enhance image quality by eliminating air that causes the sound waves to refract or scatter. In addition, a tap cart on wheels stocked with supplies should be nearby in case large volume pericardial, pleural or peritoneal effusion is discovered and needs to be removed.
Echo Room Lighting
A dimly lit room is optimal for viewing the black, white, and grays of echo video clips and stills. A combination of fluorescent overhead lights which can be turned off and recessed lighting in the ceiling that can be dimmed during the study seems to work best. A small lamp placed on a counter in the room and turned away from the echo screen will also provide dim lighting.
Echo Table Design
The echo table should be constructed of sturdy material such as fiberglass to support a heavy patient. A soft, non-slip pad placed on top can provide comfort for an older or frail patient. A hydraulic lift to raise and lower the table via a foot pedal allows for easier lifting and dismounting of large dogs. It also ensures a comfortable standing position for staff holding the patient during the study. A cut out section should be present in the middle of the echo table or at either end. This allows the operator to hold the transducer underneath the patient to obtain images from the down side lateral thorax. The table should be designed to slant downwards at a slight angle towards the echo sonographer to allow the heart to fall toward the transducer.
Echo Machine
The echo machine used for canine and feline studies should employ phased array transducers with varying degrees of penetration to create a fan shaped beam for adequate two dimensional images of the heart. The ability to perform motion-modes, color flow, and spectral Doppler studies is paramount to an accurate diagnosis by the veterinarian. Care and maintenance of ultrasound equipment is important. A cleaning with a mild soap solution should be compatible with most systems. Keep air filters, track balls, and control panels free of animal hair, dander and ultrasound gel. If air intake filters become clogged with hair, the machine can over heat and may shut down unexpectedly. The transducers must be handled carefully and never dropped as they contain piezoelectric crystals which send out and receive sound waves to generate images. Archiving patient studies onto storage media may also be the responsibility of veterinary staff. Use an ultrasound company with good customer support.
Restraining the Dog or Cat for an Echo
Most studies begin with the patient held in right lateral recumbence by one or two staff members to obtain the right parasternal long axis and short axis views of the heart. Placing the patient on its side allows the heart to lay closer to the chest wall and compresses the lungs to decrease air artifact. The person restraining the front end of the patient pulls the right down leg forward to facilitate placement of the transducer onto the chest wall at the level of the heart. The top leg is allowed to hang loosely down. If only one person is available to hold a large dog, an elongated sand bag or “sand snake” can be placed over the back end. Shaking or panting in dogs results in excessive chest motion interfering with image quality and can be minimized by either laying a hand gently but firmly on the “up” chest wall or by closing the mouth for a few seconds during image acquisition. Giant breed dogs may have to stand for echoes as the table may not be large or strong enough to support their weight. The staff member standing by the patient will have to pull the right or left foreleg forward and away from the chest for the echo sonographer to image the heart. Most echo views should be obtained with the patient attached to a corresponding electrocardiogram (ECG) tracing at the bottom or top of the screen to correlate stills and clips with either systole or diastole. Observation and treatment of a tachy or bradyarrhythmia at the beginning of the echo may need to be documented with a separate diagnostic ECG machine before switching to left apical views in left lateral recumbence.
Patient Demeanor and the Severity of Heart Disease
An echocardiogram is a non-invasive procedure and generally well-tolerated. Some patients that are challenging to work with in an exam room with their owners may be cooperative when taken for imaging. That said, the fear or anxiety experienced by some companion animals separated from their owners can result in shivering, shaking, excessive panting, or aggressive behavior such as biting, striking, or growling. Tachycardia caused by increased sympathetic tone in heart failure patients can become worse with stress. Older patients may be painful due to arthritis. Puppies and kittens can become frightened and struggle. Other patients may have trouble breathing due to congestive heart failure and be in need of chest radiographs or a brief initial standing echo until stabilized with oxygen, diuretics and anxiolytic medications. Complications obtaining echo views can occur and may include exacerbation of cardiac arrhythmias or formation of pulmonary edema. Some patients will respond to distraction while others may need to be muzzled or sedated. If intravenous sedation is to be administered, using a hind leg vein such as the medial saphenous in the cat and the lateral saphenous in the dog is recommended.
Distraction Techniques
Tactics used with uncooperative patients to avoid sedation for an echo include offering small amounts of food such as baby food, peanut butter, or dog and cat treats; having a third person by the head petting and talking to the animal; or having the owner present in the echo room during the exam.
Echo Sedatives Used at NCSU
1. Acepromazine is an effective tranquilizer that does not provide analgesia. Low doses are recommended for animals with cardiac disease because of its adrenaline blocking effects on vascular smooth muscle resulting in vasodilatation. Lowering arterial blood pressure normally does not affect a patient with adequate systolic function; however, if cardiac output is already poor due to conditions such as dilated cardiomyopathy or pericardial effusion, acepromazine can cause hypotension and collapse. Acepromazine may also lower the seizure threshold in some canine breeds. At NCSU, it is used alone or combined with Buprenorphine or Butorphanol. The pharmacy dispenses it in a dilute form of 1 milligram (mg) per milliliter (ml), allowing small doses to be given accurately.
2. Buprenorphine is a partial opiate agonist that blocks pain at the mu receptor in the central nervous system and is used primarily as an injectable long lasting analgesic in the dog and cat. It is compatible with acepromazine and can also be applied to the buccal mucosa. It is considered safe to give to patients with cardiac disease and is used frequently at NCSU. It comes in 1 ml vials at the strength of 0.3 mg/ml.
3. Butorphanol is a partial opiate kappa agonist and antagonist at the mu receptor and is used as an analgesic for treating mild to moderate pain. It is compatible with acepromazine and comes in 1 mg and 2 mg per ml vials and at 10mg per ml in a 10 ml bottle.
4. Ketamine inhibits NMDA or memory receptors in the CNS and is considered a dissociative anesthetic agent. It increases sympathetic tone, so effects on the cardiovascular system may include tachycardia and hypertension at higher doses. Ketamine is not recommended in cats with hypertrophic cardiomyopathy. At NCSU, ketamine is used in low doses on fractious cats that are not adequately sedated after receiving acepromazine combined with an opiate. Ketamine comes in 10 ml vials at 100 mg/ml. Many cats experience pain when injected IM; administering the agent slowly with a small gauge needle may alleviate this. Eyes will remain open after administration, so don’t forget to lubricate them.
Commonly Used Echo Sedation Protocols at NCSU
Dog
Cat
Contraindicated Sedative
Dexmedetomidine is an alpha2 agonist that depresses sympathetic tone, reducing contractility of the heart muscle and causing vasoconstriction of peripheral arteries resulting in bradycardia and transient hypertension. It will adversely affect systolic function measurements taken by echo and should not be used for this imaging procedure. Even more importantly, its negative inotropic effects make it an unwise choice for sedating dogs and cats with heart disease.
The Fractious Feline
Fractious cats can be especially challenging to restrain for an echo. The best advice is to stay clear of the “danger zone” of front claws and face. Work slowly and quietly from the side and handle with thick towels placed over the shoulder blades. One strategy used to pull the front down leg forward for an echo, is to loop a long strip of tape around it with a large tab at the end. This keeps the restrainer’s right hand far away from the front end. Face muzzles may be difficult to place on an unsedated cat. If sedation is needed; a protocol employed at NCSU is to administer Acepromazine 0.02 mg/kg mixed with Butorphanol at 0.2 mg/kg IM. If more sedative is needed, Ketamine is administered at 5–10 mg IV or IM.
Conclusion
In North Carolina, the number of boarded veterinary cardiologists has increased from four in 1998 to eight in 2012. Cardiology Residents in training at the NCSU Veterinary Health Complex have grown from one to three DVMs. While this increase may not be typical for all areas of the country, it could be predictive of a future trend. As the number of these specialists rise, there is going to be more need for knowledgeable and trained staff to help them perform echocardiograms on dogs and cats.
References
1. Abbo LA, et al. Pharmacokinetics of burprenorphine following intravenous and oral transmucosal administration in dogs. Veterinary Therapeutics2008;9(2):83-93.
2. Bonagura JD, Kirk RW. Kirk’s Current Veterinary Therapy XII Small Animal Practice 1995:773–779.
3. Fields EL. Ultrasound: what you need to know. 16th Annual NCVC. 2011.
4. Fox P, et al. Textbook of Canine and Feline Cardiology 1999:853–8655.
5. Hopfensperger M. Humane handling of dogs to minimize fear and maximize safety in the veterinary clinic setting. 16th Annual NCVC. 2011.
6. Plumb DC. Plumb’s Veterinary Drug Handbook 5th ed 2004:2, 98, 10, 399, 439, 480.
7. Sherman BL. Managing fear responses in dogs. 16th Annual NCVC 2011.
8. Simpson W. Beyond the “scruff & stretch”: low stress handling to make your life easier working with cats. 16th Annual NCVC. 2011.
9. Stepien RL, et al. Cardiorespiratory effects of acepromazine maleate and buprenorphine hydrochloride in clinically normal dogs. American Jour of Vet Research 1995;56:78–84.
Thc for that Randy, I usually
Thc for that Randy, I usually use IV torb or even propofol if needed but I have found that scanning agitated animals is very possible if we train ourselves to ignore them and image intermittently if a tech closes the mouth for a few seconds during key measurements to avoid movement artifact…. of course in healthy animals… its often our lack of patience that renders the scan difficult and took me a long time to figure this out but once I did my road life went faster. Snap the key video and key doppler with a few seconds of a tech closing the mouth then release and move through the scan and then close again.. doppler the valve then move forward. In this way I rarely have to sedate anything other than for a needle. It takes persistence and the ability to just work with the rhythms but once you have it down you can blast through the most difficult patients by tricking them into a few key manuevers to make your scan diagnostic without artifact.
That being said a bit of propofol is fine if IV torb isnt doing it.
Re this case there is a clear lembus on the IVS prior to the AV and post stenotic dilation. LA is fine. The apical view needs to straighten out the AO by flattening the probe along the abdomena dn then the AO will be more in line wiht flow so your CW Doppler will be < 15 degrees of flow to be accurate. try transdiapghragmatic approach subxyphoid like in the SDEP cardio protocol (http://sonopath.com/products) as it may be easier on this dog.
With that lembus I’m imagining you should have at least moderate (>3.5 m/sec) if not severe SAS (>4.5 m/sec).
Here is a similar SAS case… lacking the doppler for some reason (http://sonopath.com/members/case-studies/cases/subaortic-stenosis-3-year-old-mn-golden-retriever-presenting-re-evaluatio). FYI we are currently building our Cardiac caseload form my raw archive so there will be many more soon form my raw archive.
But in the meantime check out Peter Modler’s page as it has prime examples of most congential cardiac presentations essentially:
http://sonopath.com/about/specialists/peter-modler-dvm-dipl-tzt
Thc for that Randy, I usually
Thc for that Randy, I usually use IV torb or even propofol if needed but I have found that scanning agitated animals is very possible if we train ourselves to ignore them and image intermittently if a tech closes the mouth for a few seconds during key measurements to avoid movement artifact…. of course in healthy animals… its often our lack of patience that renders the scan difficult and took me a long time to figure this out but once I did my road life went faster. Snap the key video and key doppler with a few seconds of a tech closing the mouth then release and move through the scan and then close again.. doppler the valve then move forward. In this way I rarely have to sedate anything other than for a needle. It takes persistence and the ability to just work with the rhythms but once you have it down you can blast through the most difficult patients by tricking them into a few key manuevers to make your scan diagnostic without artifact.
That being said a bit of propofol is fine if IV torb isnt doing it.
Re this case there is a clear lembus on the IVS prior to the AV and post stenotic dilation. LA is fine. The apical view needs to straighten out the AO by flattening the probe along the abdomena dn then the AO will be more in line wiht flow so your CW Doppler will be < 15 degrees of flow to be accurate. try transdiapghragmatic approach subxyphoid like in the SDEP cardio protocol (http://sonopath.com/products) as it may be easier on this dog.
With that lembus I’m imagining you should have at least moderate (>3.5 m/sec) if not severe SAS (>4.5 m/sec).
Here is a similar SAS case… lacking the doppler for some reason (http://sonopath.com/members/case-studies/cases/subaortic-stenosis-3-year-old-mn-golden-retriever-presenting-re-evaluatio). FYI we are currently building our Cardiac caseload form my raw archive so there will be many more soon form my raw archive.
But in the meantime check out Peter Modler’s page as it has prime examples of most congential cardiac presentations essentially:
http://sonopath.com/about/specialists/peter-modler-dvm-dipl-tzt
Thank you both for your input
Thank you both for your input and so much information. Very much appreciated.
Actually, the exam took a long time cause I was trying to get the images in that way: only 1 technician, a very uncomfortable table for dog, not enough hands to close mouth, record clips and hold dog… Anyway. It is what it is.
I’ll check all those links.
By the way, I would like to ask a very general question but not sure which folder is appropriate: about how long both an abdominal and heart exam takes for a relatively inexperienced sonographer ( 2 years doing us and my time still quite long but I’m also seeing more things…). I feel under big preassure at work and I have no reference. I’m happy to move this question to the appropriate folder…
Thank you for your help.
Thank you both for your input
Thank you both for your input and so much information. Very much appreciated.
Actually, the exam took a long time cause I was trying to get the images in that way: only 1 technician, a very uncomfortable table for dog, not enough hands to close mouth, record clips and hold dog… Anyway. It is what it is.
I’ll check all those links.
By the way, I would like to ask a very general question but not sure which folder is appropriate: about how long both an abdominal and heart exam takes for a relatively inexperienced sonographer ( 2 years doing us and my time still quite long but I’m also seeing more things…). I feel under big preassure at work and I have no reference. I’m happy to move this question to the appropriate folder…
Thank you for your help.
Silvana why dont you start a
Silvana why dont you start a different post on that question so we don’t mix up categories?
Silvana why dont you start a
Silvana why dont you start a different post on that question so we don’t mix up categories?
Yes, thanks. I’ll do so.
Yes, thanks. I’ll do so.
Yes, thanks. I’ll do so.
Yes, thanks. I’ll do so.