Learning Curves and Mathematical Models for Interventional Ultrasound Basic Skills

We aimed to construct learning curves and mathematical learning models for ultrasound basic skills: optimizing needle-ultrasound beam alignment and reaching a target inside a phantom. Thirty subjects participated in the study. Each subject performed 25 trials. Linear ultrasound probes and a bovine m...

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Published in	Anesthesia and analgesia Vol. 106; no. 2; pp. 568 - 573
Main Authors	Filho, Getúlio Rodrigues de Oliveira, Helayel, Pablo Escovedo, Conceição, Diogo Brüggemann da, Garzel, Ivo Sebastião, Pavei, Patrícia, Ceccon, Maurício Sperotto
Format	Journal Article
Language	English
Published	Hagerstown, MD International Anesthesia Research Society 01.02.2008 Lippincott
Subjects	Adult Anesthesia Anesthesia. Intensive care medicine. Transfusions. Cell therapy and gene therapy Animals Biological and medical sciences Cattle Clinical Competence - standards Female Humans Internship and Residency - methods Internship and Residency - standards Learning Male Medical sciences Models, Theoretical Phantoms, Imaging - standards Ultrasonography, Interventional - methods Ultrasonography, Interventional - standards Learning Mathematical model Anesthesia
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ISSN	0003-2999 1526-7598 1526-7598
DOI	10.1213/ane.0b013e3181605412

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Abstract	We aimed to construct learning curves and mathematical learning models for ultrasound basic skills: optimizing needle-ultrasound beam alignment and reaching a target inside a phantom. Thirty subjects participated in the study. Each subject performed 25 trials. Linear ultrasound probes and a bovine muscular phantom were used. In Experiment 1, subjects tried to insert a needle parallel to the ultrasound beam with full imaging of the needle. For Experiment 2, a segment of tendon was inserted longitudinally into the phantom at a depth of 1 to 1.5 cm. Subjects tried to insert the needle until contacting the tendon. Learning curves were constructed using the cumulative sum (cusum) method. Bush and Mosteller's mathematical learning models were constructed for each skill. Only 30% and 11% of subjects attained proficiency in Experiments 1 and 2, respectively. The predicted average numbers of trials to achieve 95% success rates as estimated from Bush and Mosteller's models were 37 and 109, respectively. Learning interventional ultrasound basic skills may require a considerable number of trials. Cusum charts revealed that individuals acquire such abilities at variable rates. As skills were assessed in phantoms, our results do not apply to blocks given to real patients.
AbstractList	We aimed to construct learning curves and mathematical learning models for ultrasound basic skills: optimizing needle-ultrasound beam alignment and reaching a target inside a phantom. Thirty subjects participated in the study. Each subject performed 25 trials. Linear ultrasound probes and a bovine muscular phantom were used. In Experiment 1, subjects tried to insert a needle parallel to the ultrasound beam with full imaging of the needle. For Experiment 2, a segment of tendon was inserted longitudinally into the phantom at a depth of 1 to 1.5 cm. Subjects tried to insert the needle until contacting the tendon. Learning curves were constructed using the cumulative sum (cusum) method. Bush and Mosteller's mathematical learning models were constructed for each skill. Only 30% and 11% of subjects attained proficiency in Experiments 1 and 2, respectively. The predicted average numbers of trials to achieve 95% success rates as estimated from Bush and Mosteller's models were 37 and 109, respectively. Learning interventional ultrasound basic skills may require a considerable number of trials. Cusum charts revealed that individuals acquire such abilities at variable rates. As skills were assessed in phantoms, our results do not apply to blocks given to real patients. We aimed to construct learning curves and mathematical learning models for ultrasound basic skills: optimizing needle-ultrasound beam alignment and reaching a target inside a phantom.BACKGROUNDWe aimed to construct learning curves and mathematical learning models for ultrasound basic skills: optimizing needle-ultrasound beam alignment and reaching a target inside a phantom.Thirty subjects participated in the study. Each subject performed 25 trials. Linear ultrasound probes and a bovine muscular phantom were used. In Experiment 1, subjects tried to insert a needle parallel to the ultrasound beam with full imaging of the needle. For Experiment 2, a segment of tendon was inserted longitudinally into the phantom at a depth of 1 to 1.5 cm. Subjects tried to insert the needle until contacting the tendon. Learning curves were constructed using the cumulative sum (cusum) method. Bush and Mosteller's mathematical learning models were constructed for each skill.METHODSThirty subjects participated in the study. Each subject performed 25 trials. Linear ultrasound probes and a bovine muscular phantom were used. In Experiment 1, subjects tried to insert a needle parallel to the ultrasound beam with full imaging of the needle. For Experiment 2, a segment of tendon was inserted longitudinally into the phantom at a depth of 1 to 1.5 cm. Subjects tried to insert the needle until contacting the tendon. Learning curves were constructed using the cumulative sum (cusum) method. Bush and Mosteller's mathematical learning models were constructed for each skill.Only 30% and 11% of subjects attained proficiency in Experiments 1 and 2, respectively. The predicted average numbers of trials to achieve 95% success rates as estimated from Bush and Mosteller's models were 37 and 109, respectively.RESULTSOnly 30% and 11% of subjects attained proficiency in Experiments 1 and 2, respectively. The predicted average numbers of trials to achieve 95% success rates as estimated from Bush and Mosteller's models were 37 and 109, respectively.Learning interventional ultrasound basic skills may require a considerable number of trials. Cusum charts revealed that individuals acquire such abilities at variable rates. As skills were assessed in phantoms, our results do not apply to blocks given to real patients.CONCLUSIONSLearning interventional ultrasound basic skills may require a considerable number of trials. Cusum charts revealed that individuals acquire such abilities at variable rates. As skills were assessed in phantoms, our results do not apply to blocks given to real patients.
Author	Conceição, Diogo Brüggemann da Garzel, Ivo Sebastião Pavei, Patrícia Ceccon, Maurício Sperotto Helayel, Pablo Escovedo Filho, Getúlio Rodrigues de Oliveira
AuthorAffiliation	From the Department of Anesthesiology, Hospital Governador Celso Ramos, Nucleus for Teaching and Research in Medical Education, Florianópolis, SC, Brazil
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SubjectTerms	Adult Anesthesia Anesthesia. Intensive care medicine. Transfusions. Cell therapy and gene therapy Animals Biological and medical sciences Cattle Clinical Competence - standards Female Humans Internship and Residency - methods Internship and Residency - standards Learning Male Medical sciences Models, Theoretical Phantoms, Imaging - standards Ultrasonography, Interventional - methods Ultrasonography, Interventional - standards
Title	Learning Curves and Mathematical Models for Interventional Ultrasound Basic Skills
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