Unique Anatomies
Patient-Matched
Solutions

RATIONALE
INNOVATION: THE KEY TO SUCCESS

MySpine is a patient-matched pedicle screw placement guide, allowing the surgeon to determine his preoperative 3d planning, based on CT images of the patient’s spine. This innovative concept combines several different features to offer potential benefits to both the surgeon and the patient.

The MySpine guides increase accuracy in screw positioning while reducing the risk of pedicles violation. 

 

A dedicated MySpine Low Dose CT protocol developed in order to minimize the X-ray exposure for patients, moreover MySpine potentially allows a complete reduction of intraoperative fluoroscopy without sacrificing accuracy[6].

Low dose radiation protocol greatly benefits the patients in comparison to using C-Arm or O-Arm navigational technologies: more than 30 times less irradiation! (c).
Overall dose amount per surgery is up to 50 full spine X-rays less than free-hand technique (data on internal files).

Great results in terms of time and cost reduction can be achieved with the MySpine technology:

  • Overall time reduced about 30% vs free hand technique[6].
  • Reduced number of revision surgeries by increasing the screw position accuracy.
  •  Shorter length of hospital stay[4].
  • No initial costs: unlike navigation systems, MySpine technology does not require any capital investment.
  • Reduce sterilization costs through the sterile option.

Online interactive 3d planning tool for reliable pedicle targeting and screw trajectory identification.

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KEY FEATURES

AT SURGEON`S HANDS

The surgeon determines the entry points for the pedicle screws and sets their trajectory along with the main geometrical parameters.

MAXIMIZED STABILITY

MySpine guides are positioned on the vertebra using different contact points on distinct anatomical references, such as the spinous and transverse processes, in order to achieve the maximum stability.

MINIMIZED INVASIVENESS

MySpine guides are designed to preserve the patient’s  anatomy.

 

MAXIMIZED VISIBILITY

Distal windows enhance the field of view during all surgical steps.

 

MULTIPLE SURGICAL OPTIONS TREATMENT

Standard MySpine guides are suitable for challenging deformities and long constructs.

 

Low Profile MySpine guides are ideal for low lumbar regions and degenerative cases where a small incision is preferred.

MYSPINE MC

MySpine MC is a 3D printed patient-matched solution in the midline cortical approach. Posterior lumbar fusion is driven in a minimally invasive [1], muscle sparing way, allowing for shorter operating times [2,3] and a substantial reduction of both radiation exposure [2] and costs [2,3]

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MYSPINE S2AI

MySpine S2AI is the Medacta patient-matched Solution for S2-Alar-Iliac fixation: a minimally invasive solution at surgeon’s hand for long constructs, designed to overcome the limits of a potentially insufficient lower spine fixation.

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SYNERGY

MySpine pedicle screw placement guides are exclusively intended for use with the Medacta M.U.S.T. pedicle screw system and related instruments when the clinical evaluation complies with the need of spinal fixation.

PATIENT-MATCHED TECHNOLOGY

MYKNEE

MyKnee is a patient-matched cutting block, allowing the surgeon to realize his preoperative 3D planning, based on CT or MRI images of the patient’s knee.
This innovative concept combines different features giving potential benefits to both the surgeon and to the patient.

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MYHIP

MyHip is a system providing 3D preoperative planning and patient-specific guides, developed following the success of Medacta patient-matched Technology

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MYSHOULDER

MyShoulder is a patient-matched instrumentation, allowing the surgeon to realize his preoperative 3D planning, based on CT images of the patient’s shoulder. The preoperative 3D planning allows to manufacture an humeral resection guide and a glenoid positioning guide.
This innovative concept combines different features giving potential benefits to both the surgeon and to the patient.

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MYSOLUTIONS

MYSOLUTIONS PERSONALIZED ECOSYSTEM

An advanced network of digital solutions designed to improve patient outcomes and healthcare efficiency

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PUBLICATIONS

MYSPINE PUBLICATIONS
[1] Lamartina et al. Adolescent idiopathic scoliosis surgery with patient-specific screw placement-guide Eur Spine J. 2014 Dec; 23(12)
[2] Lamartina et al. Pedicle screw placement accuracy in thoracic and lumbar spinal surgery with a patient-matched targeting guide: a cadaveric study. Eur Spine J. 2015 Nov;24(7)
[3] Putzier et al. A  New Navigational Tool for Pedicle Screw Placement in Patients with Severe scoliosis: A Pilot Study to Prove Feasibility, Accuracy, and Identify Operative Challenges. J  Spinal Disord Tech.  2014
[4] Landi et  al. Spinal Neuronavigation and 3D-Printed Tubular  Guide for Pedicle Screw Placement: A  Really New Tool  to Improve Safety and Accuracy of the Surgical Technique? J  Spine 2015, 4:5
[5] Landi et al. 3D Printed Tubular Guides for Pedicle Screw Placement: The Answer for the Need of a Greater Accuracy in  Spinal Stabilization. Orthop Muscular Syst 2015, 4:3
[6] Farshad et. al. Accuracy of patient-specific template-guided vs. free-hand fluoroscopically controlled pedicle screw placement in the thoracic and lumbar spine: a randomized cadaveric study. Eur Spine J. 2016 

8th M.O.R.E. International Symposium Proceedings

[8] Landi et al. Pedicle screw placement accuracy with patient-matched targeting guides: a cadaveric study and first clinical experiences. 8th M.O.R.E. International Symposium, LUGANO APRIL 22-23, 2016.

A pilot study to prove feasibility, accuracy, and identify operative challenges (Michael Putzier)

MySpine surgical technique - description of technique, challenges & risks (Giovanni Grasso)

My overall impressions as a newest user of MySpine guides (Olivier Ricart)

Radiation safety in orthopaedics and neurosurgery: does the radiation dose matter? (Angus Gray)

Radiation results in spine using MySpine guides vs. freehand and CT supported surgeries (Alberto Zerbi)

Applications of MySpine in degenerative pathologies: first clinical experiences in MySpine (Samuel Jorgenson)

A Prospective randomized clinical survey on accuracy of pedicle screws positioning with MySpine vs. freehand Technique (Riccardo Cecchinato)


SUPPORTING LITERATURE
[7] Gelalis et.al. Accuracy of pedicle screw placement: a systematic review of prospective in vivo studies comparing free hand, fluoroscopy guidance and navigation technique. Euro Spine Journal, 2012
[a]Lange et.al. Estimating the effective radiation dose imparted to patients by intraoperative cone-beam computed tomography in toracolumbar spinal surgery, Spine 2013
[b]US Nuclear Regulatory Commission’s (USNRC) 
[c]Lange et.al. Estimating the effective radiation dose imparted to patients by intraoperative cone-beam computed tomography in toracolumbar spinal surgery, Spine 2013
[d]Biswas et.al. Radiation Exposure from Musculoskeletal Computerized Tomographic Scans, JBJS Am. 2009
[e]Health Physics Society Specialists in Radiation Safety, Lawrence Berkeley National Laboratory; Fact Sheet 2010
[f]Radiation Dose in X-Ray and CT Exams; 2013 Radiological Society of North America, Inc
[g]MySpine, Charité University Hospital, Berlin, Germany