Introduction
To date Dr. Hoogland has
performed more than 15.000 spine surgical procedures, of which more than 12.000
were minimally invasive. His publications include more than 25 scientific
articles, some of them chapters in edited scientific books. Additionally, Dr.
Hoogland has made more than 100 presentations at Interventional congresses
and has organised several congresses.
1991 Dr. Thomas Hoogland
collected first experiences with Spinal Foraminoscopy in close coperation with
Hal Matthews, M.D. and Danek Inc. The image was of poor quality but mechanical
dimensions matched anatomical requirements because auf length (210 mm) and
working channel diameter of 3.7 mm for use of 3.5 mm surgical instruments and
devices.
1994 Dr. Hoogland specified a
set of surgical instruments consisting of guide wire, dilators, operation
cannulas and trephines to enlarge the foramen intervertebralis and rongeurs and
forceps for removal of extruded disc material. He cooperated with German OEM
producers for surgical instruments.
1998 Dr. Hoogland cooperated
with Blazejewski MEDI-Tech, a German based small sized but innovative OEM producer for
Endoscopes and Visualization Systems. By Dr. Hoogland Specifications a series
of pathbreaking Endoscopes has been developed and produced.
2000 To promote his operation
technique (Thessys) and related Endoscopic Equipment joi-max GmbH was founded by Reinhold
Blazejewski, Thomas Hoogland M.D., and Wolfgang Ries. Dr. Hoogland delivered
his know-how portfolio about herniated disc treatment, device specifications,
international network of spinal surgeons, experience in workshop organization
and congress presentations and his OEM connections for production. He also
spended an amount for company formation and got shares oft he company. Reinhold
Blazejewski delivered his excellent knowledge in Endoscope- and Visualization
development.
2004 Dr. Hoogland resigned his
contract with joi-max by unknown reasons and founded 2006 his own company
max-more Hoogland Spinal Products GmbH. Dr. Hoogland improved the access
instruments and added patented reamers for boney work and widening oft he foramen
intervertebralis. (Tom-Shidi Instruments)
Material and Method
Material and Method
In order not to irritate any
nerve root close to the foramen and to ensure a safe access to the spinal
canal, the caudal part of the foramen is widened millimeter by millimeter with
specially designed reamers. Via the posterolateral approach to
the foramen intervertebralis the injection needle is guided to the dorsal facet
joint and the anesthetic is injected. Afterwards the guide wire is inserted and
the injection needle removed. Then soft tissue is dilated. By the Tom shidi needle
the facet joint is prepared so that the first reamer is anchored and unable to
slide into the spinal channel causing injuries. Then the foramen is widened
step wise. Afterwards
drill is removed and then the dilator and operation sleeve is placed over the remaining
guidewire. After removal of
the guidewire and dilator the Foraminoscope
is introduced into the operation sleeve. With resection
instruments the leaked disc
material is removed under direct
vision from the outside of the
annulus to the base. (outside-inside
technique). Thereafter it is endoscopically checked that all fragments are removed
and the nerve root is decompressed.
Endoscope Specification (1998)
Length: 180 and 210 mm
Working Channel: 3.7 mm
Rod lens optical system: 1.9 mm rod lenses
Dual irrigation channel
Fiber light illumination (cold light source)
30° direction of view
Outer diameter of the scope 6.3 and 5.9 mm
Remarks
Because of reduction of the rod lenses diameter to 1.9 mm the working channel could be enlarged to 3.7 mm for use of 3.5 mm surgical instruments and devices.
In 2004 Richard Wolf followed with similar specifications and in 2012 also Karl Storz.
Progress:
3.7 mm working channel by 5.9 mm outer diameter of the scope.
Patended access and drill instruments
Through the development of surgical instruments and endoscopes in collaboration with German OEM manufacturers the range of indications for minimally invasive treatment of spinal disorders has been significantly expanded.
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