J. Tegeler scite author profile

In a prospective, clinical study, the clinical utility of indocyanine green for intraoperative monitoring of free tissue transfer was evaluated. The study comprised 20 surgical patients undergoing elective microsurgical procedures. Indocyanine green angiography was performed intraoperatively, immediately after flap inset, and the operating team was blind to the fluoremetric findings. Thereafter, postoperative monitoring was done exclusively by clinical examination (color, temperature, time for recapillarization, and bleeding after puncture). Final outcome was compared with results of perioperative indocyanine (ICG)-imaging, and classified either as total flap loss, partial flap loss, or successful tissue transplantation. A total of 2 (10%) complications was recorded, and included one partial and one total flap loss. Both complications were detected by intraoperative ICG imaging. Another case of intraoperative subclinical arterial spasm at the place of microvascular anastomosis was revealed by dynamic ICG-videography. This flap did not develop postoperative complications. In conclusion, evaluation of perfusion by ICG imaging is feasible in all kinds of microsurgical flaps, irrespective of the type of tissue. Even though not meeting all the criteria of an ideal monitoring device, significant additional information can be obtained. In this study, cases with arterial spasm, venous congestion, and regional hypoperfusion were revealed by intraoperative ICG-videography. There was a strong correlation between intraoperative findings and clinical outcome.

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Cartilage tissue engineering with novel nonwoven structured biomaterial based on hyaluronic acid benzyl ester

Aigner¹,

Tegeler²,

Hutzler³

et al. 1998

J. Biomed. Mater. Res.

281

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The aim of this study was to investigate the possibility of using the benzyl ester of hyaluronic acid (HYAFF 11), a recently developed semisynthetic resorbable material, as a scaffold for the culture of human nasoseptal chondrocytes in tissue-engineering procedures of cartilage reconstruction. Different techniques such as immunohistochemistry, scanning electron microscopy, and confocal laser scanning microscopy were used to study the behavior, morphology, and phenotype expression of the chondrocytes, which were initially expanded and then seeded on the material. The nonwoven cell carrier allowed good viability and adhesivity of the cells without any surface treatment with additional substances. Furthermore, the cultured cells expressed cartilage-specific collagen type II, indicating that they were able to redifferentiate within the scaffold of HYAFF 11 and were able to retain a chondrocyte phenotype even after a long period of in vitro conditions. Nevertheless, the expression of collagen type I, which was produced by dedifferentiated or incompletely redifferentiated chondrocytes, was noticeable. Additional data were obtained by subcutaneous implantation of samples seeded with human cells in the in vivo model of the athymic nude mouse. The results after 1 month revealed the development of tissue similar to hyaline cartilage. This study is promising for the use of this scaffold for tissue engineering of cartilage replacements.

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A clinical randomized study on the effects of invasive monitoring on burn shock resuscitation

Holm

Mayr

Tegeler

et al. 2004

Burns

157

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Effect of Crystalloid Resuscitation and Inhalation Injury on Extravascular Lung Water

Holm

Tegeler

Mayr

et al. 2002

Chest

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Laser-induced fluorescence of indocyanine green: plastic surgical applications

et al. 2003

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The objective assessment of tissue perfusion is of utmost importance to plastic surgeons. Nevertheless, clinical observation remains the accepted gold standard for assessment of microcirculation. Dynamic laser fluorescence videography is a new technique for objective assessment of blood flow. We describe our clinical experience using this technique in plastic surgical patients. Possible implementations include evaluation of pedicle (random and axial pattern) flaps, monitoring of free tissue transfer and replants, and the objective determination of burn depth. Compared with standard clinical assessment techniques indocyanine green imaging provides significant additional information which allows a rational and evidence-based planning of surgery.

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J. Tegeler

Monitoring free flaps using laser‐induced fluorescence of indocyanine green: A preliminary experience

Cartilage tissue engineering with novel nonwoven structured biomaterial based on hyaluronic acid benzyl ester

A clinical randomized study on the effects of invasive monitoring on burn shock resuscitation

Effect of Crystalloid Resuscitation and Inhalation Injury on Extravascular Lung Water

Laser-induced fluorescence of indocyanine green: plastic surgical applications

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