Your search keyword '"Laser Coagulation methods"' showing total 84 results

1. Spatiotemporal modeling of laser tissue soldering using photothermal nanocomposites.

Author

Mushaben M, Urie R, Flake T, Jaffe M, Rege K, and Heys J

Subjects

Animals, Finite Element Analysis, In Vitro Techniques, Laser Coagulation instrumentation, Lasers, Solid-State, Mice, Swine, Temperature, Time Factors, Intestines radiation effects, Intestines surgery, Laser Coagulation methods, Nanocomposites

Abstract

Objective: Laser tissue soldering using photothermal solders is a technology that facilitates rapid sealing using heat-induced changes in the tissue and the solder material. The solder material is made of gold nanorods embedded in a protein matrix patch that can be placed over the tissue rupture site and heated with a laser. Although laser tissue soldering is an attractive approach for surgical repair, potential photothermal damage can limit the success of this approach. Development of predictive mathematical models of photothermal effects including cell death, can lead to more efficient approaches in laser-based tissue repair., Methods: We describe an experimental and modeling investigation into photothermal solder patches for sealing porcine and mouse cadaver intestine sections using near-infrared laser irradiation. Spatiotemporal changes in temperature were determined at the surface as well as various depths below the patch. A mathematical model, based on the finite element method, predicts the spatiotemporal temperature distribution in the patch and surrounding tissue, as well as concomitant cell death in the tissue is described., Results: For both the porcine and mouse intestine systems, the model predicts temperatures that are quantitatively similar to the experimental measurements with the model predictions of temperature increase often being within a just a few degrees of experimental measurements., Conclusion: This mathematical model can be employed to identify optimal conditions for minimizing healthy cell death while still achieving a strong seal of the ruptured tissue using laser soldering. Lasers Surg. Med. 50:143-152, 2018. © 2017 Wiley Periodicals, Inc., (© 2017 Wiley Periodicals, Inc.)

Published

2018

2. The fractional laser-induced coagulation zone characterized over time by laser scanning confocal microscopy-A proof of concept study.

Author

Banzhaf CA, Lin LL, Dang N, Freeman M, Haedersdal M, and Prow TW

Subjects

Humans, Proof of Concept Study, Tissue Culture Techniques, Laser Coagulation methods, Lasers, Solid-State therapeutic use, Microscopy, Confocal, Skin diagnostic imaging, Skin radiation effects

Abstract

Background: Ablative fractional laser (AFXL) is an acknowledged technique to increase uptake of topical agents in skin. Micro thermal ablation zones (MAZs) consist of ablated vertical channels surrounded by a coagulation zone (CZ). Laser scanning confocal microscopy (LSCM) images individual MAZs at 733 nm (reflectance confocal microscopy (RCM)). Further, LSCM can image sodium fluorescein (NaF) fluorescence with 488 nm excitation (fluorescence confocal microcopy (FCM)), a small hydrophilic test molecule (370 MW, log P -1.52), which may simulate uptake, bio-distribution and kinetics of small hydrophilic drugs., Objectives: To explore LSCM for combined investigations of CZ thickness and uptake, bio-distribution and kinetics of NaF in AFXL-exposed skin., Study Designs/methods and Materials: Excised human abdominal skin samples were exposed to AFXL (15 mJ/microbeam, 2% density) and NaF gel (1000 μg/ml, 10 μl/cm2) in six repetitions, including untreated control samples. CZ thickness and spatiotemporal fluorescence intensities (FI) were quantified up to four hours after NaF application by RCM and FCM. Test sites were scanned to a depth of 200 μm, quantifying thickness of skin compartments (stratum corneum, epidermis, upper dermis), individual CZ thicknesses and FI in CZ and surrounding skin., Results: RCM images established skin morphology to a depth of 200 μm. The CZ thickness measurements were feasible to a depth of 50 μm, and remained unchanged over time at 50 μm (P > 0.5). FI were detected to a depth of 160 μm and remained constant in CZ up to four hours after NaF application (15 minutes: 79 AU (73-92 AU), 60 minutes: 72 AU (58-82 AU), four hours: 78 AU (71-90 AU), P > 0.1). In surrounding skin, FI increased significantly over time, but remained lower than FI in CZ (15 minutes: 21 AU (17-22 AU), 60 minutes: 21 AU (19-26 AU), four hours: 42 (31- 48 AU), P = 0.03). AFXL-processed skin generated higher FI compared to non-laser processed skin in epidermis and upper dermis at 60 minutes and four hours (P = 0.03)., Conclusions: By LSCM, assessment of the AFXL-induced CZ thickness was feasible to a depth of 50 μm, and assessment of FI from a small hydrophilic test molecule, NaF in CZ and surrounding skin feasible to a depth of 160 μm. Lasers Surg. Med. 50:70-77, 2018. © 2017 Wiley Periodicals, Inc., (© 2017 Wiley Periodicals, Inc.)

Published

2018

3. Investigations into localized re-treatment of the retina with a 3-nanosecond laser.

Author

Chidlow G, Plunkett M, Casson RJ, and Wood JP

Subjects

Animals, Choroidal Neovascularization diagnosis, Choroidal Neovascularization etiology, Choroidal Neovascularization pathology, Laser Coagulation instrumentation, Laser Coagulation methods, Macular Degeneration pathology, Postoperative Complications diagnosis, Postoperative Complications etiology, Postoperative Complications pathology, Random Allocation, Rats, Reoperation instrumentation, Reoperation methods, Laser Coagulation adverse effects, Lasers, Solid-State adverse effects, Macular Degeneration surgery, Reoperation adverse effects, Retina pathology, Retina surgery

Abstract

Background and Objectives: Subvisual retinal lasers necessarily cause clinically invisible lesions, hence, they could intentionally or inadvertently be targeted at precisely the same or an overlapping location during repeat laser treatment. Herein, we investigated the structural integrity and cellular responses of localized re-treatment using a nanosecond laser (2RT) currently in trials for early age-related macular degeneration., Materials and Methods: Rats were randomly assigned to one of five groups: sham, subvisual 2RT, subvisual 2RT re-treatment, visual effect 2RT, visual effect 2RT re-treatment. Re-treatment groups were lasered on days 0 and 21; single laser groups were only lasered on day 21. All rats were euthanized at day 28 and eyes were then dissected and processed for immunohistochemistry. For re-treatment, the laser was targeted at precisely the same locations on both delivery occasions. Analytical endpoints included monitoring of retinal vascular integrity overlying lesions, investigation into any potential choroidal neovascularization, assessment of the RPE, quantification of collateral injury to photoreceptors or other neuronal classes, and delineation of glial reactivity., Results: Repeat laser administration to rats caused ostensibly identical retinal-RPE-choroid responses to those obtained in age-matched rats that received only a single application. Specifically, 7 days after treatment, RPE cells were re-populating lesion sites. No obvious consistent differences were evident between the single and repeat laser groups. Moreover, repeat laser caused no (measurable) additive injury to photoreceptors or other retinal neuronal classes from single laser treatment. In re-lasered animals, there was no increase in microglial activity overlying and adjacent to lesion sites relative to single lasered rats. Finally, there was no evidence of choroidal neovascularization after repeat laser treatment., Conclusions: The overall results provide a measure of confidence that re-treatment of patients with 2RT should not provide any additional risk of developing visual scotomas, choroidal neovascularizations, or inflammatory events. Indeed, the collated results indicate that the metabolic and structural disruption to the RPE-retina caused by short pulse duration laser treatment is resolved within a short time frame such that re-treatment elicits a phenotype indistinguishable from single treatment. Lasers Surg. Med. 48:602-615, 2016. © 2016 Wiley Periodicals, Inc., (© 2016 Wiley Periodicals, Inc.)

Published

2016

4. 360° versus localized demarcation laser photocoagulation for macular-sparing retinal detachment in silicone oil-filled eyes with undetected breaks: A retrospective, comparative, interventional study.

Author

Zhou C and Qiu Q

Subjects

Adolescent, Adult, Aged, Combined Modality Therapy, Female, Follow-Up Studies, Humans, Logistic Models, Male, Middle Aged, Multivariate Analysis, Postoperative Complications epidemiology, Recurrence, Retinal Detachment therapy, Retrospective Studies, Treatment Outcome, Young Adult, Laser Coagulation methods, Retinal Detachment surgery, Silicone Oils therapeutic use

Abstract

Background and Objective: Recurrent retinal detachment (RD) in silicone oil-filled eyes is a serious condition. At the initial stage, it usually spares the macular and is localized in the inferior retina. The inability to locate the retinal breaks has been reported to be associated with a poor prognosis and has limited the use of conventional vitreoretinal surgeries. Demarcation laser photocoagulation (DLP) is widely accepted for treating macular-sparing RDs. For laser treatments to be effective, an adequate extent and the correct placement of the laser is of great importance. The purpose of this research was to compare the efficacy of 360° and localized DLP in the management of macular-sparing RD in silicone oil-filled eyes with no detected retinal breaks., Materials and Methods: This is a retrospective, comparative, interventional study. The medical records of 48 consecutive eyes with macular-sparing RD in silicone oil-filled eyes with no detected retinal breaks were reviewed. Twenty-six patients (group I) received 360° DLP, and the remaining 22 patients (group II) underwent localized DLP. The anatomical and visual outcomes of the two groups were compared., Results: The mean follow-up period was 12.54 ± 1.17 months. No significant difference was identified in the baseline characteristics. The single-operation success rate of 92.31% was achieved in group I, which was significantly higher than that of group II (59.09%, P = 0.01), and this trend was not weakened after adjusting for confounding factors (odds ratio: 0.002, P = 0.02). After salvage management of vitreoretinal surgeries, both groups had equivalent visual outcomes with silicone oil removal. Multivariate logistic regression also indicated that the radial extent of RD (odds ratio: 11.10, P = 0.04) was an independent predictor for laser treatment failure. Significant complications sufficient to require further operations included proliferative vitreoretinopathy in two (4.17%) eyes and epiretinal membrane in four (8.33%) eyes., Conclusions: The 360° DLP achieved a better primary success rate and equivalent visual outcomes with localized DLP for macular-sparing RD in silicone oil-filled eyes with no detected retinal breaks., (© 2015 Wiley Periodicals, Inc.)

Published

2015

5. Handheld-automated microsurgical instrumentation for intraocular laser surgery.

Author

Yang S, Lobes LA Jr, Martel JN, and Riviere CN

Subjects

Humans, Laser Coagulation methods, Microsurgery methods, Models, Anatomic, Robotic Surgical Procedures methods, Laser Coagulation instrumentation, Microsurgery instrumentation, Retina surgery, Robotic Surgical Procedures instrumentation

Abstract

Background and Objective: Laser photocoagulation is a mainstay or adjuvant treatment for a variety of common retinal diseases. Automated laser photocoagulation during intraocular surgery has not yet been established. The authors introduce an automated laser photocoagulation system for intraocular surgery, based on a novel handheld instrument. The goals of the system are to enhance accuracy and efficiency and improve safety., Materials and Methods: Triple-ring patterns are introduced as a typical arrangement for the treatment of proliferative retinopathy and registered to a preoperative fundus image. In total, 32 target locations are specified along the circumferences of three rings having diameters of 1, 2, and 3 mm, with a burn spacing of 600 μm. Given the initial system calibration, the retinal surface is reconstructed using stereo vision, and the targets specified on the preoperative image are registered with the control system. During automated operation, the laser probe attached to the manipulator of the active handheld instrument is deflected as needed via visual servoing in order to correct the error between the aiming beam and a specified target, regardless of any erroneous handle motion by the surgeon. A constant distance of the laser probe from the retinal surface is maintained in order to yield consistent size of burns and ensure safety during operation. Real-time tracking of anatomical features enables compensation for any movement of the eye. A graphical overlay system within operating microscope provides the surgeon with guidance cues for automated operation. Two retinal surgeons performed automated and manual trials in an artificial model of the eye, with each trial repeated three times. For the automated trials, various targeting thresholds (50-200 μm) were used to automatically trigger laser firing. In manual operation, fixed repetition rates were used, with frequencies of 1.0-2.5 Hz. The power of the 532 nm laser was set at 3.0 W with a duration of 20 ms. After completion of each trial, the speed of operation and placement error of burns were measured. The performance of the automated laser photocoagulation was compared with manual operation, using interpolated data for equivalent firing rates from 1.0 to 1.75 Hz., Results: In automated trials, average error increased from 45 ± 27 to 60 ± 37 μm as the targeting threshold varied from 50 to 200 μm, while average firing rate significantly increased from 0.69 to 1.71 Hz. The average error in the manual trials increased from 102 ± 67 to 174 ± 98 μm as firing rate increased from 1.0 to 2.5 Hz. Compared to the manual trials, the average error in the automated trials was reduced by 53.0-56.4%, resulting in statistically significant differences (P ≤ 10(-20) ) for all equivalent frequencies (1.0-1.75 Hz). The depth of the laser tip in the automated trials was consistently maintained within 18 ± 2 μm root-mean-square (RMS) of its initial position, whereas it significantly varied in the manual trials, yielding an error of 296 ± 30 μm RMS. At high firing rates in manual trials, such as at 2.5 Hz, laser photocoagulation is marginally attained, yielding failed burns of 30% over the entire pattern, whereas no failed burns are found in automated trials. Relatively regular burn sizes are attained in the automated trials by the depth servoing of the laser tip, while burn sizes in the manual trials vary considerably. Automated avoidance of blood vessels was also successfully demonstrated, utilizing the retina-tracking feature to identify avoidance zones., Conclusion: Automated intraocular laser surgery can improve the accuracy of photocoagulation while ensuring safety during operation. This paper provides an initial demonstration of the technique under reasonably realistic laboratory conditions; development of a clinically applicable system requires further work., (© 2015 Wiley Periodicals, Inc.)

Published

2015

6. Photocoagulation in rabbits: optical coherence tomographic lesion classification, wound healing reaction, and retinal temperatures.

Author

Koinzer S, Hesse C, Caliebe A, Saeger M, Baade A, Schlott K, Brinkmann R, and Roider J

Subjects

Animals, Follow-Up Studies, Rabbits, Retina pathology, Body Temperature, Laser Coagulation methods, Models, Animal, Retina surgery, Tomography, Optical Coherence, Wound Healing

Abstract

Background and Objective: The rabbit is the most common animal model to study retinal photocoagulation lesions. We present a classification of retinal lesions from rabbits, that is based on optical coherence tomographic (OCT) findings, temperature data, and OCT-follow-up data over 3 months., Materials and Methods: Four hundred eighty-six photocoagulation lesions (modified Zeiss Visulas® 532 nm CW laser, lesion diameter 133 µm, exposure duration 200  milliseconds or variable, power variable) were analyzed from six eyes of three chinchilla gray rabbits. During the irradiation of each lesion, we used an optoacoustics-based method to measure the retinal temperature profile. Two hours, 1 week, 1 month, and 3 months after the treatment, we obtained fundus color and OCT (Spectralis®) images of each lesion. We classified the lesions according to their OCT morphology and correlated the findings to ophthalmoscopic and OCT lesion diameters, and temperatures., Results: Besides an undetectable lesion class 0, we discerned subthreshold lesions that were invisible on the fundus but detectable in OCT (classes 1 and 2), very mild lesions that were partly visible on the fundus (class 3), and 3 classes of suprathreshold lesions. OCT greatest linear diameters (GLDs) were larger than ophthalmoscopic lesion diameters, both increased for increasing classes, and GLDs decreased over 3 months within each class. Mean peak end temperatures for 200  milliseconds lesions ranged from 61°C in class 2 to 80°C in class 6., Conclusion: The seven step rabbit lesion classifier is distinct from a previously published human lesion classifier. Threshold lesions are generated at comparable temperatures in rabbits and humans, while more intense lesions are created at lower temperatures in rabbits. The OCT lesion classifier could replace routine histology in some studies, and the presented data may be used to estimate lesion end temperatures from OCT images., (© 2013 Wiley Periodicals, Inc.)

Published

2013

7. Optimal wavelengths for vein-selective photothermolysis.

Author

Rubin IK, Farinelli WA, Doukas A, and Anderson RR

Subjects

Blood Chemical Analysis, Hemoglobins chemistry, Humans, In Vitro Techniques, Laser Coagulation instrumentation, Methemoglobin chemistry, Oxygen blood, Oxyhemoglobins chemistry, Veins chemistry, Blood radiation effects, Blood Coagulation radiation effects, Laser Coagulation methods, Lasers, Dye, Lasers, Solid-State, Veins radiation effects

Abstract

Background and Objective: Oxyhemoglobin (HbO(2)) has been regarded as the primary target chromophore for selective photothermolysis of vascular malformations. In theory, venous lesions might be better treated with wavelengths preferentially absorbed by deoxyhemoglobin (Hb)., Study Design/materials and Methods: Wavelength-dependent fluence thresholds for photocoagulation of whole human blood were determined in glass capillary samples with measured oxygen saturation levels. Pulsed dye lasers at 585, 590, 595, 600, 633 nm, a 694 nm ruby laser, a 755 nm alexandrite laser, and a 1,064 nm Nd:Yag laser were used, all with 1.5-3 milliseconds pulse width and similar exposure spot size., Results: Selectivity (a lower fluence threshold) for venous blood was maximal at 694 nm, and significant at 595, 600, 633, and 755 nm. At 633 nm, a wavelength with strong relative absorption by metHb, selectivity for venous blood was much less than expected. The Nd:YAG laser at 1,064 nm showed significant selectivity for arterial blood., Conclusion: Preferential photocoagulation of venous blood is possible at wavelengths with a high Hb/HbO(2) absorption coefficient ratio. Laser-induced metHb may also affect wavelength-dependent selective photothermolysis. Venular malformations such as port wine stains could potentially be treated more selectively with ~630-780 nm sources. Nd:YAG laser pulses at 1,064 nm tend to affect arterial more than venous blood., (Copyright © 2012 Wiley Periodicals, Inc.)

Published

2012

8. Photocoagulation of dermal blood vessels with multiple laser pulses in an in vivo microvascular model.

Author

Jia W, Tran N, Sun V, Marinček M, Majaron B, Choi B, and Nelson JS

Subjects

Animals, Blood Coagulation radiation effects, Cricetinae, Male, Microvessels radiation effects, Skin blood supply, Skin radiation effects, Treatment Outcome, Laser Coagulation methods, Lasers, Solid-State therapeutic use, Port-Wine Stain surgery

Abstract

Background/objectives: Current laser therapy of port wine stain (PWS) birthmarks with a single laser pulse (SLP) does not produce complete lesion removal in the majority of patients. To improve PWS therapeutic efficacy, we evaluated the performance of an approach based on multiple laser pulses (MLP) to enhance blood vessel photocoagulation., Study Design: The hamster dorsal window chamber model was used. Radiant exposure (RE), pulse repetition rate (f(r)), total number of pulses (n(p)), and length of vessel irradiated were varied. Blood vessels in the window were irradiated with either SLP with RE of 4-7 J/cm(2) or MLP with RE per pulse of 1.4-5.0 J/cm(2), f(r) of 0.5-26.0 Hz, and n(p) of 2-5. The laser wavelength was 532 nm and pulse duration was 1 ms. Either a 2 mm vessel segment or entire vessel branch was irradiated. Digital photographs and laser speckle images of the window were recorded before and at specific time points after laser irradiation to monitor laser-induced blood vessel structural and functional changes, respectively., Results: We found that: (1) for a SLP approach, the RE required to induce blood vessel photocoagulation was 7 J/cm(2) as compared to only 2 J/cm(2) per pulse for the MLP approach; (2) for MLP, two pulses at a repetition rate of 5 Hz and a RE of 3 J/cm(2) can induce photocoagulation of more than 80% of irradiated blood vessel; and (3) irradiation of a longer segment of blood vessel resulted in lower reperfusion rate., Conclusions: The MLP approach can induce blood vessel photocoagulation at much lower RE per pulse as compared to SLP. The 5 Hz f(r) and the need for two pulses are achievable with modern laser technology, which makes the MLP approach practical in the clinical management of PWS birthmarks., (Copyright © 2012 Wiley Periodicals, Inc.)

Published

2012

9. High-frequency ultrasound imaging of noninvasive laser coagulation of the canine vas deferens.

Author

Cilip CM, Pierorazio PM, Ross AE, Allaf ME, and Fried NM

Subjects

Animals, Dogs, Male, Ultrasonography methods, Laser Coagulation methods, Vas Deferens diagnostic imaging, Vas Deferens surgery, Vasectomy methods

Abstract

Background and Objectives: A noninvasive approach to vasectomy may eliminate male fear of complications related to surgery (e.g., hematoma, infection, acute and chronic pain, sterilization failure) and increase its acceptance. Noninvasive laser thermal occlusion of the canine vas deferens has recently been reported. In this study, high-frequency ultrasound is used to confirm successful laser thermal coagulation and scarring of the vas in a short-term canine model., Materials and Methods: Bilateral noninvasive laser coagulation of the vas was performed in a total of nine dogs using a laser wavelength of 1,075 nm, incident power of 9.0 W, pulse duration of 500 milliseconds, pulse rate of 0.5 Hz, and 3-mm-diameter spot. Cryogen spray was used to cool the scrotal skin surface and prevent burns during the procedure. A clinical ultrasound system with a 13.2-MHz high-frequency transducer was used to image the vas before and after the procedure. Burst pressure measurements were performed on excised vas to confirm thermal occlusion., Results: Day 0 and 28 burst pressures averaged 291 ± 31 mmHg and 297 ± 26 mmHg, respectively, significantly greater than ejaculation pressures of 136 ± 29 mmHg. Ultrasound showed a hyperechoic vas segment after thermal coagulation (Day 0) and scarring (Day 28). Doppler ultrasound showed normal blood flow through the testicular artery, indicating no collateral thermal damage to proximal structures., Conclusions: High-frequency ultrasound may be used as a noninvasive diagnostic tool to assist in determining successful short-term laser thermal coagulation and scarring of the vas., (Copyright © 2011 Wiley-Liss, Inc.)

Published

2011

10. Interstitial laser photocoagulation for benign thyroid nodules: time to treat large nodules.

Author

Amabile G, Rotondi M, Pirali B, Dionisio R, Agozzino L, Lanza M, Buonanno L, Di Filippo B, Fonte R, and Chiovato L

Subjects

Female, Humans, Male, Middle Aged, Thyroid Nodule pathology, Laser Coagulation methods, Thyroid Nodule surgery

Abstract

Background and Objective: Interstitial laser photocoagulation (ILP) is a new therapeutic option for the ablation of non-functioning and hyper-functioning benign thyroid nodules. Amelioration of the ablation procedure currently allows treating large nodules. Aim of this study was to evaluate the therapeutic efficacy of ILP, performed according to a modified protocol of ablation, in patients with large functioning and non-functioning thyroid nodules and to identify the best parameters for predicting successful outcome in hyperthyroid patients., Materials and Methods: Fifty-one patients with non-functioning thyroid nodules (group 1) and 26 patients with hyperfunctioning thyroid nodules (group 2) were enrolled. All patients had a nodular volume ≥40 ml. Patients were addressed to 1-3 cycles of ILP. A cycle consisted of three ILP sessions, each lasting 5-10 minutes repeated at an interval of 1 month. After each cycle of ILP patients underwent thyroid evaluation., Results: A nodule volume reduction, expressed as percentage of the basal volume, significantly occurred in both groups (F = 190.4; P < 0.0001 for group 1 and F = 100.2; P < 0.0001 for group 2). Receiver-operator-characteristic (ROC) curves were constructed for: (i) percentage of volume reduction; (ii) difference in nodule volume; (iii) total amount of energy delivered expressed in Joule. ROC curves identified the percentage of volume reduction as the best parameter predicting a normalized serum TSH (area under the curve 0.962; P < 0.0001). Intraoperative complications consisted in: (i) mild pain occurring in five (6.5%) patients, (ii) vasovagal reaction in two (2.6%) patients, (iii) fever within 24 hours from ILP in five (6.5%) patients. No major complications including persistent pain, laringeal nerve dysfunction, hypoparathyroidism, pseudocystic transformation, and/or neck fascitis were observed., Conclusions: ILP represents a valid alternative to surgery also for large benign thyroid nodules, both in terms of nodule size reduction and cure of hyperthyroidism (87% of cured patients after the last ILP cycle). ILP should not be limited to patients refusing or being ineligible for surgery and/or radioiodine., (Copyright © 2011 Wiley-Liss, Inc.)

Published

2011

11. Numerical optimization of sequential cryogen spray cooling and laser irradiation for improved therapy of port wine stain.

Author

Milanič M, Jia W, Nelson JS, and Majaron B

Subjects

Computer Simulation, Finite Element Analysis, Humans, Laser Coagulation methods, Models, Biological, Monte Carlo Method, Skin Pigmentation, Cryotherapy, Laser Therapy methods, Port-Wine Stain surgery

Abstract

Background and Objective: Despite application of cryogen spray (CS) precooling, customary treatment of port wine stain (PWS) birthmarks with a single laser pulse does not result in complete lesion blanching for a majority of patients. One obvious reason is nonselective absorption by epidermal melanin, which limits the maximal safe radiant exposure. Another possible reason for treatment failure is screening of laser light within large PWS vessels, which prevents uniform heating of the entire vessel lumen. Our aim is to identify the parameters of sequential CS cooling and laser irradiation that will allow optimal photocoagulation of various PWS blood vessels with minimal risk of epidermal thermal damage., Study Design and Methods: Light and heat transport in laser treatment of PWS are simulated using a custom 3D Monte Carlo model and 2D finite element method, respectively. Protein denaturation in blood and skin are calculated using the Arrhenius kinetic model with tissue-specific coefficients. Simulated PWS vessels with diameters of 30-150 µm are located at depths of 200-600 µm, and shading by nearby vessels is accounted for according to PWS histology data from the literature. For moderately pigmented and dark skin phototypes, PWS blood vessel coagulation and epidermal thermal damage are assessed for various parameters of sequential CS cooling and 532-nm laser irradiation, i.e. the number of pulses in a sequence (1-5), repetition rate (7-30 Hz), and radiant exposure., Results: Simulations of PWS treatment in darker skin phototypes indicate specific cooling/irradiation sequences that provide significantly higher efficacy and safety as compared to the customary single-pulse approach across a wide range of PWS blood vessel diameters and depths. The optimal sequences involve three to five laser pulses at repetition rates of 10-15 Hz., Conclusions: Application of the identified cooling/irradiation sequences may offer improved therapeutic outcome for patients with resistant PWS, especially in darker skin phototypes., (Copyright © 2011 Wiley-Liss, Inc.)

Published

2011

12. Characterization of an optimized light source and comparison to pulsed dye laser for superficial and deep vessel clearance.

Author

Weiss RA, Ross EV, Tanghetti EA, Vasily DB, Childs JJ, Smirnov MZ, and Altshuler GB

Subjects

Animals, Computer Simulation, Face surgery, Humans, Monte Carlo Method, Purpura, Swine, Laser Coagulation instrumentation, Laser Coagulation methods, Lasers, Dye therapeutic use, Telangiectasis surgery

Abstract

Background and Objective: An arc lamp-based device providing optimized spectrum and pulse shape was characterized and compared with two pulsed dye laser (PDL) systems using a vascular phantom. Safety and effectiveness for facial telangiectasia are presented in clinical case studies., Study Design/materials and Methods: An optimized pulsed light source's (OPL) spectral and power output were characterized and compared with two 595 nm PDL devices. Purpuric threshold fluences were determined for the OPL and PDLs on Fitzpatrick type II normal skin. A vascular phantom comprising blood-filled quartz capillaries beneath porcine skin was treated by the devices at their respective purpuric threshold fluences for 3 ms pulse widths, while vessel temperatures were monitored with an infrared (IR) camera. Patients with Fitzpatrick skin types II-III received a split-face treatment with the OPL and a 595 nm PDL., Results: The OPL provided a dual-band output spectrum from 500 to 670 nm and 850-1,200 nm, pulse widths from 3 to 100 ms, and fluences to 80 J/cm(2). The smooth output power measured during all pulse widths provides unambiguous vessel size selectivity. Percent energy in the near infra-red increased with decreasing output power from 45% to 60% and contributed 15-26% to heating of deep vessels, respectively. At purpuric threshold fluences the ratio of OPL to PDL vessel temperature rise was 1.7-2.8. OPL treatments of facial telangiectasia were well-tolerated by patients demonstrating significant improvements comparable to PDL with no downtime., Conclusions: Intense pulsed light (IPL) and PDL output pulse and spectral profiles are important for selective treatment of vessels in vascular lesions. The OPL's margin between purpuric threshold fluence and treatment fluence for deeper, larger vessels was greater than the corresponding margin with PDLs. The results warrant further comparison studies with IPLs and other PDLs., (Copyright © 2011 Wiley-Liss, Inc.)

Published

2011

13. Semiautomated intraocular laser surgery using handheld instruments.

Author

Becker BC, MacLachlan RA, Lobes LA Jr, and Riviere CN

Subjects

Animals, Automation, Fiber Optic Technology instrumentation, In Vitro Techniques, Intraoperative Complications prevention & control, Laser Coagulation instrumentation, Minimally Invasive Surgical Procedures instrumentation, Minimally Invasive Surgical Procedures methods, Models, Animal, Probability, Retina pathology, Retinal Vessels pathology, Risk Assessment, Surgery, Computer-Assisted instrumentation, Swine, Time Factors, Tomography, Optical Coherence, Laser Coagulation methods, Micromanipulation instrumentation, Retina surgery, Retinal Vessels surgery, Robotics methods

Abstract

Background and Objective: In laser retinal photocoagulation, hundreds of dot-like burns are applied. We introduce a robot-assisted technique to enhance the accuracy and reduce the tedium of the procedure., Materials and Methods: Laser burn locations are overlaid on preoperative retinal images using common patterns such as grids. A stereo camera/monitor setup registers and displays the planned burn locations overlaid on real-time video. Using an active handheld micromanipulator, a 7 x 7 grid of burns spaced 650 microm apart is applied to both paper slides and porcine retina in vitro using 30 milliseconds laser pulses at 532 nm. Two scenarios were tested: unaided, in which the micromanipulator is inert and the laser fires at a fixed frequency, and aided, in which the micromanipulator actively targets burn locations and the laser fires automatically upon target acquisition. Error is defined as the distance from the center of the observed burn mark to the preoperatively selected target location., Results: An experienced retinal surgeon performed trials with and without robotic assistance, on both paper slides and porcine retina in vitro. In the paper slide experiments at an unaided laser repeat rate of 0.5 Hz, error was 125+/-62 microm with robotic assistance and 149+/-76 microm without (P < 0.005), and trial duration was 70+/-8 seconds with robotic assistance and 97+/-7 seconds without (P < 0.005). At a repeat rate of 1.0 Hz, error was 129+/-69 microm with robotic assistance and 166+/-91 microm without (P < 0.005), and trial duration was 26+/-4 seconds with robotic assistance and 47+/-1 seconds without (P < 0.005). At a repeat rate of 2.0 Hz on porcine retinal tissue, error was 123+/-69 microm with robotic assistance and 203+/-104 microm without (P < 0.005)., Conclusion: Robotic assistance can increase the accuracy of laser photocoagulation while reducing the duration of the operation.

Published

2010

14. Laser-mediated fixation of collagen-based scaffolds to dermal wounds.

Author

Steinstraesser L, Wehner M, Trust G, Sorkin M, Bao D, Hirsch T, Sudhoff H, Daigeler A, Stricker I, Steinau HU, and Jacobsen F

Subjects

Animals, Collagen therapeutic use, Dermatologic Surgical Procedures, Disease Models, Animal, Female, Immunohistochemistry, Probability, Random Allocation, Risk Assessment, Skin parasitology, Surgical Staplers, Swine, Swine, Miniature, Tensile Strength, Tissue Adhesives therapeutic use, Wounds and Injuries pathology, Laser Coagulation methods, Skin injuries, Wound Healing physiology, Wounds and Injuries surgery

Abstract

Background and Objective: Collagen scaffolds are popular for the reconstitution of dermal equivalents. Usually, these scaffolds are fixed with sutures or staples and in many cases these devices have to be removed in a second procedure. Laser-mediated tissue welding in a wet environment is a potential alternative for collagen scaffold fixation and may be advantageous to suture, staple, and tissue glue fixation., Materials and Methods: Welding was performed with a continuous-wave diode laser system emitting radiation at a wavelength of 968 nm. Tensile strength after fixation to porcine skin and laser parameters were determined in vitro. In vivo, 24 excisional deep partial thickness wounds were created on flanks of two Goettingen mini pigs and covered with collagen scaffolds. These were randomized and fixated with either (1) staples, (2) fibrin glue, or (3) laser-mediated welding. Tissue biopsies for histological analysis were periodically performed and analyzed for wound healing progression, epidermal thickness, and extracellular matrix formation., Results: Biomechanical stability after laser welding was time dependent. A dwell time of up to 10 seconds led to a strong bonding with a tensile strength of more than 30 g. In vivo, the wound healing process was macroscopically comparable in all groups and showed no significant differences. Microscopic analysis determined a more progressed and quicker wound closure in both the laser and staples group compared to the fibrin glue fixated scaffold. Laser-mediated fixation led to a significantly reduced epidermal thickness when compared with stapling or fibrin glue (P < 0.05)., Conclusions: Laser tissue welding is a feasible approach for temporary fixation of collagen scaffolds to the wound bed. It improves wound healing properties and may lead to faster wound healing and cosmetically better scarring. Laser tissue welding is thus a very interesting and promising alternative to currently established fixation methods in a single step, no touch procedure.

Published

2010

15. In vitro large diameter bowel anastomosis using a temperature controlled laser tissue soldering system and albumin stent.

Author

Spector D, Rabi Y, Vasserman I, Hardy A, Klausner J, Rabau M, and Katzir A

Subjects

Albumins therapeutic use, Animals, Disease Models, Animal, Probability, Random Allocation, Stents, Suture Techniques, Swine, Temperature, Tensile Strength, Anastomosis, Surgical methods, Intestine, Small surgery, Laser Coagulation methods

Abstract

Background and Objective: In today's age of advancing surgical technology, there is a need for better and simpler methods of tissue bonding. The use of lasers for tissue welding or soldering is one of these sutureless methods. In 30 years of laser tissue bonding (LTB) research, published reports of cylindrical organ anastomosis were limited to small diameters. The tension resisted by the anastomosis, which is caused by the intraluminal pressure, is also proportional to the organ diameter. Therefore the anastomosis of large diameter organs requires significantly stronger mechanical strength. The aim of this study is to demonstrate such an anastomosis., Materials and Methods: In vitro anastomosis of porcine small bowel was performed by either LTB or sutures. Anastomosis in the laser group (number of samples, n = 15) included two main stages of soldering. The bowel edges were approximated over a solid albumin stent and heated with a temperature controlled GaAs laser system to 75 degrees C. This was followed by spreading liquid albumin on the anastomotic line and heating by the same system again to 75 degrees C. The control group (n = 5) was sutured anastomosis. All anastomoses were assessed by burst pressure measurement., Results: The burst pressure of the laser group attained 170+/-40 mmHg which was significantly higher than that of the sutured group 83+/-37 mmHg (P < 0.001)., Conclusion: This report describes the in vitro LTB anastomosis of a large diameter cylindrical organ. The immediate bond strength, as estimated by burst pressure measurements, was double compared to sutured anastomosis.

Published

2009

16. Noninvasive laser vasectomy: preliminary ex vivo tissue studies.

Author

Cilip CM, Jarow JP, and Fried NM

Subjects

Animals, Dogs, Male, Scrotum physiopathology, Scrotum radiation effects, Skin radiation effects, Vas Deferens pathology, Vas Deferens radiation effects, Hypothermia, Induced methods, Laser Coagulation methods, Low-Level Light Therapy methods, Vasectomy methods

Abstract

Background and Objectives: Male sterilization (vasectomy) is more successful, safer, less expensive, and easier to perform than female sterilization (tubal ligation). However, female sterilization is more popular, primarily due to male fear of vasectomy complications (incision, bleeding, infection, and scrotal pain). The development of a completely noninvasive vasectomy technique may eliminate these concerns., Materials and Methods: Ytterbium fiber laser radiation with a wavelength of 1,075 nm, average power of 11.7 W, 1-second pulse duration, 0.5 Hz pulse rate, and 3-mm-diameter spot was synchronized with cryogen cooling of the scrotal skin surface in canine tissue for a treatment time of 60 seconds., Results: Vas thermal lesion dimensions measured 2.0+/-0.3 mm diameter by 3.0+/-0.9 mm length, without evidence of skin damage. The coagulated vas bursting pressure measured 295+/-72 mm Hg, significantly higher than typical vas ejaculation pressures of 136+/- 29 mm Hg., Conclusions: Noninvasive thermal coagulation and occlusion of the vas was produced in an ex vivo canine tissue model. However, chronic in vivo animal studies will be necessary to optimize the laser/cooling treatment parameters and confirm long-term vas occlusion with absence of sperm in the ejaculate, before clinical application., (Copyright 2009 Wiley-Liss, Inc.)

Published

2009

17. Comparison of threshold irradiances and online dosimetry for selective retina treatment (SRT) in patients treated with 200 nanoseconds and 1.7 microseconds laser pulses.

Author

Framme C, Walter A, Prahs P, Theisen-Kunde D, and Brinkmann R

Subjects

Adult, Aged, Aged, 80 and over, Cohort Studies, Feasibility Studies, Female, Humans, Male, Middle Aged, Ophthalmoscopy, Radiography, Radiometry, Retinal Diseases diagnostic imaging, Retinal Diseases pathology, Retinal Pigment Epithelium diagnostic imaging, Retinal Pigment Epithelium pathology, Retinal Pigment Epithelium radiation effects, Laser Coagulation methods, Lasers, Semiconductor therapeutic use, Retinal Diseases surgery

Abstract

Background: Selective retina therapy (SRT) solely affecting the RPE while sparing of the photoreceptors is usually performed with a train of repetitive laser pulses of 1.7 microseconds in duration. It was our purpose to evaluate the principle feasibility of SRT with shorter 200 nanoseconds laser pulses in patients., Methods: Nineteen patients with macular disorders [diabetic maculopathy (DMP), geographic atrophy (GA), drusen maculopathy and central serous chorioretinopathy (CSR)] were treated with a prototype of a SRT laser (Nd:YLF laser; 527 nm; 1.7 microseconds and 200 nanoseconds pulse duration; 30 pulses at 100 Hz; spot size: 200 microm). Test lesions (n = 175) with increasing energy were applied at the lower arcade to determine the individual angiographic and ophthalmoscopic threshold radiant exposures (therapeutic window) before applying the central treatment lesions within these ranges additionally guided by online optoacoustic measurements. Postoperatively RPE damage was visualized and confirmed by fluorescein angiographic leakage and correlated with optoacoustic results. Additionally ED(50) damage thresholds were calculated by probit analysis., Results: None of the short repetitive 200 nanoseconds laser pulses led to retinal hemorrhages or retinal ruptures. Nearly all of the test- and treatment lesions could be visualized by angiography indicating desired RPE damage but were ophthalmoscopically invisible suggesting intact neurosensory retinal structures. ED(50) cell damage threshold energies were significantly lower using 200 nanoseconds (99.6 microJ; n = 122) instead of 1.7 microseconds (196.3 microJ; n = 53) laser pulses. Optoacoustic and angiographic visibility correlated in 83.7% (200 nanoseconds) and 87.5% (1.7 microseconds)., Conclusions: Selective RPE effects can safely be achieved using shorter 200 nanoseconds laser pulses in patients without adverse effects to the neurosensory retina. The required pulse energy compared to the standard 1.7 microseconds regime was reduced by about a factor of 2 suggesting a reduced heat generation and flow into adjacent tissues during the shorter laser impact and thus possibly enhancing selectivity. Optoacoustics also seem to be a viable alternative in 200 nanoseconds treatment for a non-invasive online dosimetry control system., ((c) 2008 Wiley-Liss, Inc.)

Published

2008

18. Temperature dependent change in equilibrium elastic modulus after thermally induced stress relaxation in porcine septal cartilage.

Author

Protsenko DE, Zemek A, and Wong BJ

Subjects

Animals, Compressive Strength radiation effects, Elasticity radiation effects, Homeostasis radiation effects, Models, Biological, Reproducibility of Results, Swine, Hot Temperature, Laser Coagulation methods, Nasal Septum physiopathology, Nasal Septum radiation effects

Abstract

Background and Objectives: Laser cartilage reshaping (LCR) is a promising method for the in situ treatment of structural deformities in the nasal septum, external ear and trachea. Laser heating leads to changes in cartilage mechanical properties and produces relaxation of internal stress allowing formation of a new stable shape. While some animal and preliminary human studies have demonstrated clinical feasibility of LCR, application of the method outside specialized centers requires a better understanding of the evolution of cartilage mechanical properties with temperature. The purpose of this study was to (1) develop a method for reliable evaluation of mechanical changes in the porcine septal cartilage undergoing stress relaxation during laser heating and (2) model the mechanical changes in cartilage at steady state following laser heating., Study Design/materials and Methods: Rectangular cartilage specimens harvested from porcine septum were heated uniformly by a radio-frequency (RF) electric field (500 kHz) for 8 and 12 seconds to maximum temperatures from 50 to 90 degrees C. Cylindrical samples were fashioned from the heated specimens and their equilibrium elastic modulus was measured in a step unconfined compression experiment. Functional dependencies of the elastic modulus and maximum temperature were interpolated from the measurements. Profiles of the elastic modulus produced after 8 and 12 seconds of laser irradiation (Nd:YAG, lambda = 1.34 microm, spot diameter 4.8 mm, laser power 8 W) were calculated from interpolation functions and surface temperature histories measured with a thermal camera. The calculated elastic modulus profiles were incorporated into a numerical model of uniaxial unconfined compression of laser irradiated cylindrical samples. The reaction force to a 0.1 compressive strain was calculated and compared with the reaction force obtained in analogous mechanical measurements experiment., Results: RF heating of rectangular cartilage sample produces a spatially uniform temperature field (temperature variations < or = 4 degrees C) in a central region of the sample which is also large enough for reliable mechanical testing. Output power adjustment of the RF generator allows production of temperature histories that are very similar to those produced by laser heating at temperatures above 60 degrees C. This allows creation of RF cartilage samples with mechanical properties similar to laser irradiated cartilage, however with a spatially uniform temperature field. Cartilage equilibrium elastic modulus as a function of peak temperature were obtained from the mechanical testing of RF heated samples. In the temperature interval from 60 to 80 degrees C, the equilibrium modulus decreased from 0.08+/- 0.01 MPa to 0.016+/-0.007 MPa, respectively. The results of the numerical simulation of uniaxial compression of laser heated samples demonstrate good correlation with experimentally obtained reaction force., Conclusions: The thermal history and corresponding thermally induced modification of mechanical properties of laser irradiated septal cartilage can be mimicked by heating tissue samples with RF electric current with the added advantage of a uniform temperature profile. The spatial distribution of the mechanical properties obtained in septal cartilage after laser irradiation could be computed from mechanical testing of RF heated samples and used for numerical simulation of LCR procedure. Generalization of this methodology to incorporate orthogonal mechanical properties may aid in optimizing clinical laser cartilage reshaping procedures., ((c) 2008 Wiley-Liss, Inc.)

Published

2008

19. Selective transcutaneous delivery of energy to porcine soft tissues using Intense Ultrasound (IUS).

Author

White WM, Makin IR, Slayton MH, Barthe PG, and Gliklich R

Subjects

Animals, Feasibility Studies, Muscle, Skeletal pathology, Skin pathology, Swine, Therapy, Computer-Assisted, Tissue Culture Techniques, Ultrasonography, Laser Coagulation methods, Muscle, Skeletal diagnostic imaging, Muscle, Skeletal radiation effects, Skin diagnostic imaging, Skin radiation effects, Ultrasonic Therapy methods

Abstract

Objective: Various energy delivery systems have been utilized to treat superficial rhytids in the aging face. The Intense Ultrasound System (IUS) is a novel modality capable of transcutaneously delivering controlled thermal energy at various depths while sparing the overlying tissues. The purpose of this feasibility study was to evaluate the response of porcine tissues to various IUS energy source conditions. Further evaluation was performed of the built-in imaging capabilities of the device., Materials and Methods: Simulations were performed on ex vivo porcine tissues to estimate the thermal dose distribution in tissues after IUS exposures to determine the unique source settings that would produce thermal injury zones (TIZs) at given depths. Exposures were performed at escalating power settings and different exposure times (in the range of 1-7.6 J) using three IUS handpieces with unique frequencies and focal depths. Ultrasound imaging was performed before and after IUS exposures to detect changes in tissue consistency. Porcine tissues were examined using nitro-blue tetrazolium chloride (NBTC) staining sensitive for thermal lesions, both grossly and histologically. The dimensions and depth of the TIZs were measured from digital photographs and compared., Results: IUS can reliably achieve discrete, TIZ at various depths within tissue without surface disruption. Changes in the TIZ dimensions and shape were observed as source settings were varied. As the source energy was increased, the thermal lesions became larger by growing proximally towards the tissue surface. Maximum lesion depth closely approximated the pre-set focal depth of a given handpiece. Ultrasound imaging detected well-demarcated TIZ at depths within the porcine muscle tissue., Conclusion: This study demonstrates the response of porcine tissue to various energy dose levels of Intense Ultrasound. Further study, especially on human facial tissue, is necessary in order to understand the utility of this modality in treating the aging face and potentially, other cosmetic applications.

Published

2008

20. Investigation of selective retina treatment (SRT) by means of 8 ns laser pulses in a rabbit model.

Author

Framme C, Schuele G, Kobuch K, Flucke B, Birngruber R, and Brinkmann R

Subjects

Animals, Laser Coagulation adverse effects, Pigment Epithelium of Eye injuries, Rabbits, Time Factors, Laser Coagulation methods, Pigment Epithelium of Eye radiation effects

Abstract

Background: It has been shown that selective retina treatment (SRT) using a train of 1.7 microseconds laser pulses allows selective damage of the retinal pigment epithelium (RPE) while sparing the adjacent photoreceptors and thus avoiding laser scotoma. It was the purpose of this work to investigate SRT laser effects with Q-switched pulses of only 8 nanoseconds in duration by evaluating the angiographic and ophthalmoscopic damage thresholds and the damage range by histology in a rabbit model., Materials and Methods: A flash lamp pumped frequency doubled (532 nm) Nd:YAG laser with 8 nanoseconds pulse duration was used. In total 210 laser lesions, each calculated to be 102 microm in diameter on retina, were applied through a slit lamp onto the fundus of six eyes of Chinchilla Bastard rabbits. The rabbits were irradiated with increasing energies with single pulses and a train of 10 laser pulses at 10 Hz. After treatment fundus photography and angiography were performed to determine the damage thresholds (ED(50)-probability of RPE cell damage and neurosensory retinal damage) as well as the safety range between both thresholds (ratio of angiographic ED(86) vs. ophthalmoscopic ED(14)). Selected histology was taken for single and repetitive pulse lesions after treatment., Results: Angiographic and ophthalmoscopic ED(50)-thresholds decreased with increasing number of pulses. For single pulse application ophthalmoscopic and angiographic ED(50) were determined to 365 and 144 mJ/cm(2), respectively. Regarding 10 pulses 266 and 72 mJ/cm(2) were found. No retinal hemorrhages or disruptions were observed for both sets of parameters. The therapeutic window between angiographic and ophthalmoscopic threshold revealed a factor of 3.1 for single pulses and 2.3 for repetitive pulse irradiation. The safety range respectively had a factor of 0.8 (single pulses) and 1.7 (10 pulses). Histologic examination of laser lesions with single and repetitive pulses at radiant exposures within the therapeutic window-292 and 213 mJ/cm(2) respectively-revealed damaged RPE, intact Bruch's membrane and choriocapillaries. Photoreceptors were partly spared but also damaged to various extents., Conclusions: Short laser pulses of 8 nanoseconds pulse duration can damage the RPE without retinal hemorrhage or disruption. Selective damage of the RPE without affecting the photoreceptors can only rarely be achieved due to the small safety range. Thus, so far microsecond laser pulses for SRT seems favorable compared to nanosecond pulses in order to prevent unintentional photoreceptor damage.

Published

2008

21. Heat shock protein expression and injury optimization for laser therapy design.

Author

Rylander MN, Feng Y, Bass J, and Diller KR

Subjects

Animals, Computer Simulation, Male, Algorithms, Biomarkers, Tumor metabolism, Heat-Shock Proteins metabolism, Laser Coagulation methods, Prostatic Neoplasms metabolism, Prostatic Neoplasms therapy

Abstract

Background and Objectives: Hyperthermia can induce heat shock protein (HSP) expression in tumor regions where non-lethal temperature elevation occurs, enhancing cell viability and resistance to chemotherapy and radiation treatments typically employed in conjunction with thermal therapy. However, HSP expression control has not been incorporated into current thermal therapy design. Treatment planning models based on achieving the desired post-therapy HSP expression and injury distribution in the tumor and healthy surrounding tissue can enable design of more effective thermal therapies that maximize tumor destruction and minimize healthy tissue injury., Study Design/materials and Methods: An optimization algorithm for prostate cancer laser therapy design was integrated into a previously developed treatment planning model, permitting prediction and optimization of the spatial and temporal temperature, HSP expression, and injury distributions in the prostate. This optimization method is based on dosimetry guidelines developed from measured HSP expression kinetics and injury data for normal and cancerous prostate cells and tumors exposed to hyperthermia., Results: The optimization model determines laser parameters (wavelength, power, pulse duration, fiber position, and number of fibers) necessary to satisfy prescribed HSP expression and injury distributions in tumor and healthy tissue. Optimization based on achieving desired injury and HSP expression distributions within the tumor and normal tissue permits more effective tumor destruction and diminished injury to healthy tissue compared to temperature driven optimization strategies., Conclusions: Utilization of the treatment planning optimization model can permit more effective tumor destruction by mitigating tumor recurrence and resistance to chemotherapy and radiation arising from HSP expression and insufficient injury., (2007 Wiley-Liss, Inc)

Published

2007

22. Photothermolysis of blood vessels using indocyanine green and pulsed diode laser irradiation in the dorsal skinfold chamber model.

Author

Babilas P, Shafirstein G, Baier J, Schacht V, Szeimies RM, Landthaler M, Bäumler W, and Abels C

Subjects

Animals, Cricetinae, Finite Element Analysis, Male, Microcirculation, Microscopy, Fluorescence, Skin blood supply, Coloring Agents pharmacology, Dermatologic Surgical Procedures, Indocyanine Green pharmacology, Laser Coagulation methods

Abstract

Background and Objective: For the treatment of vascular lesions, the use of laser light absorbed by the endogenous chromophore hemoglobin may still be improved., Materials and Methods: Laser treatment (lambda(em) = 805 nm; fluence rate: 106 kW/cm2; fluence: 3.2 J/cm2 (3 milliseconds)), of blood vessels directly after i.v. application of indocyanine green (ICG) (ICG-concentration: 0, 2, or 4 mg/kg body weight (b.w.)) (n = 14,117) was investigated in the skinfold chamber model. Vessel diameters (1-351 microm) were measured using intravital fluorescence microscopy up to 24 hours following irradiation. Histology was taken 1 or 24 hours after irradiation. Results were compared to a mathematical model based on the finite element method., Results: The reduction of blood vessel perfusion was proportional to ICG-concentration and pulse duration; only a 30 milliseconds pulse duration (2 or 4 mg/kg b.w. ICG-concentration) induced a loss of perfusion even of blood vessels with a diameter <30 microm. Histology revealed photocoagulation of blood vessels up to 24 hours. Results were in agreement with mathematical calculations., Conclusion: ICG-mediated laser irradiation induces irreversible photocoagulation of blood vessels of all diameters in this model., ((c) 2007 Wiley-Liss, Inc.)

Published

2007

23. Mechanistic comparison of blood undergoing laser photocoagulation at 532 and 1,064 nm.

Author

Black JF, Wade N, and Barton JK

Subjects

Blood Chemical Analysis, Blood Coagulation physiology, Humans, Microscopy, Electron, Scanning, Scattering, Radiation, Sensitivity and Specificity, Spectrum Analysis, Tomography, Optical Coherence, Blood radiation effects, Laser Coagulation methods, Thermodynamics

Abstract

Background and Objectives: We seek to compare and contrast the mechanisms of blood photocoagulation under 532 and 1,064 nm laser irradiation in vitro in order to better understand the in vivo observations. We also seek to validate a finite element model (FEM) developed to study the thermodynamics of coagulation., Study Design/materials and Methods: We study the photocoagulation of whole blood in vitro at 532 and 1,064 nm using time-domain spectroscopic and optical coherence tomography (OCT)-based imaging techniques. We model the coagulation using an FEM program that includes the latent heat of vaporization (LHV) of water, consideration of the pulse shape of the laser, and the bathochromic shift in the hemoglobin absorption spectrum., Results: We find significant similarities in the spectroscopic, chemical, and structural changes occurring in hemoglobin and in the blood matrix during photocoagulation despite the very large difference in the absorption coefficients. The more uniform temperature profile developed by the deeper-penetrating 1,064 nm laser allows us to resolve the structural phase transition in the red blood cells (going from biconcave disc to spherocyte) and the chemical transition creating met-hemoglobin. We find that the RBC morphology transition happens first, and that the met-Hb transition happens at a much higher temperature ( > 90 degrees C) than is found in slow bath heating. The FEM analysis with the LHV constraint and bathochromic shift predicts accurately the imaging results in both cases, and can be used to show that at 1,064 nm there is the potential for a runaway increase in absorption during the laser pulse., Conclusions: Photothermally mediated processes dominate the in vitro coagulation dynamics in both regimes despite the difference in absorption coefficients. There is a significant risk under 1,064 nm irradiation of vascular lesions in vivo that the dynamic optical properties of blood will cause runaway absorption and heating. This may in turn explain some recent results at this wavelength where full-thickness burns resulted from laser treatment., ((c) 2005 Wiley-Liss, Inc.)

Published

2005

24. A new mathematical approach to the diffusion approximation theory for selective photothermolysis modeling and its implication in laser treatment of port-wine stains.

Author

Shafirstein G, Bäumler W, Lapidoth M, Ferguson S, North PE, and Waner M

Subjects

Humans, Laser Coagulation methods, Models, Theoretical, Monte Carlo Method, Body Temperature radiation effects, Low-Level Light Therapy methods, Port-Wine Stain therapy

Abstract

Background and Objectives: Monte Carlo (MC) simulations of light-tissue interactions and analytical solutions for the diffusion approximation theory have been used to determine the optimal laser wavelength and radiant exposure to treat port-wine stains (PWS). Both approaches suggest that optimal parameters are a wavelength of 585 or 595-nm with pulse times of 0.45-20 milliseconds. However, which parameters are optimal is still unclear. As differences in vessel size and in temperature distribution within vessels appeared to be the main reasons for the varied responses to the same laser treatments, we sought to develop a solution to the diffusion approximation in order to calculate temperature distribution and the resulting coagulation pattern within specific blood vessels., Study Design/materials and Methods: The light and heat diffusion equations were simultaneously solved with the finite element method (FEM). The latent heat of evaporation was included in the thermal analysis. The temperature and coagulation patterns across specific blood vessels, within a heterogeneous medium, were calculated for laser wavelengths of 585 and 595-nm with clinical parameters., Results: At 1.2 mm deep, the calculations predicted that vessels ranging from 50 to 100 microm in diameter would be coagulated from top to bottom, small vessels (10 microm) would be spared, and vessels larger than 150 microm would be partially coagulated. Coagulation across vessels was more uniform for the 595-nm than for the 585-nm wavelength. Maximal temperatures did not exceed 100 degrees C because of the inclusion of latent heat in the thermal calculations., Conclusions: To study laser treatments of PWS with the diffusion approximation, FEM is an effective method to calculate the coagulation patterns within specific blood vessels. To improve coagulation efficacy at 585 and 595-nm wavelengths, the radiant exposure should be increased without increasing the irradiance., (Copyright 2004 Wiley-Liss, Inc.)

Published

2004

25. Preliminary biocompatibility experiment of polymer films for laser-assisted tissue welding.

Author

Sorg BS and Welch AJ

Subjects

Animals, Biocompatible Materials, Disease Models, Animal, Female, Male, Polylactic Acid-Polyglycolic Acid Copolymer, Probability, Rats, Rats, Sprague-Dawley, Reference Values, Sensitivity and Specificity, Skin drug effects, Skin pathology, Tensile Strength, Wound Healing physiology, Wounds and Injuries, Lactic Acid pharmacology, Laser Coagulation methods, Polyglycolic Acid pharmacology, Polymers pharmacology, Skin radiation effects

Abstract

Background and Objectives: The purpose of this study was to examine the impact of a polymer film for liquid solder strength reinforcement on the short term healing of a wound closed by laser-tissue soldering., Materials and Methods: Full thickness incisions created on the dorsum of Sprague-Dawley rats were closed by laser-tissue soldering: albumin solder with Indocyanine Green (ICG) dye was inserted between the incision edges and photothermally coagulated with a diode laser. A poly(DL-lactic-co-glycolic acid) (PLGA) polymer film was implanted subcutaneously in the bottom of the incision (controls had no film). Specimens were harvested at 0, 3, 7, and 14 days for breaking strength testing and histological analysis., Results: Breaking strengths of the controls at 0 and 14 days were statistically stronger than the specimens with the implanted films (t-test, P < 0.05). A slight difficulty in apposing the wound edges due to the film presence may have contributed to the low acute strengths. Interference with the wound contraction process by the films possibly contributed to the lower breaking strength at 14 days. Wound histology indicated a mild foreign body reaction to the polymer film material., Conclusions: The polymer film was well tolerated by the tissue, and the tissue response to the material was consistent with that seen in the literature. The breaking strength differences between control and film-implanted specimens at 0 and 14 days were probably the result of mechanical complications (tissue apposition and wound contraction) due to the presence of the film, and not due to the film material itself. The use of polymer film patches for liquid solder reinforcement and breaking strength enhancement may have certain application specific issues that need to be addressed. Strategies to account for these issues require further research., (Copyright 2003 Wiley-Liss, Inc.)

Published

2003

26. Using a "non uniform pulse sequence" can improve selective coagulation with a Nd:YAG laser (1.06 microm) thanks to Met-hemoglobin absorption: a clinical study on blue leg veins.

Author

Mordon S, Brisot D, and Fournier N

Subjects

Adult, Edema etiology, Erythema etiology, Female, Humans, Hyperpigmentation etiology, Laser Coagulation adverse effects, Middle Aged, Patient Satisfaction, Treatment Outcome, Laser Coagulation methods, Leg blood supply, Methemoglobin metabolism, Telangiectasis surgery

Abstract

Background and Objectives: Evaluation of the efficacy, on 1-2 mm blue leg telangiectasia, of a 1,064 nm Nd:YAG laser emitting in a non uniform pulse sequence calculated to consider Met-Hb formation during laser irradiation of a blood vessel., Materials and Methods: A 1,064 nm Nd:YAG laser (Quantel Medical, Athos, France) was used in a non uniform pulse sequence mode, fluences: 300-360 J/cm(2) spot: 2 mm, + 5 degrees C contact cooling. The clinical evaluation was performed on 11 female patients, average age: 43 (25-57) years, phototype I-VI. All subjects were previously examined with Doppler ultrasound. A treatment site (6 x 4 cm) was selected on each patient. The topography of the vessels network was reported on a tracing plastic frame before each session and 6 weeks after the last one. These frames were digitized and the number of vessels was determined using the Digitized Tracing Frames Technique. Side effects were noted before and after every treatment, and 6 weeks after the last one. This study lasted for 10 months., Results and Discussions: Patients tolerated the procedure without anesthesia. Moderate pain, transient erythema and edema, one hyperpigmentation and one matting were noted. There was no hypopigmentation. 55% (P < 0.002) vessels clearance after one session, 86% after two sessions (P < 0.001), and 98% (P < 0.001) after three sessions were obtained. On two patients, the treatment was completed after two sessions with a full clearance. Data reported in this study were obtained thanks to a computerized calculation of vessels clearance. They are similar or superior to those reported in the literature about 1,064 nm Nd:YAG lasers and leg telangiectasia., Conclusions: Since, it was developed to consider the modification of blood absorption and the methemoglobin formation which leads to an increase of the 1.06 microm wavelength absorption, the non uniform pulse mode emphasizes the efficacy of this 1,064 nm Nd:YAG laser concerning the treatment of blue leg veins telangiectasia between 1 and 2 mm. This mode gives the possibility to deliver high energy while preserving the surrounding tissue and leads to a rapid vessel clearance with reduced pain and few side effects when compared to previously published clinical studies using a 1.06 microm laser., (Copyright 2003 Wiley-Liss, Inc.)

Published

2003

27. Endovenous laser photocoagulation (EVLP) for varicose veins.

Author

Chang CJ and Chua JJ

Subjects

Adult, Aged, Aged, 80 and over, Female, Follow-Up Studies, Humans, Leg blood supply, Leg pathology, Leg radiation effects, Male, Middle Aged, Outcome Assessment, Health Care, Time Factors, Varicose Veins pathology, Laser Coagulation adverse effects, Laser Coagulation methods, Light Coagulation adverse effects, Light Coagulation methods, Postoperative Complications, Varicose Veins surgery

Abstract

Background and Objectives: Untreated varicose veins have significant morbidity and potential mortality. Treatment aims to relieve symptoms, improve appearance, and to prevent deterioration. Current therapeutic options include graduated compression stockings, sclerotherapy, ambulatory phlebectomy, surgical ligation, and stripping. Results of laser photocoagulation of vascular anomalies have been encouraging. Applying these concepts of laser-tissue interactions, we developed a new method of treatment for varicose veins of the lower extremities., Study Design/materials and Methods: One hundred and forty-nine patients with 252 varicose greater saphenous veins underwent endovenous laser photocoagulation (EVLP) from January 1996 to January 2000. Subject's age ranged between 23 years 9 months and 80 years 7 months with a mean age of 50 years 8 months. There were 122 females and 27 males. Only patients with primary varicose veins and saphenofemoral reflux documented by Duplex ultrasound were treated. All patients received surgical ligation of the saphenofemoral junction (SFJ). EVLP was performed using the neodymium:yttrium-aluminium-garnet (Nd:YAG) (1,064 nm) laser, delivered with a 600 microm optical fiber. Laser power was set at 10 or 15 W, delivered with a pulse duration of 10 seconds. The outcome was compared before and after EVLP, based on the score of severity of the varicose veins by Hach's classification., Results: The range of total delivered energy is from 9,200 to 20,100 J. The entire procedure was completed in 95-175 minutes (mean 122.33 minutes) for bilateral procedures, and 65-100 minutes (mean 81.07 minutes) for unilateral procedures. The follow-up period ranged from 12 to 28 months with a mean of 19 months. One hundred and forty-one patients with 244 legs involved (96.8%) demonstrated remarkable improvement (P < 0.05). Common early complications of EVLP are: local paraesthesia of the treated area in 92 legs (36.5%), ecchymosis and dyschromia in 58 legs (23.0%), superficial burn injury in 12 legs (4.8%), superficial phlebitis in four legs (1.6%), and localized hematoma in two legs (0.8%) at 3 weeks post-operatively. The final outcome showed no significant morbidity or mortality. All patients recovered completely., Conclusions: EVLP is a simple effective treatment modality for varicose veins. This less invasive method can minimize the complications of conventional surgery., (Copyright 2002 Wiley-Liss, Inc.)

Published

2002

28. Effects of laser-induced thermotherapy (LITT) on proliferation and apoptosis of glioma cells in rat brain transplantation tumors.

Author

Schulze PC, Adams V, Busert C, Bettag M, Kahn T, and Schober R

Subjects

Animals, Apoptosis, Cell Division, In Situ Nick-End Labeling, Magnetic Resonance Imaging, Necrosis, Neoplasm Transplantation, Rats, Rats, Inbred Lew, Survival Analysis, Treatment Outcome, Brain Neoplasms pathology, Brain Neoplasms therapy, Glioma pathology, Glioma therapy, Laser Coagulation methods

Abstract

Background and Objectives: Laser-induced thermotherapy (LITT) is an approach to the treatment of brain tumors especially in poorly accessible regions. Its clinical applicability with tumor cell destruction has been shown in several studies. However, no data are known about specific effects on tumors cells due to LITT in the time course of the lesion., Study Design/materials and Methods: LITT was performed in adult Lewis rats with implanted glioma cells in the brain using a standard exposure of 3 W for 30 seconds. Before and following LITT, neoplastic lesions were monitored by MRI. Proliferation of implanted cells and gliosis were assessed by several histological techniques and immunohistochemistry. Apoptosis was detected by TUNEL staining., Results: Our experiments show a destruction of neoplastic cells by LITT but surviving tumor cells at the margin of the lesion. Apoptosis was detected following LITT restricted to residual neoplastic cells. Marginal survival of tumor cells lead to a secondary outgrowth into the necrotic lesion adjacent to sprouting capillaries., Conclusions: LITT is a suitable technique for the treatment of brain neoplasms. However, further investigations are necessary to prevent tumor recurrences after LITT., (Copyright 2002 Wiley-Liss, Inc.)

Published

2002

29. Vascular response to laser photothermolysis as a function of pulse duration, vessel type, and diameter: implications for port wine stain laser therapy.

Author

Kimel S, Svaasand LO, Cao D, Hammer-Wilson MJ, and Nelson JS

Subjects

Humans, Models, Theoretical, Predictive Value of Tests, Severity of Illness Index, Time Factors, Treatment Outcome, Laser Coagulation methods, Port-Wine Stain physiopathology, Port-Wine Stain therapy

Abstract

Background and Objective: Treatment of port wine stains (PWS) by photothermolysis can be improved by optimizing laser parameters on an individual patient basis. We have studied the critical role of pulse duration (t(p)) on the treatment efficacy., Study Design/materials and Methods: The V-beam laser (Candela) allowed changing t(p) over user-specified discrete values between 1.5 and 40 milliseconds by delivering a series of 100 microsecond spikes. For the 1.5 and 3 millisecond pulses, three spikes were observed at intervals t(p)/2 and for t(p)> or =6 milliseconds, four spikes separated by t(p)/3. The ScleroPlus laser (Candela) has a smooth output over its fixed 1.5 milliseconds duration. Blood vessels in the chick chorioallantoic membrane (CAM) were irradiated at fixed wavelength (595 nm), spot size (7 mm), radiant exposure (15 Jcm(-2)), and at variable t(p). The CAM contains an extensive microvascular network ranging from capillaries with diameter D<30 microm to blood vessels of D approximately 120 microm. The CAM assay allows real-time video documentation, and observation of blood flow in pre-capillary arterioles (A) and post-capillary venules (V). Vessel injury was graded from recorded videotapes. Mathematical modeling was developed to interpret results of vessel injury when varying t(p) and D. A modified thermal relaxation time was introduced to calculate vessel wall temperature following laser exposure., Results: Arterioles. For increasing t(p), overall damage was found to decrease. For fixed t(p), damage decreased with vessel size. Venules. For all D, damage was smaller than for corresponding arterioles. There was no dependence of damage on t(p). For given t(p), no variation of damage with D was observed. Photothermolysis due to spiked (V-beam) vs. smooth (Scleroplus) delivery of laser energy at fixed t(p) (1.5 milliseconds), showed similar vessel injuries for al values of D (P>0.05)., Conclusions: The difference between initial arteriole and venule damage could be explained by the threefold higher absorption coefficient at 595 nm in (oxygen-poor!) arterioles. In human patients, PWS consist of ectatic venules (characterized by higher absorption), so that these considerations favor the use of 595-nm irradiation for laser photothermolysis. For optimal treatment of PWS it is proposed that t(p) be between 0.1 and 1.5 milliseconds. This is based on a modified relaxation time tau'(d), defined as the time required for heat conduction into the full thickness of the vessel wall, which is assumed to have a thickness DeltaD approximately 0.1D. The corresponding tau'(d) will be a factor of about six smaller than given in the literature. For vessels with D between 30 and 300 mum, tau'(d) ranges from 0.1 to 1.5 milliseconds., (Copyright 2002 Wiley-Liss, Inc.)

Published

2002

30. One hundred consecutive treatments with holmium: YAG laser for pulmonary bullae: especially in conjunction with gelatin-resorcinol formaldehyde-glutaraldehyde glue adhesion.

Author

Kaseda S, Aoki T, Hangai N, Shimizu K, and Kiguchi H

Subjects

Combined Modality Therapy, Drug Combinations, Equipment Design, Follow-Up Studies, Holmium, Humans, Reference Values, Sensitivity and Specificity, Surgical Instruments, Thoracoscopy methods, Treatment Outcome, Blister pathology, Blister surgery, Formaldehyde pharmacology, Gelatin pharmacology, Glutaral pharmacology, Laser Coagulation methods, Lung Diseases pathology, Lung Diseases surgery, Resorcinols pharmacology

Abstract

Background and Objective: We have widely used a Ho:YAG laser to treat bullae thoracoscopically., Study Design/materials and Methods: Bullae with broad necks were treated with a Ho:YAG laser thoracoscopically. Because one patient relapsed after application of fibrin glue in the early period, a DEXON (polyglycolic acid) mesh patch soaked in fibrin glue was used through a 2-cm opening in the subsequent cases. Lastly, gelatin-resorcinol formaldehyde-glutaraldehyde (GRFG) glue was applied through a 5-mm opening instead of a DEXON mesh after coagulation., Results: In the 38 patients patched with DEXON mesh soaked in fibrin glue and 56 patched with GRFG glue after coagulation, none relapsed., Conclusion: Combined uses of fibrin glue plus DEXON mesh or GRFG glue were effective when bullae were treated with the Ho:YAG laser. However, the wound was smaller and more cosmetic in the GRFG glue group than in the DEXON mesh plus fibrin glue group., (Copyright 2001 Wiley-Liss, Inc.)

Published

2001

31. Q-switched Nd:YAG laser treatment for acquired bilateral nevus of ota-like maculae: a long-term follow-up.

Author

Kunachak S and Leelaudomlipi P

Subjects

Adult, Aluminum Silicates, Facial Dermatoses surgery, Female, Follow-Up Studies, Humans, Hyperpigmentation etiology, Melanosis surgery, Neodymium, Prospective Studies, Safety, Skin pathology, Treatment Outcome, Yttrium, Facial Neoplasms surgery, Laser Coagulation adverse effects, Laser Coagulation methods, Nevus of Ota surgery, Skin Neoplasms surgery

Abstract

Background and Objective: Acquired bilateral nevus of Ota-like maculae (ABNLM) is not an uncommon dermal melanosis in Asian people. It is known for its recalcitrance to conventional treatment. We proposed Q-switched Nd:YAG laser for the treatment of this entity., Study Design/patients and Methods: Seventy female patients with ABNLM, who were 25-40 years old (mean, 37 years), were included in a prospective clinical study. Q-switched Nd:YAG laser at fluence of 8-10 J/cm(2), spot size 2 or 4 mm, and a repetition rate of 10 Hz was used to treat the lesions., Results: Two patients were lost to follow-up. In the remaining 68 cases, all lesions attained a 100% clearance after two to five treatment sessions (mean, 2.8 sessions). The results had persisted at 3-4 years follow-up (mean, 42 months). Temporary hyperpigmentation was found in 50% of patients; there was no scarring or changing of skin texture., Conclusion: Q-switched Nd:YAG laser is a safe and effective noninvasive alternative treatment for ABNLM., (Copyright 2000 Wiley-Liss, Inc.)

Published

2000

32. Inadvertent corneal burn by using indirect wide-field contact lenses and different laser beam delivery systems during experimental fundus photocoagulation.

Author

Shiraki K, Moriwaki M, Kohno T, Yanagihara N, and Miki T

Subjects

Animals, Laser Coagulation instrumentation, Rabbits, Burns etiology, Contact Lenses adverse effects, Corneal Injuries, Laser Coagulation adverse effects, Laser Coagulation methods, Light Coagulation adverse effects, Light Coagulation methods, Retina surgery

Abstract

Background and Objective: At fundus photocoagulation by using a wide-field indirect contact lens, the laser radiant exposure may be increased at the anterior segment of the eye. We examined the likelihood of producing inadvertent corneal burn by using parfocal and sharped edge defocus laser delivery systems with various indirect contact lenses., Study Design/materials and Methods: The two laser delivery systems were used with four lenses of different viewing angles during fundus photocoagulation in a total 44 eyes of rabbits., Results: By using the lenses, the parfocal system increased corneal radiant exposure more than did the sharped edge defocus system. By using the Widefield PRP 165 lens of the widest viewing angle, there was no difference between the two systems in the corneal burns produced., Conclusion: Some indirect contact lenses used in combination with the parfocal system caused inadvertent corneal burns more readily than did the same lenses in combination with the sharped edge defocus system., (Copyright 2000 Wiley-Liss, Inc.)

Published

2000

33. Optimal parameters for laser tissue soldering: II. Premixed versus separate dye-solder techniques.

Author

McNally KM, Sorg BS, Chan EK, Welch AJ, Dawes JM, and Owen ER

Subjects

Absorption, Administration, Topical, Animals, Aorta, Thoracic physiopathology, Aorta, Thoracic surgery, Aorta, Thoracic ultrastructure, Cattle, Coloring Agents administration & dosage, Coloring Agents therapeutic use, Hot Temperature, Indocyanine Green administration & dosage, Indocyanine Green therapeutic use, Light, Microscopy, Electron, Scanning, Protein Denaturation, Serum Albumin, Bovine administration & dosage, Tensile Strength, Water, Laser Coagulation methods, Serum Albumin, Bovine therapeutic use, Tissue Adhesives therapeutic use

Abstract

Background and Objective: Laser tissue soldering by using an indocyanine green (ICG)-doped protein solder applied topically to the tissue surface and denatured with a diode laser was investigated in Part I of this study. The depth of light absorption was predominantly determined by the concentration of the ICG dye added to the solder. This study builds on that work with an in vitro investigation of the effects of limiting the zone of heat generation to the solder-tissue interface to determine whether more stable solder-tissue fusion can be achieved., Study Design/materials and Methods: An alternative laser tissue soldering technique was investigated, which increased light absorption at the vital solder-tissue interface. A thin layer of ICG dye was smeared over the surface to be treated, the protein solder was then placed directly on top of the dye, and the solder was denatured with an 808-nm diode laser. Because laser light at approximately 800 nm is absorbed primarily by the ICG dye, this thin layer of ICG solution restricted the heat source to the space between the solder and the tissue surfaces. A tensile strength analysis was conducted to compare the separate dye-solder technique with conventional techniques of laser tissue soldering for which a premixed dye-solder is applied directly to the tissue surface. The effect of hydration on bond stability of repairs formed by using both techniques was also investigated using tensile strength and scanning electron microscopy analysis., Results: Equivalent results in terms of tensile strength were obtained for the premixed dye-solder technique using protein solders containing 0.25 mg/ml ICG (liquid solder, 220 +/- 35 N/cm(2); solid solder, 602 +/- 32 N/cm(2)) and for the separate dye-solder technique (liquid solder, 228 +/- 41 N/cm(2); solid solder, 578 +/- 29 N/cm(2)). The tensile strength of native bovine thoracic aorta was 596 +/- 31 N/cm(2). Repairs created by using the separate dye-solder technique were more stable during hydration than their premixed dye-solder counterparts. The conventional premixed dye-solder was simpler and approximately twice as fast to apply. The separate dye-solder technique, however, increased the shelf-life of the solder, because the dye was mixed at the time of the experiment, thus conserving its spectral absorbency properties., Conclusion: Two laser-assisted tissue soldering techniques have been evaluated for repairing aorta incisions in vitro. The advantages and disadvantages of each of these techniques are discussed., (Copyright 2000 Wiley-Liss, Inc.)

Published

2000

34. Morphometric and functional results after CO(2) laser welding of nerve coaptations.

Author

Happak W, Neumayer C, Holak G, Kuzbari R, Burggasser G, and Gruber H

Subjects

Animals, Carbon Dioxide, Laser Coagulation instrumentation, Nerve Fibers radiation effects, Rats, Rats, Sprague-Dawley, Recovery of Function, Sciatic Nerve injuries, Sciatic Nerve pathology, Sciatic Nerve physiopathology, Sutures, Walking, Wounds and Injuries physiopathology, Laser Coagulation methods, Nerve Regeneration radiation effects, Sciatic Nerve radiation effects, Wound Healing radiation effects, Wounds and Injuries surgery

Abstract

Background and Objective: Several reports describe nerve coaptations by laser welding in combination with stay sutures and bonding material. This study was undertaken to obtain functional and morphologic information by using a nerve coaptation technique by epineurial CO(2) laser welding only., Study Design/materials and Methods: The sciatic nerves of 24 rats were transected and epineurially coapted with the CO(2) laser at 60 mW or with microsutures as a control. Walking track analysis were carried out to evaluate the functional recovery, and the nerves were harvested for histology after 6 months of regeneration., Results: None of the 24 nerves showed dehiscence of the coaptations, and all showed good nerve fiber regeneration. Better results were obtained for the functional evaluation of the sciatic function index (P < 0.02) and the toe spread index (P < 0.04) from the laser nerve coaptations. Likewise, the morphologic evaluations of the fiber density (P < 0.04) and area fraction (P < 0.002) were better in the laser group., Conclusion: CO(2) laser welded nerve coaptations are as successful as their sutured counterparts and may become a promising alternative in clinical practice., (Copyright 2000 Wiley-Liss, Inc.)

Published

2000

35. Biodegradable polymer film reinforcement of an indocyanine green-doped liquid albumin solder for laser-assisted incision closure.

Author

Sorg BS, McNally KM, and Welch AJ

Subjects

Animals, Aorta, Thoracic injuries, Biodegradation, Environmental, Cattle, Indocyanine Green administration & dosage, Indocyanine Green therapeutic use, Polylactic Acid-Polyglycolic Acid Copolymer, Serum Albumin, Bovine administration & dosage, Tensile Strength, Aorta, Thoracic surgery, Biocompatible Materials therapeutic use, Lactic Acid therapeutic use, Laser Coagulation methods, Polyglycolic Acid therapeutic use, Polymers therapeutic use, Serum Albumin, Bovine therapeutic use, Tissue Adhesives, Wounds and Injuries surgery

Abstract

Background and Objective: The purpose of this study was to determine whether solid material reinforcement of a liquid albumin solder coagulum could improve the cohesive strength of the solder and, thus, the ultimate breaking strength of the incision repair in vitro., Study Design/materials and Methods: A 50%(w/v) bovine serum albumin solder with 0.5 or 2.5 mg/ml indocyanine green (ICG) dye was used to repair an incision in bovine aorta. The solder was coagulated with an 806-nm continuous wave diode laser. A 50-micrometer-thick poly(DL-lactic-co-glycolic acid) film was used to reinforce the solder (the controls had solder but no reinforcement). Acute breaking strengths were measured, and the data were analyzed by Student's t-test., Results: Observations of the failure modes indicate cohesive strength reinforcement of the test specimens vs. the controls. The 2.5 mg/ml ICG reinforced solder was stronger than the controls without reinforcement (P < 0.05) for all laser powers tested. There was no difference between the test specimens and the controls with 0.5 mg/ml ICG solder for low laser powers, but at higher laser powers, the reinforced solder was stronger than the controls (P < 0.05)., Conclusion: Reinforcement of liquid albumin solders in laser-assisted incision repair seems to have advantages in terms of acute breaking strength over conventional methods that do not reinforce the cohesive strength of the solder., (Copyright 2000 Wiley-Liss, Inc.)

Published

2000

36. Temperature mapping of magnetic resonance-guided laser interstitial thermal therapy (LITT) in lymphangiomas of the head and neck.

Author

Eyrich GK, Bruder E, Hilfiker P, Dubno B, Quick HH, Patak MA, Grätz KW, and Sailer HF

Subjects

Adult, Child, Child, Preschool, Female, Head and Neck Neoplasms pathology, Humans, Lymphangioma pathology, Male, Recurrence, Temperature, Tongue Neoplasms therapy, Treatment Outcome, Head and Neck Neoplasms therapy, Hyperthermia, Induced methods, Laser Coagulation methods, Laser Therapy, Lymphangioma therapy, Magnetic Resonance Imaging

Abstract

Background and Objective: Lymphangiomas of the tongue and neck are uncommon benign congenital lymphatic tumors. These vascular lesions are difficult to treat, frequently recur, and can cause patients significant morbidity. Treatment may also be complicated by adjacent vital anatomic structures. Magnetic resonance (MR)-controlled laser-induced interstitial thermotherapy (LITT) has been proven to be a noninvasive safe treatment. Real-time monitoring of tissue temperature with thermosensitive sequences allows controlled coagulation necrosis., Study Design/materials and Methods: LITT was performed in a lymphangioma specimen ex vivo. In four patients (eight procedures) with lymphangiomas of the tongue and neck, MR-guided LITT was performed with a percutaneous approach in a multiapplicator technique. The laser system consisted of a titanium catheter and a protective catheter. The dome of the fiber end had a diameter of 1.4 mm with an active length of 20 mm. Temperature sensitive sequences were used in a 0.5 T open-configured MR scanner with the proton frequency shift technique to map the spatial and temporal distribution of Nd:YAG laser effects (7 Watts, 30 pulses per second, 10 minutes/location). Postoperative MR follow-up was performed at 1 week and at 3 months. In three patients, partial resection of the tumor was performed 6 months after LITT., Results: In three patients, MR clearly showed a diminished tumor volume. All four patients reported subjective amelioration and in three patients former functional problems, such as speech and swallowing were improved. MR thermometry allowed accurate demarcation of changes by heat and distinction of affected tumor volume (3.0 cm +/- 0.3 cm). The histology of the patients 6 months after LITT showed laser-induced fibrosis of former lymphatic tissue., Conclusion: The results suggest that LITT can be performed safely with tissue preserving of vital structures and can be effective in the treatment of deep tumors, such as lymphangiomas. However, given the nature of the lesion, the potential for recurrence exists no matter what modality is chosen., (Copyright 2000 Wiley-Liss, Inc.)

Published

2000

37. Welding characteristics of different albumin species with and without fatty acids.

Author

Bleustein CB, Felsen D, and Poppas DP

Subjects

Animals, Dogs, Hot Temperature, In Vitro Techniques, Intestine, Small injuries, Protein Denaturation, Serum Albumin therapeutic use, Serum Albumin, Bovine therapeutic use, Species Specificity, Tensile Strength, Wounds and Injuries physiopathology, Fatty Acids, Intestine, Small surgery, Laser Coagulation methods, Serum Albumin chemistry, Tissue Adhesives chemistry, Tissue Adhesives therapeutic use, Wound Healing, Wounds and Injuries surgery

Abstract

Background and Objective: Albumin solders from different species have been used for laser tissue welding without a complete understanding of possible differences between them. The breaking strength of four different species of serum albumin (human, bovine, porcine, and canine), both fatty acid containing (FAC) and fatty acid free (FAF), was determined to evaluate the welding ability of each type of albumin. STUYDY DESIGN/MATERIALS AND METHODS: Acute breaking strengths were determined on canine small bowel by using 50% albumin (FAF and FAC) from human, bovine (BSA), porcine, and canine species., Results: BSA-FAC and BSA-FAF had a significantly higher (P < 0.05) breaking strength than all other groups; furthermore, BSA-FAC was significantly higher (P < 0.05) than BSA-FAF. There was no significant difference in breaking strength when FAF albumin was compared with FAC albumin from humans, pigs, or dogs., Conclusion: These experimental results show that species-specific and fatty acid-specific differences exist when these albumin solders are used for laser tissue welding. This finding suggests that modifications in albumin could be used to improve results through decreased thermal damage and increased weld strength., (Copyright 2000 Wiley-Liss, Inc.)

Published

2000

38. Deep coagulation of dermal collagen with repetitive Er:YAG laser irradiation.

Author

Majaron B, Srinivas SM, Huang He, and Nelson JS

Subjects

Animals, Erbium, Female, Humans, Rats, Rats, Sprague-Dawley, Skin metabolism, Skin pathology, Collagen metabolism, Dermatologic Surgical Procedures, Epidermis metabolism, Laser Coagulation methods

Abstract

Background and Objective: Er:YAG lasers are known to effectively ablate human skin with minimal thermal damage to subjacent dermal tissue. We have investigated whether deep coagulation of dermal collagen, similar to that observed with the CO(2) laser, could be achieved with repetitive Er:YAG laser exposures., Study Design/materials and Methods: Skin on the back of a Sprague-Dawley rat in vivo was irradiated with sequences of 1-10 Er:YAG laser pulses at a repetition rate of 10 or 33 Hz and single-pulse fluences from 0.8 to 1.4 J/cm(2). The resulting lesions were biopsied within 1 hour after laser exposure, and the histologic sections were examined by using optical microscopy., Results: The depth of dermal collagen denaturation increases dramatically when 3-10 low-fluence Er:YAG laser pulses are stacked at a repetition rate of 10 or 33 Hz., Conclusion: Coagulation of dermal collagen deeper than 200 microm below the epidermal-dermal junction is feasible by using the appropriate settings of a repetitive Er:YAG laser., (Copyright 2000 Wiley-Liss, Inc.)

Published

2000

39. Selective photothermolysis in skin by using subcutaneous optical fibers.

Author

Fowler AJ

Subjects

Algorithms, Cicatrix pathology, Dose-Response Relationship, Radiation, In Vitro Techniques, Light Coagulation methods, Monte Carlo Method, Necrosis, Optical Fibers, Skin injuries, Skin pathology, Cicatrix surgery, Dermatologic Surgical Procedures, Fiber Optic Technology, Laser Coagulation methods, Models, Biological

Abstract

Background and Objective: Vascular selective photothermolysis has been shown to be effective in treating hypertrophic scars. Performing selective photothermolysis on the vasculature deep within thick scars requires new methods for delivering laser energy. It is the objective of this study to model the use of subcutaneous fiber optics to perform selective photothermolysis in skin as a possible aid in the treatment of thick scars., Study Design/materials and Methods: A Monte Carlo simulation was performed to study the expected region of vascular necrosis in a two layer skin model when 585-nm radiation is delivered into the dermis by means of subcutaneous optical fibers., Results: The extent of vascular necrosis is independent of fiber diameter for a fixed total energy. A fiber penetrating barely below the epidermis decreases the maximum epidermal fluence by more than an order of magnitude relative to a superficial beam. Using four fibers simultaneously can significantly increase the depth of vascular necrosis., Conclusions: Small diameter fibers are optimum if the maximum fluence tolerable in the dermis is not a limiting factor. Shallowly inserted fibers can significantly decrease epidermal damage to dark-skinned patients undergoing laser therapy., (Copyright 2000 Wiley-Liss, Inc.)

Published

2000

40. Laser skin welding: in vivo tensile strength and wound healing results.

Author

Fried NM and Walsh JT Jr

Subjects

Animals, Coloring Agents therapeutic use, Female, Guinea Pigs, Laser Coagulation adverse effects, Laser Coagulation instrumentation, Skin pathology, Skin physiopathology, Sutures, Tensile Strength, Treatment Outcome, Wounds and Injuries physiopathology, Carbon, Laser Coagulation methods, Skin injuries, Wound Healing radiation effects, Wounds and Injuries radiotherapy

Abstract

Background and Objective: Laser skin welding was investigated as a general model for laser tissue closure. Scanned delivery of near-infrared laser radiation in combination with a dye can produce strong welds with limited thermal damage., Study Design/materials and Methods: Two-centimeter-long, full-thickness incisions were made on the backs of guinea pigs. Wounds were closed either by laser welding or sutures and then biopsied at 0, 3, 6, 10, 14, 21, and 28 days postoperatively. Welding was achieved by using continuous-wave, 1. 06-micrometer, Nd:YAG laser radiation scanned over the incisions to produce a dwell time of approximately 80 msec. The cooling time between scans was fixed at 8 seconds. A 4-mm-diameter laser spot was maintained during the experiments, and the power was kept constant at 10 W. The operation time was fixed at 10 minutes per incision. India ink was used as an absorber of the laser radiation at the weld site, and clamps were used temporarily to appose the incision edges., Results: Acute weld strengths of 2.1 +/- 0.7 kg/cm(2) were significantly higher than suture apposition strengths of 0.4 +/- 0.1 kg/cm(2) (P < 0.01), and weld strengths continued to increase over time. Lateral thermal damage in the laser welds was limited to 200 +/- 40 micrometer near the epidermal surface with less thermal damage deeper within the dermis., Conclusion: Our welding technique produced higher weld strengths and less thermal damage than reported in previous skin welding studies and may represent an alternative to sutures., (Copyright 2000 Wiley-Liss, Inc.)

Published

2000

41. Treatment of atrophoderma of Pasini and Pierini-associated hyperpigmentation with the Q-switched alexandrite laser: a clinical, histologic, and ultrastructural appraisal.

Author

Arpey CJ, Patel DS, Stone MS, Qiang-Shao J, and Moore KC

Subjects

Adult, Atrophy, Beryllium, Humans, Hyperpigmentation etiology, Hyperpigmentation pathology, Male, Melanosomes, Skin ultrastructure, Skin Diseases complications, Skin Diseases pathology, Syndrome, Treatment Outcome, Hyperpigmentation therapy, Laser Coagulation methods, Laser Therapy, Skin pathology, Skin Diseases therapy

Abstract

Background and Objective: Atrophoderma of Pasini and Pierini (APP) is an uncommon cutaneous disorder, with no known effective treatment, manifested by hyperpigmented patches that appear to be depressed compared with surrounding skin. This study investigated the effectiveness of the Q-switched alexandrite laser on a patient with extensive APP, and evaluated histopathologic and ultrastructural changes., Study Design/materials and Methods: A man with stable APP underwent Q-switched alexandrite laser treatment to a patch on the trunk. Biopsies were obtained from treated and untreated sites of involvement. Light and transmission electron microscopic evaluation was performed to investigate melanosome number, size, and volume, as well as melanin granule number and size., Results: After three treatment sessions, the treated area showed marked clinical improvement. Electron microscopy showed a 19% reduction in melanin granule number and size and a 65% reduction in melanosome number, size, and volume in larger melanosomes in treated compared with untreated sites., Conclusion: Treatment of APP with the Q-switched alexandrite laser results in clinical improvement. Electron microscopic evaluation suggests that the mechanism may be a reduction in the number, size, and volume of larger melanosomes as well as a decrement in melanin granule number and size., (Copyright 2000 Wiley-Liss, Inc.)

Published

2000

42. Comparison of flash lamp pulsed-dye laser (585 nm) and conventional surgery in the delay of random dorsal rat flaps.

Author

Cohen M, Kattan A, Gat A, Almogi N, Katzir A, Villan A, Gur E, and Shafir R

Subjects

Analysis of Variance, Animals, Laser Coagulation adverse effects, Male, Necrosis, Rats, Rats, Wistar, Skin radiation effects, Surgical Flaps pathology, Laser Coagulation methods, Surgical Flaps blood supply

Abstract

Background and Objective: Delay is a basic surgical technique used by flap surgeons to improve the blood supply to the distal parts of a random skin flap. The aim of this study was to determine whether a scarless delay can be done by the use of the flash lamp pulsed-dye laser operating at a wavelength of 585 nm., Study Design/materials and Methods: The pilot study showed that 6 J/cm(2) had a selective photothermolysis effect and therefore was chosen for testing the delay procedure on 15 rats. The percentage of flap necrosis of this group was compared to the results of 15 rats that underwent delay by surgery and 15 rats that were not treated prior to flap surgery (control group)., Results: Laser delay of McFarlane flaps resulted in an average of 15.5% smaller necrotic area compared to the control group (52.7% +/- 14.4% and 68.2% +/- 9.6%, respectively, P < 0.01) and was as effective as surgical delay (53.3% +/- 13.6%)., Conclusions: The results indicate that the flash lamp pulsed-dye laser operating at 585 nm is effective for delaying cutaneous flaps in the rat model., (Copyright 1999 Wiley-Liss, Inc.)

Published

1999

43. Biliary structures lead to tumour recurrences after laser-induced interstitial thermotherapy.

Author

Prudhomme M, Rouy S, Tang J, Landgrebe J, Delacrétaz G, and Godlewski G

Subjects

Animals, Bile Ducts, Intrahepatic physiology, Diathermy methods, In Vitro Techniques, Rabbits, Tumor Cells, Cultured transplantation, Bile Ducts, Intrahepatic pathology, Laser Coagulation methods, Liver Neoplasms pathology, Liver Neoplasms therapy, Neoplasm Recurrence, Local etiology, Neoplasm Recurrence, Local pathology, Postoperative Complications

Abstract

Background and Objective: Thermal diffusion during laser-induced interstitial thermotherapy (LITT) has not yet been fully investigated in heterogeneous tissue architecture such as liver. LITT was performed on rabbit liver tumours to analyse the role of biliary structures in thermal diffusion., Study Design/materials and Methods: Twenty-four VX2 tumours were grafted onto 12 rabbit livers. The animals were randomly separated into two groups when tumour size reached 8 mm. Thermotherapy was performed by delivering the 830-nm output of a diode laser to the centre of the tumour with a 300-,microm fibre. Irradiation conditions were 1.5 W over 900 sec. On day 7 or 14, the tumours were removed and stained with haematoxylin-eosin and picrosirius red F3BA (PR). Thermal damage was evaluated by PR and electron microscopic examinations., Results: Among the treated tumours, recurrences were found both at the periphery (one on day 7, seven on day 14) and within the treated area (two on day 7, two on day 14). All recurrences were located in the vicinity of the biliary structures, which are frequently spared from thermal injury., Conclusion: Biliary ducts lead to a heat sink, thereby facilitating tumour recurrences.

Published

1999

44. Effects of temperature on tissue thermal injury and wound strength after photothermal wound closure.

Author

Fung LC, Mingin GC, Massicotte M, Felsen D, and Poppas DP

Subjects

Analysis of Variance, Animals, Apoptosis, Culture Techniques, Disease Models, Animal, Laser Coagulation methods, Male, Necrosis, Reference Values, Skin pathology, Swine, Tensile Strength, Albumins chemistry, Dermatologic Surgical Procedures, Hot Temperature, Laser Coagulation adverse effects, Skin physiopathology, Wound Healing physiology

Abstract

Background and Objectives: Our goal was to determine the effect of temperature on the induction of tissue damage after laser-welded wound closure with and without albumin solder., Study Design/materials and Methods: Multiple full-thickness skin incisions were made in a porcine model. Incisions were repaired by using a 1.32-microm laser at temperatures of 65 degrees C, 75 degrees C, 85 degrees C, or 95 degrees C with and without a 50% human albumin solder. The rate of apoptosis (programmed cell death) was quantified by counting the proportion of cells that stained positively for nuclear DNA fragmentation (nick end labeling). The distance that necrosis extended from the wound edge was also measured. The strength of the weld was measured with a tensiometer., Results: For laser-welded repairs with solder, the amount of apoptosis at 65 degrees C and 75 degrees C was comparable to that of controls but became significantly elevated at 85 degrees C and 95 degrees C. The extent of necrosis was similar to that of controls at low temperature but also increased at 95 degrees C. Incisions repaired without solder showed increased necrosis compared with those repaired with solder at temperatures of 65 degrees C, 75 degrees C, and 95 degrees C at 0-0.5 mm from the incision. Wounds repaired at 85 degrees C and 95 degrees C showed more apoptosis in the absence of solder. The increased cell death at higher temperatures correlated with significantly decreased wound strengths at 3 days after repair in the solder group. A lower rate of cell death was observed in the solder group, which correlated with superior wound strength when compared with repairs without solder at days 0 (65-95 degrees C) and 3 (95 degrees C)., Conclusion: Both apoptotic and necrotic cell death were used as quantitative measures of tissue injury and were accurate predictors of short-term wound strength. The addition of albumin solder decreased overall tissue injury. These results suggest that temperatures of 65-75 degrees C with solder provide the optimal conditions for maximizing acute wound strength and minimizing tissue injury., (Copyright 1999 Wiley-Liss, Inc.)

Published

1999

45. Simplified treatment planning for interstitial laser thermotherapy by disregarding light transport: a numerical study.

Author

Olsrud J, Wirestam R, Persson BR, and Tranberg KG

Subjects

Culture Techniques, Humans, Liver pathology, Liver surgery, Liver Neoplasms diagnosis, Magnetic Resonance Imaging, Male, Phantoms, Imaging, Prostate pathology, Prostate surgery, Sensitivity and Specificity, Hot Temperature, Laser Coagulation methods, Light, Liver Neoplasms surgery, Models, Biological

Abstract

Background and Objective: The objective was to investigate the effect of light transport on the temperature distribution and the coagulated volume under conditions relevant to interstitial laser thermotherapy (ILT) of tumors in the human liver., Study Design/materials and Methods: Temperature distributions and coagulated volumes produced with a diffusing laser fiber or a conductive heat source, at equal output power, were numerically calculated for tissue with different optical penetration depths. Four irradiation times (5, 10, 20, and 30 min) were studied. A three-dimensional finite-element model was used to calculate the temperature distribution during heating with four conductive heat sources (no light emission). Results were compared with measured temperature distributions during laser irradiation in a gel phantom with known optical properties., Results: Numerical calculations showed that the influence of light transport on the coagulated volume was negligible in tissue with optical penetration depths below 3-4 mm at all studied irradiation times. The phantom experiment indicated good agreement with the calculated temperature distribution, both with a single diffusing laser fiber and with four fibers., Conclusion: Light transport influences coagulated volumes only slightly under conditions presented in this work, which is relevant to ILT of tumors in the human liver., (Copyright 1999 Wiley-Liss, Inc.)

Published

1999

46. Holmium:YAG laser lithotripsy: A dominant photothermal ablative mechanism with chemical decomposition of urinary calculi.

Author

Chan KF, Vassar GJ, Pfefer TJ, Teichman JM, Glickman RD, Weintraub ST, and Welch AJ

Subjects

Holmium chemistry, Humans, Laser Coagulation methods, Models, Theoretical, Photography methods, Sensitivity and Specificity, Temperature, Lithotripsy, Laser methods, Urinary Calculi chemistry, Urinary Calculi therapy

Abstract

Background and Objective: Evidence is presented that the fragmentation process of long-pulse Holmium:YAG (Ho:YAG) lithotripsy is governed by photothermal decomposition of the calculi rather than photomechanical or photoacoustical mechanisms as is widely thought. The clinical Ho:YAG laser lithotriptor (2.12 microm, 250 micros) operates in the free-running mode, producing pulse durations much longer than the time required for a sound wave to propagate beyond the optical penetration depth of this wavelength in water. Hence, it is unlikely that shock waves are produced during bubble formation. In addition, the vapor bubble induced by this laser is not spherical. Thus the magnitude of the pressure wave produced at cavitation collapse does not contribute significantly to lithotripsy., Study Design/materials and Methods: A fast-flash photography setup was used to capture the dynamics of urinary calculus fragmentation at various delay times following the onset of the Ho:YAG laser pulse. These images were concurrently correlated with pressure measurements obtained with a piezoelectric polyvinylidene-fluoride needle-hydrophone. Stone mass-loss measurements for ablation of urinary calculi (1) in air (dehydrated and hydrated) and in water, and (2) at pre-cooled and at room temperatures were compared. Chemical and composition analyses were performed on the ablation products of several types of Ho:YAG laser irradiated urinary calculi, including calcium oxalate monohydrate (COM), calcium hydrogen phosphate dihydrate (CHPD), magnesium ammonium phosphate hexahydrate (MAPH), cystine, and uric acid calculi., Results: When the optical fiber was placed perpendicularly in contact with the surface of the target, fast-flash photography provided visual evidence that ablation occurred approximately 50 micros after the initiation of the Ho:YAG laser pulse (250-350 micros duration; 375-400 mJ per pulse), long before the collapse of the cavitation bubble. The measured peak acoustical pressure upon cavitation collapse was negligible (< 2 bars), indicating that photomechanical forces were not responsible for the observed fragmentation process. When the fiber was placed in parallel to the calculus surface, the pressure peaks occurring at the collapse of the cavitation were on the order of 20 bars, but no fragmentation occurred. Regardless of fiber orientation, no shock waves were recorded at the beginning of bubble formation. Ablation of COM calculi (a total of 150 J; 0.5 J per pulse at an 8-Hz repetition rate) revealed different Ho:YAG efficiencies for dehydrated calculus, hydrated calculus, and submerged calculus. COM and cystine calculi, pre-cooled at -80 degrees C and then placed in water, yielded lower mass-loss during ablation (20 J, 1.0 J per pulse) compared to the mass-loss of calculi at room temperature. Chemical analyses of the ablated calculi revealed products resulting from thermal decomposition. Calcium carbonate was found in samples composed of COM calculi; calcium pyrophosphate was found in CHPD samples; free sulfur and cysteine were discovered in samples composed of cystine samples; and cyanide was found in samples of uric acid calculi., Conclusion: These experimental results provide convincing evidence that long-pulse Ho:YAG laser lithotripsy causes chemical decomposition of urinary calculi as a consequence of a dominant photothermal mechanism., (Copyright 1999 Wiley-Liss, Inc.)

Published

1999

47. Radiometric surface temperature measurements during dye-assisted laser skin closure: in vitro and in vivo results.

Author

Fried NM, Choi B, Welch AJ, and Walsh JT Jr

Subjects

Animals, Coloring Agents chemistry, Culture Techniques, Disease Models, Animal, Guinea Pigs, Hot Temperature, Intraoperative Period, Laser Coagulation methods, Monitoring, Intraoperative, Sensitivity and Specificity, Skin radiation effects, Surface Properties, Video Recording, Body Temperature, Carbon, Dermatologic Surgical Procedures, Laser Coagulation instrumentation, Wound Healing physiology, Wound Healing radiation effects

Abstract

Background and Objective: A thermal camera was used to measure surface temperatures during laser skin welding to provide feedback for optimization of the laser parameters., Study Design/materials and Methods: Two-centimeter-long, full-thickness incisions were made in guinea pig skin in vitro and in vivo. India ink was applied to the incision edges, which were then mechanically apposed. Continuous-wave, 1.06-microm Nd:YAG laser radiation was scanned over the incisions, producing an effective pulse duration of approximately 100 msec. Cooling durations between scans of 1.6, 4.0, and 8.0 sec were studied in vitro. A 5-mm-diameter laser spot was used with the power kept constant at 10 W. Thermal images were obtained at 30 frames per second with a thermal camera detecting 3-5 microm radiation. Surface temperatures were recorded at 0, 1, and 6 mm from the center line of the incision., Results/conclusions: Cooling durations of 1.6 and 4.0 seconds in vitro resulted in temperatures at the weld site that remained above approximately 65 degrees C for prolonged periods of time. Cooling durations of 8.0 seconds were sufficient both in vitro and in vivo to prevent a significant rise in baseline temperatures at the weld site over time., (Copyright 1999 Wiley-Liss, Inc.)

Published

1999

48. New therapeutic technique for treatment of uterine leiomyomas using laser-induced interstitial thermotherapy (LITT) by a minimally invasive method.

Author

Chapman R

Subjects

Adult, Female, Follow-Up Studies, Humans, Hysterectomy, Hysteroscopy, Laser Coagulation instrumentation, Leiomyoma diagnosis, Middle Aged, Minimally Invasive Surgical Procedures methods, Prognosis, Uterine Neoplasms diagnosis, Laser Coagulation methods, Leiomyoma surgery, Uterine Neoplasms surgery

Abstract

Background and Objective: This study was undertaken to see if uterine leiomyomas would respond to LITT, as had certain other tumours, and leave behind a uterus capable of child bearing., Study Design/materials and Methods: Preliminary research to determine laser power and energy requirements to coagulate leiomyomas was carried out on such tumours at the time of myomectomy or hysterectomy. The information gleaned permitted subsequent volunteer patients to be treated by a minimally invasive route. LITT was employed to treat 300 patients, 293 of them with the KTP/YAG laser with a bare fibre laparoscopically or through the hysteroscope. The remaining seven were treated with the Diode laser, five of them being treated percutaneously with fibre splitter and four fibres., Results: Symptomatic patients (300) with 950 myomas between them were treated. Follow-up has been between 6 months and 6 years. No significant complications occurred, and the procedure(s) were successful in 294 patients., Conclusions: It is the treatment of choice for those leiomyomas that are difficult to remove because of their size or position. Fertility is enhanced, oestrogen receptors and epidermal growth factor are destroyed, and healing occurs without scarring.

Published

1998

49. Optical properties of native and coagulated human liver tissue and liver metastases in the near infrared range.

Author

Germer CT, Roggan A, Ritz JP, Isbert C, Albrecht D, Müller G, and Buhr HJ

Subjects

Adenocarcinoma pathology, Colorectal Neoplasms pathology, Female, Humans, Laser Coagulation statistics & numerical data, Liver pathology, Liver radiation effects, Liver Neoplasms pathology, Male, Monte Carlo Method, Optics and Photonics, Reference Values, Scattering, Radiation, Statistics, Nonparametric, Adenocarcinoma secondary, Adenocarcinoma surgery, Laser Coagulation methods, Liver surgery, Liver Neoplasms secondary, Liver Neoplasms surgery

Abstract

Background and Objective: Knowledge about optical parameters and the resultant light distribution in laser-treated tissue is important for predicting the effects of laser-induced thermotherapy of liver metastases (LITT)., Materials and Methods: The absorption and scattering coefficients as well as the anisotropy factors and the optical penetration depths of human liver tissue and colorectal liver metastases were determined at 850, 980, and 1,064 nm under native and thermocoagulated conditions., Results: Liver metastases had a lower anisotropy factor, absorption, and scattering coefficient than healthy liver (P < 0.01), resulting in a significantly higher optical penetration depth in metastatic tissue. Coagulation significantly changes the optical parameters by reducing the optical penetration depth in both tissue types (P < 0.01)., Conclusions: A greater optical penetration depth in metastatic tissue is advantageous for LITT, since larger tumor volumes can be coagulated. At the same time, an adjustment of the application parameters during LITT is necessary to achieve optimal therapeutic success.

Published

1998

50. Interstitial laser coagulation: evaluation of the effect of normal liver blood perfusion and the application mode on lesion size.

Author

Albrecht D, Germer CT, Isbert C, Ritz JP, Roggan A, Müller G, and Buhr HJ

Subjects

Animals, In Vitro Techniques, Laser Coagulation adverse effects, Liver pathology, Liver Neoplasms, Experimental surgery, Necrosis, Swine, Laser Coagulation methods, Liver blood supply, Liver surgery

Abstract

Background and Objective: The effect of temporarily interrupted hepatic blood flow and multiple-fiber application on necrosis volume in interstitial laser coagulation (ILC) was investigated., Study Design/materials and Methods: Single- and multiple-fiber ILC were performed in porcine livers with normal as well as interrupted perfusion. Temperatures were determined. Lesions were measured and studied by light microscopy 4 hours post-treatment., Results: ILC with multiple-fiber application led to significantly greater individual lesion volumes (3.7 +/- 0.5 cm3) than single-fiber application (2.5 +/- 0.5 cm3) (P < .01). The interruption of hepatic perfusion led to a significant increase in lesion volume with single- (7.5 +/- 1.0 cm3) as well as multiple-fiber application (12.6 +/- 2.2 cm3) (P < .01). Superposition of the lesions in the multiple-fiber application mode was only determined with interrupted perfusion (total volume: 50.3 +/- 6.6 cm3)., Conclusion: Interruption of hepatic perfusion increases lesion volumes significantly. ILC for treating liver tumors should preferably be performed by application routes that permit temporary interruption of hepatic perfusion.

Published

1998