Christopher M. Salinas’s research while affiliated with The University of Arizona and other places

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Publications (5)


Fig. 2 SWIR absorption coefficients for water (H 2 O) and heavy water (D 2 O) between 1200 and 2000 nm. Half-value propagation distance dramatically decreases above 1200 nm for H 2 O compared to D 2 O. 20
Fig. 3 (a) Transmission-mode set up of the Vevo LAZR-X using the MX250 probe with LFB = laser fiber bundles, MC = 3D printed molding container, CM = coupling medium, BA = broadband absorber/electrical tape, WR = water reservoir, and US= linear array US probe. 2% and 3% w/ w HWG samples are illuminated from above, and the resulting PA spectrum of the broadband absorber is used to quantify optical loss through the optical path. Acoustic coupling is achieved via the water reservoir in contact with the US array. (b) Standard reflection-mode setup with the coupling medium inserted between the probe and sample with LI = laser illumination pattern and S = sample.
Fig. 4 (a) Coupling media PA transmission results. Transmission of HWG and WG at 2% and 3% w/w gellan concentrations are displayed, along with D 2 O (100% concentration, pure), D 2 O (99% concentration, 1% H 2 O) and H 2 O (100% concentration, pure) calculated transmission via absorption coefficients 20 through an identical pathlength Δz ¼ 10 mm. (b) Laser energy measurements of the reflection-mode setup through samples of HWG and WG (thickness ∼5.0 mm) with the horizontal line denoting the cut-off energy threshold of 1 mJ.
Fig. 6 Reflection-mode PA images of lipid/water phantom (S) at peak absorption wavelengths of 1220 nm (lipid), 1450 nm, (water), and 1720 nm (lipid) through 4.5 mm of WG and HWG coupling. Yellow scale bar is 1 mm in both depth and lateral directions. Dashed green line indicates the coupling/sample boundary. No useful PA images were obtained through WG above ∼1350 nm due to the strong absorption of water coupling.
Fig. 8 (a) Photograph of bovine muscle sample cross section displaying the approximate slice presented in the PA images. (b) Reflection-mode PA images at absorption peaks of lipid (1220 and 1720 nm) with HWG coupling. Green and yellow regions indicate corresponding pockets of intramuscular fat between the photograph and PA images. The dotted white line indicates the surface of the sample and boundary with coupling medium. Each image is scaled to its own maximum value above the 0 dB noise floor. (c) Average PA spectrum of encircled regions of intramuscular fat using HWG as coupling medium with added fluence correction and noise floor indicated by black dotted line.
Heavy water coupling gel for short-wave infrared photoacoustic imaging
  • Article
  • Full-text available

November 2023

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67 Reads

Journal of Biomedical Optics

Christopher M. Salinas

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Eric Reichel

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Abhiman Gupta

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Significance Changes in lipid, water, and collagen (LWC) content in tissue are associated with numerous medical abnormalities (cancer, atherosclerosis, and Alzheimer’s disease). Standard imaging modalities are limited in resolution, specificity, and/or penetration for quantifying these changes. Short-wave infrared (SWIR) photoacoustic imaging (PAI) has the potential to overcome these challenges by exploiting the unique optical absorption properties of LWC>1000 nm. Aim This study’s aim is to harness SWIR PAI for mapping LWC changes in tissue. The focus lies in devising a reflection-mode PAI technique that surmounts current limitations related to SWIR light delivery. Approach To enhance light delivery for reflection-mode SWIR PAI, we designed a deuterium oxide (D2O, “heavy water”) gelatin (HWG) interface for opto-acoustic coupling, intended to significantly improve light transmission above 1200 nm. Results HWG permits light delivery >1 mJ up to 1850 nm, which was not possible with water-based coupling (>1 mJ light delivery up to 1350 nm). PAI using the HWG interface and the Visualsonics Vevo LAZR-X reveals a signal increase up to 24 dB at 1720 nm in lipid-rich regions. Conclusions By overcoming barriers related to light penetration, the HWG coupling interface enables accurate quantification/monitoring of biomarkers like LWC using reflection-mode PAI. This technological stride offers potential for tracking changes in chronic diseases (in vivo) and evaluating their responses to therapeutic interventions.

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Temporal evaluation of efficacy and quality of tissue repair upon laser‐activated sealing

September 2022

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73 Reads

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10 Citations

Deepanjan Ghosh

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Christopher M. Salinas

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Shubham Pallod

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[...]

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Kaushal Rege

Injuries caused by surgical incisions or traumatic lacerations compromise the structural and functional integrity of skin. Immediate approximation and robust repair of skin are critical to minimize occurrences of dehiscence and infection that can lead to impaired healing and further complication. Light‐activated skin sealing has emerged as an alternative to sutures, staples, and superficial adhesives, which do not integrate with tissues and are prone to scarring and infection. Here, we evaluate both shorter‐ and longer‐term efficacy of tissue repair response following laser‐activated sealing of full‐thickness skin incisions in immunocompetent mice and compare them to the efficacy seen with sutures. Laser‐activated sealants (LASEs) in which, indocyanine green was embedded within silk fibroin films, were used to form viscous pastes and applied over wound edges. A hand‐held, near‐infrared laser was applied over the incision, and conversion of the light energy to heat by the LASE facilitated rapid photothermal sealing of the wound in approximately 1 min. Tissue repair with LASEs was evaluated using functional recovery (transepidermal water loss), biomechanical recovery (tensile strength), tissue visualization (ultrasound [US] and photoacoustic imaging [PAI]), and histology, and compared with that seen in sutures. Our studies indicate that LASEs promoted earlier recovery of barrier and mechanical function of healed skin compared to suture‐closed incisions. Visualization of sealed skin using US and PAI indicated integration of the LASE with the tissue. Histological analyses of LASE‐sealed skin sections showed reduced neutrophil and increased proresolution macrophages on Days 2 and 7 postclosure of incisions, without an increase in scarring or fibrosis. Together, our studies show that simple fabrication and application methods combined with rapid sealing of wound edges with improved histological outcomes make LASE a promising alternative for management of incisional wounds and lacerations.


Citations (3)


... A limitation of this study was that no direct validation with histology was performed to quantify the presence of LWC. Studies which implement spectral-unmixing algorithms 24,[45][46][47][48] to identify LWC and other constituents in tissue may find a benefit in the increased SNR at chosen wavelengths provided through HWG; however, future validation studies are needed to determine the accuracy of these HWG-enabled spectral unmixing algorithms in the SWIR. One potential drawback of heavy water coupling is its relatively high cost compared to regular water that primarily depends on purity and volume. ...

Reference:

Heavy water coupling gel for short-wave infrared photoacoustic imaging
Short-wave Photoacoustic Lipid Imaging (SW-PALI) for Detection of early-onset Alzheimer's Disease
  • Citing Conference Paper
  • October 2022

... As described, we removed residual CTAB and thus our preparations are not expected to induce such responses. Importantly, we have observed that photothermally-activated silk fibroin-based wound dressings progressively slough off incisional wounds and leave no residual photothermal agents within the wound space [33,74]. In the present study, no evidence of GNR or toxicity was noted within the wound area. ...

Temporal evaluation of efficacy and quality of tissue repair upon laser‐activated sealing

... A limitation of this study was that no direct validation with histology was performed to quantify the presence of LWC. Studies which implement spectral-unmixing algorithms 24,[45][46][47][48] to identify LWC and other constituents in tissue may find a benefit in the increased SNR at chosen wavelengths provided through HWG; however, future validation studies are needed to determine the accuracy of these HWG-enabled spectral unmixing algorithms in the SWIR. One potential drawback of heavy water coupling is its relatively high cost compared to regular water that primarily depends on purity and volume. ...

Short-wave Infrared Photoacoustic Spectroscopy for Lipid and Water Detection
  • Citing Conference Paper
  • September 2021