Kévin Minier scite author profile

Graphical AbstractHighlights d SpiderMass technology collects molecular information ex vivo and in vivo d Tumor classification by typing and grading is obtained by the technology d Found markers are cross-validated with mass spectrometry imaging d The technology was assessed ex vivo at the vet surgery room SUMMARY Histopathological diagnosis of biopsy samples and margin assessment of surgical specimens are challenging aspects in sarcoma. Using dog patient tissues, we assessed the performance of a recently developed technology for fast ex vivo molecular lipid-based diagnosis of sarcomas. The instrument is based on mass spectrometry (MS) molecular analysis through a laser microprobe operating under ambient conditions using excitation of endogenous water molecules. Classification models based on cancer/normal/necrotic, tumor grade, and subtypes showed a minimum of 97.63% correct classification. Specific markers of normal, cancer, and necrotic regions were identified by tandem MS and validated by MS imaging. Real-time detection capabilities were demonstrated by ex vivo analysis with direct interrogation of classification models.

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Isolation and characterization of two canine melanoma cell lines: new models for comparative oncology

Segaoula

Primot

Leprêtre³

et al. 2018

BMC Cancer

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BackgroundMetastatic melanoma is one of the most aggressive forms of cancer in humans. Among its types, mucosal melanomas represent one of the most highly metastatic and aggressive forms, with a very poor prognosis. Because they are rare in Caucasian individuals, unlike cutaneous melanomas, there has been fewer epidemiological, clinical and genetic evaluation of mucosal melanomas. Moreover, the lack of predictive models fully reproducing the pathogenesis and molecular alterations of mucosal melanoma makes its treatment challenging. Interestingly, dogs are frequently affected by melanomas of the oral cavity that are characterized, as their human counterparts, by focal infiltration, recurrence, and metastasis to regional lymph nodes, lungs and other organs. In dogs, some particular breeds are at high risk, suggesting a specific genetic background and strong genetic drivers. Altogether, the striking homologies in clinical presentation, histopathological features, and overall biology between human and canine mucosal melanomas make dogs invaluable natural models with which to investigate tumor development, including tumor ætiology, and develop tailored treatments.MethodsWe developed and characterized two canine oral melanoma cell lines from tumors isolated from dog patients with distinct clinical profiles; with and without lung metastases. The cells were characterized using immunohistochemistry, pharmacology and genetic studies.ResultsWe have developed and immunohistochemically, genetically, and pharmacologically characterized. Two cell lines (Ocr_OCMM1X & Ocr_OCMM2X) were produced through mouse xenografts originating from two clinically contrasting melanomas of the oral cavity. Their exhaustive characterization showed two distinct biological and genetic profiles that are potentially linked to the stage of malignancy at the time of diagnosis and sample collection of each melanoma case. These cell lines thus constitute relevant tools with which to perform genetic and drug screening analyses for a better understanding of mucosal melanomas in dogs and humans.ConclusionsThe aim of this study was to establish and characterize xenograft-derived canine melanoma cell lines with different morphologies, genetic features and pharmacological sensitivities that constitute good predictive models for comparative oncology. These cell lines are relevant tools to advance the use of canine mucosal melanomas as natural models for the benefit of both veterinary and human medicine.Electronic supplementary materialThe online version of this article (10.1186/s12885-018-5114-y) contains supplementary material, which is available to authorized users.

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An end‐to‐end urethral anastomosis after inguinal tunnelization: a new technique in a dog

Minier

Bemelmans²,

Benoît

2015

J of Small Animal Practice

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An 8-year-old male dog was presented with a peri-urethral intrapelvic mass with the characteristics of a sarcoma on computed tomography and cytology evaluation. A two-step procedure leading to a permanent urinary diversion was performed. During the same procedure, the caudal pelvic urethra and mass were resected and an extrapelvic anastomosis of the pelvic portion of the urethra to its penile portion was performed after passage of the pelvic urethra through the inguinal canal. The procedure successfully produced a tension-free end-to-end urethral anastomosis and no complications were observed during the postoperative period. Histologically, the lesion was reported as a narrowly excised liposarcoma. A 4-week course of curative intent of radiotherapy was initiated 2 weeks after surgery. Eight months later, the dog was free of clinical signs.

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Real-time molecular diagnosis of tumors using a novel laser-based mass spectrometry technology. Saudemont P.

Saudemont¹,

Quanico²,

Fatou³

et al. 2019

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Real-Time Molecular Diagnosis and Margin Definition of Tumors Based on a Novel Laser-Based Mass Spectrometry Technology

et al. 2018

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Surgical removal of intestinal foreign bodies using a laparotomy‐assisted endoscopic approach in dogs and cats and comparison with enterotomy

Demars

Boland²,

Minier

2022

J of Small Animal Practice

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To describe a novel surgical technique for intestinal foreign body removal without enterotomy using a laparotomy-assisted endoscopic approach and compare short-term outcomes to enterotomy.Materials and MethOds: Medical records of dogs and cats with intestinal foreign bodies that underwent attempted treatment with a laparotomy-assisted endoscopic approach between June 2019 and July 2021 were extracted. The approach consisted in manoeuvring the intestinal foreign body into the stomach during laparotomy and then removing it via a gastroscopy. If the foreign body was unmovable, an enterotomy was performed.results: Fifty-eight cases were enrolled and foreign bodies were successfully removed in 25 cases using a laparotomy-assisted endoscopic approach. The median distance between the pylorus and the proximal part of the foreign body was 55 cm (range: 0 to 300). The mean surgical time and median endoscopic time were 49 minutes (±sd 12.8) and 5 minutes (range: 2 to 28), respectively. All but two cases were discharged 1 day postoperatively. In 20 cases, the foreign body was not easily movable, and an enterotomy was performed. In three of these cases, conversion to enterotomy was required due to serosal tears that occurred as a consequence of the attempted retrograde manipulation of the foreign body. Foreign body width, length and distance to pylorus were not significantly different between the two techniques.Mean surgical time was significantly shorter for laparotomy-assisted endoscopic approach compared to enterotomy: 49 minutes (±SD 12.8) versus 61.7 minutes (±SD 14.6). clinical significance: Surgical removal of intestinal foreign bodies through a laparotomy-assisted endoscopic approach is a feasible technique that offers satisfactory outcomes and shorter surgical time than enterotomy. Retrograde manipulation of the intestinal foreign body may result in serosal tears.

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Can real time molecular analyses change the paradigm of dog sarcoma diagnosis and classification?

Fournier

Saudemont

Quanico

et al. 2018

Journal of Biotechnology

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Kévin Minier

Real-Time Molecular Diagnosis of Tumors Using Water-Assisted Laser Desorption/Ionization Mass Spectrometry Technology

Isolation and characterization of two canine melanoma cell lines: new models for comparative oncology

An end‐to‐end urethral anastomosis after inguinal tunnelization: a new technique in a dog

Real-time molecular diagnosis of tumors using a novel laser-based mass spectrometry technology. Saudemont P.

Real-Time Molecular Diagnosis and Margin Definition of Tumors Based on a Novel Laser-Based Mass Spectrometry Technology

Surgical removal of intestinal foreign bodies using a laparotomy‐assisted endoscopic approach in dogs and cats and comparison with enterotomy

Can real time molecular analyses change the paradigm of dog sarcoma diagnosis and classification?

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