Gif hq290

Manufactured by Olympus

Sourced in Japan

The GIF-HQ290 is a high-quality, compact imaging system designed for laboratory applications. It features a high-resolution camera and advanced optics for capturing detailed images and video. The core function of the GIF-HQ290 is to provide users with a reliable and efficient tool for visual analysis and documentation in a variety of laboratory settings.

Automatically generated - may contain errors

Lab products found in correlation

Gif h260, by Olympus (12 mentions) Gif h290z, by Olympus (9 mentions) Gif h260z, by Olympus (8 mentions) Gif h290, by Olympus (8 mentions) Gif q260, by Olympus (6 mentions) Gif xp290n, by Olympus (4 mentions) Gif q260j, by Olympus (4 mentions) Eg l590zw, by Fujifilm (3 mentions) Kd 650q, by Olympus (2 mentions) Kd 650l, by Olympus (2 mentions) Gif h260j, by Olympus (2 mentions) Gif xq260, by Olympus (2 mentions) Eg 590wr, by Fujifilm (2 mentions) Vp 4450hd, by Fujifilm (2 mentions) Kd 610l, by Olympus (2 mentions) Vio300d, by Erbe (2 mentions) Gif xp260n, by Olympus (2 mentions) Gif q240z, by Olympus (1 mentions) Elite system, by Olympus (1 mentions) D 201 11804, by Olympus (1 mentions)

37 protocols using gif hq290

VP-PDT Irradiation Protocol for Cell Culture

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We used the 35-mm dish for culture and crystal violet staining because the NBI irradiation light for VP-PDT is uneven irradiation. The cells were treated with VP in a serum-free medium for 15 min in the dark and then irradiated with NBI light (GIF-HQ290 and EVIS X1 CV-1500; Olympus, Co., Tokyo, Japan) at 2.5 J/cm² for 70 s (35.7 mW/cm²) or 5 J/cm² for 140 s (35.7 mW/cm²). We irradiated the treated cells with NBI light under certain conditions: dark, irradiation distance 18 mm, iris mode average, brightness adjustment +8 (GIF-HQ290 and EVIS X1 CV-1500; Olympus, Co., Tokyo, Japan).

Nakada Y., Sugihara T., Tanaka M., Hamamoto W., Kanda T., Sakaguchi T., Kurumi H., Onoyama T., Ikebuchi Y., Takata T., Isomoto H, & Yamaguchi N. (2024). The Potential of Narrow-Band Imaging as a Novel Light Source for Photodynamic Therapy for Superficial Cancers via Endoscopes. Gastroenterology Research, 17(2), 72-81.

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Magnifying Endoscopy and NBI-Guided Iodine Staining

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A conventional magnifying endoscope (GIF-H260Z; Olympus Corporation, Tokyo, Japan) or Dual-Focus endoscope (GIF-HQ290; Olympus Corporation, Tokyo, Japan) was used in this study. We used a black rubber distal attachment (MB-46 [Olympus, Tokyo, Japan] for GIF-H260Z or MAJ-1989 [Olympus, Tokyo, Japan] for GIF-HQ290) on the tip of the endoscope to maintain the focal distance between the tip of the scope and it facilitated precise focusing during the magnification observation to inspect the esophagus in all eligible patients. All endoscopic examinations were performed under conscious sedation using intravenous flunitrazepam (0.2–0.8 mg, Rohypnol; Chugai Pharmaceutical, Tokyo, Japan) and pethidine hydrochloride (17.5–35 mg, Pethidine; Takeda Pharmaceutical, Osaka, Japan). Patients were initially examined by NBI. After observation of the stomach and duodenum, LCE was performed using 1.5% iodine solution. All procedures were performed by expert endoscopists, who were Japan Gastroenterological Endoscopy Society board-certified instructors with NBI examination experience of >1,000 cases.

Ono S., Dobashi A., Furuhashi H., Koizumi A., Matsui H., Hara Y, & Sumiyama K. (2021). Characteristics of superficial esophageal squamous cell carcinomas undetectable with narrow-band imaging endoscopy. Gastroenterology Report, 9(5), 402-407.

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Lugol Dye-staining Protocol for Esophageal Neoplasia

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In the current study, endoscopic procedures were performed according to a standard protocol using a conventional endoscope (GIF-HQ290; Olympus Optical, Tokyo, Japan). LCE of the esophageal mucosa was performed using the Lugol dye-staining method. A 1.0% solution of Lugol dye was used in this study. The grading of staining patterns was divided into four groups (18 ): hyperstaining (grade I); normal greenish-brown staining (grade II); understained (grade III); and unstained (grade IV) (Figure 1). Grades I–II were considered benign and defined as LCE negative, whereas grades III–IV were considered neoplastic lesions and defined as LCE positive. All endoscopic procedures were performed by experienced endoscopic physicians who had performed greater than 10,000 gastroscopies.

Guo Z., Meng L., Tian S., Chen L., Shi H., Fan M, & Lin R. (2022). A Five-Parameter Logistic Model to Predict the Possibility of Misdiagnosis for Improving the Specificity of Lugol Chromoendoscopy in the Diagnosis of Esophageal Neoplastic Lesions. Frontiers in Oncology, 11, 763375.

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Endoscopic Ablation of Gastric Neoplasms

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APC treatment was performed when the gastric neoplasms of less than 1 cm confined to mucosa, or when the patients or lesions met the following criteria: (1) when the patient is elderly or unable to perform long-term procedure due to poor cooperation; (2) when the patient has high risk conditions such as severe coagulopathy or heart failure; or (3) when the lesions are untreatable by endoscopic resection because of unclear margins, non-lifting sign, or technically difficult area. Patients were under conscious sedation with intravenous midazolam (0.05 mg/kg) and pethidine (50 mg). Their cardiorespiratory functions were monitored continuously during the procedure. All APCs were performed by experienced gastrointestinal endoscopists (J.Y.A., H.K.N., K.W.J., J.H.L., D.H.K., K.D.C., H.J.S., G.H.L., and H.Y.J.) using a single-channel endoscope (GIF-H260 or GIF-HQ290; Olympus Optical Co. Ltd, Tokyo, Japan). For APC (APC 300; Erbe Electromedicine, Tübingen, Germany), after confirming the lesion, saline containing epinephrine (0.01 mg/mL) and indigo carmine was submucosally injected using a 23-gauge needle, and the lesion was ablated using APC. The gas flow rate was 1.8 L/min, and the electrical current was set at either 60 or 80 W.

So S., Noh J.H., Ahn J.Y., Na H.K., Jung K.W., Lee J.H., Kim D.H., Choi K.D., Song H.J., Lee G.H, & Jung H.Y. (2021). Effect of Antithrombotic Therapy on Bleeding after Argon Plasma Coagulation for Gastric Neoplasms. Gut and Liver, 16(2), 198-206.

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Magnifying Endoscopy with NBI Examination

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Four types of upper gastrointestinal endoscope (GIF-Q240Z, GIF-H260Z, GIF-RQ260Z, and GIF-HQ290; Olympus Optical Co., Tokyo, Japan) were used in this study. Magnifying endoscopy with narrow-band imaging (NBI) was performed in all cases apart from one patient who underwent endoscopic examination with GIF-HQ290. Biopsies were performed in all cases.

Hamada K., Uedo N., Kubo C., Tomita Y., Ishihara R., Yamasaki Y., Omori M., Arao M., Suzuki S., Iwatsubo T., Kato M., Tonai Y., Shichijo S., Matsuura N., Nakahira H., Kanesaka T., Yamamoto S., Akasaka T., Hanaoka N., Takeuchi Y., Higashino K., Okada H, & Iishi H. (2019). Endoscopic appearance of esophageal xanthoma. Endoscopy International Open, 7(10), E1214-E1220.

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Endoscopic Sedation and Imaging Protocols

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An Olympus Elite system and an Olympus scope including GIF‐HQ290, GIF‐H290Z, GIF‐H260, GIF‐XP290N, or GIF‐260N (Olympus, Tokyo, Japan) were used. Sedation with midazolam and/or pethidine was induced based on the patient's willingness.²⁶, ²⁷ The choice of oral or nasal endoscopy was based on patient preference and tolerability.²⁸ The T‐File System (STS‐Medic Inc., Tokyo, Japan) was used for filing endoscopic images and documentation of the endoscopic findings. The Kyoto classification score was evaluated and was entered into the database of the T‐File System by each endoscopist.

Toyoshima O., Nishizawa T., Sakitani K., Yamakawa T., Takahashi Y., Kinoshita K., Torii A., Yamada A., Suzuki H, & Koike K. (2020). Helicobacter pylori eradication improved the Kyoto classification score on endoscopy. JGH Open: An Open Access Journal of Gastroenterology and Hepatology, 4(5), 909-914.

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Endoscopic Submucosal Dissection: A Detailed Protocol

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All ESD procedures were performed in hospitalized patients. Immediately before the procedure, midazolam hydrochloride or propofol was administered intravenously for sedation. All patients were examined using a video endoscope with or without a water-jet function (GIF-HQ290, GIF-Q260, and GIF-H260; Olympus, Tokyo, Japan) while lying in the left lateral decubitus position. After the endoscopic examination of the gastric lesions, the area surrounding each lesion was marked using argon plasma coagulation (VIO 300D; ERBE, Tübingen, Germany). A saline solution containing epinephrine (0.01 mg/mL) and 0.8% indigo carmine was injected into the submucosal layer to elevate the lesion from the muscle layer. A dual knife (KD-650Q; Olympus, Tokyo, Japan) or insulated-tip knife (KD-610L; Olympus Optical, Tokyo, Japan) was used to make a circumferential incision and dissection. Hemoclips or hemostatic forceps were used to control the bleeding or exposed vessels. All patients underwent chest and abdominal radiography immediately after ESD and on the first day after ESD to detect adverse outcomes, such as pneumonia or perforation. After ESD, all patients were administered proton pump inhibitors for 4–8 weeks.

Yun H.R., Huh C.W., Jung D.H., Lee G., Son N.H., Kim J.H., Youn Y.H., Park J.C., Shin S.K., Lee S.K, & Lee Y.C. (2022). Machine Learning Improves the Prediction Rate of Non-Curative Resection of Endoscopic Submucosal Dissection in Patients with Early Gastric Cancer. Cancers, 14(15), 3742.

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Endoscopic Submucosal Dissection Technique

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All ESD procedures were performed by three expert ESD endoscopists (B.W.K., B.I.L., J.S.K). Patients were moderately sedated with midazolam and propofol, while the ESD was performed. A video endoscope with a water-jet function (GIF-HQ290, GIF-Q260J; Olympus, Tokyo, Japan) was used. A disposable distal transparent cap (D-201-11804; Olympus, Tokyo, Japan) was mounted on the tip of the endoscope in all cases. To identify the target lesion, chromoendoscopy with Lugol’s solution or narrow band imaging with magnification was used. The area around the lesion was marked with argon plasma coagulation. A mixture of 10% glycerol solution and diluted epinephrine (1:200,000) was injected into the submucosal layer under the lesion. Epinephrine (1:1000, total epinephrine 1 mg) were mixed in a 200-mL container of Glycerol, and 8 mL of the solution was drawn into 10-mL disposable syringe to use for SSEN. Carbon dioxide was used for the insufflation. The ESD procedure was performed mainly with a dual knife (KD-650Q; Olympus,Tokyo, Japan) or with an IT-knife 2 (KD-610L; Olympus, Tokyo, Japan) or with hook knife (KD-620LR; Olympus, Tokyo, Japan). Hemostatic forceps (Coagrasper, FD-410LR; Olympus, Tokyo, Japan) with a soft coagulation mode were used to control bleeding during the procedure.

Huh C.W., Lee H.H., Kim B.W., Kim J.S., Lee B.I., Lim C.H, & Kim J. (2018). Predictive factors of submucosal fibrosis before endoscopic submucosal dissection for superficial squamous esophageal neoplasia. Clinical and Translational Gastroenterology, 9(6), 159.

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Esophageal Disorder Evaluation Protocol

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EGD (GIF-HQ290; Olympus, Tokyo, Japan) was recommended for evaluation of esophageal structure disorder (e.g., esophageal cancer, peptic stricture, scleroderma) [2 (link),13 (link)–15 (link)]. Chest CT was performed in some cases to further evaluate cancer [16 (link)] or to evaluate extrinsic compression [17 ].

Park J., Baek S., Kim G., Nam S.J, & Kim J.H. (2022). Esophageal Motility Disorders in Patients With Esophageal Barium Residue After Videofluoroscopic Swallowing Study. Annals of Rehabilitation Medicine, 46(5), 237-247.

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Endoscopic Evaluation of Scleroderma

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EGD examinations were performed in 41 SSc patients using the GIF-HQ290 or GIF-Q260 endoscope (Olympus Medical Systems Corp, Tokyo, Japan) with/without narrow band imaging by 2 gastroenterologists (T.H.L. and J.S.L.) at our center. Five patients in whom EGD was performed at an outside hospital were excluded from our analysis. A cervical inlet patch was identified as a well-circumscribed, pinkish-yellow area with a distinct border during white light endoscopy. Reflux esophagitis was defined as grade A or more severe, in accordance with the Los Angeles classification.^{19 (link)} The gastroesophageal flap valve, which is created by intraluminal extension of the angle of His, was graded I to IV according to the grading system recently described by Hill et al.^{20 (link)}

Lee J.S., Kim H.S., Moon J.R., Ryu T., Hong S.J., Cho Y.S., Park J, & Lee T.H. (2020). Esophageal Involvement and Determinants of Perception of Esophageal Symptoms Among South Koreans With Systemic Sclerosis. Journal of Neurogastroenterology and Motility, 26(4), 477-485.

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