Difference between revisions of "OHSU Research Ideas"
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! Reference !! Population !! Intervention !! Comparator !! Outcome | ! Reference !! Population !! Intervention !! Comparator !! Outcome | ||
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| − | | [https://dx.doi.org/10.1097/EJA.0000000000001514 Weiniger et al Eur J of Anaes 2022] || 80 non-fasted pregnant women, age 18+, GA 37+ weeks, singleton, cephalad, dilated <= 5 cm, 63 had empty stomachs and 17 had full stomachs at baseline || | + | | [https://dx.doi.org/10.1097/EJA.0000000000001514 Weiniger et al Eur J of Anaes 2022] || 80 non-fasted pregnant women, age 18+, GA 37+ weeks, singleton, cephalad, dilated <= 5 cm, 63 had empty stomachs and 17 had full stomachs at baseline || Double-blind single center RCT with women randomized to low-dose (50) or high-dose (100) epidural fentanyl. || Stomach antrum cross-sectional area (CSA) was measured with gastric US before and 2 hrs after fentanyl administration || No differences between low-dose and high-dose fentanyl groups. |
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| [https://dx.doi.org/10.1097/ALN.0000000000004133 Chassard et al Anesthesiology 2022] || 40 women || Prospective cohort study of 10 parturiants. Each had gastric ultrasound (gUS) to verify empty stomach prior to ingestion of 125 g of yogurt within 5 min. For the epidural group, the meal was consumed within one hour of epidural placement. Serial gUS was performed at 15, 60, 90, and 120 minutes thereafter and fraction of gastric emptying was calculated as [Area_Antral_90 / Area_Antral_15 - 1]*100. || 10 pregnant women at term, 10 non-pregnant women, and 10 parturiants with no labor epidural. || Gastric emptying fraction (higher is better) was 52% (non-pregnant), 45% (pregnant), 7% (parturiants w/o epidural), and 31% (parturiants w/ epidural). Parturiants had delayed gastric emptying compared to non-parturiants, and epidural analgesia actually sped up gastric emptying. | | [https://dx.doi.org/10.1097/ALN.0000000000004133 Chassard et al Anesthesiology 2022] || 40 women || Prospective cohort study of 10 parturiants. Each had gastric ultrasound (gUS) to verify empty stomach prior to ingestion of 125 g of yogurt within 5 min. For the epidural group, the meal was consumed within one hour of epidural placement. Serial gUS was performed at 15, 60, 90, and 120 minutes thereafter and fraction of gastric emptying was calculated as [Area_Antral_90 / Area_Antral_15 - 1]*100. || 10 pregnant women at term, 10 non-pregnant women, and 10 parturiants with no labor epidural. || Gastric emptying fraction (higher is better) was 52% (non-pregnant), 45% (pregnant), 7% (parturiants w/o epidural), and 31% (parturiants w/ epidural). Parturiants had delayed gastric emptying compared to non-parturiants, and epidural analgesia actually sped up gastric emptying. | ||
Revision as of 03:47, 28 October 2023
https://www.mediawiki.org/wiki/Extension:CollapsibleSections
- Does epidural increase gastric emptying in labor?
- Does change in PPV/CO after SCD activation predict fluid responsiveness and how does it compare to SLR?
- Does precedex delay emergence?
- Fentanyl patch instead of remifentanil infusion? What other anesthetics could you deliver via patch? Could you do a patch induction for Peds?
- Which findings on the preop note predict pressors use during the case?
- Does sugammadex interfere with HRT in post-menopausal women?
- Reversible chemical/optical/electromagnetic knockdown/inhibition/interference of pain nuclei/DRG/dorsal column/STT activity in rodents/primates
- EEG/MEP/SSEP patterns in monkeys/humans taking THC vs controls
- Wearable clinical alarms (2 relevant results, 1 highly relevant result)
- VR for IV placement peds (6 articles spanning 2020-2022, 5 RCTs, and a systematic-review and meta-analysis)
- NIBP monitoring from head/neck
- Better way of determining fluid status
- EPIC timeline builder
- Ultrasound vs blind A-line first attempt success rate and complications?
- Novel reversal agents (e.g. volatile anesthetics, propofol, precedex)
Resources
- Schnell lab
- Leimer/Lo lab (THC, NHPs)
- Saugstad lab (EVs)
- Schennings (Gas vs. TIVA risk of post-op delirium, assessed via CAM)
- Schulman (interrogate ICDs for EMI after surgery)
- Austin Peters
- Selva Balkan
- Dale Hodges
- Liz Moss
- Jeff Davis
Neuraxial Labor Analgesia and Gastric Emptying
| Reference | Population | Intervention | Comparator | Outcome |
|---|---|---|---|---|
| Weiniger et al Eur J of Anaes 2022 | 80 non-fasted pregnant women, age 18+, GA 37+ weeks, singleton, cephalad, dilated <= 5 cm, 63 had empty stomachs and 17 had full stomachs at baseline | Double-blind single center RCT with women randomized to low-dose (50) or high-dose (100) epidural fentanyl. | Stomach antrum cross-sectional area (CSA) was measured with gastric US before and 2 hrs after fentanyl administration | No differences between low-dose and high-dose fentanyl groups. |
| Chassard et al Anesthesiology 2022 | 40 women | Prospective cohort study of 10 parturiants. Each had gastric ultrasound (gUS) to verify empty stomach prior to ingestion of 125 g of yogurt within 5 min. For the epidural group, the meal was consumed within one hour of epidural placement. Serial gUS was performed at 15, 60, 90, and 120 minutes thereafter and fraction of gastric emptying was calculated as [Area_Antral_90 / Area_Antral_15 - 1]*100. | 10 pregnant women at term, 10 non-pregnant women, and 10 parturiants with no labor epidural. | Gastric emptying fraction (higher is better) was 52% (non-pregnant), 45% (pregnant), 7% (parturiants w/o epidural), and 31% (parturiants w/ epidural). Parturiants had delayed gastric emptying compared to non-parturiants, and epidural analgesia actually sped up gastric emptying. |
| Bonnet et al BJA 2014 | ||||
SCD hemodynamic effects
| Reference | Population | Intervention | Comparator | Outcome |
|---|---|---|---|---|
| Moady et al IMAJ 2019 | Healthy volunteers and HFrEF patients | Pneumatic sleeve (PS) compression devices applied to both legs from toe to thigh and inflated to a pressure of 50 or 80 mmHg. the same method does not exacerbate symptoms and increases CO via an increase in SV, decreases SVR, and has no effect on HR (see ref 17). | Example | In healthy volunteers, there was increased CO, decrease SVR, and have no effect on HR (see ref 16). HFrEF patients who were medically optimized had no change in any hemodynamic parameter after 60 minutes of PS application, and that they tolerated it well without any increase in their BNP. |
| Bickel et al J of Card Failure 2014 | Patients with HFrEF (mean LVEF 30%) | ISPC devices applied to both legs and cycled every 2 min for 40 min. | Example | Increased CO, SV, and decreased SVR w/o any effect on HR and without causing signs or symptoms of heart failure exacerbation. CVP and atrial size increased during ISPC activation. |
| Gibbons et al Experimental Physiology 2019 | 14 healthy university students | Four 3 minute trials of orthostatic maneuvers (stand-to-squat or thigh cuff compression/release) were done in random order with half of the trials involving ISPC (5 cuffs, peristaltic motion, applied over 200 ms, 65 mmHg, timed to local diastolic phase) of the lower extremity timed to counteract orthostatic changes (return to standing or after thigh-cuff release). Hemodynamic parameters (superficial femoral artery, MAP, Doppler ultrasound cardiac output, total peripheral resistance, middle cerebral artery blood velocity (MCAv), and cerebral tissue saturation index) were measured non-invasively before, during, and after | Example | Decreased TPR, heart rate; increased CO (via increased SV), TSI, and MCAv |
| Helmi et al Future Cardiology 2013 | Example | Example | Example | Example |
| Kiefer et al Anesthesiology 2011 | Example | Example | Example | Example |
| Kwak et al J of Neurosurgical Anesthesiology 2011 | Example | Example | Example | Example |
| Kwak et al Arthroscopy 2010 | Example | Example | Example | Example |
| Fanelli et al J of Clin Anesthesia 2008 | Example | Example | Example | Example |
| Sohn et al Circulation J 2008 | Example | Example | Example | Example |