Colloids Yes or No? - a “Gretchen Question” Answered

Adamik, Katja‐Nicole; Yozova, Ivayla D.

doi:10.3389/fvets.2021.624049

Cited by 12 publications

(23 citation statements)

References 201 publications

(245 reference statements)

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“…We also tested the 6 wt% HES (130/0.4) as a positive control, which is typically used in clinical formulation and is known to cause severe coagulopathy. [ 7,9–11,33 ] As shown in Figure 6A–C, as expected, the commercial 6 wt% HES (130/0.4) caused a significant delay in clotting time (CT) and clotting formation time (CFT), lower maximum clot firmness (MCF), and much higher maximal lysis (ML). Although 1.6 wt% HES did not adversely affect the onset of clotting or the clot strength, it resulted in significantly higher ML, indicating undesirable interference.…”

Section: Resultssupporting

confidence: 72%

“…[ 7,9–11 ] Similar side effects by other colloids including dextran or modified gelatin have also been reported. [ 7,12 ] As a result, current guidelines have restricted the use of colloids, favoring the use of crystalloids instead. [ 13 ] Clearly, it remains highly desirable to develop new colloidal volume expanders with improved safety and efficacy profiles to fill an important therapeutic gap in resuscitation and critical care.…”

Section: Introductionmentioning

confidence: 64%

“…[ 3 ] Due to this oncotic effect, colloids are considered more effective volume expanders for resuscitation from HS. [ 3,7,8 ]…”

Section: Introductionmentioning

confidence: 99%

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Low‐Fouling Zwitterionic Polymeric Colloids as Resuscitation Fluids for Hemorrhagic Shock

et al. 2022

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Colloids, known as volume expanders, have been used as resuscitation fluids for hypovolemic shock for decades, as they increase plasma oncotic pressure and expand intravascular volume. However, recent studies show that commonly used synthetic colloids have adverse interactions with human biological systems. In this work, a low‐fouling amine(N)‐oxide‐based zwitterionic polymer as an alternative volume expander with improved biocompatibility and efficacy is designed. It is demonstrated that the polymer possesses antifouling ability, resisting cell interaction and deposition in major organs, and is rapidly cleared via renal filtration and hepatic circulation, reducing the risk of long‐term side effects. Furthermore, in vitro and in vivo studies show an absence of adverse effects on hemostasis or any acute safety risks. Finally, it is shown that, in a head‐to‐head comparison with existing colloids and plasma, the zwitterionic polymer serves as a more potent oncotic agent for restoring intravascular volume in a hemorrhagic shock model. The design of N‐oxide‐based zwitterionic polymers may lead to the development of alternative fluid therapies to treat hypovolemic shock and to improve fluid management in general.

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Section: Resultssupporting

confidence: 72%

Section: Introductionmentioning

confidence: 64%

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Low‐Fouling Zwitterionic Polymeric Colloids as Resuscitation Fluids for Hemorrhagic Shock

et al. 2022

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“…Several underlying mechanisms for HES-induced AKI are described as follows: colloid-induced increases in plasma colloid-osmotic pressure and subsequent decreases in filtration pressure and glomerular filtration rate (“hyperoncotic AKI”); accumulation of HES-molecules in tubular epithelial cell lysosomes leading to renal epithelial dysfunction; tubular hyperviscosity and colloid precipitation; forming of occluding casts; and ON ( 1 ). These mechanisms can be reversible, and function may be restored ( 12 ); however, such factors may also be a first step in the development of irreversible cell lesions.…”

Section: Discussionmentioning

confidence: 99%

“…Hydroxyethyl starch (HES) solutions belong to the class of synthetic colloids and comprise modified maize or potato starch suspended in an isotonic crystalloid solution ( 1 ). Since its introduction in the 1970's, several HES products with varying physicochemical properties, such as molecular weight (MW) and degree and pattern of hydroxyethylation, were developed.…”

Section: Introductionmentioning

confidence: 99%

Assessment of Hydroxyethyl Starch (6% HES 130/0.4) Kidney Storage in Critically Ill Dogs: A Post-mortem Prospective Study

et al. 2022

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Objective: Intravenous hydroxyethyl starch (HES) solutions are potentially nephrotoxic due to rapid renal tissue uptake, subsequent osmotic nephrosis, and long-lasting intracellular storage. This study aimed to investigate the severity of intracellular storage of HES in renal tissue samples from critically ill dogs receiving 6% HES 130/0.4.Materials and Methods: Fresh, post-mortem (<2 h after death) renal tissue samples were analyzed through histology, immunohistochemistry (HES 130/0.4-specific antibodies), and electron microscopy for the severity of renal tubular vacuolization (VAC), intravacuolar HES accumulation (ACC), and ultra-structure impairment. Moreover, we investigated the relationship between VAC or ACC grade and HES dose (mL/kg), duration of HES administration (h), and pre-HES plasma creatinine concentrations.Results: Histology revealed that 2/20 dogs (10%) had no, 11/20 dogs (55%) had mild, 5/20 dogs (25%) had moderate, and 2/20 dogs (10%) had severe VAC. Immunohistochemistry revealed that 5/20 dogs (25%) had no, 6/20 dogs (30%) had mild, 7/20 dogs (35%) had moderate, and 2/20 dogs (10%) had severe ACC. Both changes were predominantly found in the distal tubular epithelium of mild and moderate cases, and all tubular segments were affected in severe cases. Seven of 20 dogs (35%) had osmotic nephrosis (ON). On electron microscopy, large granules with an electron-dense content were repeatedly detected in individual cells, mainly in the distal tubules. No correlation was found between cumulative HES dose or duration of HES administration and VAC grade, ACC grade, or presence/absence of ON.Conclusion: A high percentage of dogs had renal tubular HES storage and one-third of dogs showed HES-induced ON. Short-term HES administration caused VAC and ACC, regardless of the dose or duration of administration. In contrast to previous studies, HES 130/0.4 deposits were mainly located in the renal distal tubule.

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Anaesthetic management of three Maine Coon cats undergoing hybrid intervention for treatment of cor triatriatum sinister

Henze

Meira

Toaldo

et al. 2023

Vet Record Case Reports

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This report describes the anaesthetic management of three Maine Coon cats undergoing hybrid cutting balloon dilatation for treatment of cor triatriatum sinister. In cat 1, cor triatriatum sinister was an incidental finding during routine transthoracic echocardiographic screening. Cats 2 and 3 presented with tachypnoea and underwent preoperative therapy with diuretics and antithrombotics. All cats were premedicated with fentanyl. Anaesthesia was co-induced with midazolam and either etomidate (cats 1 and 2) or alfaxalone (cat 3). Sevoflurane, a fentanyl continuous-rate infusion and a dexmedetomidine continuous-rate infusion were used for maintenance of anaesthesia. Intravenous methadone, epidural morphine and methadone, an intercostal block and a subcutaneous wound splash with local anaesthetics complemented the analgesic protocol. Intraoperative complications included arrhythmias, bleeding, hypotension and hypothermia. Postoperative emergence delirium and haemothorax developed in two and one cat, respectively. All three cats recovered well and were discharged home.

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Colloids Yes or No? - a “Gretchen Question” Answered

Cited by 12 publications

References 201 publications

Low‐Fouling Zwitterionic Polymeric Colloids as Resuscitation Fluids for Hemorrhagic Shock

Low‐Fouling Zwitterionic Polymeric Colloids as Resuscitation Fluids for Hemorrhagic Shock

Assessment of Hydroxyethyl Starch (6% HES 130/0.4) Kidney Storage in Critically Ill Dogs: A Post-mortem Prospective Study

Anaesthetic management of three Maine Coon cats undergoing hybrid intervention for treatment of cor triatriatum sinister

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