Introduction

Measuring fluid volume in emergency departments and intensive care units (ICUs) is critical for patient care. Accurate determination and regulation of fluid balance can significantly impact patient prognosis, either promoting recovery or leading to deterioration [1].

Volume evaluation is a vital component of the therapeutic decision-making process in intensive care. Differentiating between hypovolemia, euvolemia, and hypervolemia is crucial, as each state has a significant impact on patient outcomes. Inadequate volume assessment can lead to severe consequences, including untreated shock, unnecessary fluid administration, pulmonary edema, impaired organ function, and increased mortality [2].

Determining a patient's volume status requires a multifaceted approach that incorporates clinical assessments, hemodynamic measurements, and the interpretation of diagnostic imaging and laboratory tests. Traditional methods rely on physical indicators such as skin turgor, capillary refill time, and vital signs. More advanced techniques include measuring central venous pressure, using pulmonary artery catheters, and employing ultrasound to evaluate metrics such as inferior vena cava (IVC) diameter and respiratory fluctuations [3]. While Saudi medical personnel receive training in assessing fluid volume, there is still room for improvement in their knowledge and methods. Studies highlight the need for expanded educational initiatives focused on effective hydration therapy and advanced assessment methodologies [4,5]. With the shift toward evidence-based medicine, continuous professional development aligned with current scientific advancements is essential.

Improving practices can involve standardizing fluid volume assessment protocols across healthcare institutions, integrating advanced technologies and methods into routine care, conducting hands-on workshops and simulation training, emphasizing fluid management in ongoing medical education, and promoting research on fluid resuscitation and management. Non-invasive ultrasound techniques, particularly IVC collapsibility studies, are gaining popularity due to their accuracy and minimal patient discomfort. Additionally, complex hemodynamic measurements such as stroke volume variation are gaining traction for their ability to provide precise insights into a patient’s volume status [6].

However, several barriers complicate the accurate assessment of volume status, including educational gaps, resistance to adopting new technologies, inconsistent standards, and clinical inertia. The shift toward non-invasive methods, such as point-of-care ultrasonography (POCUS), may encounter resistance due to limited awareness and promotion among healthcare professionals [7].

Appropriate fluid management is essential to prevent serious complications or fatal outcomes. Overhydration can lead to pulmonary edema and heart failure, whereas under-resuscitation may result in poor tissue perfusion, multiple organ failure, and shock [8]. Emergency departments and ICUs care for patients with complex medical conditions, requiring a thorough understanding of fluid volume status [4]. For example, patients with septic shock require carefully tailored fluid management to avoid fluid overload.

Saudi Arabia demonstrates a strong commitment to medical education and ongoing professional development through its training programs, fellowships, and specialized seminars, which address topics such as fluid management and hemodynamic monitoring [5]. Expanded POCUS training enables clinicians to perform non-invasive volume assessments at the bedside. Enhancing the skills of Saudi emergency medicine (EM) and ICU physicians in fluid volume assessment is crucial for delivering high-quality intensive care. To improve patient outcomes, it is essential to strengthen educational and training programs, standardize clinical procedures, and incorporate advanced hemodynamic monitoring technologies. Educational efforts should prioritize practical applications of volume assessment techniques and encourage active engagement with various monitoring tools [9].

Periodic reviews of clinical practices, research into local procedures, and international collaboration can help address knowledge gaps and promote quality improvement [10]. Considering Saudi Arabia's unique patient demographics and healthcare challenges, emphasis should be placed on region-specific assessment strategies, cultural competence, and ethically grounded clinical decision-making. As emergency and intensive care medicine continue to evolve, physicians must pursue ongoing professional development to maintain proficiency in core competencies, including volume assessment, which is crucial for improving patient outcomes in emergency departments and ICUs in Saudi Arabia [9,11,12].

Modern technologies and monitoring systems are being increasingly adopted in emergency departments and ICUs in Saudi Arabia. Significant progress has been made in the healthcare sector, aligning with the objectives of Saudi Vision 2030 to improve healthcare quality. Nevertheless, further improvement is needed in the fluid volume assessment practices of EM and ICU physicians [13].

This study aimed to assess the current knowledge and application of fluid volume assessment methods among Saudi EM and ICU physicians, highlighting the urgent need for improvement in this critical area.

Materials and methods

Study design, setting, and time

This quantitative cross-sectional study was conducted in Saudi Arabia from January 2024 to January 2025. Following an extensive literature review, the questionnaire was validated by a panel of four experts, including two EM consultants with ultrasound fellowship training and two senior ICU consultants, to ensure clinical relevance and content validity. Before implementing the survey, a pilot study was conducted with a small group of EM and ICU physicians.

Study participants

The inclusion criteria included all physicians working in emergency departments and ICUs, while the exclusion criteria were physicians not working in these two settings. A purposive sample was selected.

Data collection

Data were collected through an online questionnaire distributed via Google Forms (Google LLC, Mountain View, CA, USA). Participation was voluntary, and informed consent was obtained electronically. All data were anonymized to ensure participant confidentiality and privacy.

The first section of the questionnaire assessed participants’ demographic characteristics, work-related information (specialty, postgraduate level, and years of practicing in EM/ICU), and their level of confidence in volume assessment methods and the use of POCUS. The second section evaluated physicians’ knowledge and awareness of volume assessment, while the third section focused on their related practices.

A score of "1" was awarded for each correct answer, and a score of "0" was given for each incorrect or "I don't know" response, with a maximum total of 21 points. If a participant’s score was below 60% of the total, their overall knowledge level was considered poor; a score of 60% or higher was rated as good knowledge [14,15].

Ethical considerations

Ethical approval for the study was obtained from the Research Ethics Committee of King Abdulaziz University (approval number: 147-24; approval date: March 12, 2024).

Data analysis

The data were analyzed using SPSS Statistics version 26 (IBM Corp., Released 2019. IBM SPSS Statistics for Windows, Version 26.0. Armonk, NY: IBM Corp.). To examine the relationship between the variables, the chi-squared test (χ²) was used for qualitative data presented as numbers and percentages. The mean and standard deviation (mean ± SD) were used for quantitative variables. A p-value of less than 0.05 was considered statistically significant.

Results

Of the 114 physicians studied, 92 (80.7%) were between the ages of 25 and 35. There were 65 males (57%), and 96 (84.2%) were of Saudi nationality. Among them, 70 (61.4%) were EM physicians, and 44 (38.6%) were ICU physicians. Regarding postgraduate level, 50 (43.9%) were resident "board," and 34 (29.8%) were general practitioners (GPs). More than half (68, 59.6%) had less than five years of practice. Approximately 46 (40.4%) reported confidence in the volume assessment method, while 44 (38.6%) were confident in the use of POCUS (Table 1).

Table 1

Distribution of studied participants by demographic characteristics, work-related data, and level of confidence regarding the volume assessment method and the use of POCUS (N=114)

EM: emergency medicine, ICU: intensive care unit, GP: general physician, POCUS: point-of-care ultrasonography

The participants' knowledge of volume assessment is illustrated in Tables 2-4. Forty-eight participants (42.1%) knew that orthostatic hypotension is a physical exam finding indicating low volume status. More than half (62, 54.4%) knew that 8-12 mmHg indicates normal central venous pressure. In comparison, 54 participants (47.4%) knew that three or more B-lines in a longitudinal plane between two ribs in two or more regions, bilaterally, indicate hypervolemia on a lung scan. About 61 participants (53.5%) knew that an IVC diameter ≤2.1 cm and collapsibility >50% during inspiration indicate fluid responsiveness in an IVC scan of a spontaneously breathing patient. In comparison, 51 participants (44.7%) knew that an IVC diameter >2.1 cm with collapsibility <50% during inspiration indicates hypervolemia on an IVC scan in a spontaneously breathing patient. Fifty-one participants (44.7%) knew that, in mechanically ventilated patients, a distensibility index of >18% indicates fluid responsiveness using the formula (maximum diameter - minimum diameter) / minimum diameter. As for the formula to calculate stroke volume variation, 53 participants (46.5%) correctly identified that it is SVV = (maximum SV - minimum SV) / mean SV.

Table 2

Comparison of EM and ICU physicians' knowledge and awareness of volume assessment (N=114)

* correct answer

SVV: stroke volume variation, SV: stroke volume, IVC: inferior vena cava, EM: emergency medicine, ICU: intensive care unit

Table 3

Continuation of the comparison between EM and ICU physicians based on their knowledge and awareness of volume assessment (N=114)

* correct answer

IVC: inferior vena cava, SvO2: mixed venous saturation, EM: emergency medicine, ICU: intensive care unit

Table 4

Comparison between EM and ICU physicians regarding the best indicators for when a fluid bolus would be beneficial in a given case scenario, and the incorrect option related to fluid responsiveness for guiding fluid administration and hemodynamic monitoring (N=114)

* correct answer

EM: emergency medicine, ICU: intensive care unit

Of the participants, 48 (42.1%) knew that pulmonary capillary wedge pressure measures left ventricular preload, and 37 (32.5%) knew that left ventricular stroke volume index is the best measurement of contractility. Only 34 (29.8%) knew that aortic regurgitation is a factor that may contribute to an underestimation of cardiac output. In comparison, only 21.1% knew that the PiCCOpuls system (Pulsion Medical Systems, Bavaria, Germany) cannot record pulse pressure variation. Almost one-third of the studied physicians (37, 32.5%) knew that the PiCCO monitor combines pulse contour analysis and transpulmonary thermodilution to provide continuous measurement of cardiac output and intermittent assessment of intrathoracic blood volume and extravascular lung water. Only 33 (28.7%) knew that clinical assessment could not check for fluid responsiveness. When EM physicians were compared to ICU physicians based on their responses to knowledge items, it was found that ICU physicians had a significantly higher prevalence of knowledge that in mechanically ventilated patients, a distensibility index of >18% indicates fluid responsiveness using the formula (maximum diameter - minimum diameter) / minimum diameter (61.4% vs. 34.3%) (p<0.05). On the other hand, no significant difference was found between EM physicians and ICU physicians for all other knowledge items (p>0.05) (Table 2).

Table 3 shows that most of the studied physicians (73, 64%) agreed that a central venous pressure of 4 mmHg is most likely associated with fluid responsiveness. Additionally, 69 (60.5%) agreed that in the end-expiratory occlusion test, if expiration is held for 15 seconds and cardiac output increases by more than 5%, this indicates fluid responsiveness. At the same time, 73 (64%) knew that in the albumin challenge test, cardiac output increases by more than 10% in a fluid-responsive patient. Fifty (43.9%) reported that it is false that a mixed venous saturation (SvO2) of 56% (80%) indicates hypoperfusion and a poor prognosis. In comparison, 58 (50.9%) reported that it is incorrect to use the collapsibility index to assess the IVC in mechanically ventilated patients on ultrasound. More than half (62, 54.4%) reported that it is false that Swan-Ganz catheter indications include right-sided endocarditis, tricuspid and pulmonary mechanical valve prostheses, and arrhythmias. It was revealed that EM physicians had a significantly higher percentage of those who correctly disagreed that Swan-Ganz catheter indications include right-sided endocarditis, tricuspid and pulmonary mechanical valve prostheses, and arrhythmias (p<0.05).

Only 41 (36%) participants knew that a 12% increase in stroke volume from a passive leg raise would be the best indicator that a fluid bolus would be beneficial. In comparison, 53 (46.5%) knew that, concerning fluid responsiveness to guide fluid administration and hemodynamic monitoring, the statement “in non-intubated patients, the passive leg raise test and the mini-fluid challenge are not suitable” is incorrect. No significant difference was found between the EM Physicians and the ICU Physicians for the previous two knowledge items (p>0.05) (Table 4).

Regarding the physicians’ practices related to volume assessment, the most commonly used methods were physical examination (83, 72.8%), POCUS (71, 62.3%), chest X-ray (59, 51.8%), and laboratory biomarkers (58, 50.9%). In comparison, the most commonly used lab biomarkers to predict a patient's volume status were serum lactate (65, 57%) and serum blood urea nitrogen (58, 50.9%). The majority (85, 74.6%) used focused cardiac assessment, including IVC assessment, to evaluate the patient’s volume. It was found that ICU physicians had a significantly higher prevalence of using Doppler ultrasound (e.g., assessing common carotid artery blood flow with passive leg raise) to evaluate a patient’s volume compared to EM physicians (36.4% vs. 17.1%) (p<0.05). On the other hand, no significant difference was found between the EM physicians and the ICU physicians in all other practices related to volume assessment (p>0.05) (Table 5).

Table 5

Comparison of EM and ICU physicians' practices of volume assessment (N=114)

EVLW: extravascular lung water, EM: emergency medicine, ICU: intensive care unit, IVC: inferior vena cava, CO2: carbon dioxide

The mean knowledge score was 9.11 ± 3.09. Based on the knowledge score classification, only 17 (14.9%) of the studied physicians had a good knowledge level of volume assessment, while the majority (97, 85.1%) had a poor knowledge level.

Table 6 demonstrates that, although the prevalence of a good knowledge level of volume assessment was higher among younger physicians (25-35 years, 82.4%), males (76.5%), and those of non-Saudi nationality (82.4%), none of these associations were statistically significant (p>0.05). Additionally, the prevalence of good knowledge was higher among EM physicians (58.8%), residents (58.8%), those with less than five years of practice (76.5%), and those with neutral confidence in the volume assessment method and the use of POCUS. However, none of these associations were significant (p>0.05).

Table 6

Relationship between knowledge level of volume assessment among the studied physicians and their demographics, work-related data, confidence level regarding volume assessment methods, and the use of POCUS (N=114)

POCUS: point-of-care ultrasonography

When participants were categorized by postgraduate level in each specialty, no significant difference was found between categories in knowledge of volume assessment (p>0.05) (Figure 1).

Figure 1

Relationship between knowledge levels of volume assessment and post-graduate levels across specialties

N.B.: (χ2 = 7.95, p-value = 0.539)

ICU: intensive care unit, EM: emergency medicine

Discussion

This study aimed to evaluate the existing understanding and use of fluid volume measurement methods among EM and ICU physicians. The study's findings provided vital insights into the current state of knowledge, confidence, and practical application of fluid volume assessment procedures among EM and ICU physicians in Saudi Arabia.

A particularly concerning finding is that many respondents lack confidence in accurately determining volume status. Specifically, only 40.4% were confident in their assessment procedures, while 38.6% felt competent in using POCUS for this purpose. This sobering information emphasizes the urgent need for targeted educational activities to improve healthcare personnel's skills in fluid management procedures, which are critical for patient care.

Several studies have thoroughly established the vital importance of accurate volume assessment when treating critically ill patients. Misjudgments about fluid status, whether hypovolemia or hypervolemia, can have disastrous consequences, including increased morbidity and mortality [1,2,16]. The significant gaps in knowledge and self-assurance among the participating physicians highlight the urgent need for standardized training programs to improve clinicians' skills in this critical area of practice.

While it is promising that many physicians recognize the importance of POCUS in volume assessment, its implementation in routine clinical practice remains woefully inadequate. Existing literature supports this argument, revealing that, despite strong data demonstrating POCUS as a reliable and non-invasive method for assessing intravascular volume status, its widespread use is hindered by several constraints. These limitations include restricted access to necessary ultrasound equipment, insufficient training opportunities, and a lack of strong institutional support [17-19]. Nonetheless, evidence strongly suggests that POCUS can significantly improve diagnostic accuracy and clinical decision-making in critically ill patients, making it an essential tool in emergency departments and ICUs [20]. Overcoming the current reluctance to utilize this technology requires the development of structured training programs and seminars that can be seamlessly integrated into residency training and ongoing professional education.

The study found considerable regional variations in POCUS training and knowledge among physicians. Those working in urban and resource-rich areas were significantly more proficient in using ultrasonography than their counterparts in rural or under-resourced settings. According to reports, most non-academic and rural emergency departments in Saudi Arabia have poor work environments [21]. This trend indicates ongoing inequitable access to new medical technologies and training, ultimately leading to disparities in clinical practice standards among healthcare facilities [22]. Addressing these inequities is not merely a matter of fairness; it is essential to advancing healthcare quality. Healthcare policymakers must prioritize programs that ensure equitable access to training resources, essential equipment, and standardized techniques for measuring fluid volume throughout Saudi Arabia.

The current study found that only 53.5% of participants understood that an IVC diameter ≤2.1 cm with collapsibility >50% during inspiration suggests fluid responsiveness in spontaneously breathing patients. Meanwhile, 44.7% recognized that an IVC width >2.1 cm with collapsibility <50% on inspiration suggests hypervolemia in these patients. Although ultrasonographic evaluation is known to be dependent on the sonographer's experience, Fields et al. found that M-mode IVC diameter measurements performed by EM residents after a brief training course demonstrated a high degree of inter-rater reliability [23].

According to the current study's findings, only 14.9% of participants demonstrated a strong knowledge of volume evaluation. Aalam et al. reported that while all EM residency training programs in Saudi Arabia are of reasonably high quality, as measured by the Postgraduate Hospital Educational Environment Measure instrument, Saudi EM trainees felt less competent in managing multiple emergencies and perceived faculty supervision and educational interest as weaker [24]. These findings were attributed to fewer formal didactic sessions and limited simulation experience in Saudi Arabia. Aalam et al. recommended several improvements, including incorporating simulation into the EM curriculum and making relevant policy and regulatory adjustments.

The relationship between physician experience and confidence in volume assessment approaches is both important and informative. Physicians with more than 15 years of clinical practice were significantly more confident than their less experienced counterparts. These data highlight the critical role that clinical exposure plays in skill development, emphasizing the importance of rigorous hands-on training and mentorship programs that aim to bridge knowledge gaps among junior practitioners [25]. Furthermore, introducing simulation-based training into medical education provides a highly effective way for physicians to fine-tune their volume assessment skills in a safe and controlled setting before applying them in real-world scenarios [26].

Fluid management errors can result in longer hospital stays, increased healthcare costs, and higher morbidity and mortality rates among critically ill patients [27]. The ability to perform accurate and rapid volume assessments becomes crucial in emergencies such as septic shock, acute renal injury, and heart failure [28]. Consequently, incorporating systematic, evidence-based fluid management strategies is not only beneficial but also essential for improving patient outcomes and optimizing resource utilization.

Careful monitoring of volume status and fluid delivery is a key predictor of outcomes in critically ill patients [29]. Enhancing emergency care is therefore a vital step toward achieving universal health coverage, and the World Health Organization recognizes it as "an essential part of integrated healthcare delivery" [30].

A notable strength of this study is that it is the first conducted in Saudi Arabia to assess the level of knowledge of volume assessment among EM and ICU physicians. However, the use of a purposive sample necessitates future national studies with larger samples to validate the observed results.

Conclusions

This study highlighted the poor knowledge of fluid volume assessment among EM and ICU physicians in Saudi Arabia, with the majority lacking essential proficiency. Structured training in both basic principles and advanced tools, such as POCUS, is crucial. Integrating comprehensive education, hands-on practice, and institutional support will enhance competency. Further research should assess the effectiveness of training and explore strategies to improve adoption. Encouraging continuous learning will help ensure better patient outcomes. Future national studies with larger sample sizes are recommended to confirm the findings of the current study.