Tag: hypovolemia

Low Vasopressin in Myalgic Encephalomyelitis/Chronic Fatigue Syndrome (P4-4.006)

Abstract:

Objective: To shed light on the pathophysiology of water homeostasis in patients with Myalgic Encephalomyelitis/Chronic Fatigue Syndrome (ME/CFS), classified by WHO as a neurological disease (ICD 10 code G933).

Background: The complex symptomatology of ME/CFS includes signs suggesting abnormal water homeostasis and hypovolemia. Since many patients report polyuria-polydipsia, we conducted an observational series of plasma and urine osmolality as well as plasma levels of vasopressin (VP) in consecutive patients diagnosed with ME/CFS according to the Canadian Consensus Criteria.

Design/Methods: Plasma and urine osmolality (P-Osm and U-Osm, respectively) and plasma VP levels were measured in 111 patients after overnight fasting and 10-hour fluid deprivation. The clinical routine also included brain MRI and blood chemistry.

Results: Following the fluid deprivation P-Osm was above normal (>292 mOsm/kg) in 61 patients (55.0%) and U-Osm below normal (< 750 mOsm/kg) in 74 patients (66.7%). VP-levels were below the level of detection (<1.6 pg/mL) in 91 patients (82.0%). A normal level of VP in relation to their P-Osm was found in 11 patients (9.9 %). The state resembling a central type of diabetes insipidus (cDI) would in the absence of hypophyseal imaging findings and blood chemistry consistent with any other hypophyseal hormonal defect be classified as idiopathic.

Conclusions: Our findings suggest that deficiency of vasopressin secretion is a fundamental measurable part of the disease mechanisms, which may underlie a number of symptoms in ME/CFS, including the common complaint of orthostatic intolerance.

Source: Helena Huhmar, Lauri Soinne, Per Sjögren, Bo Christer Bertilson, Per Hamid Ghatan, Björn Bragée, and Olli Polo. Low Vasopressin in Myalgic Encephalomyelitis/Chronic Fatigue Syndrome (P4-4.006) Neurology, April 9, 2024 issue 102 (17_supplement_1) https://doi.org/10.1212/WNL.000000000020576 https://www.neurology.org/doi/10.1212/WNL.0000000000205761

Long COVID: A Chronic Shortage of Blood. Pathophysiology and Treatment Proposal

Abstract:

My hypothesis is that the signs and symptoms of Long COVID can be explained by a shortage of blood in the body and a resulting deficient blood flow through nearly all organs. This shortage arises through damage to the blood-producing organs during the acute phase, while the breakdown of blood continues as normal, after an initial increase.

In order to ensure the perfusion of organs that are directly necessary for survival, the body takes the emergency measure of diverting blood from other organs and tissues. The perfusion of the blood-producing organs is also affected by this distribution measure, which hinders the smooth recovery of the total blood volume. The body is stuck in this vicious circle: a shortage of circulating blood hinders the recovery of blood production. This explains the long duration of Long COVID.

My proposed treatment of Long COVID focuses on the recovery of the correct volume of blood in the body of the right composition by the very careful administration of donor blood products under continuous expert supervision. A trial treatment can be performed in any hospital without much additional preparations, and has a lower associated risk for the patient than analysing the total blood. A diagnosis ex juvantibus, by therapeutic response, is therefore preferable, and will result in the healing process starting earlier.

Indications in blood laboratory values of a shortage of blood are a high serum ferritin due to internal breakdown of blood and values for haematocrit and albumin at reciprocal extremes of the reference ranges due to a stagnation of blood production.

Source: Molenaar, P.A. Long COVID: A Chronic Shortage of Blood. Pathophysiology and Treatment Proposal. Preprints 2023, 2023092109. https://doi.org/10.20944/preprints202309.2109.v1 https://www.preprints.org/manuscript/202309.2109/v1 (Full text available as PDF file)

Blood Volume Status in ME/CFS Correlates With the Presence or Absence of Orthostatic Symptoms: Preliminary Results

Abstract:

Introduction: Conflicting data have been published on the reduction of circulating blood volume in adults with Myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS). The aim of the present study was to compare blood volumes based on the presence or absence of orthostatic symptoms.

Methods and results: Twenty consecutive adults with ME/CFS participated in the study. All underwent dual isotope blood volume measurement and were evaluated for a clinical suspicion of orthostatic intolerance (OI). The mean age was 34 (10) years, and median duration of disease was 7.5 (6-10) years. The mean (SD) absolute blood volume was 59 (8) ml/kg, a value -11 (7) ml/kg below the reference blood volume. Of the 12 patients, 4 had no OI and 8 had a clinical suspicion of OI. In 8 patients with OI, absolute blood volumes were significantly lower than for the 4 without OI (56 [2] vs. 66 [5]; p < 0.05) as were the differences between the measured and the reference blood volume (-14 [2]; vs. -4 [3]; p < 0.02).

Conclusions: Adults with ME/CFS had a significantly lower blood volume if they had a clinical suspicion of OI compared to those without a clinical suspicion of OI, as well as a significantly lower blood volume compared to the expected value. The data suggest that accounting for symptoms of OI could enhance the detection of the subset with reduced blood volume.

Source: van Campen CLMC1, Rowe PC2, Visser FC1. Blood Volume Status in ME/CFS Correlates With the Presence or Absence of Orthostatic Symptoms: Preliminary Results. Front Pediatr. 2018 Nov 15;6:352. doi: 10.3389/fped.2018.00352. eCollection 2018. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6262290/ (Full article)

Comment by ME Research UK: Reduced cardiac volumes in chronic fatigue syndrome associate with plasma volume but not length of disease: a cohort study

Reprinted with the kind permission of ME Research UK.

Authors

Newton JL, Finkelmeyer A, Petrides G, Frith J, Hodgson T, Maclachlan L, MacGowan G and Blamire AM

Institution

Institute of Cellular Medicine, Newcastle University, Newcastle upon Tyne Hospitals NHS; Newcastle Magnetic Resonance Centre, Newcastle upon Tyne, UK

Published abstract

Objectives

To explore potential mechanisms that underpin the cardiac abnormalities seen in chronic fatigue syndrome (CFS) using non-invasive cardiac impedance, red cell mass and plasma volume measurements.

Methods

Cardiac MR (MR) examinations were performed using 3 T Philips Intera Achieva scanner (Best, NL) in participants with CFS (Fukuda; n=47) and matched case-by-case controls. Total volume (TV), red cell volume (RCV) and plasma volume (PV) measurements were performed (41 CFS and 10 controls) using the indicator dilution technique using simultaneous 51-chromium labelling of red blood cells and 125-iodine labelling of serum albumin.

Results

The CFS group length of history (mean±SD) was 14±10 years. Patients with CFS had significantly reduced end-systolic and end-diastolic volumes together with reduced end-diastolic wall masses (all p<0.0001). Mean±SD RCV was 1565±443 mL with 26/41 (63%) having values below 95% of expected. PV was 2659±529 mL with 13/41 (32%) <95% expected. There were strong positive correlations between TV, RCV and PV and cardiac end-diastolic wall mass (all p<0.0001; r2=0.5). Increasing fatigue severity correlated negatively with lower PV (p=0.04; r2=0.2). There were no relationships between any MR or volume measurements and length of history, suggesting that deconditioning was unlikely to be the cause of these abnormalities.

Conclusions

This study confirms an association between reduced cardiac volumes and blood volume in CFS. Lack of relationship between length of disease, cardiac and plasma volumes suggests findings are not secondary to deconditioning. The relationship between plasma volume and severity of fatigue symptoms suggests a potential therapeutic target in CFS.

Publication

Newton et al, Open Heart, 2016 Jun 24; 3(1):e000381

Funding

Medical Research Council, ME Research UK

 

Comment by ME Research UK

Over the years, a number of reports in the scientific literature have pointed to the presence of abnormalities of heart (cardiac) function in ME/CFS. For example, a study in 2006 found that ME/CFS patients had relatively short QT intervals (measures of the heart’s electrical cycle) compared with healthy people (read more). Also, in 2009, Japanese researchers reported cardiac dysfunction with low cardiac output in some oriental patients (read more), and another investigation found that cardiac function was diminished (read more).

Alongside these reports, ME Research UK-funded investigations by Prof Julia Newton, Dr Kieren Hollingsworth and colleagues at Newcastle University have also throw up some intriguing findings concerning the function of the heart in ME/CFS. For example, they have shown that ‘bioenergetic abnormalities’ could be found both in heart muscle and in the muscles of the skeleton, with a correlation between the two suggesting the existence of linked underlying mechanisms (read more). In the same investigation, they found that the hearts of the ME/CFS patients had to work harder during prolonged standing than in healthy people. The research group has also looked at the function of the heart using cardiac MRI tagging to identify defects that are not yet clinically apparent. One of their main findings has been a dramatic increase in ‘residual torsion’ in patients compared with controls. This is a measure of the efficiency of the release of torsion and strain during the relaxation phase of the heartbeat, and ME/CFS patients had 200% more residual torsion than healthy people, indicating that their heart muscle was taking longer to relax. Also, the left ventricular mass (the thickness of the heart wall at the ventricle) was reduced compared with controls; and cardiac output (the output of blood by the heart per minute) was lower (read more).

The Newcastle researchers have been continuing their investigations, and their latest report has just been published in the journal Open Heart (read more). It describes work to confirm these previous findings in a larger group of new patients and controls, and extend them to include cardiac output and blood volume. In the experiments, cardiac magnetic resonance examinations were performed in 47 patients with ME/CFS who had been ill for 14 years on average and 47 case-matched controls, and blood volume measurements in 41 CFS and 10 controls. Patients with a diagnosis of depression were specifically excluded from the study so that depression could be ruled out as a potential, if unlikely, cause of the abnormalities.

The results were fascinating. Compared with healthy controls, stroke volume(the amount of blood pumped by the left ventricle in one contraction) was 23% lower in the ME/CFS patients; end-diastolic volumes were 25% lower; end-systolic volumes were 29% lower; and end-diastolic wall masses were 26% lower (all p<0.0001). In essence, these findings confirm, in a larger and different group of patients, the reductions in cardiac volume observed previously in ME/CFS patients in Newcastle.

The total volume of blood (plasma and red cells) was 4% lower in the ME/CFS group compared with controls, though this difference was not statistically significant. In 63% of the patients, however, the volume of red blood cells was below 95% of the expected levels for healthy people. Also, there were strong positive correlations between blood volume measurements and cardiac end-diastolic wall mass, and a weak relationship between plasma volume and fatigue severity. Importantly, the length of illness was not related to any cardiac magnetic resonance or volume measurements, suggesting that deconditioning (which would be greater the longer a person was ill) was unlikely to be the cause of these abnormalities.

The finding that red cell volume was low is intriguing, and it may be that blood volume plays at least a part in the symptoms experienced by ME/CFS patients. One intriguing possibility alluded to by the researchers is that the abnormalities detected in this study, particularly the reduction in end-diastolic blood volume,  may be due to problems with venous compliance (see diagram above), as nearly two-thirds of the blood in the systemic circulation is stored in the venous system and compliance is controlled by the autonomic nervous system which is also affected in ME/CFS. In fact, low total blood volume has been proposed as part of the disease process in subgroups of ME/CFS patients before. One investigation in 2002 found a 9% lower blood volume in ME/CFS patients than in controls (read more). A further study in 2009 showed that the reductions in cardiac output and end-diastolic volume in ME/CFS could be entirely accounted for by a reduction in the total blood volume (read more), and an accompanying editorial pointed out that the results did not imply heart disease, but rather pointed to “circulatory impairment” (read more).

Overall, these findings using state-of-the art MRI confirm the presence of cardiac abnormalities in people with ME/CFS. It remains unknown, however, whether these are caused by ME/CFS and its consequences per se or whether, for instance, a (pre-existing) reduced cardiac volume may make people more vulnerable to the development of the illness. As regards low blood volume, there is anecdotal evidence that the symptoms of ME/CFS improve in some patients after treatment with intravenous fluid (although the procedure is not without drawbacks and risks), and the team in Newcastle intend to explore interventions to restore fluid volume in ME/CFS patients in further studies.

_________________

ME Research UK commissions and funds high-quality scientific (biomedical) investigation into ME/CFS. 

 

Elevated brain natriuretic peptide levels in chronic fatigue syndrome associate with cardiac dysfunction: a case control study

Abstract:

Objectives: To explore levels of the brain natriuretic peptide (BNP) and how these associate with the cardiac abnormalities recently identified in chronic fatigue syndrome (CFS).

Methods: Cardiac magnetic resonance examinations were performed using 3T Philips Intera Achieva scanner (Best, Netherlands) in CFS (Fukuda) participants and sedentary controls matched group wise for age and sex. BNP was also measured by using an enzyme immunoassay in plasma from 42 patients with CFS and 10 controls.

Results: BNP levels were significantly higher in the CFS cohort compared with the matched controls (P=0.013). When we compared cardiac volumes (end-diastolic and end-systolic) between those with high BNP levels (BNP>400 pg/mL) and low BNP (<400 pg/mL), there were significantly lower cardiac volumes in those with the higher BNP levels in both end-systolic and end-diastolic volumes (P=0.05). There were no relationships between fatigue severity, length of disease and BNP levels (P=0.2) suggesting that our findings are unlikely to be related to deconditioning.

Conclusion: This study confirms an association between reduced cardiac volumes and BNP in CFS. Lack of relationship between length of disease suggests that findings are not secondary to deconditioning. Further studies are needed to explore the utility of BNP to act as a stratification paradigm in CFS that directs targeted treatments.

Source: Cara Tomas, Andreas Finkelmeyer, Tim Hodgson, Laura MacLachlan, Guy A MacGowan, Andrew M Blamire, Julia L Newton. Elevated brain natriuretic peptide levels in chronic fatigue syndrome associate with cardiac dysfunction: a case control study. Open Heart 2017;4:e000697. doi:10.1136/ openhrt-2017-000697 http://openheart.bmj.com/content/openhrt/4/2/e000697.full.pdf (Full article)

Reduced cardiac volumes in chronic fatigue syndrome associate with plasma volume but not length of disease: a cohort study

Abstract:

OBJECTIVES: To explore potential mechanisms that underpin the cardiac abnormalities seen in chronic fatigue syndrome (CFS) using non-invasive cardiac impedance, red cell mass and plasma volume measurements.

METHODS: Cardiac MR (MR) examinations were performed using 3 T Philips Intera Achieva scanner (Best, NL) in participants with CFS (Fukuda; n=47) and matched case-by-case controls. Total volume (TV), red cell volume (RCV) and plasma volume (PV) measurements were performed (41 CFS and 10 controls) using the indicator dilution technique using simultaneous 51-chromium labelling of red blood cells and 125-iodine labelling of serum albumin.

RESULTS: The CFS group length of history (mean±SD) was 14±10 years. Patients with CFS had significantly reduced end-systolic and end-diastolic volumes together with reduced end-diastolic wall masses (all p<0.0001). Mean±SD RCV was 1565±443 mL with 26/41 (63%) having values below 95% of expected. PV was 2659±529 mL with 13/41 (32%) <95% expected. There were strong positive correlations between TV, RCV and PV and cardiac end-diastolic wall mass (all p<0.0001; r(2)=0.5). Increasing fatigue severity correlated negatively with lower PV (p=0.04; r(2)=0.2). There were no relationships between any MR or volume measurements and length of history, suggesting that deconditioning was unlikely to be the cause of these abnormalities.

CONCLUSIONS: This study confirms an association between reduced cardiac volumes and blood volume in CFS. Lack of relationship between length of disease, cardiac and plasma volumes suggests findings are not secondary to deconditioning. The relationship between plasma volume and severity of fatigue symptoms suggests a potential therapeutic target in CFS.

 

Source: Newton JL, Finkelmeyer A, Petrides G, Frith J, Hodgson T, Maclachlan L, MacGowan G, Blamire AM. Reduced cardiac volumes in chronic fatigue syndrome associate with plasma volume but not length of disease: a cohort study. Open Heart. 2016 Jun 24;3(1):e000381. doi: 10.1136/openhrt-2015-000381. ECollection 2016. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4932290/ (Full article)

 

Impaired cardiac function in chronic fatigue syndrome measured using magnetic resonance cardiac tagging

Abstract:

OBJECTIVES: Impaired cardiac function has been confirmed in patients with chronic fatigue syndrome (CFS). Magnetic resonance cardiac tagging is a novel technique that assesses myocardial wall function in vivo. We hypothesized that patients with CFS may have impaired development and release of myocardial torsion and strain.

METHODS: Cardiac morphology and function were assessed using magnetic resonance imaging and cardiac tagging methodology in 12 CFS patients (Fukuda) and 10 matched controls.

RESULTS: Compared to controls, the CFS group had substantially reduced left ventricular mass (reduced by 23%), end-diastolic volume (30%), stroke volume (29%) and cardiac output (25%). Residual torsion at 150% of the end-systolic time was found to be significantly higher in the patients with CFS (5.3 ± 1.6°) compared to the control group (1.7 ± 0.7°, P = 0.0001). End-diastolic volume index correlated negatively with both torsion-to-endocardial-strain ratio (TSR) (r = -0.65, P = 0.02) and the residual torsion at 150% end-systolic time (r = -0.76, P = 0.004), so decreased end-diastolic volume is associated with raised TSR and torsion persisting longer into diastole. Reduced end-diastolic volume index also correlated significantly with increased radial thickening (r = -0.65, P = 0.03) and impaired diastolic function represented by the ratio of early to late ventricular filling velocity (E/A ratio, r = 0.71, P = 0.009) and early filling percentage (r = 0.73, P = 0.008).

CONCLUSION: Patients with CFS have markedly reduced cardiac mass and blood pool volumes, particularly end-diastolic volume: this results in significant impairments in stroke volume and cardiac output compared to controls. The CFS group appeared to have a delay in the release of torsion.

© 2011 The Association for the Publication of the Journal of Internal Medicine.

 

Source: Hollingsworth KG, Hodgson T, Macgowan GA, Blamire AM, Newton JL. Impaired cardiac function in chronic fatigue syndrome measured using magnetic resonance cardiac tagging. J Intern Med. 2012 Mar;271(3):264-70. doi: 10.1111/j.1365-2796.2011.02429.x. Epub 2011 Aug 15. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3627316/ (Full article)

 

Hormonal alterations in adolescent chronic fatigue syndrome

Abstract:

AIM: The chronic fatigue syndrome is associated with alterations in the hypothalamus-pituitary-adrenal axis and cardiovascular autonomic nervous activity, suggesting a central dysregulation. This study explored differences among adolescent chronic fatigue syndrome patients and healthy controls regarding antidiuretic hormone, the renin-angiotensin-aldosterone-system, sex hormones and cardiac peptides.

METHODS: We included a consecutive sample of 67 adolescents aged 12-18 years with chronic fatigue syndrome diagnosed according to a thorough and standardized set of investigations, and a volunteer sample of 55 healthy control subjects of equal gender and age distribution. Hormones were assayed with standard laboratory methods.

RESULTS: Among patients, plasma antidiuretic hormone was significantly decreased and serum osmolality and plasma renin activity were significantly increased (p < or = 0.001). Serum concentration of aldosterone, cortisol, NT-proBNP and sex hormones were not significantly different in the two groups.

CONCLUSION: Chronic fatigue syndrome in adolescents is associated with alterations in hormonal systems controlling osmolality and blood volume, possibly supporting a theory of central dysregulation.

 

Source: Wyller VB, Evang JA, Godang K, Solhjell KK, Bollerslev J. Hormonal alterations in adolescent chronic fatigue syndrome. Acta Paediatr. 2010 May;99(5):770-3. doi: 10.1111/j.1651-2227.2010.01701.x. Epub 2010 Mar 1. https://www.ncbi.nlm.nih.gov/pubmed/20199497

 

Chronic fatigue syndrome: comments on deconditioning, blood volume and resulting cardiac function

Abstract:

Cardiovascular and autonomic dysfunction have been suggested to underlie the symptoms accompanying CFS (chronic fatigue syndrome). In the present issue of Clinical Science, Hurwitz and co-workers have investigated whether deficits were present in cardiac output and blood volume in a cohort of patients with CFS and if these were linked to illness severity and sedentary lifestyle. The results clearly demonstrate reduced cardiac stroke volume and cardiac output in more severely afflicted patients with CFS, which is primarily attributable to a measurable reduction in blood volume. Similar findings are observed in microgravity and bed rest deconditioning, in forms of orthostatic intolerance and, to a lesser extent, in sedentary people. The circulatory consequences of reduced cardiac output may help to account for many of the findings of the syndrome.

You can read the rest of this comment herehttps://www.ncbi.nlm.nih.gov/pmc/articles/PMC4236909/

 

Source: Stewart JM. Chronic fatigue syndrome: comments on deconditioning, blood volume and resulting cardiac function. Clin Sci (Lond). 2009 Oct 19;118(2):121-3. doi: 10.1042/CS20090327. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4236909/ (Full article)

 

Chronic fatigue syndrome: illness severity, sedentary lifestyle, blood volume and evidence of diminished cardiac function

Abstract:

The study examined whether deficits in cardiac output and blood volume in a CFS (chronic fatigue syndrome) cohort were present and linked to illness severity and sedentary lifestyle. Follow-up analyses assessed whether differences in cardiac output levels between CFS and control groups were corrected by controlling for cardiac contractility and TBV (total blood volume).

The 146 participants were subdivided into two CFS groups based on symptom severity data, severe (n=30) and non-severe (n=26), and two healthy non-CFS control groups based on physical activity, sedentary (n=58) and non-sedentary (n=32). Controls were matched to CFS participants using age, gender, ethnicity and body mass. Echocardiographic measures indicated that the severe CFS participants had 10.2% lower cardiac volume (i.e. stroke index and end-diastolic volume) and 25.1% lower contractility (velocity of circumferential shortening corrected by heart rate) than the control groups. Dual tag blood volume assessments indicated that the CFS groups had lower TBV, PV (plasma volume) and RBCV (red blood cell volume) than control groups. Of the CFS subjects with a TBV deficit (i.e. > or = 8% below ideal levels), the mean+/-S.D. percentage deficit in TBV, PV and RBCV were -15.4+/-4.0, -13.2+/-5.0 and -19.1+/-6.3% respectively. Lower cardiac volume levels in CFS were substantially corrected by controlling for prevailing TBV deficits, but were not affected by controlling for cardiac contractility levels.

Analyses indicated that the TBV deficit explained 91-94% of the group differences in cardiac volume indices. Group differences in cardiac structure were offsetting and, hence, no differences emerged for left ventricular mass index. Therefore the findings indicate that lower cardiac volume levels, displayed primarily by subjects with severe CFS, were not linked to diminished cardiac contractility levels, but were probably a consequence of a co-morbid hypovolaemic condition. Further study is needed to address the extent to which the cardiac and blood volume alterations in CFS have physiological and clinical significance.

Comment in: Chronic fatigue syndrome: comments on deconditioning, blood volume and resulting cardiac function. [Clin Sci (Lond). 2009]

 

Source: Hurwitz BE, Coryell VT, Parker M, Martin P, Laperriere A, Klimas NG, Sfakianakis GN, Bilsker MS. Chronic fatigue syndrome: illness severity, sedentary lifestyle, blood volume and evidence of diminished cardiac function. Clin Sci (Lond). 2009 Oct 19;118(2):125-35. doi: 10.1042/CS20090055. https://www.ncbi.nlm.nih.gov/pubmed/19469714