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titlePhospholipid Therapy

An in-depth analysis including the latest clinical trials








Phospholipid Therapy

Risk-Benefit Analysis



Forever Healthy Foundation gGmbH

...

Expand
titleTable of contents


Table of Contents




Preface


This risk-benefit analysis (RBA) is part of Forever Healthy's "Rejuvenation Now" initiative that seeks to continuously identify new rejuvenation therapies and systematically evaluate them on their risks, benefits, procedures, and potential application.

Special thanks are extended to the whole Rejuvenation Now team at Forever Healthy for their friendly contributions.


Section 1: Overview 


Motivation


Phospholipids are an important structural component of cell and organelle membranes and play a role in many cell signaling pathways. Membranes incur oxidative damage over time and in several disease conditions. Oral and/or i.v. supplementation of phospholipids (particularly phosphatidylcholine) is hypothesized to repair this damage through the replacement of oxidized membrane phospholipids with "healthy" phospholipids, thus restoring or maintaining membrane integrity and function. 


Key questions 


This analysis seeks to answer the following questions:

...

Impatient readers may choose to skip directly to Phospholipid Therapy RBA Section 6 for the Presentation of Results and tips on practical application. 


Recommended reading/viewing


General introduction

The following sites offer information on PLT at a consumer level and are useful as an introduction to the topic:

Scientific overview 

The following scientific review provides a more detailed overview of the topic of PLT:


Section 2: Methods

Analytic model


This RBA has been prepared based on the principles outlined in A Comprehensive Approach to Benefit-Risk Assessment in Drug Development (Sarac et al., 2012). 


Literature search


A literature search was conducted on Pubmed using the search terms shown in Phospholipid Therapy RBA Table 1 and included articles available as of August 31, 2021. Titles and abstracts of the resulting studies were screened and relevant articles downloaded in full text. The references of the full-text articles were manually searched in order to identify additional trials that may have been missed by the search terms. Results reported in the book, Essential Phospholipids as a Membrane Therapeutic (Gundermann, 1993) were included as it summarized several clinical papers only available in other languages (see Table 3).

Many studies were published using brand names so we also included the brand names in our literature search. Please see Phospholipid Therapy RBA Table 6 for a list of the brands we identified.

...

Exclusion criteria: We excluded animal and in vitro studies from the analysis because of an abundance of clinical trials as well as trials that used phospholipid s.c. injections for cosmetic purposes. 

Table 1: Literature search 

Anchor
Table 1
Table 1
Search terms

Number of publications

Number of
Relevant studies

essential phospholipids328107
plasmalogen AND (therapy OR treatment) filter: humans185
lipostabil 124

"Lipid replacement therapy" OR essential phospholipid* OR (phosphatidylcholine or phosphatidylserine OR plasmalogen) AND (therapy OR supplement*) filter: human, clinical trial

831

Phoschol

2

phosphatidylcholine OR lipostabil* OR essentiale (filter: clinical trial)

789
Lipostabil* OR Essentiale (filter: human)214
plasmalogen therapy (filter: humans)140
polyenylphosphatidylcholine OR 1,2-diacyl-sn-glycero-3-phosphocholine

196

Phosphogliv OR Hepatomax OR Antraliv OR Essley Forte OR Phosphontsiale OR Progepar OR Livolay Forte OR Bentciale OR Resetting ABM OR Ovesol OR lipostabil OR NT factor (filter: RCT, humans)856
Total3665
Other sources
Discussion with experts (names cited in the text)
A manual search of the reference lists of the selected papers 
Book: Essential Phospholipids Membrane Therapeutics (Gundermann, 1993) - summary of 248 clinical studies (including 46 SB-RCTs and 21 DB-RCTs) that covers many articles that are not available in English


Abbreviation list

Table Filter
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AbbFull name
ADPadenosine diphosphate
ALTalanine transaminase
ApoA-Iapolipoprotein A 1
APalkaline phosphatase
ASTaspartate transaminase
CNScentral nervous system
CRPC-reactive protein
DB-RCTdouble blind randomized control trial
DMIIdiabetes mellitus type 2
ECG

electrocardiogram

EEGelectroencephalogram
EPLessential phospholipids
GFRglomerular filtration rate
GGTgamma glutamyl transferase
GIgastrointestinal mucosa
HAARThighly active antiviral retroviral therapy
HDLhigh density lipoprotein
HRhazard ratio
i.v.intravenous
LDL-Clow density lipoprotein cholesterol
MMSEmini mental status exam
MSmultiple sclerosis
NAFLDnon alcoholic fatty liver disease
NASHnon-alcoholic steatohepatitis
NRnot reported
NSAIDsnonsteroidal antiinflammatory drugs
NSCLCnon small cell lung cancer
PCphosphatidylcholine
PEphosphatidylethanolamine
PFSPiper fatigue scale
PIphosphatidylinositol
PLphospholipids
PPCpolyenylphosphatidylcholine
RBCred blood cell
RCTrandomized control trial
s.c.subcutaneous
SB-RCTsingle blind randomized control trial
TBtuberculosis
TCtotal cholesterol
TGtriglycerides



Section 3: Existing Evidence


Summary of results


Our search terms identified 3,665 studies of which 107 were relevant to this analysis (see Table 2). We also included the clinical studies summarized in Gundermann's book in our analysis following a discussion with the author, despite being unable to locate the majority of the original papers (see Table 3). Although PLT has long been used in medical practice, the quality of the evidence is quite low overall. For many papers, only the abstracts are available (in English) and many of the trials are observational. Most of the compounds administered for PLT contained several vitamins and minerals in addition to phospholipids, leading to difficulties in determining whether the benefits/risks occurred due to the phospholipid content or other components of the supplements and much of the research has been funded by producers of phospholipid supplements. Moreover, almost all of the trials were performed in subjects with preexisting health conditions making it difficult to determine the extent of the benefits in a healthy population.


Anchor
Table 2
Table 2

Table 2: Clinical trials

Table 3: Gundermann summary


Section 4: Risk-Benefit Analysis


Decision model


Risk and benefit criteria

The decision profile is made up of risk and benefit criteria extracted from the outcomes of the above-mentioned papers. The benefit criteria are organized by category and type and are assessed according to magnitude, likelihood, duration, and perceived importance. The risk criteria are organized by category and type and are assessed according to severity, frequency of occurrence, and difficulty in detection and mitigation. Each criterion is assigned a numerical value for each assessment category:

...

The numerical values for the criterion are then summarized, serving as the justification for the weighting in the following column.


Weight

The criteria are weighted on a value scale to enable comparison (based on the relative importance of a difference). The value in the summary column is divided by 4 to result in a weight between 1 → 3.


Score

Each criterion is assessed according to the performance of PLT against the comparator (physiological aging) whereby a numerical value is assigned for each criterion -1 (inferior), 0 (equivalent or non-inferior), and +1 (superior) to the comparator.


Uncertainty

Uncertainty is determined according to the amount and quality of the evidence, availability of full text articles & supplementary data, number of participants and whether methodological flaws, conflicting studies, or conflicts of interest (i.e. funding) are present. Evidence that is based on RCTs is initially upgraded by 1 point, evidence from open-label trials is considered neutral, and evidence that is based on observational studies is downgraded by 1 point. The uncertainty is then further valued using the above-mentioned criteria to result in an uncertainty score. 


Weighted score

The weights and scores are multiplied to produce weighted scores that enable direct comparison (-3 → +3) and then adjusted according to the uncertainty score. Weighted scores are upgraded where the uncertainty score is low (positive) or downgraded where the uncertainty score is high (negative).


Benefit assessment 


We identified a total of 58 benefits associated with PLT. The benefits extended across several organ systems, were mostly of small magnitude and largely dependent on continued supplementation. Almost all benefits occurred in the context of pre-existing disease. There is limited evidence that the benefits would occur in healthy individuals. 


Table 4: Benefit assessment 
Anchor
Table 4
Table 4



Category Benefit type 

Magnitude

Likelihood

Duration

Importance to patientSummaryWeightScoreReferencesWeighted score
1Cardiovascular↓ ECG abnormalities

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourGreen
title3

61.5+12 Open-label: Gundermann, 19931.0
2

Cardiovascular

↓ angina pectoris attacks

Status
colourYellow
title2

Status
colourYellow
title2

Status
colourGrey
title1

Status
colourGreen
title3

82+12 Open-label: Gundermann, 1993; Klimov et al., 19952.0
3Cardiovascular↑ exercise tolerance

Status
colourGreen
title3

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourYellow
title2

71.75+12 Open-label: Gundermann, 1993; Klimov et al., 19951.25
4Cardiovascular↑ vitality

Status
colourGrey
title1

Status
colourGreen
title3

Status
colourGrey
title1

Status
colourYellow
title2

71.75+12 Open-label: Gundermann, 19931.75
5Cardiovascular

↑ increased blood flow 

Status
colourYellow
title2

Status
colourYellow
title2

Status
colourGrey
title1

Status
colourGreen
title3

82+1

2 Open-label: Gundermann, 1993

3 Observational: Kukes et al., 1978 

1.5
6Cardiovascular↑ survival after fat embolism

Status
colourGreen
title3

Status
colourYellow
title2

Status
colourGrey
title1

Status
colourGreen
title3

92.25+12 Open-label: Gundermann, 1993 1.25
7Cardiovascular growth of atherosclerotic plaques

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourGreen
title3

61.5+12 Open-label: Gundermann, 1993 0.5
8Cardiovascular diastolic blood pressure & cardio-ankle vascular index

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourYellow
title2

51.25+11 RCT: Hirose et al., 20181.75
9CNS↑ memory

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourYellow
title2

51.25+1

1 RCT: Fujino et al., 2017; Watanabe et al., 2020; Najima et al., 2016

Conflict: Hellhammer et al., 2010

1.25
10CNS↑ availability of free cortisol in chronic stress

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourGrey
title1

41+11 RCT: Schubert et al., 20111.0
11CNS↑ cerebral blood flow, oxygen consumption

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourYellow
title2

51.25+12 Open-label: Gundermann, 19930.75
12CNS↓ symptoms of multiple sclerosis

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourYellow
title2

51.25+12 Open-label: Gundermann, 19930.75
13CNS↑ cognitive function in encephalopathy

Status
colourGrey
title1

Status
colourYellow
title2

Status
colourGrey
title1

Status
colourYellow
title2

61.5+12 Open-label: Kudinov et al., 2016; Bruha & Marecek, 20001.0
14CNS risk of dementia

Status
colourYellow
title2

Status
colourGrey
title1

Status
colourYellow
title2

Status
colourGreen
title3

82+13 Observational: Ylilauri et al., 20191.0
15Dermatological↓ severity and frequency of psoriasis

Status
colourYellow
title2

Status
colourYellow
title2

Status
colourYellow
title2

Status
colourYellow
title2

82+12 Open-label: Gundermann, 19931.5
16Endocrine↑ thyroid function

Status
colourYellow
title2

Status
colourYellow
title2

Status
colourYellow
title2

Status
colourYellow
title2

82+12 Open-label: Gundermann, 19931.5
17Energy↓ fatigue

Status
colourYellow
title2

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourGreen
title3

71.75+1

1 RCT: Hirose et al., 2018

2 Open-label: Agadjanyan et al., 2003; Ellithorpe et al., 2003; Colodny et al., 2000; Nicolson et al., 2010; Nicolson et al., 2009

1.75
18Energy↑ mitochondrial function

Status
colourYellow
title2

Status
colourYellow
title2

Status
colourGrey
title1

Status
colourYellow
title2

71.75+12 Open-label: Agadjanyan et al., 20031.25
19Energy↑ sense of well being

Status
colourGrey
title1

Status
colourYellow
title2

Status
colourGrey
title1

Status
colourYellow
title2

61.5+1

1 RCT: Gonciarz et al., 1988

2 Open-label: Turecky et al., 2003; Horejsova & Urban, 1994

1.0
20Gallbladder postcholecystectomy syndrome

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourYellow
title2

51.25+13 Observational: Nichitaĭlo & Bulik, 20120.25
21Gallbladder cholelithiasis/cholestasis, improved bile composition

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourYellow
title2

51.25+1

1 RCT: Tsyrkunov, 1992

2 Open-label: Vakhrushev & Suchkova, 2005; Vakhrushev et al., 2002; Gundermann, 1993

3 Observational: Holan et al., 1979

1.25
22Gastrointestinal↓ damage caused to GI mucosa by NSAIDs

Status
colourYellow
title2

Status
colourYellow
title2

Status
colourGrey
title1

Status
colourYellow
title2

71.75+1

1 RCT: Lanza et al., 2008; Cryer et al., 2010

2 Open-label: Gundermann, 1993


2.25
23Gastrointestinal↑ bowel evacuation

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourGrey
title1

41+1

2 Open-label: Gundermann, 1993


0
24Gastrointestinal↑ mucosal healing

Status
colourYellow
title2

Status
colourYellow
title2

Status
colourGrey
title1

Status
colourYellow
title2

71.75+11 RCT: Karner et al., 20142.25
25Hematological↓ platelet aggregation/blood coagulability

Status
colourGreen
title3

Status
colourGrey
title1

Status
colourYellow
title2

Status
colourYellow
title2

82+1

2 Open-label: Gundermann, 1993; Schneider et al., 1976

Conflict: Andrioli et al., 1999

1.5
26Hematological↑ improved composition of RBC membranes

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourGrey
title1

41+1

1 RCT: Tsyrkunov, 1992

2 Open-label: Gundermann, 1993; Bobkova et al., 1989; Ipatova et al., 2003; Salvioli et al., 1977

1.5
27Hematological↑ improved antioxidant properties of blood

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourGrey
title1

41+11 RCT: Tsyrkunov, 19921.0
28Liver mortality in liver failure/hepatic coma

Status
colourYellow
title2

Status
colourYellow
title2

Status
colourGrey
title1

Status
colourYellow
title2

71.75+1

1 RCT: Singh & Prasad, 1998

2 Open-label: Gundermann, 1993; Bruha & Marecek, 2000

1.25
29Liver liver enzymes

Status
colourYellow
title2

Status
colourYellow
title2

Status
colourGrey
title1

Status
colourYellow
title2

71.75+1

1 RCT: Knauff et al., 1963; Gonciarz et al., 1988; Niederau et al., 1998; Sas et al., 2013; Dajani & Popovic, 2020; Hayashi et al., 1999

2 Open-label: Dajani et al., 2015; Turecky et al., 2003; Horejsova & Urban, 1994; Gundermann et al., 2016; Kudinov et al., 2016; Pavelkina & Ampleeva, 2014; Cairella et al., 1989; Lata et al., 2001; Olthof et al., 2005

3 Observational: Maev et al., 2020

Conflict: Olthof et al., 2005; Lieber et al., 2003; Guan et al., 1995

1.75
30Liver mortality in liver failure/hepatic coma

Status
colourYellow
title2

Status
colourYellow
title2

Status
colourGrey
title1

Status
colourYellow
title2

71.75+1

1 RCT: Singh & Prasad, 1998

2 Open-label: Gundermann, 1993; Bruha & Marecek, 2000

1.25
31Liver drug/poison-related liver dysfunction

Status
colourYellow
title2

Status
colourYellow
title2

Status
colourGrey
title1

Status
colourYellow
title2

71.75+12 Open-label: Gundermann, 1993; Otegbayo et al., 2012; Hisanaga et al., 1980; Skakun & Blikhar, 19861.25
32Liver fatty liver/fibrosis

Status
colourYellow
title2

Status
colourYellow
title2

Status
colourGrey
title1

Status
colourYellow
title2

71.75+1

1 RCT: Gonciarz et al., 1988; Sas et al., 2013; Khodzhaeva, 1990; Dajani & Popovic, 2020

2 Open-label: Dajani et al., 2015; Horejsova & Urban, 1994; Cairella et al., 1989; Gundermann et al., 2017; Babak & Bashkirova, 2019; Huang et al., 2016; Butov et al., 2014; Ivashkin et al., 2021

3 Observational: Gundermann et al., 2016

Conflict: Lieber et al., 2003

2.25
33Liver↑ recovery rate and speed in hepatitis

Status
colourYellow
title2

Status
colourYellow
title2

Status
colourGrey
title1

Status
colourYellow
title2

71.75+1

1 RCT: Niederau et al., 1998; Atoba & Olubuyide, 1989; Jenkins et al., 1982

2 Open-label: Mukhamedov et al., 2003; Gundermann et al., 1993; Tsyrkunov, 1992

1.75
34Liver postoperative complications

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourYellow
title2

51.25+13 Observational: Akhmedov et al., 20030
35Liver↑ hepatocyte regeneration

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourYellow
title2

51.25+12 Open-label: Gundermann et al., 19931.0
36Metabolism↓ total cholesterol 

Status
colourGrey
title1

Status
colourYellow
title2

Status
colourGrey
title1

Status
colourYellow
title2

61.5+1

1 RCT: Kirsten et al., 1989; Noseda et al., 1985; Mourad et al., 2009; Kirsten et al., 1994

2 Open-label: Gundermann, 1993; Schneider et al., 1979; Horejsova & Urban, 1994; Gundermann et al., 2016; Maev et al., 2020; Klimov et al., 1995; Wojicki et al., 1995; Babak & Bashkirova, 2019; Nicolson et al., 2009; Mel'chinskaia et al., 2000; Blaton et al., 1972; Ivashkin et al., 2021

3 Observational: Simons et al., 1977; Kukes et al., 1978 

Conflict: Chan et al., 199; Turecky et al., 2003; Ozerova et al., 2005; Knuiman et al., 1989

2.0
37MetabolismLDL-C

Status
colourYellow
title2

Status
colourYellow
title2

Status
colourGrey
title1

Status
colourYellow
title2

71.75+1

1 RCT: Kirsten et al., 1994; Kirsten et al., 1989; Mourad et al., 2009;

2 Open-label: Klimov et al., 1995; Gundermann, 1993; Wojicki et al., 1995; Mel'chinskaia et al., 2000; Spann et al., 1987

Conflict: Chan et al., 1991; Noseda et al., 1985

1.75
38Metabolism↓ LDL-HDL ratio

Status
colourGrey
title1

Status
colourYellow
title2

Status
colourGrey
title1

Status
colourYellow
title2

61.5+1

1 RCT: Noseda et al., 1985 

2 Open-label:Gundermann, 1993

1.5
39MetabolismHDL-C and/or ApoA-I

Status
colourGrey
title1

Status
colourYellow
title2

Status
colourGrey
title1

Status
colourYellow
title2

61.5+1

1 RCT: Burgess et al., 2005; Zeman & Stolba, 1995; Kirsten et al., 1994; Mel'chinskaia et al., 2000

2 Open-label: Klimov et al., 1995; Wojicki et al., 1995; Gundermann, 1993; Babak & Bashkirova, 2019; Ozerova et al., 2005

3 Observational: Hayashi et al., 1999; Spann et al., 1987

Conflict: Chan et al., 1991; Noseda et al., 1985; Simons et al., 1977

1.5
40Metabolism↑ improved composition of HDL

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourGrey
title1

41+13 Observational: Salvioli et al., 19770.5
41Metabolism TG

Status
colourYellow
title2

Status
colourYellow
title2

Status
colourGrey
title1

Status
colourGrey
title1

61.5+1

1 RCT: Kirsten et al., 1994; Kirsten et al., 1989; Pristautz, 1975

2 Open-label: Bobkova et al., 1989; Babak & Bashkirova, 2019; Burgess et al., 2005; Wojicki et al., 1995; Horejsova & Urban, 1994; Gundermann et al., 2016; Klimov et al., 1995; Dobiásová et al., 1988

Conflict: Chan et al., 1991; Mourad et al., 2009; Noseda et al., 1985; Olthof et al., 2005; Schneider et al., 1979; Turecky et al., 2003; Simons et al., 1977; Blaton et al., 1972

1.5
42Metabolism HbA1C, fasting glucose, hyperinsulinemia

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourGrey
title1

41+1

2 Open-label: Bobkova et al., 1989; Cantafora et al., 1992; Ivashkin et al., 2021

Conflict: Zeman & Stolba, 1995; Kuska & Kokot, 1975

0
43Metabolism homocysteine

Status
colourYellow
title2

Status
colourYellow
title2

Status
colourGrey
title1

Status
colourYellow
title2

71.75+1

1 RCT: Olthof et al., 2005

3 Observational: Ellithorpe et al., 2015

1.5
44Metabolism↓ CRP

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourYellow
title2

51.25+13 Observational: Ipatova et al., 20030.25
45Metabolism↑ lipoprotein lipase activity

Status
colourYellow
title2

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourGrey
title1

51.25+12 Open-label: Gundermann, 19931.25
46Musculoskeletal risk of fat emboli after fractures

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourGrey
title1

41+12 Open-label: Gundermann, 19930.5
47Musculoskeletal↑ motor function in Duchenne's muscular dystrophy

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourYellow
title2

51.25+12 Open-label: Islamova & Grinio, 19890.25
48Renal↑ renal function

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourYellow
title2

51.25+1

2 Open-label: Gundermann, 1993; Gapon, 1990; Neimark et al., 1998

Conflict: Chan et al., 1991

0.5
49Renal↑ recovery rate in nephrotic/nephritic syndrome

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourYellow
title2

51.25+12 Open-label: Gundermann, 19930.75
50Reproductive↑ sexual function (males)

Status
colourYellow
title2

Status
colourYellow
title2

Status
colourGrey
title1

Status
colourYellow
title2

71.75+12 Open-label: Kiriakova et al., 19981.25
51Reproductive morning sickness

Status
colourYellow
title2

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourYellow
title2

61.5+12 Open-label: Gundermann, 19931.0
52Reproductivereduction of symptoms of preeclampsia

Status
colourYellow
title2

Status
colourYellow
title2

Status
colourGrey
title1

Status
colourYellow
title2

71.75+12 Open-label: Gundermann, 1993; Gundermann, 20171.25
53Reproductive miscarriages/improved coagulation profile in antiphospholipid syndrome

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourGreen
title3

61.5+12 Open-label: Manizova et al., 20160.5
54Reproductive respiratory disorders in premature infants

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourGrey
title1

41+12 Open-label: Gundermann, 19930.5
55Reproductive risk of breast cancer

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourYellow
title2

Status
colourGreen
title3

71.75+13 Obersvational: Anderson et al., 20110.75
56Respiratory↑ normalization of surfactant composition in pneumonia

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourGrey
title1

41+12 Open-label: Gundermann, 19930.5
57Respiratory↑ improvements in chronic lung disease

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourGrey
title1

41+12 Open-label: Gundermann, 19930.5
58Respiratory

radiation-induced tissue injury in lung cancer

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourGrey
title1

Status
colourGrey
title1

41+12 Open-label: Zhang et al., 20191.0


Blood


Reduction in platelet aggregation & blood coagulability

In two studies on patients with ischemic heart disease (n=24, 25), 14 days of i.v. EPL led to a substantial decrease (60%) inplatelet aggregation (Gundermann, 1993). Microscopic examination showed both reduced numbers of aggregates and reduced platelet conglomerates within the aggregates.

...

In contrast, a DB-RCT (n=60) that compared the effects of taking soy lecithin (which contains 65-75% phospholipids) vs. control or fish oil for two weeks, reported an increase in platelet adhesiveness in response to stimulation with ADP (23.2% vs. 18.7%). This was attributed to the stimulatory effect of omega-6 fatty acids (i.e. linoleic acid) found in soy lecithin (Andrioli et al., 1999).


Improved composition & function of RBC cell membranes

Several studies reported improvements in the composition and function of erythrocyte membranes such as lowering of the cholesterol content and increase of linoleic acid in the membranes, improved deformability, increased osmotic resistance, and reduced blood viscosity (Gundermann, 1993).

...

A case series in patients with psoriatic arthritis treated with Phosphogliv for 3 months also reported a considerable decrease in RBC aggregability (Ipatova et al., 2003). Another case-control study in patients with liver disease (cirrhosis or cholestasis) showed that a single i.v. infusion of EPL resulted in a regression of changes of RBCs due to hemolytic anemia (Salvioli et al., 1977).


Improved antioxidant properties of the blood

An RCT (n=23) reported improvements in the antioxidant properties of the blood following treatment with Lipostabil in patients with hepatitis B (Tsyrkunov, 1992).


Cardiovascular system


Stagnation/regression of atherosclerotic plaques

In a small study (n=15) of patients with asymptomatic atherosclerosis in which EPL was administered orally for one year, the majority of plaques tended to stagnate after an initial increase in growth. Larger initial volumes stagnated or showed a downward trend after a 12 month observation period. The tendency to regression was clearer in the femoral artery than in the carotid (Gundermann, 1993). 


Decreased ECG abnormalities

Twelve studies reported an improvement in ECG findings following various doses of EPL (Gundermann, 1993). There was a dose-related reversal of pathological findings including the disappearance of negative T-waves (Gundermann, 1993).


Decreased anginal attacks

Several studies reported a decrease in anginal attacks (Gundermann, 1993). In an open-label trial (n=34), patients with moderate-severe angina pectoris received i.v. EPL for 14 days and 59% (20/34) reported an absence of anginal attacks by the end of the first/beginning of the second week of treatment. The remaining 14 patients also experienced a significant reduction in the frequency and severity of angina attacks and daily nitro-consumption was decreased (Gundermann, 1993). A second open-label trial (n=42) also reported a 50% reduction in the nitro-consumption of the patients and a multicentre trial (n=507) showed similar results (Gundermann, 1993). 

In an open-label study (n=100) that compared Lipostabil (2 ampoules of 5 mL (500 mg) i.v. per day for 2 weeks followed by 1800 mg orally for 5.5 months) to nicotinic acid for treatment of angina, both groups experienced a reduction in the intensity (1.5 down to 0.5) and number (3.8 per week down to 0.9) of anginal attacks, with the Lipostabil group exhibiting a superior side effect profile (Klimov et al., 1995).


Increased exercise tolerance

Substantial increases in walking distance were reported by several studies in Gundermann's book following treatment with EPL. In one study, the walking distance in patients with angina pectoris rose from 30-50m to 3000m following treatment with EPL (Gundermann, 1993). A second, 20-month study (n=200) in which patients received both i.v. and oral EPL, reported improvements in walking distance in 35/200 patients, from 0-200m to 1500m (Gundermann, 1993). The subsequent withdrawal of EPL treatment resulted in a decreased walking distance. 

...

In an open-label study (n=100) that used Lipostabil (2 ampules of 5 mL i.v. per day for 2 weeks and 1800 mg orally for 5.5 months) in patients with hyperlipidemia and ischemic heart disease, an increase in exercise tolerance was also reported (Klimov et al., 1995).


Increased vitality

In a controlled trial (n=94) of geriatric patients with atherosclerosis, 94% (88/94) of patients reported a decrease in complaints (fatigue, disturbed sleep, retrosternal pain, palpitations) and increased vitality that was more pronounced after two months of EPL therapy than after one month (Gundermann, 1993). 


Increased blood flow 

An increase in blood flow to the lower extremities was measured in patients with peripheral arterial disease following a 30-day treatment with oral EPL (Gundermann, 1993). The increase occurred both at rest and with reactive hyperemia, and flow velocity was also raised. A longer (20-month) study (n=200) in which patients received both i.v. and oral EPL, reported improved patency of major vessels in 17% (35/200) of patients, as measured by the oscillometric index (Gundermann, 1993). Another study found there was a dose-related increase in the oscillometric index following EPL treatment, indicating increased blood flow (Gundermann, 1993). 

An observational study (n=34) reported that treatment with Essentiale had a normalizing effect on blood flow and vascular tone in the lower extremity of patients with chronic ischemic heart disease (Kukes et al., 1978). 

Improved survival after fat embolism

In an open-label study of patients that suffered a fat embolism (n=221), 91% (202/221) survived with EPL treatment vs. a retrospective control group who had not received EPL in which 70% (58/83) of the patients died (Gundermann, 1993). 


Decreased blood pressure & cardio-ankle vascular index

A DB-RCT (n=96) that administered soy lecithin tablets (PC 24%, PE 20%, and PI 12%) at 1200 mg/day for 8 weeks found that diastolic blood pressure and cardio-ankle vascular index decreased significantly (-4 mmHg, -0.4) (Hirose et al., 2018). 


Central nervous system


Improved memory 

In a DB-RCT (n=328) of patients with mild cognitive impairment or Alzheimer's disease who were fed phospholipids (derived from scallops) for 24 weeks, memory improved significantly in some subgroups of AD patients (female patients and those under 77 years of age) (Fujino et al., 2017). There was, however, no statistically significant difference in the phospholipid content of erythrocyte or plasma phosphatidylethanolamine, or in cognitive function between the placebo and treatment groups in this trial.

...

In contrast, another DB-RCT (n=46) that used PL-supplemented milk, did not report a significant improvement in memory of healthy participants (Hellhammer et al., 2010).


Improved cerebral blood flow

Several open-label studies summarized in Gundermann's book reported improvements in cerebral blood flow and oxygen consumption. The studies used a variety of forms/doses ranging from 250 mg i.v. to 3 g orally, and from a single dose up to 2-14 years of treatment (Gundermann, 1993).


Decreased symptoms in multiple sclerosis

Four studies (3 open-label and 1 DB-RCT) have shown positive effects of EPL supplementation on the disease course of multiple sclerosis (Gundermann, 1993). Doses in these studies ranged from 500 mg i.v. + 800 mg orally to 6-8 g orally per day and treatment duration varied from 5.7 up to 23.8 years. More recently, research has shown the importance of phosphatidylcholine in MS with oxidized phosphatidylcholine serving as a marker for neuroinflammation in MS (Qin et al., 2007). IgM antibodies to PC have also been measured in the serum of MS patients (Sadaba et al., 2020).


Improved cognitive function in hepatic encephalopathy

An open-label trial (n=97) reported improved cognitive test dynamics in 82% of patients with hepatic encephalopathy that received Phospholipovit vs. 43% of patients that received standard therapy (Kudinov et al., 2016).

Decision-making latency improved on EEG in an open-label trial on patients with hepatic encephalopathy that received Essentiale i.v. daily for two weeks (Bruha & Marecek, 2000).


Increased availability of free cortisol in chronic stress

In a DB-RCT on patients with chronic stress (n=75), the group that received milk-based PL showed a delayed decline from peak levels in morning salivary cortisol suggesting a prolonged availability of free cortisol (Schubert et al., 2011).


Decreased risk of dementia

An observational study (n=2497), found that participants in the highest compared with the lowest phosphatidylcholine intake quartile had a 28% lower risk of incident dementia (Ylilauri et al., 2019). Total choline intake had no association with the risk of incident dementia. However, both total choline and phosphatidylcholine intakes were associated with better performance in cognitive tests assessing frontal and temporal lobe functioning.


Metabolism


Reduction in total cholesterol

Several trials have reported a significant lowering of total cholesterol (TC) following treatment with EPL. However, of the studies we identified, only 10 reported the percentage decrease which ranged from no effect to -42% as seen in the table below. In general, the higher the initial cholesterol levels, the greater was the effect. A summary of studies published before 1993 (participants n=3836) reported an average reduction in serum TC between 12-19% across studies (Gundermann, 1993). In some studies, there was an initial slight rise in TC.

...

StudyType#DiseaseSupplementRouteDose/dayDuration% decrease
Gundermann, 1993Meta-analyses3836NREPLoral/i.v.variousvarious12-19%
Gundermann, 1993Case series11Chronic glomerulonephritisEPLi.v.1.0 g6 days13.7%
Gundermann, 1993Open-labelNRNREPLoral1.0g6 weeksNR
Horejsova & Urban, 1994Open-label30Hepatic steatosisEssentiale forteoral1800 mg6 monthsNR
Gundermann et al., 2016Open-label12NAFLDEPLoral1500 mg2 monthsNR
Gundermann, 1993NRNRRenal disordersEPLNRNRNRNR
Kirsten et al., 1989DB-RCT20DialysisPPCoral2.7 g6 weeksNR
Noseda et al., 1985DB-RCT27HyperlipidemiaPPCoral2.7 gNRNR
Kukes et al., 1978Observational study34Ischemic heart diseaseEssentialeNRNRNRNR
Maev et al., 2020Open-label2827NAFLDPPCoral180024 weeks

alone: - 13%

lipid-lowering therapy: - 27%

Klimov et al., 1995Open-label100HyperlipoproteinemiaLipostabili.v. + oral

2x5ml

1800 mg

2 weeks i.v.

5.5 months oral

-12%

-15%

Simons et al., 1977Case series10Hyperlipoproteinemia or HealthyLecithinoral20-30 g8 weeks - 11 months+1 to - 22%
Wojicki et al., 1995Open-label32HyperlipidemiaLecithinoral10.5 g30 days

 - 33%

Mourad et al., 2009DB-RCT30HyperlipidemiaLecithinoral500 mg2 months-42%
Babak & Bashkirova, 2019Open-label52NAFLDEPLoral6 capsules6 months-18%
Kirsten et al., 1994DB-RCT30Diabetes with hyperlipidemiaEPLoral2.7 g2 months

-16%

Nicolson et al., 2009Open-label30Chronic fatigue syndromeNT factororal1500 mg2 months-9%
Mel'chinskaia et al., 2000Open-label121DiabetesLipostabiloral900 mg 1 year-16%
Blaton et al., 1972Open-label57HyperlipidemiaEPLi.v.20 mL (5%)14 daysNR
Ivashkin et al., 2021Meta-analysis3384NAFLDEssentiale forte Noral1800 mgat least 12 weeks-18%


Reduction in LDL-C, LDL-P, ApoB

An extensive summary of studies up to 1993 (n=1160) reported that EPL treatment results in an LDL-C reduction of 10-31% with the exact extent being influenced by the type of hyperlipoproteinemia, as well the dosage and duration of treatment (Gundermann, 1993). Of these studies, DB-RCTs using oral doses between 1.8 and 2.7 g/day showed reductions of 12% and 20% after 14 and 21 days, respectively and a controlled cross-over study, reported a reduction of 25.8% within two months. Other studies in the summary reported a 25% reduction after 218 days of treatment, a 27.9% reduction after 120 days of treatment and a 34.1% reduction after 42 days (Gundermann, 1993).

...

In contrast, a few trials did not show significant decreases in ApoB with EPL treatment. An RCT (n=8) in patients with renal failure treated with Essentiale forte 900 mg/day reported no significant difference in ApoB after 8 weeks (Chan et al., 1991) and a DB-RCT (n=27) reported that while LDL-C was significantly lowered in patients receiving oral PC, apoB showed only a downward trend that didn't reach significance (Noseda et al., 1985). 


Decreased LDL/HDL ratio

A summary of studies up to 1993 reported a lowering of the LDL/HDL ratio in several trials (Gundermann, 1993). One RCT (n=30) reported a 24% reduction in the LDL/HDL ratio while another DB-RCT also reported a 34% decrease (from 5.6 to 3.7). A DB-RCT (n=27) reported that the change in the LDL/HDL ratio due to LDL decreasing as HDL was unchanged (Noseda et al., 1985). 

...

The reductions followed a clear dose-response with the greatest effect occurring at 1.5 to 2.25 g of EPL/day (Gundermann, 1993).


Increased HDL-C, ApoA-I, LCAT activity

10 trials and one meta-analysis (of 15 studies) reported increases in HDL-C and/or ApoA-I, the magnitude of which varied according to dose and duration of the studies. In a meta-analysis of studies published before 1993, HDL showed increases of 10-45% across trials with the greatest changes occurring in patients with the lowest initial levels (Gundermann, 1993). In the additional studies we identified, the increase in HDL-C varied from 5% to 46% with most studies reporting values between 10-20% as seen in the table below. Subgroup analysis in one trial showed that the increase was due to a shift towards the most antiatherogenic subtype (HDL-2b) (Klimov et al., 1995).

...


StudyType#DiseaseSupplementRouteDose/dayDuration% increase
1Hayashi et al., 1999Case series6Chronic liver diseasePC salmon roeoral1600 mg6 months20% (1.03 to 1.29 mmol/L)
2Klimov et al., 1995Open-label100Ischemic heart diseaseLipostabil

i.v.

oral

2 ampules of 5 mL

1800 mg

2 weeks

5.5 months

3.4% (36.5 to 37.8)

10.8% (to 40.9 )

3Spann et al., 1987Case series8HealthyPCoral10 g3 weeks8.6% (32 to 35 mg/dL) 
4Burgess et al., 2005RCT16HealthyPIoral2.8 or 5.6 g with or without food2 weeks

13-18%

5Wojicki et al., 1995Open-label32HyperlipidemiaLecithinoral10.5 g30 days46%
6Gundermann, 1993Summary15 trialsNREPLoral/i.v.NRNR10-45%
7Babak & Bashkirova, 2019Open-label52Hypertension & obesityEPLoral6 capsules6 months16% (1.16 to 1.38 mmol/L)
8Ozerova et al., 2005Open-label20Ischemic heart diseaseLipostabil forteoral1.8 g8 weeks4.7% (40 to 42 mg/dL)
9Zeman & Stolba, 1995DB-RCT30HyperlipidemiaPCNRNRNRNR
10Kirsten et al., 1994DB-RCT30DiabetesEPLoral2.7 g2 months12% (50 to 55 mg/dL)
11Mel'chinskaia et al., 2000Open-label121DiabetesLipostabiloral900 mg52 weeks21% (1.22 to 1.55 mmol/L)


Improved composition of HDL

A case-control study (n=24) in patients with liver disease reported that one infusion with EPL resulted in an increased content of linoleic acid in HDL proteins as well as increased LCAT activity. The polyunsaturated fatty acid component of the membranes was significantly lower at baseline in diseased patients compared with controls (Salvioli et al., 1977).


Reduction of TG

11 trials reported a significant lowering of TG following treatment with EPL as seen in the table below. Five trials only reported that the change was "significant" while another 6 reported changes between 9-36%. A summary of all trials up until 1993 reported that reductions of 25% were the most common (Gundermann, 1993).

...


StudyType#DiseaseSupplementRouteDose/dayDuration% decrease
1Bobkova et al., 1989Open-label30Coronary heart diseaseLipostabil forteoralNR6 monthssignificant
2Babak & Bashkirova, 2019Open-label52Hypertension, obesityEPLoral6 capsules6 months15% (1.73 to 1.48 mmol/L)
3Kirsten et al., 1994DB-RCT30DiabetesEPLoral2.7 g2 months9% (194 to 177 mg/dL)
4Kirsten et al., 1989DB-RCT20DialysisPCCoral2.7 g6 weeks43.3 mg/dL
5Pristautz, 1975RCT73NRLipostabiloralNR1 monthsignificant
6Burgess et al., 2005Open-label16HealthyPIoral

5.6 with food

2 weeks36%
7Wojicki et al., 1995Open-label32HyperlipidemiaLecithinoral10.5 g30 days33%
8Horejsova & Urban, 1994Open-label30Hepatic steatosisEssentiale forteoralNR6 monthssignificant
9Gundermann et al., 2016Open-label12NAFLD, obesityEPLoral1500 g2 monthssignificant
10Klimov et al., 1995Open-label100Ischemic heart diseaseLipostabil

i.v.

oral

10 mL

1800 mg

2 weeks

5.5 months

245.6 to 213.2 (13%)

to 168.4 mg/dl. (31%)

11Dobiásová et al., 1988Open-label18Chronic glomerulonephritisEPLNRNR2 monthssignificant


Reversal of hyperinsulinemia/improvement in glucose levels

An open-label trial (n=30) reported that patients showed a reversal of hyperinsulinemia within 6 months of treatment with Lipostabil-forte (Bobkova et al., 1989). A second open-label trial in patients with cirrhosis showed improvements in the capacity of RBCs to process insulin receptors that continued to increase up to the end of treatment (i.v. 3 days) and then declined over the following 3 days (Cantafora et al., 1992). A meta-analysis (n=3384) reported a median reduction of 0.33% in HbA1C and a reduction in fasting glucose of 0.3 mmol/L from baseline in a treatment adherent group of NAFLD patients taking 1800 mg/day of Essentiale for at least 12 weeks (Ivashkin et al., 2021).

However, a DB-RCT reported that blood glucose, immunoreactive insulin, and non-esterified fatty acid concentrations didn't change significantly following 3 months of treatment with Lipostabil-forte (Zeman & Stolba, 1995). An open-label trial (n=12) in patients with chronic hepatitis also reported that Lipostabil administration for 2 weeks failed to exert any significant effect on carbohydrate intolerance and disturbances in insulin secretion (Kuska & Kokot, 1975).


Reduction in homocysteine levels

A DB-RCT crossover trial (n=26) found that in healthy men with mildly elevated homocysteine levels, supplementation with PhosChol for 2 weeks led to an 18% decrease in fasting plasma homocysteine compared to placebo. In response to methionine loading, the treated had a 15% lower homocysteine level than the placebo group on the first day and a 29% lower homocysteine level at the end of two weeks (Olthof et al., 2005).

A retrospective analysis (n=35) also reported a significant decrease in homocysteine levels (-31.8%) in patients with chronic fatigue taking an NT factor & vitamin mix for 6 months (Ellithorpe et al., 2015).


Reduction in CRP levels

A case series in patients with psoriatic arthritis treated with Phosphogliv (0.6 g/day for 3 months) reported a considerable decrease in CRP, hypothesized to occur either via a direct effect on RBC membranes or an indirect effect on liver function (Ipatova et al., 2003).


Increased lipoprotein lipase

A summary reported that lipoprotein lipase activity was increased in several trials (Gundermann, 1993). During a 6 week treatment with oral EPL in patients with hyperlipoproteinemia (n=80) an increase in activity of 25% was seen. In another trial (n=45) patients received 1.8 g/day EPL orally and exhibited a 40% increase after 3 weeks of treatment while no change was observed in the control group.


Endocrine


Improved thyroid function

An open-label trial (n=30) reported that all patients showed improvements in thyroid function within 6 months (usually within 1 month) under treatment with lipostabil-forte (Bobkova et al., 1989).


Energy/mitochondrial function


Fatigue

A DB-RCT (n=96) on females between the ages of 40-60 that administered soy lecithin tablets (PC 24%, PE 20%, and PI 12%) at 600 or 1200 mg/day for 8 weeks found that fatigue decreased significantly in all groups (including placebo) while vigor increased significantly in the high-dose group (Hirose et al., 2018).

...

An open-label trial (n=30) in patients with chronic fatigue syndrome given a combination of white kidney bean extract and NTFactor before each meal reported a 23% decrease in overall fatigue (Nicolson et al., 2009).


Increased mitochondrial function

The staining of mitochondria using a rhodamine-123 assay (a dye for assessing mitochondrial function) changed significantly in an open-label trial (n=20) of aged patients with mild-moderate fatigue that were administered NT Factor for 12 weeks (Agadjanyan et al., 2003). At the end of the treatment, the rhodamine-123 assay yielded results similar to those found in young adults (Agadjanyan et al., 2003). The increase in mitochondrial function was approximately 23.7% after 12 weeks of treatment in moderately fatigued subjects. Following discontinuation of the treatment, mitochondrial function returned to intermediate values.


Increased sense of well-being

An open-label control trial (n=29) in patients with alcoholic fatty liver disease treated with Essentiale forte (1800 mg/day for 3 months) reported that sense of well-being was assessed as "good" in 76% (23/29) of patients treated patients (Turecky et al., 2003). Another open-label trial (n=30) on women with fatty liver disease that received oral Essentiale forte capsules over 6 months reported that all patients were subjectively better (Horejsova & Urban, 1994). An RCT (n=30) on patients treated with Essentiale reported an improved sense of wellbeing in 8/15 patients in the treatment group vs. 1/14 in the placebo group (Gonciarz et al., 1988). 


Gallbladder


Decreases postcholecystectomy syndrome

A case series (n=58) reported that administration of EPL has hepatoprotective effects, eliminates pain and dyspeptic symptoms, and normalizes biochemical parameters after gall bladder removal (Nichitaĭlo & Bulik, 2012).


Improved bile composition

A case series (n=6) that analyzed bile composition found an increase in fatty acid unsaturation following 3 weeks of treatment with 4.5 g EPL/day orally (Holan et al., 1979). Two open-label trials (n=100, 50) also reported beneficial changes in the physicochemical properties of bile that would decrease bile lithogenicity (Vakhrushev & Suchkova, 2005; Vakhrushev et al., 2002).

...

In contrast, a case series (n=6) failed to show a therapeutic response on gallstone dissolution with EPL therapy (4.5 g/day for 3 weeks) (Holan et al., 1979).


Gastrointestinal system


Decrease in NSAID-induced damage to GI mucosa

A summary of several trials reported less damage to GI mucosa when NSAIDs were combined with EPL. In one of these studies (n=20), 90% (18/20) of patients reported an improvement in symptoms such as pain, nausea, and bowel evacuation within a few days of starting the combined therapy (Gundermann, 1993).

...

The EPL treatment does not result in a reduction of the effectiveness of the NSAID (Gundermann, 1993; Lanza et al., 2008) although it has been shown to slightly slow down the absorption of indomethacin (Gundermann, 1993).


Improved bowel evacuation

In an open-label trial (n=19) on patients with piroxicam-induced GI complaints, 4 patients reported improvement in bowel evacuation with EPL treatment (2.7 g/day) (Gundermann, 1993).


Improved mucosal healing in ulcerative colitis

A DB-RCT (n=156) that used a modified-release form of PC in patients with ulcerative colitis reported a remission rate of 31.4% compared with 15% in the placebo group. Mucosal healing was seen in 32.5% of the placebo group compared with 47.4% of the treated group. Symptom resolution occurred 2 weeks earlier and twice as often in the treated group. Additionally, patients in the treated group maintained longer remissions (Karner et al., 2014).


Reproductive system


Improved sexual function

An open-label study (n=23) reported substantial improvements in sexual dysfunction following 60 days of EPL (1.8 g/day). There was a significant decrease in the number of patients with erectile dysfunction (8 vs. 18) and loss of libido (6 vs. 19), and an abnormality of ejaculation (11 vs. 18). Treatment with EPL also increased the sperm count but not to a level of statistical significance. The motility of the sperm was, however, significantly improved (Kiriakova et al., 1998).


Reduction of vomiting in pregnancy

Two studies (n=47,7) reported the disappearance of pregnancy-associated vomiting after 1 to 4 injections of EPL (Gundermann, 1993). However, a third study was unable to confirm the effect despite increasing the dose (Gundermann, 1993). 


Reduction of symptoms of preeclampsia

A summary of 20 trials (n=1057) of EPL in preeclamptic patients reported positive effects, particularly in combination with vitamin E (Gundermann, 1993). For example, a case series reported that in 52 patients with preeclampsia, symptoms of edema disappeared, liver and kidney function and diuresis normalized after an average of 7 days of treatment with EPL 500 mg/day i.v. (Gundermann, 1993). A second case series (n=42) reported that perinatal mortality and jaundice were reduced in preeclamptic patients treated with 2 ampules (500 mg) or 6 capsules (1800 mg) of Essentiale daily for 10-15 days (Gundermann, 1993). A third case series reported increases in protein and albumin and decreases in transaminases with oral EPL treatment for 7 days (Gundermann, 1993) as well as improvements in subjective well-being.

...

EPL was shown to positively affect pregnant patients with nephropathy (7/8 patients with mild, 13/18 patients with moderate, and 6/7 patients with severe nephropathy showed positive changes). However, discontinuation of EPL led to a relapse within 2-6 days (Gundermann, 2017). EPL treatment was also shown to reduce the likelihood of developing preeclampsia in patients with preexisting liver pathology (Gundermann, 2017).

Antenatal prevention of respiratory disorders in premature infants

In patients showing a high risk of surfactant deficiency (due to reduced phosphatidylcholine levels), Essentiale was found to increase phospholipid values in both mother and fetus as well as to positively influence hormones that favor surfactant production in the fetus (Gundermann, 1993).


Decreased miscarriages in antiphospholipid syndrome

One open-label study (n=43) reported improved lab values and decreased miscarriages in women diagnosed with antiphospholipid syndrome treated with Essentiale forte in addition to conventional treatment (Manizova et al., 2016).


Reduced risk of breast cancer

An epidemiological study (n=3101 breast cancer and n=3471 controls) reported a 23% reduced risk of breast cancer in subjects that had ever-used lecithin supplements (odds ratio = 0.77) (Anderson et al., 2011).


Lung


Normalization of surfactant composition in pneumonia

An open-label trial (n=27) reported normalization of surfactant composition, improved oxygen uptake, and a shorter disease duration in 27 children with acute pneumonia who were treated with a combination of Essentiale and a vasodilator (Gundermann, 1993).

Further studies reported that treatment with EPL is able to reduce lipid peroxidation and phospholipase activities with a simultaneous increase of the PC/lysoPC ratio. These changes were associated with an improvement of the clinical picture and a shortened duration of disease (Gundermann, 1993). 


Improvement in chronic lung disease

A summary reported on two trials in patients with chronic lung disease (Gundermann, 1993). In the first trial (n=54), after 4 weeks of Essentiale therapy,the cholesterol/phospholipid ratio was found to have decreased and erythrocyte flexibility increased. In the other study (n=104), treatment with EPL resulted in reduced azotemia and increased effects of antibiotics.


Decreases radiation-induced tissue injury in lung cancer

A retrospective analysis of patients with NSCLC receiving a complete course of PC treatment reported a significantly lower risk of developing symptomatic radiation pneumonitis (27.6%) than those patients without PC supplementation (43.5%). The hazard ratio (HR) of the PC treatment group was 0.55 for ≥ grade 2 radiation pneumonitis compared to the untreated patients (Zhang et al., 2019). 


Liver


Reduced mortality in liver failure/hepatic coma

A phase III clinical trial reported a faster recovery from encephalopathy and ascites as well as a lower overall mortality rate in patients with acute liver failure that were given PC by i.v. 350 mg 3x/day for 6-8 weeks (Singh & Prasad, 1998).

...

A summary of studies on the use of i.v. EPL for the treatment of hepatic coma reported good results, with reductions in ammonia levels, AST, and AP. In one report, 51% (18/35) of patients awoke from the coma as compared to 35% (7/20) in the control group. In cases of severe liver insufficiency, 3 g EPL by i.v. over 8-16 days resulted in improvements in 70% (7/10) of patients and after 4 weeks, 90% (9/10) patients were alive and recompensated. An open-label trial (n=50) reported also reported a significantly improved survival rate and time with EPL treatment (500-1000 mg/day over 14 days) in fulminant hepatitis (Gundermann, 1993).


Improved liver enzymes & function

We identified two summaries and 20 clinical studies that reported significant changes in liver function enzymes following EPL treatments of various durations. A summary of studies up to 1993 found many studies in which patients with cirrhosis that were treated with Essentiale for periods between 3-8 months reported the return of nearly all biochemical parameters to normal, decreased IgA, and an improved clinical picture (Gundermann, 1993).

...


StudyType#DiseaseTypeFormDose/dayDurationASTALTGGTAPBilirubin
1Dajani et al., 2015Open-label113NAFLDEPLoral

1800 mg

900 mg

24 weeks

48 weeks

32%

53%

normalNRNR
2Dajani et al., 2015Open-label107DMII + NAFLDEPLoral

1800 mg

900 mg

24 weeks

48 weeks

40%

55%

NRNRNR
3Dajani et al., 2015Open-label104hyperlipidemia + NAFLDEPLoral

1800 mg

900 mg

24 weeks

48 weeks

49%

52%

NRNRNR
4Knauff et al., 1963DB-RCTNRAlcoholic liver diseaseEPLNRNRNRto normalnormalnormalnormalnormal
5Turecky et al., 2003Open-label 29Alcoholic liver diseaseEssentiale forteoral1800 mg3 months

33%


25%

60%

NR
6Horejsova & Urban, 1994Open-label 30Fatty liverEssentiale forteoral1800 mg6 months53%33%61%NRNR
7

Gundermann et al., 2016 

Case series51Fatty liverEPLoral1500 mg6 months↓ ↓ ↓ NRNR
8Kudinov et al., 2016Open-label97Hepatic encephalopathyPhospholipoviti.v.

3.2 g

6.4 g

5 days

5 days

50%

72% (2-fold compared to controls)

30%NRNRNR
9Maev et al., 2020Observational2827NAFLD + metabolic comorbidityPPCoral1.8 g24 weeks

38%

40%

31%

NRNR
10Pavelkina & Ampleeva, 2014Open-label45Chronic hepatitisEPLi.v.5 mL10 daysNRNR
11Gonciarz et al., 1988RCT30NAFLDEssentiale forteoral1.8 g182 daysnot significantnot significant

29%

NRnot significant
12Niederau et al., 1998DB-RCT176Chronic hepatitisEssentiale forteoral1.8 g24 weeksNR>51% decrease in 71% vs 56% of controlsNRNRNR
13Gunderman et al., 2016Open-label12Obesity, NAFLDEPLoral1500 mg2 monthsNRNRNRNR
14Cairella et al., 1989Open-label40Obesity, NAFLDEPLoral1.8 g3 months↓ more than controlsNR↓ more than controls↓ more than controls↓ more than controls
15Lata et al., 2001Open-label20TPNEssentialei.v.50 mg every 6 hours2 weeksnot significantrise after 14 daysno change vs. rise in control groupno change vs. rise in control groupnot significant
16Olthof et al., 2005DB-RCT26HealthyPPCoral2.6 g2 weeksnot significantnot significantnot significantNR
17Sas et al., 2013DB-RCT215Diabetic, NASHEssentiale forteoral1368 mg6 months32%37%28%NRNR
18Dajani & Popovic, 2020Systematic review10 trialsDiabetesEPLoralvariedvariedNR↓ 11.28 U/LNRNRNR
19Lieber et al., 2003DB-RCT789Alcoholic liver diseasePPCoral4.5 g2 yearsnot significantnot significantNRNRnot significant
20Guan et al., 1995RCT47Acute viral hepatitisEssentialeoral900 mg12 weeksNRnot significantNRNRnot significant
21Hayashi et al., 1999Case series6Chronic liver diseaseSalmon roe (90% phospholipids of which 90% was PPC)oral1800 mg6 monthsnot significantnot significantnot significantnot significantNR


Decreased drug/poison-related liver dysfunction

A summary of studies up to 1993 on chronic intoxication (organophosphates, CCl4, anti-epileptic drugs, etc.) reported many beneficial effects on liver function including improved uptake and secretory functions (Gundermann, 1993). This included a summary of 47 case reports on mushroom poisoning that found lower mortality (3/24) when treatment with Essentiale was initiated within 2 days vs. when treatment was initiated 3-4 days after disease onset (7/10) (Gundermann, 1993). Liver abnormalities were also of shorter duration.

...

Additionally, another study (n=199) reported that the inclusion of essentiale (and/or tocopherol acetate, astragalus) in addition to usual antitubercular treatment exerted pronounced hepatoprotective effects and antioxidant effects (Skakun & Blikhar, 1986).


Improved liver elasticity/decreased fat infiltration/fibrosis

Three RCTs and a systematic review on patients with hepatic steatosis reported improvements in liver ultrasound findings following treatment with EPL. One DB-RCT (n=30) found a significant difference in the size of the liver by ultrasound examination following 6 months of therapy with Essentiale forte (1.8 g/day) (Gonciarz et al., 1988). Biopsies with marked histological improvements were seen in 4 patients in the treated group and 4 more patients showed some improvement compared with the placebo group in which only 4 patients exhibited an improvement (Gonciarz et al., 1988).

...

In contrast, a large DB-RCT (n=789) reported that a biopsy taken after 2 years of oral PC treatment (4.5 g/day) did not differ significantly from placebo in patients with alcoholic liver disease (Lieber et al., 2003). It was not shown to affect the progression of liver fibrosis.


Reduced postoperative complications

In a retrospective analysis (n=117) of patients that underwent surgical treatment for liver echinococciasis, postoperative complications were reduced from 34.83% to 17.2% by the use of Essentiale and T-activin (Akhmedov et al., 2003). 


Faster recovery/better outcomes in hepatitis

A summary of 9 clinical trials (Gundermann et al., 1993) reported earlier improvement of symptoms such as dyspepsia, pressure, tension, fullness, nausea, and epigastric pain as well as of liver function parameters and liver histology. One of the included trials was an RCT (n=60) that reported that in 50% (15/30) of treated patients, the HBsAg was not detectable after 30 days vs. 23% (7/30) in the control group. A second study reported that the HBsAg disappeared after 3 months of EPL treatment in 62% (5/8) of patients compared with 14% (1/7) controls (Gundermann, 1993).

...

An open-label trial (n=40) reported the advantage of 2 months of treatment with Phosphogliv in combination with regular treatment in children with hepatitis C. It resulted in a stable remission rate of 36.3% of patients for 9 months (Mukhamedov et al., 2003).


Hepatocyte regeneration

A summary of 18 trials (n=714) reported increases in the regenerative activity of hepatocytes (Gundermann, 1993).

Renal system


Improved kidney function

Most of the information about improvements in kidney function comes from Gundermann's summary.

...

Two studies that used EPL in addition to chronic peritoneal dialysis found that it restored or increased ultrafiltration whether given orally or by i.v.. However, a third study that used oral EPL did not confirm these results (Gundermann, 1993) and an RCT (n=8) in patients with renal failure treated with Essentiale forte 900 mg/day also reported no significant difference in ultrafiltration after 8 weeks (Chan et al., 1991).


Nephrotic/nephritis syndrome

A study (n=9) reported that 330-700 mg daily EPL improved the symptoms of nephrotic syndrome including, edema reduction, increased diuresis (64%), increased albumin, and reductions in serum lipids (Gundermann, 1993). 

...

A second study (n=11) reported that 67% (6/9) of patients with glomerulonephritis showed a reduction of edema and that serum albumin increased by 35% and TC and lipids fell by 13.7% and 17.2% respectively (Gundermann, 1993).


Musculoskeletal system


Decreased risk of fat emboli after fractures

In patients with large bone fractures, high doses of EPL resulted in fewer fat particles in the urine, indicating a decreased risk of fat emboli (Gundermann, 1993).


Improved motor function in Duchenne's muscular dystrophy

An open-label trial in patients with Duchenne's muscular dystrophy reported beneficial effects on motor function that were most pronounced at the initial stages of the disease (Islamova & Grinio, 1989).


Skin


Improvements in psoriasis

A summary reported on several studies that showed improvements in the clinical picture of psoriasis following EPL treatment (Gundermann, 1993). Oral EPL administration for 1-5 months in 4 patients resulted in an improvement in 3 patients 2-3 weeks after beginning the therapy. After 4 months, the skin manifestations disappeared completely in 2 subjects. Other papers reported that repeat episodes of psoriasis and neurodermatitis were limited and not severe in patients who received 2.3-4 g EPL/day. Another study also reported marked healing of lesions within 2-3 months of initiating treatment. It is hypothesized that deficiency of linoleic and linolenic acid might be the root cause of psoriasis due to disturbed synthesis of arachidonic acid from linoleic acid. Oxidized phospholipids have also been linked to the inflammatory processes of psoriasis (Sorokin et al., 2020).


Risk assessment 


We identified 9 risks that have occurred in clinical trials of EPL, most of which were mild and mitigable.

...

There are, however, an additional 4 risks that are much more serious in nature though "indirect" as they are largely based on data from observational trials that found elevated levels of choline or phosphatidylcholine were associated with a higher level of risk for CVD, lethal prostate cancer, and all-cause mortality.


Table 5: Risk assessment 
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Table 5
Table 5


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CategoryRisk

Severity/Intolerability

Frequency

Detectability

MitigationSum WeightScoreUncertaintyWeighted Score
1CNSheadache

Status
title1

Status
title1

Status
title1

Status
title1

41-12 Open-label: Gundermann, 1993-1
2CVSarrhythmia

Status
title1

Status
title1

Status
title1

Status
title1

41-12 Open-label: Gundermann, 1993-1
3CVS acute myocardial infaction + CVD risk

Status
colourRed
title3

Status
title1

Status
colourRed
title3

Status
colourYellow
title2

92.25-13 Observational: Van Parys et al., 2019; Tang et al., 2013-1.50
4Generalweakness

Status
title1

Status
title1

Status
title1

Status
title1

41-12 Open-label: Gundermann, 1993-1
5General all cause mortality

Status
colourRed
title3

Status
title1

Status
colourRed
title3

Status
colourYellow
title2

92.25-13 Observational: Zheng et al., 2016-1.25
6GI↑ GI symptoms

Status
title1

Status
colourGrey
title1

Status
title1

Status
title1

41-12 Open-label: Gundermann, 1993-1
7Immune↑ allergic reactions

Status
title1

Status
title1

Status
title1

Status
title1

41-12 Open-label: Gundermann, 1993-1
8Immune↑ fever

Status
title1

Status
title1

Status
title1

Status
title1

41-12 Open-label: Gundermann, 1993-1
9Metabolic↑ oxidation

Status
title1

Status
title1


Status
title1

Status
title1

41-1

2 Open-label: Gundermann, 1993-1
10Metabolic TMAO

Status
colourYellow
title2

Status
title1

Status
colourYellow
title2

Status
colourYellow
title2

71.75-12 Open-label: Tang et al., 2013; Ivashkin & Kashukh, 2019; Cho et al., , 2020; Wilcox et al., 2021
-1.75
11Reproductive lethal prostate cancer

Status
colourRed
title3

Status
title1

Status
colourYellow
title2

Status
colourYellow
title2

82-13 Observational: Richman et al., 2012-1
12Skin/mucosared skin

Status
title1

Status
title1

Status
title1

Status
title1

41-12 Open-label: Gundermann, 1993-1
13Skin/mucosa↑ gingivitis

Status
title1

Status
title1

Status
title1

Status
title1

41-12 Open-label: Gundermann, 1993-1



Risks


Increase in all-cause mortality

A large retrospective analysis (n= 80,978 women and 39,434 men) found that dietary phosphatidylcholine intake was associated with a higher risk of all-cause mortality. Each 100 mg/d higher phosphatidylcholine intake was associated with an 8% increment in all-cause mortality that remained despite adjustments for the 3 major food sources of phosphatidylcholine (red meat, eggs, and fish). Even when participants who took lecithin (phosphatidylcholine) supplements were excluded, the results did not change significantly. Diabetic participants in the top quintile of phosphatidylcholine intake had a 24% increased risk of all-cause mortality and a 67% increased CVD-mortality risk, whereas the nondiabetic participants in the top quintile had a 9% increased all-cause mortality risk and a 19% increased CVD-specific mortality risk versus those in the bottom quintile in each population (Zheng et al., 2016).


Increased risk of lethal prostate cancer

A large analysis (n=47,896) reported that men in the highest quintile of choline intake had a 70% increased risk of lethal prostate cancer compared with men in the lowest quintile and that the relationship was not appreciably changed after adjustment for important food contributors to choline intake (eg. whole eggs, skim milk, beef or lamb as a main dish, and chicken or turkey without skin) (Richman et al., 2012).

Increased risk of acute myocardial infarction & CVD

An observational study (n=1981) reported an increased risk for acute myocardial infarction per 50 mg/d increment of total choline (HR 1.1) and PC (1.24) intake (Van Parys et al., 2019). It is hypothesized that choline may exert negative effects through the conversion to triethylamine (TMA) by the intestinal microbiota, which is then absorbed and transformed in the liver to trimethylamine N-oxide (TMAO) by flavin-containing monooxygenase 3 (FMO3). Plasma TMAO might advance atherosclerosis by reduction of reverse cholesterol transport, increased macrophage cholesterol accumulation, upregulation of macrophage scavenger receptors, and augmented foam cell formation, resulting in increased inflammation and low-density lipoprotein cholesterol oxidation (Van Parys et al., 2019).

A systematic review (6 studies) funded by the Egg Nutrition Center found no significant association between dietary choline intake and CVD (Meter & Shea, 2017).


Increase in TMAO

Time-dependent increases in levels of both TMAO and its d9 isotopologue, as well as other choline metabolites, were detected after a phosphatidylcholine challenge in an open-label trial (n=40). Plasma levels of TMAO were markedly suppressed after the administration of antibiotics and then reappeared after withdrawal of antibiotics supporting the mechanism of gut microbiome involvement (Tang et al., 2013).

...

Another study found that patients with coronary artery disease consume more precursors of TMAO and have have higher blood TMAO concentrations compared to healthy volunteers. Fecal microflora of patients with CAD was shown to contain a greater number of gut bacteria related to trimethylamine producers compared with those of healthy volunteers (Ivashkin & Kashukh, 2019).


Increased gastrointestinal symptoms

In 39 clinical trials (n=1705) at doses ranging from 700-2700 mg/day, the only undesired drug reactions were those affecting the GI system. The incidence of side-effects was 1.3% (20/1504) with complaints such as slight, unspecific gastric disorders, soft stool, and diarrhea (Gundermann, 1993). Diarrhea and abdominal complaints were reported by 7/3499 patients with fatty liver disease after receiving i.v. EPL (Gundermann, 1993). Increased "intestinal movement" was noted in 3/30 patients with cirrhosis. One patient reported nausea on the initiation of 1000 mg EPL/day i.v. which disappeared when the infusion was given as a slow drip (Gundermann, 1993). 

...

Another DB-RCT (n=125) reported dyspepsia in 14.8% of the PC-treated group and diarrhea in 9.8%. These adverse events were transient and self-resolved with a median duration of 4.5 and 8 days respectively (Lanza et al., 2008).


Increased oxidation

One risk that has been proposed regarding phospholipids, is the possibility that they are oxidized during storage, leading to detrimental effects. However, it has been shown that 1 Mol of tocopherol is enough to protect 2,000-20,000 Mol linoleic acid from oxidation with atmospheric oxygen. As tocopherol is added during manufacturing, this risk is negligible (Gundermann, 1993). 


Allergic reactions

Two reports of allergic reactions were made in Germany between the years of 1978-1989 (Gundermann, 1993). The usage instructions for the injectable form of Lipostabil contain a warning of possible allergic reaction due to the benzyl alcohol content.


Fever/chills

One patient with cirrhosis reported fever following EPL (Gundermann, 1993). A patient with chronic hepatitis reported fever on the initiation of 1000 mg EPL/day i.v. which disappeared when the infusion was given as a slow drip (Gundermann, 1993). A patient with chronic hepatitis reported chills after receiving i.v. EPL therapy (Gundermann, 1993).


Weakness

One patient reported general weakness on the initiation of 1000 mg EPL/day i.v. which disappeared when the infusion was given as a slow drip (Gundermann, 1993). 


Arrhythmias

There are 3 reports about arrhythmias from the time before 1988 when the formulation of Lipostabil still contained etophylline. A fourth patient reported tachycardia on the initiation of 1000 mg EPL/day i.v. which disappeared when the infusion was given as a slow drip (Gundermann, 1993). 


Hypersensitivity of the skin

A patient reported reddening of the skin on the initiation of 1000 mg EPL/day i.v. which disappeared when the infusion was given as a slow drip (Gundermann, 1993). Four patients with liver disease reported hypersensitivity reactions of the skin (Gundermann, 1993).


Headache

A patient with chronic hepatitis reported headache after receiving i.v. EPL therapy (Gundermann, 1993). 


Pain

In one study, 6/17 patients reported temporary pain following i.v. injection of EPL (Gundermann, 1993). In a study of patients with chronic hepatitis, 3/75 exhibited a slight exacerbation of pain in the right hypochondrium (Gundermann, 1993).


Gingivitis 

A patient with cirrhosis reported an aggravation of gingivitis that required the discontinuation of EPL therapy (Gundermann, 1993). 


Weight gain

In an open-label trial (n=10), lecithin resulted in an initial 1kg weight gain that rapidly stabilized in all but one subject who gained 6 kg over the treatment period (Simons et al., 1977).


Increased LDL-C/apoB

An open-label trial (n=8) in healthy volunteers reported that LDL-C increased significantly in the subjects that received i.v. Intralipid (from 590 to 700 mg/L) or egg phospholipids (from 730 to 810 mg/L). In contrast, the subjects that ingested the compounds orally did not exhibit an increase in LDL-C (Thompson et al., 1976).

A DB-RCT (n=30) reported that administration of PC to patients with hyperlipoproteinemia type IIB and hypoalfacholesterolemia led to a slight rise of apoB in comparison with the group treated with placebo (Zeman & Stolba, 1995). 


Hypertension

A DB-RCT (n=125) in patients with osteoarthritis treated with ibuprofen-PC reported an increased risk of hypertension (3.3%) as compared with patients treated with ibuprofen only (1.6%) (Lanza et al., 2008).


Section 5: Pharmacodynamics & Pharmacokinetics


Mechanism of action


Phospholipids (particularly phosphatidylcholine) are indispensable for cellular differentiation, proliferation, and regeneration, as well as for the transport of molecules through membranes. They control membrane-dependent metabolic processes between the intracellular and intercellular space, maintain and promote the activity and activation of membrane-bound proteins such as enzymes (e.g. Na -K -ATPase, lipoprotein lipase, lecithincholesterol acyltransferase (LCAT) and cytochrome oxidase) and receptors (e.g. insulin), and contain bound polyunsaturated fatty acids to be released on demand as precursors of cytoprotective prostaglandins and other eicosanoids. They are a source of second messengers in cell signaling (e.g. diacylglycerol), contain phosphate for cellular processes including ATP formation, participate in fat emulsification in the gastrointestinal tract and bile, are a determinant of erythrocyte and platelet aggregation, and influence immunological processes at the cellular level (Gundermann et al., 2011).

...

Dietary phospholipids have been shown not only to block the absorption of cholesterol but to "extract" cholesterol from the intestinal mucosa, resulting in negative absorption values (Cohn et al., 2010).


Type, composition, and dose

Phospholipids extracted from food products (e.g. soybeans, egg yolk, milk, or marine organisms like fish, roe or krill) are defined as "dietary phospholipids" and can be ingested either in the normal diet or as supplements. Naturally occurring PLs, predominantly contain an unsaturated FA (such as oleic, linoleic or linolenic acid) in the sn-2 position, or the pro-inflammatory arachidonic acid (usually from animal origin) or the anti-inflammatory eicosapentaenoic acid (usually from marine origin), while the sn-1 position predominantly carries a saturated FA, such as stearic acid or palmitic acid (Küllenberg et al., 2012).

...

We were able to find out the composition of 15 of the supplements used in the studies included in our analysis (see table below). Most of the supplements contained additional vitamins/minerals so it is difficult to compare to the various formulas.

As seen in Tables 2 & 3, an extremely wide variety of doses have been used, ranging from 500 mg/day up to >40 g/day (Gundermann et al., 2011). Many of the studies on oral EPL used a dose of 1-2 capsules, 3x/day up to 1800 mg/day. The i.v. dose is 1-4 ampoules for injection or infusion up to 4 g/day (Gundermann, 1993). 

An intravenous-delivered mixture can deliver high phospholipid concentrations without the need for inhibiting intestinal disruption. However,the product is still susceptible to enzymatic and oxidative damage, and daily intravenous delivery comes with some risk for adverse events, such as infection, blood vessel damage, thrombosis, pruritus, dyspnoea, urticaria, among other potential problems (Nicolson, 2016). 


Table 6: Product composition 
Anchor
Table 6
Table 6

SupplementCompositionDose
Essentiale
  • soybean phospholipids
  • 1 tablet contains 300 mg of essential phospholipids of which 76% is (3-sn-Phosphatidyl)-choline
  • capsule contents: hard fat, soybean oil, hydrogenated castor oil, ethanol 96%, ethyl vanillin, p- methoxyacetophenone, α-tocopherol
  • capsule shell: gelatin, titanium dioxide (E 171), red, black and yellow iron oxide (E 172), sodium lauryl sulfate, purified water

2 capsules, 3x/day with meals

1800 mg/day

Essentiale forte
  • Essentiale 300 mg + B12, B2, B6, nicotinamide, vitamin B1

2 capsules, 3x/day with meals

1800 mg/day

Esentin forte
  • essential phospholipids – 400 mg
  • silimarin – 100 mg
1 capsule, 2-3x/day
Fortifikat
  • lecithin 500 mg
  • rich in essential phospholipids
  • soft gel (gelatin, glycerol, purified water, red iron oxide, fumaric acid, black iron oxide, methyl hydroxybenzoate), refined soybean oil (emulsifier), butylated hydroxyanisole and butylated hydroxytoluene (antioxidants)


1 capsule 3x/day
Fortifikat forte
  • one tablet contains 825 mg essential phospholipids from soy lecithin
1 capsule 2x/day
Hepatoprotect Regenerator
  • 712.5 mg phospholipids
  • excipients: gelatin, purified water, bulking agent (soybean oil), glycerin, preservative (methyl para-hydroxybenzoate), colorants (titanium dioxide, red iron oxide, yellow iron oxide, black iron oxide)
1 - 2 capsules 3 times a day during meals with a sufficient amount of liquid
Soy lecithin
  • soy lecithin tablets: phosphatidylcholine, 24%; phosphatidylethanolamine, 20%; and phosphatidylinositol, 12%

NT Factor Energy

NT Factor lipids®

  • phosphatidylcholine PC 31.62% w/w
  • phosphatidylinositol PI24.87% w/w
  • phosphatidylethanolamine PE 18.86% w/w
  • phosphatidic acid PA 13.88% w/w
  • digalactosyldiacylglycerol DGDG 5.88% w/w
  • phosphatidylglycerol PG2.37% w/w
  • lysophosphatidylcholine LPC0.98% w/w
  • lysophosphatidyethanolamine LPE0.70% w/w
  • phosphatidylserine PS0.48% w/w
  • monoglactosyldiacylglycerol MGDG 0.31% w/w
  • fatty acids
    • linoleic acid 18:2∆9,12 (n 6) 58.41% w/w
    • palmitic acid 16:0 19.39% w/w
    • oleic acid 18:1∆9 (n 9) 9.68% w/w
    • linolenic acid 18:3∆9,12,15 (n 3) 5.87% w/w
    • stearic acid 18:0 3.90% w/w
  • fructooligosaccharides, rice bran extract, Opti-MSM®, bromelain, sulfur, vit B5 (as calcium-pantothenate), inositol, L-arginine, L-glycine, taurine, alpha lipoic acid, garlic, spirulina, beetroot fiber, bifidobacterium bifidum, leeks stem powder, lactobacillus acidophillus, molasses, boron 

Two tablets with each meal (6 tablets per day) for the first two months, and one tablet with each meal in month 3 and beyond. For severe fatigue, increase to three tablets with each meal (9 tablets per day) for the first two months, and one tablet with each meal in month 3 and beyond

1500 mg lipids/2 tablets

Phosal 35SB
  • 35% phosphatidylcholine

Phosphogliv
  • phospholipids 400 mg
  • phosphatidylcholine 73-79% (300 mg)
  • additional ingredients: natriumglycyrrhizinate 65 mg

Lipostabil
  • 300 mg soy bean phospholipids
  • titanium dioxide
  • sodium dodecyl sulfate4-methoxyacetophenone
  • hard fat Iron(III) oxide (E172)
  • all-rac-α-tocopherol
  • water
  • purified 3-ethoxy-4-hydroxybenzaldehyde
  • gelatin ethanol 96% (V/V)
  • castor oil
  • hydrogenated soybean oil

oral, 1800 mg/day

2 tablets, 3x/day

Lipostabil N

1 amp. = 5 ml contains:

  • phospholipids (soybean) 250 mg
  • phosphatidylcholine 232.5 mg
  • benzyl alcohol 45 mg
  • ethanol 0.3 % by volume
  • 7-deoxycholic acid
  • sodium chloride
  • sodium hydroxide
  • DL-α-tocopherol
  • water for injection 
depends on condition
Livolin forte
  • phosphatidylcholine 300 mg
  • nicotinamide 30 mg
  • vitamin E (dl-alpha tocopheryl acetate) 10 mg
  • vitamin B1 (thiamine mononitrate) 10 mg
  • vitamin B6 (pyridoxine HCl) 10 mg
  • vitamin B2 (riboflavin) 6 mg
  • vitamin B12 (cyanocobalamin) 10 mcg
Unless otherwise prescribed by the physician, take one capsule orally three times daily after meals
PhosChol
  • 900mg of purified PPC per soft gel capsule, and 3 grams of purified PPC per measured teaspoon of liquid concentrate
  • PhosChol contains up to 52% DLPC

2-3 capsules – once daily, or 2/3 to a 1 full tsp. of liquid concentrate – once daily

To be swallowed whole during meals with a little liquid if required (PhosChol may be taken on an empty stomach, no irritability has been reported)


Absorption

Once in the intestinal lumen, most phopholipids are hydrolysed at the sn-2 position by the pancreatic phospholipase A2 (pPLA2) and then taken up by the enterocytes as free fatty acids (FFAs) and lysoPL. Both can be reesterified to PLs and enter the bloodstream incorporated in chylomicrons and, in a small proportion, in very low density lipoproteins (VLDL). It is estimated that about 20% of intestinal PLs are absorbed passively and without hydrolysation, and preferentially incorporated directly into HDL.

...

Absorption has been shown to be greater than 90% during a 24 hour period following oral administration of radio-labeled EPL in both animal and human studies (Gundermann et al., 2011). In humans, the maximum concentration in blood occurred six hours after oral administration and was about 20% of the total dose (Gundermann et al., 2011).


Excretion

We were unable to find any pharmacokinetic studies in humans however, in rats, renal excretion after a single dose in the first eight days was 17.4% of the administered dose and 17.7% in rhesus monkeys; 15% was expired by breathing. As the excretion in the feces was low, with 3–8% of the dose excreted in the first 5–7 days in rats, a considerable part of the EPL must have accumulated within hepatocytes and other cells, blood corpuscles and lipoproteins (Gundermann et al., 2011).

...

The half-life for the choline component has been shown to be 66 hours. The maximum 14-C concentration was achieved after 4 to 12 hours and amounted to 27.9% of the dose. The half-life for this component was 32 hours. In the faeces were found 2% of the 3-H and 4.5% of the 14-C label, in the urine 6% of the 3-H and only a minor amount of the 14-C label. These results show that both isotopes are > 90% absorbed in the intestine (mims.com).


Duration


The duration of supplementation in the studies ranged from a single dose up to 5 years (see Tables 2 & 3) with no serious adverse events reported.


Toxicity/safety considerations

The safety of i.v. injections with doses of up to 5000 mg/day for up to 3 months has been evaluated in about 3500 patients (Gundermann, 1993). Other studies have reported as much as 54 g/day has been used orally with no adverse effects. Phase I and II clinical trials on CVD have also administered over 5 g phospholipids per day with no apparent toxicity (Hirose et al., 2018).

...

Additionally, hypersensitivity reactions may occur with i.v. delivery because of the benzyl alcohol content. An acute drop in blood pressure may occur if the infusion is too rapid. Also, the i.v. form should not be diluted with electrolyte solutions (physiolog. NaCl solutions, Ringer's solution, etc.) but rather sugar solutions (glucose).


Drug interactions
 
Anchor
interactions
interactions


Supplemental phosphatidylcholine may lead to an increase in acetylcholine levels, affecting several classes of drugs:

...

An interaction of Essentiale forte P with anticoagulants cannot be excluded (mims.com).


Section 6: Presentation of Results 
Anchor
Section 6
Section 6


The following "tornado" diagram summarizes the results of the previous sections:

  • The risk-benefit criteria are listed in the category column.
  • The weighted score after factoring in uncertainty is shown as a numerical value.
  • Risk and benefit criteria are assigned a final score between -3 → +3 based on the results of the assessment in Phospholipid Therapy RBA and Phospholipid Therapy RBATable 4 and Table 5.
  • The diagram is filterable by category so the main risks and benefits for each system can be viewed.

...

For those who would prefer to view the document in excel, we have included the original .xls file.

PLT - RBA - v1.4.xlsx


Main benefits


The main benefits seen in clinical trials of PLT are:

  • decreased damage caused to GI mucosa by NSAIDs
  • increased GI mucosal healing
  • improvements in fatty liver disease and liver fibrosis
  • decreased angina pectoris attacks
  • decreased total cholesterol


Main risks


The main risks have mostly appeared in epidemiological studies:

  • increased risk of all-cause mortality
  • increased risk of prostate cancer
  • increased risk of myocardial infarction/cardiovascular disease
  • increased TMAO (Trimethylamine N-oxide)


Section 7: Practical Application
Anchor
Section 7
Section 7


Suggested treatment protocol


  • follow the risk mitigation strategies and be aware of the general contraindications
  • choose a qualified physician
  • 1800 mg/day of oral "Essentiale" (phosphatidylcholine), divided into 3 doses, taken with meals


Risk mitigation strategies


  • measure TMAO (urinary) regularly
  • DNA stool analysis for the presence of TMA producing bacterial strains
  • supplement pre/probiotics if TMA-producing bacteria are present in large numbers


Contraindications


  • pre-existing heart disease
  • allergy (benzyl alcohol for injectable form or capsule ingredients for the oral form)
  • use of medications with interaction potential


Treatment monitoring


  • measure TMAO at baseline and then monthly
  • DNA stool analysis at baseline and then every 6 months to identify high levels of TMA-producing bacterial strains
  • basic blood panel: liver, kidney, lipid values quarterly to assess efficacy
  • liver ultrasound if fatty liver was present at baseline to assess efficacy


Section 8: Conclusion 


There is good evidence that PLT is effective for short-medium term use in the treatment of many disease conditions. The benefits are mostly of small magnitude, and dependent on continuous supplementation as they diminished significantly when therapy was discontinued. There are almost no reported serious adverse drug effects, regardless of route of administration.

...